ece thesis ideas 2022

150+ ECE Projects for Final Year Students

July 4, 2013
By Administrator

ECE refers to Electronics and Communication Engineering. This one of the most demanded branches in engineering as the students who join in this branch would have many opportunities in their career. Every engineering student should complete their project successfully in final year to get their engineering certificate. They have many choices in selecting the projects such as microcontroller based, solar, electrical, robotics, sensor based, etc.

For their purpose, we have listed here large number of projects ideas. These are especially collected and published here for ECE students. These are collected from different sources for the convenience of students. If you are interested you may once check the list of all these projects and give your suggestions, feedback, comments and new ideas in the contact us page. Also check out the huge collection of electrical symbols .

List of ECE Projects Ideas:

DTMF Controlled Robot : This simple DTMF based Cellphone controlled robotic vehicle circuit is designed without using microcontroller and is used in industries and surveillance systems.
Bluetooth Controlled Home Appliances : This circuit explains you how to control the electrical appliances using an Android device. Here, Bluetooth module is interfaced to 8051 microcontroller. This Bluetooth receives the commands from the Android application device using wireless communication.
Metal Detecting Robot : Here, we use a metal detection robot which works on RF technology. Land mines buried under the ground causes threat to the lives and affect the economy of the nation. Detection and removing of these mines manually is a dangerous task.
Password based Circuit Breaker : This password based circuit breaker project is built using 8051 controller and is used to switch off the power supply to the line by entering a password.
Auto Intensity Control of Street Lights : This is a simple circuit that automatically controls the intensity of street lights which is designed using microcontroller and LEDs.
Line Following Robotic Circuit using Microcontroller : This line follower robot is a basic robot that follows a specific path indicated by a line having some particular width.
Contactless Digital Tachometer using 8051 Microcontroller : Here we designed a simple non contact tachometer using microcontroller which can measure speed with an accuracy of 1 rev/sec.
Density Based Traffic Signals using Microcontroller : In this system, we use IR sensors to measure the traffic density. We have to arrange one IR sensor for each road; these sensors always sense the traffic on that particular road. All these sensors are interfaced to the microcontroller. Based on these sensors, controller detects the traffic and controls the traffic system.
Automatic Railway Gate Controller with High Speed Alerting System : The main aim of this project is to operate and control the unmanned railway gate in the proper manner in order to avoid the accidents in the unmanned railway crossing.
Water Level Controller using Microcontroller : Here we are designing the circuit which is used to detect and control the water level automatically in overhead tank using 8051 microcontroller. It is used in industries to control the liquid level automatically.
Solar Battery Charger : This is a simple circuit to charge 6V, 4.5Ah rechargeable Lead-acid battery from the solar panel. This solar charger has current and voltage regulation and also has over voltage cut off facilities. This circuit may also be used to charge any battery at constant voltage because output voltage is adjustable.
Car Battery Charger : This article aims to describe the principle of operation, design and working of a simple car battery charger from AC mains supply and a feedback control section to control the battery charging.
Battery Level Indicator : This article explains you how design battery level indicator. You can use this circuit to check car battery or inverter. So by using this circuit, we can increase the lifetime of battery.
FM Radio Circuit : FM Radio circuit is the simple circuit that can be tuned to the required frequency locally. This article describes the circuit of FM radio circuit. This is a pocket sized radio circuit.
Speed Control of DC Motor using Pulse Width Modulation : This pulse width modulation technique is the more efficient way to proceed to manage the speed of our DC motor manually.
Sun Tracking Solar Panel : This article describes about circuit that rotates solar panel. This Sun tracking solar panel consists of two LDRs, solar panel, stepper motor and ATMEGA8 Microcontroller.
Bidirectional Visitor Counter using 8051 : This Bidrectional Visitor Counter Circuit is helpful to count the number of persons entering or leaving a room and to display it on a screen.
Biometric Attendance System : The main aim of this circuit is to take the attendance using biometric method and display when requested. This can be used in educational institutions, industries, etc.
LED Lamp using USB : This is a simple USB LED Light circuit which produces an output of 5v. It may be used as emergency light and also as a reading lamp.
Water Level Indicator : This Water Level Indicator project employs a simple mechanism which helps to detect and indicate the water level in an overhead tank or any other water container. It can be used in Hotels, Factories, Homes Apartments, Commercial Complexes, Drainage, etc.
Password Based Door Lock System : This system demonstrates a password based door lock system wherein once the correct code or password is entered, the door is opened and the concerned person is allowed access to the secured area. After some time, the door would be closed. Read this post completely to get more information.
Human Detector Robot using Microcontroller : The main principle of the circuit is to detect the human using human detection sensor. The wireless robot is operated manually using PC. The wireless technology used here is Radio Frequency technology. The data is transmitted to receiver through RF.
GSM Controlled Robot : GSM controlled robot or SMS controlled robot is a wireless robot which performs the necessary actions by receiving a set of instructions in the form a Short Message Service (SMS).
Temperature Controlled DC Motor using Microcontroller : The main principle of the circuit is to switch on the fan connected to DC motor when the temperature is greater than a threshold value.This can be used in home applications and in cpu to reduce heat.
Water Level Alarm Using 555 Timer : This is a simple and low cost hardware project using a 555 timer circuit . The aim of this project is to design a water level detecting alarm with simple and low cost hardware without compromising on the performance of the device.
5 Channel IR Remote Control System using Microcontroller : This article is aimed to design and demonstrate a simple 5 channel remote control system to drive five loads. This circuit works on the principle of IR communication.
Bipolar LED Driver Circuit : This bipolar LED driver circuit is very useful at the places where flashing of light is required, as in beacon flashing. This circuit can be mainly used for indication purposes.
Celsius Scale Thermometer using 8051 Microcontroller : This Celsius Scale Thermometer circuit is designed using at89c51 and lm35. This circuit works on analog to digital conversion principle. It can be used at homes, mobile places like cars to keep a track of the temperature.
Automatic Washroom Light Switch : This is a simple but very useful circuit in our real life which helps to automatically turn On the lights when a person enters the washroom and it automatically turns Off the lights when he leaves it.
Automatic Door Bell With Object Detection : This automatic doorbell with object detection circuit helps to sense the presence of a person or an object automatically and rings the doorbell.
Boolean Algebra Calculator : This Boolean algebra calculator is an interesting project which is more useful in our real life by working as a portable calculator to simplify the Boolean expression on the fly. In our circuit, we use Boolean algebra simplification methods like the Quine-McCluskey algorithm to simplify the Boolean expression and display the output on the display.
Auto Night Lamp using High Power LED : This Auto Night Lamp is an interesting circuit which helps to turn ON the LED lights interfaced to it at night time and it turns OFF the lights automatically when it is day.
Mobile Jammer Circuit : This circuit is used to block the signals of cell phones with in the range of 100 meters. This circuit can be used in TV transmission and also for remote controlled toys or play things.
Unbiased Digital Dice with LEDs : This is a circuit diagram of digital dice which is nearly unbiased. By using this circuit, there is no chance to cheat as the circuit operates at such a high speed that the circuit is almost imperceptible to the human eye.
Metal Detector Circuit : This is a simple metal detector circuit which is very useful for checking the person in shopping malls, hotels, cinema halls to ensure that person is not carrying any explosive metals or illegal things like guns, bombs etc.
Panic Alarm : This panic alarm circuit helps us to intimate others regarding our bad situation without any delay. It is more useful when an intruder entering our house or bad health status at which we are unable to intimate to the people around us.
Simple 100W Inverter Circuit : This is a small Inverter circuit which converts the direct current (DC) to alternating current (AC).
Car Parking Guard Circuit Using Infrared Sensor : This circuit helps the person in the driving seat in such a way that it gives an alarm if there is any obstacle or a wall while parking or while driving in reverse. It is very useful in our real life.
Fire Alarm with Siren Sound : This circuit alerts us when there is a fire accident at home by ringing a siren sound instead of a buzzer.
Intelligent Unambiguous Night Lamp Switcher : This is the circuit diagram of unambiguous night lamp switch, which turns ON our domestic lights automatically when it is dark, without human interference. It also avoids repeated frequent switching of the devices which is usually ignored in most similar circuits but may have a detrimental effect on our operating devices.
LED Flasher Circuit : LED Flasher is a simple circuit which will blink the LEDs in regular time period. This circuit can be used for decoration purpose or can be used for a signaling purpose and many more.
Dancing Bi-Color LED Lights Circuit : Generally we use small voltage bulbs in the dancing bulbs. This circuit is mainly used in the occasions, decoration articles or in visual indication sign boards etc. In this project, we use bi-color LEDs for sequential running light.
Thermistor Temperature Sensing Alarm : This circuit is a temperature sensing as well as alarm circuit. The circuit raises an alarm whenever the temperature crosses a certain limit.
Pull Pin Security Alarm System : This circuit helps us to get alerted when anybody picks our pockets or bags. The circuit is very helpful to prevent our goods getting pick pocketed.
Auto Turnoff Soldering Iron Circuit : This circuit helps the soldering iron to turn off automatically when it detects overheating and thereby avoids it from getting damaged.
Remote Operated Alarm Circuit : This circuit rings an alarm when you point a TV remote at it and press on any button. This can be used as a calling bell to call your assistant.
Battery Charger using SCR : Here is the circuit diagram of battery charger circuit using Silicon Controlled Rectifier. SCR can be used in half wave rectifier, full wave rectifier, inverter circuits, power control circuits, etc.
FM Bugger Circuit : Here is small circuit with which you can listen to another people conversation from long distance using the normal FM radio set. This FM bugger circuit is kept in room where you want listen the conversation. You can listen to this conversation using the normal FM radio set.
Cell Phone Detector : This is a simple circuit which helps to detect the presence of an activated cell phone by detecting the signals in the frequency range of 0.9 to 3GHz. It helps in mobile phones tracking which are used for spying.
Battery Powered Portable Light : This circuit is more helpful in handling unexpected and undesired darkness in our homes or offices. It provides considerable amount of brightness required to do our daily tasks.
IR Remote Control Switch : By using this circuit, we can control any house hold appliance with the help of remote. In this project, there are two parts Ã‚Â– one is in transmitting section and the other is in receiving section. Receiving section will be in a stable position which is connected to any load and transmitter will act as a normal remote.
Continuity Tester with Melody : This circuit works as a continuity tester device which tests the continuity of the wire at hand. It is an indispensable tool to check broken wires and undesired shorting of wires.
Rain Alarm Circuit : Rain water detector will detect the rain and make an alert; rain water detector is used in the irrigation field, home automation, communication, automobiles etc. Here is the simple and reliable circuit of rain water detector which can be constructed at low cost.
Automatic Plant Irrigation System : This project circuit is more useful in watering plants automatically without any human interference. It is more useful when the owner is not present in the home for few days.
Hot Water Geyser Controller Circuit : This circuit is made to turn OFF geysers as soon as our water gets hot and are ready for bathing.
Lead Acid Battery Charger Circuit : Lead Battery is a rechargeable battery and is more useful in our real life as it will dissipate very little energy, it has very low energy to weight ratio, it can deliver high current, can work for long time with high efficiency and is very low cost.
Motion Detector Circuit : The motion detector is not only used as intruder alarm but also used in many applications like home automation system, energy efficiency system, etc. The motion detector will detect the motion of the people or objects and give the appropriate output according to the circuit.
Touch ON and OFF Switch Circuit : This Touch ON/OFF Switch circuit is more useful in such a way that we can automatically ON or OFF any switch by touching a device without moving from our place.
USB Mobile Charger Circuit : This circuit is useful in charging the mobiles through USB outlet present in our laptops and PCs. For the charging of your mobile phone, this circuit provides you a regulated voltage of 4.7 volts.
Security Alarm Circuit : This circuit helps you to guard your precious documents as well as jewellery from intruders or theft. All you need is to just place this circuit in front of the locker or below the mat so when any unknown person come and walk over the switch, the circuit will trigger and sound of alarm comes.
Mosquito Repellent Circuit : Here is the simple electronic mosquito repellent circuit which can produce ultrasound in the frequency range of 20-38 kHz, which can scare away mosquitoes.
Simple FM Radio Jammer Circuit : This is a Jammer circuit which is used to block the signals. Jammer circuit produces the high frequency signal which will confuse the receiver of particular system from receiving the signal, even though circuit is working properly, user of the system feels that circuit is not working properly.
Automatic Street Light Controller Circuit Using Relays and LDR : This circuit helps in automatically turn ON/OFF the street lights using relays and LDR. The whole circuit is based on IC CA3140.
Battery Charger Circuit : This battery charger circuit works on the principle of controlling switching of an SCR based on charging and discharging of battery.
Interfacing 16×2 LCD with 8051 : This is a simple circuit diagram which helps to describe interfacing of 16X2 LCD module to AT89C51which is a 8051 family microcontroller.
PWM LED Dimmer Using NE555 : The Pulse Width Modulation (PWM) plays an important role in controlling the circuits. We use this PWM to dim the intensity of light of the LED.
Simple Fire Alarm Circuits : Here are two simple fire alarm circuits which are used to detect the fire automatically and inform to the people immediately with an alarm.
Wireless Switch Circuit using CD4027 : This is a simple circuit which needs no physical contact with the appliance. In this circuit, all you need is to pass your hand above LDR to ON or OFF the switch.
Electronic Letter Box : This is a simple circuit which helps in finding out any letter dropped in our box by stopping the LED lights attached in this circuit.
Clap Switch Circuit for Devices : This is another simple but very useful circuit which helps to ON or OFF a device without moving from you place and also helps to control the speed of the electric devices like fan, etc.
12v DC to 220v AC Converter Circuit : Here is a simple voltage driven inverter circuit which converts 12v DC signal to single phase 220v AC using power transistors as switching device.
FM Transmitter Circuit : Here we built a wireless FM transmitter which uses RF communication to transmit the medium or low power FM signal. The maximum range of transmission is around 2 km.
100w Subwoofer Amplifier Circuit : Here is the circuit diagram and working of 100w subwoofer amplifier circuit. A Subwoofer is a loudspeaker which produces audio signals of low frequencies.
DTMF Based Home Automation System Circuit : This is a simple and very useful circuit in our real life named DTMF controlled home appliances system. It helps to control the home appliances using DTMF technology.
Street Lights that Glow on Detecting Vehicle Movement : This article describes about the circuit that switches the street lights on detecting vehicle movement and remains off after fixed time. This system controls the street lights using light dependent resistor and PIR sensor.
555 Timer IC Testing Circuit : This is a simple 555 IC testing-circuit which tests your entire 555 timer IC. So before using your IC, you may check whether your IC is good or bad by using this circuit.
Curtain Opener/Closer Circuit : This circuit will open and close the curtain of your home and office just by pushing a switch. So with the help of this unique circuit, we do not need to move from one place to open and close the curtain.
Variable Power Supply and Charger : This is a circuit which helps to check or test your electronic projects and also to charge the Mobile phone batteries. This circuit can also work as an emergency light.
LED Running Lights Circuit : This is a simple circuit consists of 9 LED lights in knight rider scanner mode. It will present an eye catching look as the LED initially travel in the one way and then travel reverse in the similar direction.
Luggage Security Alarm : This is a simple alarm circuit which helps in ringing a warning alarm when someone tries to steal the luggage.
9 Way Clap Switch Circuit : This circuit helps you to manage your appliances in your home by just clap without moving from your bed.
12V to 24V DC Converter Circuit : This is another kind of circuit which helps to convert 12V DC current to 24V DC current.
230V LED Driver : Here we design a simple circuit driving a series of LED from 230V AC. This is accomplished using a capacitor based power supply. This is a low cost and efficient circuit and can be used at homes.
3X3X3 LED Cube : This is a simple a simple LED cube circuit designed without using microcontroller. It is based on the principle of driving LEDs using the clock pulses.
Monostable Multivibrator Circuit Operation : Here is the monostable multivibrator circuit diagram and working. Multivibrator is an electronic circuit which will work as two stage amplifier operating in both stable and astable mode.
Mains Operated LED Light Circuit : This is a simple circuit which is more useful to save our resources, energy and money by installing in your homes.
LED Lamp Dimmer Circuit : In this circuit, at the starting LED glows slowly, then grown brighter and once again slowly it became dim. The basis of the whole circuit is an operational amplifier IC named LM358.
Variable Voltage Power Supply from Fixed Voltage Regulator : This Voltage regulator circuit is used to get fixed voltage at the output without depending on the input voltage.
LED Christmas Lights Circuit : This is a simple circuit used to decorate your house by building christmas lights using LEDs. The lights will get ON at night and OFF in morning time.
Audio Equalizer Circuit : The circuit is used to change the tune/melody into a different pitch level by devoid of loss in the tune. It is mainly useful to music lovers.
Air Flow Detector Circuit : This Air flow detector circuit can be used to detect the flow of air in areas like car engine. It can also be used as temperature detector.
150W Power Amplifier Circuit : Here we designed a power amplifier circuit using push pull class AB configuration to derive a power of 150W to drive a load of 8 Ohms (speaker).
7 Segment LED Display Decoder : This is the circuit diagram of display decoder which is used to convert a BCD or binary code into a 7 segment code used to operate a 7 segment LED display.
Digital Temperature Sensor : The main principle of this circuit is to display the digital temperature value. These are mainly used in environmental applications.
Digital Stopwatch Circuit : This is a simple circuit that displays count from 0 to 59, representing a 60 second time interval. It consists of a 555 timer to produce the clock pulses and two counter ICs to carry out the counting operation.
Toy Organ using 555 Timer IC : This is the circuit diagram of simple Toy Piano using 555 Timer IC. It produces different tones or sounds depending on the frequency range.
RFID based Attendance System : This simple RFID based attendance system is designed using ATmega8 Microcontroller and is mainly used in educational institutions, industries, etc. where authentication is needed.
Low Power Audio Amplifier using 555 Timer : This is a simple low power audio amplification circuit designed using 555 timer. It can be used to develop low power music systems used in vehicles.
Interfacing 16X2 LCD to AVR Microcontroller : This is a circuit which helps in interfacing 16X2 LCD with AVR Microcontroller. The Atmega16 belongs to the AVR microcontroller family.
Polarity cum Continuity Tester : With the help of this circuit, we can also identify whether the components we are using in our circuit are good or bad before mounting them on the PCB.
Reaction Timer Game Circuit : This is a simple and funny game circuit which contains 10 LEDs that are moving in an arbitrary fashion and we have to target a particular LED given by your challenger.
Police Siren Circuit using NE555 Timer : This circuit produces a sound similar to the police siren. You may also get detailed information about pin diagram and internal block diagram of NE555 timer.
100W MOSFET Power Amplifier Circuit : A power amplifier circuit using MOSFET has been designed to produce 100W output to drive a load of about 8 Ohms.
Digital Voltmeter Circuit using ICL7107 : Here we designed a analog to digital converter working as a digital voltmeter using a low power three and half digit A/D converter ICL7107 having internal 7 segment decoders, display drivers, a reference and a clock.
8 Channel Quiz Buzzer Circuit using Microcontroller : We built the circuit using a microcontroller which scans the input from push buttons and displays the corresponding number on a display device.
2 Digit Up Down Counter : The main principle of this circuit is to increment the values on seven segment displays by pressing the button. This circuit can be mainly used in scoreboards.
Bike Turning Signal Circuit : The objective of this circuit is to indicate left or right turn for bike/vehicle. Two identical circuits are needed, one is for left and the other is for right. The main heart of this circuit is 555 timer.
Automatic Changeover Switch : This is a simple automatic changeover circuit in which DC load like a series of LEDs are driven either by a battery or an AC-DC power supply.
UP/DOWN Fading LED Lights : This is a simple up/down fading LED lights circuit which can be used in shopping malls, home and security applications.”/>
Police Lights using 555 Timer : This circuit simulates the police car lights by alternate flashing. This circuit flashes red LEDs for three times and blue LEDÂ’s for three times. This flashing action performs continuously. This circuit uses 555 timer and a decade counter.
PWM based DC Motor Speed Control using Microcontroller : Here is a simple DC Motor speed control circuit designed using AVR Microcontroller. Here we use a technique called PWM (pulse width modulation) to control the speed of DC motor.
Ding Dong Sound Generator Circuit : This is ding dong sound generator circuit is designed using 555 timer IC in astable mode. It can be used as doorbell. With some modifications, it can be used to produce different sounds. Read this post for complete details.
PIR Sensor Based Security Alarm : This article explains about PIR based security system in which PIR sensor is used instead of transmitter or receiver. This saves the power consumption and is low cost. This circuit can be used in the museums to protect the valuable things.
TV Remote Control Jammer : This proposed TV jammer circuit confuses the infrared receiver in a TV by producing the constant signal that interferes the remote control signal. If you switch on the circuit once, the TV will not receive any command from the remote. This allows you to watch your own program without anyone changing the channel or volume.
Super Sensitive Intruder Alarm : This circuit is designed to alert the user when an intruder enters into the home. If there is any obstacle in front of IR sensor, it generates an interrupt signal. This interrupt signal is given to the speaker to alert the user.
RF based Home Automation System : Here we have used RF434 MHz modules to make wireless remote. Using this remote, we can control the appliances within the range of 100 meters. It is used for remote control applications like burglar alarm, car door alarm, calling bell, security systems, etc.
High and Low Voltage Cutoff with Delay and Alarm : This high and low voltage cutoff with delay alarm circuit is an advanced automatic voltage stabilizer circuit and is used to protect our home appliances. It’s cost is less as compared to voltage stabilizers.
Dummy Alarm Circuit : The main principle of the circuit is to flash an LED for every 5 seconds. The circuit consists of 7555 timer IC as main component.
Reverse Parking Sensor Circuit : If you are a new driver then it is very difficult to judge the distance while parking the car. Reverse parking sensor circuit solves this problem by indicating the distance with the help of three LEDÂ’s. We can easily arrange this system at the back side of the car.
Automatic LED Emergency Light Circuit : This is the simple and cost effective automatic emergency light circuit with light sensing. This system charges from main supply and gets activated when main supply is turned OFF. This emergency lamp will work for more than 8 hours.
One Transistor Electronic Code Lock System : The main principle of this circuit is that the door lock opens only when the buttons are pressed in an order. The transistor and diode plays a main role in the circuit.
Automatic Battery Charger : This charger automatically shut off the charging process when battery attains full charge. This prevents the deep charge of the battery. If the battery voltage is below the 12V, then circuit automatically charges the battery.
Light Activated Switch Circuit : The main principle of this circuit is to switch ON the light when the LDR is illuminated. This circuit can be used in security applications like when there is darkness on the LDR, it stops lighting.
Remote Operated Spy Robot Circuit : This is a simple spy robot circuit which can be controlled by the remote. The maximum controllable range is 125 meters. It is used to observe the behavior of wild animals where human beings cannot reach.
Digital Voltmeter using 8051 Microcontroller : This is a simple digital voltmeter circuit designed using 8051 microcontroller. This circuit measures the input voltage from 0V to 5V. Here, the input voltage should be DC voltage to get the accurate output on LCD.
Ultrasonic Rangefinder using 8051 : This circuit explains you how to measure the distance using 8051 microcontroller. This ultrasonic range finder system measures the distance up to 2.5 meters at accuracy of 1 cm.
Stepper Motor Interfacing with 8051 Microcontroller : The main principle of this circuit is to rotate the stepper motor step wise at a particular step angle. The ULN2003 IC is used to drive the stepper motor as the controller cannot provide current required by the motor.
Frequency Counter Circuit : Here we design a simple frequency counter system using two timers and two counters. While one of the Timer IC is used to produce clock signals, the other is used to produce the time limited signal of one second.
Delay using 8051 Timers
Interfacing 7 Segment Display to 8051 : This article describes you how to interface seven segments to AT89C51 microcontroller. This system displays the digits from 0 to 9 continuously with a predefined delay.
LC Meter using 555 Timer : This is a simple LC Meter circuit designed using 555 Timer and 8051 microcontroller. It is mainly used to measure value of a reactive element like a capacitor or an inductor.
TV Transmitter Circuit : The main principle of this circuit is to transmit the audio and video signals. Here audio signals are frequency modulated and video signals are PAL modulated. These modulated signals are applied for the antenna.
DC Motor Interfacing with 8051 Microcontroller : Here is a simple but very useful circuit in our real life named interfacing DC motor with 8051 microcontroller. It describes you how to control the DC motor using AT89C51 controller.
Stun Gun Circuit : This Stun gun circuit is mostly used as a weapon to stun or send shock waves to the target with the intention to weaken or paralyze it.
Transistor Intercom Circuit : This transistor intercom circuit is a simple two way intercom circuit which is used for the dual purpose of sending as well as receiving signals.
LED Interfacing with 8051 : The main principle of this circuit is to interface LEDs to the 8051 family micro controller. Commonly, used LEDs will have voltage drop of 1.7v and current of 10mA to glow at full intensity. This is applied through the output pin of the microcontroller.
Wailing Siren Circuit : The main principle of this circuit is to produce a wailing siren. The 555 timer IC is operated in astable mode. When the switch is pressed, speaker produces high pitch siren and when it is released, its pitch decreases and is switched off after 30 seconds.
Audio Tone Control Circuit : This article explains you how to design an audio tone control circuit with the gain of around 25. This design needs less number of components and it is cost effective.
FM Remote Encoder/Decoder Circuit : This is a simple post which shows you how to design FM remote encoder and decoder circuit using RF600E and RF600D ICs. This pair of encoder and decoder ICs establishes the communication with high level security. The operating voltage of these ICs is from 2V to 6.6V DC.
Wireless Mobile Battery Charger Circuit : This circuit mainly works on the principle of mutual inductance. This circuit may be used as wireless power transfer circuit, wireless mobile charger circuit, wireless battery charger circuit, etc.
Interfacing GPS with 8051 Microcontroller : In this interfacing of GPS with 8051 circuit, GPS module calculates the position by reading the signals that are transmitted by satellites.
How to Interface Real Time Clock with PIC18F : Get an idea about RTC, PIC Microcontroller pin diagram and how to interface RTC with PIC18F. RTC is an integrated circuit which keeps track of current time.
Random Number Generator using 8051 : This circuit helps to generate a random number in between 0 to 100 when push button is pressed and it may be used in the games like monopoly, snake ladder.
Active Audio Crossover Circuit : Audio crossover is an electronic filter used in audio applications to send the appropriate signal to the speakers or drivers. This circuit is used in HiFi audio systems to separate the frequency bands from audio signal.
IR Audio Link Circuit : This simple IR audio link circuit is used to transmit audio signals wirelessly. This IR audio link is able transmit audio signals up to 4 meters.
Cellphone Controlled Home Appliances : This mobile controlled home automation system is designed without using microcontroller. We can also control a robot using this technology by making some modifications.
Variable Voltage Power Supply : This helps to design a variable power supply circuit which will provide 0 to 28V at 6 to 8 amps. It can be used in various power amplifiers and oscillators to provide DC supply.
Digital Clock using 8051 : This circuit displays the time on LCD. For this clock, we can set the time at any instant. Here the clock works in 24 hour mode and the RTC chip is configured by programming 8051 controller.
GSM Interfacing with 8051 : The main principle of this circuit is to interface a GSM modem with the microcontroller. The microcontroller used is AT89C51 microcontroller.
Multi Channel Audio Mixer Circuit : This audio mixing circuit has 2 MIC inputs and 2 line inputs. If you want to increase the input channels according to the application then add same circuit in parallel with the existing circuit.
Puff to OFF LED Circuit : The main principle of the circuit is to turn off the LED by a puff. The puff applied to the mic is converted into a voltage whose value is very small. This voltage is amplified and applied to the circuit in order to make the led turn off.
Light Activated Alarm Circuit : The main principle of this circuit is to produce sound depending on the light intensity falling on the circuit. As the light intensity falling on the circuit increases, it produces pulses with more duration and thus producing more sound. The main part of the circuit is 555 timer IC.
Electronic Eye Controlled Security System : This is a simple electronic eye controlled security system circuit designed using 7805 voltage regulator and LDR. It is used in security applications.
USB Sound Card Circuit : This USB sound card circuit is a device which allows an embedded system to create and record real and high quality sound. Read this post for more details.
Hi-Fi Dx Bass Circuit : This Hi-Fi Dx Bass Circuit describes the design, principle and operation of a two stage bass boosting circuit using simple high and low pass filters.
Wireless Electronic Notice Board using GSM : This wireless electronic notice board using GSM Technology and microcontroller circuit is used to display the data on LCD whatever we sent from the mobile.

For the list of other projects ideas, visit the following pages:

EEE Projects Ideas
EIE Projects Ideas
Projects on Electronics
Solar Energy Projects
Embedded Systems Projects

7 Responses

sir i am in 4th yr ECE student of a private engineering college .So i have very less idea about project formation show i wants some suggestions form your expert panel to give some idea about any valuable project

how do i know machi….i m also final year ya….you have any ideas…please tell me….

I am now in 4th year can you tell me what project can be done by one person?as m alone

YOU CAN DO POINT TO POINT WIRE LESS COMMUNICATION DEVICE

Any one can suggest me, I want know name a professional wo can integrate a device with third party software.

i am studying diploma final year in ece dipartment ,in 6th sem we have to make a project .so i request u please suggest a well project. i want to make a fire alaram is it best or not

I am studying diploma final year in ECE department in 6th semester we have to make a project. So i request you please suggest a well project. I want to make a little robot is it best or not.

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1000 Projects

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Category: ECE Final Year Projects

Electronics final year students can download latest collection of ece projects with abstracts and reports for free. Projects listed here are part of ece final year projects on embedded systems, micro controller, robotics. Projects listed here are best be final year projects with full reports and circuit diagrams. Students can also find ece mat lab projects.

IOT Solution for Vehicle Maintenance and Report Generation System

Introduction.

Many automotive manufacturers are now moving towards an IoT platform for manufacturing and for service purposes.
The main advantages of using IoT in cars are Optimized maintenance and logistics.
Our idea is to monitor vehicle status (fuel, efficiency/Km, battery, oil levels, etc..,.) to the customer as well as the manufacturer.
The main aim of every car manufacturer is to increase the life of the car and it’s crucial to maintain the car in a good condition to achieve it.
Many problems in vehicles arise due to improper maintenance. Many lose track of their service status and it’s a tiring process to keep in touch with every customer in a large automotive industry.
If we maintain a system, that automatically updates the vehicle’s conditions periodically to a specified server, and the system will generate a report, that will be forwarded to the customer and the service team, a lot of manual work will be removed.
We as a team provide an IoT solution for vehicle maintenance and report generation system.

FLOW DIAGRAM-FUNCTIONAL DECOMPOSITION

Our Vehicle Maintenance and Report Generation system collects data from the sensors available in the car itself and reports it to a transceiver module(ESP8266) which is connected to a database in the cloud.
when new data is updated/inserted into the table an event is triggered. This event updates the information in the dashboard, which will be displayed to the customer and manufacturer.
Then a weekly/monthly/yearly report generation event is triggered, which will mail the report to the specified recipient.

FUNCTIONAL DECOMPOSITION

Data collection:.

The data is collected from the sensor stream of the car. This data is redirected to the ESP8266 module. The ESP8266 is connected to the server, that is allotted to the car. The ESP8266, when all data is collected, converts it into a JSON file. Then the server sends a post request to the server.

Event trigger:

Many database servers provide pl/SQL-based triggers. Here an Update and Insert trigger is created for the table. Oracle server provides a wide range of PL/SQL functions. The IP of ESP8266 is connected to the oracle server, which on periodic updates in the table triggers an event.

The dashboard is created using HTML and CSS and deployed in the cloud using the NODE JS framework.

FUNCTIONAL SPECIFICATION

ESP8266 CP2101 module(CAR) ESP8266 CP2101 module(HOME)

Programming Language:

SQL Javascript (Node JS) C++(Arduino .ino) HTML CSS

The Vehicle Maintenance and Report Generation System dashboard are developed using Adafruit.io. This website provides dashboard development for MQTT-based devices

Cloud and IoT Based Health Monitoring System Project

Our system is useful for monitoring the health system of every person by easily attaching the device and recording it.

We can analyze patients’ conditions through their past data, IoT sensors are being utilized to consistently record and monitor health conditions and transmit alerts in the event that any uncommon signs are found.

If there should be an occurrence of a minor issue, the IoT application additionally has the arrangement to recommend a medicine to the patients.

Introduction

This project is the solution to be able to make use of IoT sensors and actuators to be able to detect issues with subscribed patients remotely to be to monitor health, emergencies, statistics, etc, This makes use of Cloud, Machine learning, IoT platforms, and devices.

The results can be recorded using Arduino.

The doctors can see those results on an application. The system will also generate an alert notification which will be sent to the doctor.

Literature Survey

Smart Health Monitoring Systems: An Overview of Design and Modeling
Cloud-Based Privacy-Preserving Remote Monitoring and Surveillance
A Review of Machine Learning and IoT

Architecture Design

The Flow diagram for Cloud and IoT based Emergency response system follows Sensing, Processing Unit, Cloud Server and Analysis.

Hardware and Software Requirements:

Arduino :

IoT Sensors: The main purpose of sensors is to collect data from the patient’s body and from the surrounding environment.

Cloud: These cloud computing platforms are used to store the data and perform some analysis on the data which is stored on the cloud.

Product Perspective

User Classes and Characteristics

The main objective is to design this System with two-way communication i.e. not only the patient’s data will be sent to the doctor through SMS and email in emergencies, but also the doctor can send required suggestions to the patient or guardians through SMS or Call or Emails.

The user base for this application involves patients and old age people.

Assumptions and Dependencies

Appreciable accuracy in IoT sensors to fetch accurate data.

Reliable internet connections.

User Interfaces

Web application
IoT sensors
Open Source IoT platform

Functional requirements

Sensors frequently detect data from patients.
Collected information is updated in the cloud.

Performance Requirement

The data analysis and communication (response) between the user device and subscribed user must be quick.

The primary purpose of a health monitoring system is to allow people to lead independent and active lives in their familiar home environment while ensuring continuous, non-invasive, non-intrusive, and seamless surveillance of their health and physical well-being. Continuous monitoring of health status can provide comprehensive information about individuals’ health status over a period of time.

Download the complete project Code & paper Presentation of Cloud and IoT Based Health Monitoring System Project .

Implementation of E-voting Machine Project using Python and Arduino

Our E-voting Machine project is very useful, This Project was implemented using Python and Arduino. The user is no longer required to check his register in search of records, after the voting procedure gets over, the admin will be able to calculate the total number of votes in just one click since the entire work is done using computers. The user just needs to enter his/her unique voter ID.

In today’s world, no one likes to manually analyze the result after the voting procedure gets over because the process is time-consuming and of which results get usually delayed. Everyone wants his/her work to be done by computer automatically and displaying the result for further manipulations. So this E-voting Machine project is about providing convenience regarding voting.

Our objective for the E-voting Machine project is to make a user-friendly Electronic Voting Machine that makes the current voting process faster, easier, and error-free.
We have used Arduino in our project for the implementation of push buttons and Python as a programming language.

PROBLEM STATEMENT

The problem statement was to design a module:

Which is a user-friendly E-voting Machine
Which will restrict the user from accessing other users’ data.
Which will ease the calculations and storage of data.
Which will help the jury to declare the result without any biasing.

FUNCTIONS TO BE PROVIDED:

The E-voting Machine system will be user-friendly and completely secured so that the users shall have no problem using all options.

The system will be efficient and fast in response.
The system will be customized according to needs.

FOR e-VOTING SYSTEM

SYSTEM REQUIREMENTS

Programming Language Used: Python, C
Hardware Used: Arduino UNO
Components Used: Push buttons, Connecting Wires, Resistances(100k ohm), Breadboard
Software Used: Anaconda 2.7.x, Python 2.7.x, Arduino IDE
Modules Used: Serial, SQLite, Tkinter, tkMessageBox
The user has to enter his/her ID in the system.
After verifying the user ID, the system will show a message that whether a user is eligible to vote or not after checking his/her details stored in the system.
A message will be displayed accordingly. The user will then have to press the button against which the name of the candidate is written and whom he/she wants to vote.
The votes hence are stored in the database and the results will be announced accordingly.

FUTURE SCOPE OF THE PROJECT

My project “e-VOTING SYSTEM” will be a great help in conducting voting at various organizations. So the modifications that can be done in our project is to add one major change which can be done in this project is to add the data of the voters. This will result in the total identification of the voter.

From this E-voting Machine project, we can conclude that this program is very useful in conducting the voting procedures smoothly. It provides easy methods to analyze the voting result. It helps in conducting faster, more secure, and more efficient voting. The program can be used per the norms of the voting requirements.

Download the complete project code, report, and PPT on E-voting Machine using Python and Arduino .

Two Wheeled Self Balancing Robot Minor Project Synopsis

The basic working principle behind a self-balancing robot is an inverted pendulum concept model in control theory, according to which the robot drives the wheels in the direction in which it tilts. Examples of the inverted pendulum in certain real applications include rockets like MAXUS, Segway the personnel transporter, and a self-balancing vehicle.

It has great advantages like small size, flexibility, and low cost because of these advantages, it can be used in various applications in the field of control engineering. The inherent complexity associated with the control of this platform finds its application in the design and development of control systems for automobiles, spacecraft, and transportation facilities including military transport.

The developed hardware is used to develop an object-carrying vehicle that can be used to reduce human efforts in working places, offices, and household applications.

This is a cost-effective solution using the PID algorithm for these two-wheeled vehicles.

Because of the previously stated advantages that come with a two-wheeled self-balancing design, a number of consumer products have recently gone mainstream that utilize a similar idea for purpose of convenient human transportation, i.e. – Hover-boards, Segway, and self-balancing two-wheelers. Our goal with this project was to demonstrate the balancing mechanism used in these products in a compact, cost-effective prototype of a self-balancing robot.

1. To balance the whole body on two wheels automatically by designing the best possible structure for the body and obtaining the filtered values from the gyro and accelerometer sensor i.e. – mpu6050. 2. To use inbuilt Wi-Fi or Bluetooth capabilities of ESP32 microcontroller to communicate with the robot in order to de- liver the commands to follow. 3. To fine-tune custom PID values for the robot to ensure its smooth maneuverability. 4. To generate the ability to balance and maneuver with objects placed on its head

Feasibility Study

1) feasibility of the project.

The project is intended to explain the design along with the construction and control mechanism of a two-wheel self-balancing robot. To deal with the problem of sudden horizontal movements and gyro drifts in sensors, a complementary filter is implemented[1]. PID (proportional integral derivative), is the feedback mechanism used for this project.

2) Need of the project –

1. Its ability to turn on the spot and sustainable architecture increases its applications in industries. 2. It is essential for the robot to not only balance but also maintain its position, withstanding external forces or unexpected disturbances if any

3. Active research on two-wheeled robots has been widely increased since the early versions of the studies on self-balancing robots by JOE and n-BOT.

3) Significance of the project –

These robots can be used for

1. Smart gardening purposes. 2. Autonomous trolleys in malls, hospitals, and airports. 3. An intelligent robot for various industrial-military purposes.

4. Currently popularized as “Segways,” these machines are mostly used for travel and tourism purposes and by private security services. It has been put to use by a range of private and military organizations since its invention.

Methodology/ Planning of work

The main objectives of a system for Online voting system are:

1. The objective of the Online voting system is to help the organization in automating the whole manual processing of the existing system. 2. Test the working and compatibility of all electronic components (mpu6050 and motors and its driver) with ESP32 separately and ensure the proper working of each component. a rudimentary prototype using all components with temporary wiring on the breadboard in order to test the integrated working of the components with each other (without tuning PID values). 3. Fabricate the basic frame of the robot using acrylic sheets, spacers, screws, and angle brackets. 4. Mount all electronic components onto the frame. 5. Make wired connections according to the planned circuit. 6. Upload code to ESP32 from Arduino IDE. 7. Update PID values. 8. Test the performance, balance, and maneuverability of the machine, if not satisfied with its performance, go to the 7th step in order to fine-tune PID values else the required development of the robot is completed.

Facilities required for proposed work

Software Requirements:-

1. Arduino IDE

Hardware Requirements:-

1. Arduino IDE 2. ESP32 microcontroller – 1 3. MPU6050 sensor – 1 4. Bo geared motors – 2 5. L298N Motor driver -1 6. 3.7v 18650 Li-ion battery – 2 7. Assorted Jumper Wires 8. 3mm Acrylic Sheet 9. 65mm Nylon Tyres – 2 10. Angle Brackets – 2, Spacers and Screws

Design and Implement a Healthcare Monitoring and Management System IoT Project

Nowadays Internet of Things is bringing a revolution in the infrastructure of technologies. The IoT-based health monitoring system is essentially a patient monitoring system in which he can be supervised 24*7. Remote Patient Monitoring arrangement enables observation of patients outside of customary clinical settings (e.g. at home), which expands access to human services thus bringing down costs. Healthcare is given extreme importance by each country with the advent of the novel coronavirus.

Recently there has been a spike in the use of smartphones and along with that, wearable sensor remote health monitoring has evolved quickly. IoT not only helps in preventing the spread of disease but also in getting a proper diagnosis, even if the doctor is present at a remote distance By facilitating effortless interaction among various modules, IoT has enabled us to implement various complex systems such as smart home appliances, smart traffic control systems, etc.

PROPOSED SYSTEM:

The main objective of this Healthcare Monitoring and Management System is to develop, design, and implement a smart patient healthcare monitoring system. The sensors used here are embedded in the body of the patient to sense the parameters like the heartbeat and temperature. These sensors are connected to a master unit, which calculates all of their values. These values are then transmitted by leveraging IoT cloud technology, to the base. From the base station, these can be easily accessed by the doctor present at some other location. Thus based on the temperature and heartbeat values, the doctor can decide the state of the patient and appropriate measures can be taken.

Monitor patient parameters remotely to increase the efficacy of healthcare management systems

We need to monitor the patient parameters from remote distances using various sensors. The data given out by the sensors are then sent over to the cloud for further access via a Wi-Fi module (inbuilt or externally connected). This is being done to reduce the critical time of testing patient parameters before any major operation.

Here we are measuring the temperature and pulse parameters of a patient remotely.

Components required:-

MLX 90614 Temperature MAX 30102 Pulse Rate Jumper wires. Nodemcu ESP8266 board

The Gantt Chart is shown below:-

smart patient healthcare monitoring system

Health care is given extreme importance nowadays by each country with the advent of the novel coronavirus. Thus in this regard, an IoT-controlled healthcare monitoring system is most probably the best solution for such an epidemic. Internet of Things (IoT) is the new revolution of the internet which is a growing research field, especially in health-related services.

“Healthcare Monitoring and Management System” is the project where we have mainly focused on two objectives first one was a smart health monitoring system, to collect the health history of patients with a unique ID and store it in a database so that doctors need not spend much of their time in search of the report and give analysis right from the dashboard. Any health care that is being done will be updated and reflected in the dashboard itself. And the other one is the Wearable-Sensor-Based Fall Detection System for aged people, to monitor their movements of them, recognize a fall from normal daily activities by using sensors, and automatically send a request or an alert for help to the caregivers so that they can pick up the patient.

However, there are a few shortcomings to this too. Basic knowledge of the operation is to be learned by the caregivers. Also, both the caregiver and the wearer should know how to protect the sensors from water damage or any physical damage.

Planning and project management

Raspberry Pi Project on Intelligent Door Access Management System

Today the world has been far more advanced in technology than in the last 3 decades and with that, there are advances in the technologies that help to keep our homes safe. With the help of IoT now we can track our house even when we are on vacation.

The significance and the purpose of our Door Access Management System are to make the user’s home much safer by increasing security and giving the user full control of the system.

Background of Project

When we are at work, we may have an important meeting and may not be in time to receive our guests and they may need to wait outside. The same may happen if we are on a vacation and to safeguard ourselves from Intruders.

The duty of an Engineer is to provide solutions for the problems faced every day with upcoming technologies and we have come up with a model which will help to solve them.

Statement of the problem

This project will create a smart doorbell messaging system so that when a guest clicks on the button, obtains an image of the user via a camera peripheral, uploads the image and event data to a Googles Firebase cloud, and sends a message with some message to notify that a guest has arrived.

Aims and Objectives of the project

The main objective of the project is to make a Smart door system. The other objectives are: –

To include an access button to allow the user to open/close the door

The main components of the Intelligent Door Access Management System are as follows:

Raspberry pi 3
Push-button
Logitech Camera
Stepper motor

The first step was to make an interface between the Push button and the Camera using Raspberry Pi so that when the button was pressed the camera would take a picture. The next step is to connect the camera to the Firebase Cloud to upload the images in the Firebase Storage and send the image’s URL to the Firebase Database.

Next using Android Studio, a Mobile application was designed to retrieve the image from the Firebase Database. Using Node JS push messaging is also added along with the mobile app such that when someone is at the door a notification pops out. They can Open or Close the door using the buttons in the app. When pressed the data is sent to Firebase Database and retrieved by the Raspberry Pi which then operates the door.

Flow Diagram

Bill of Materials:

Future scope.

Face recognition can be implemented to allow family members /regular guests
It can be integrated with a burglar alarm and inform the police of intruders

The project “Intelligent Door Access Management System” has been tested real-world scenario and the door is opened or closed by the commands given by the user

Development of IoT Project on Intelligent Cargo Management System

The integration of such sensors in cargo has paved the way for intelligent transportation. These integrated systems are competent in delivering reliable details about the quality of the goods during their depository time.

To reach this goal, we use a variety of sensors suited for monitoring the safety of food products and goods by recording the transition of parameters like temperature, humidity, and air quality, fire detection.

This information is transmitted wirelessly to the IBM cloud providing an interface where the authorized person can observe the product quality over time and also receives alert messages in case of bad air quality and abnormal conditions.

Block Diagram:

An Intelligent Cargo Management System app is designed for selecting the type of goods to be stored in the truck, for door automation, and for retrieving the values from the sensor.

Initially, the authorized person of the truck has to select the type of goods stored in the truck through the Cargo Management System app. Based on the selection, the temperature and humidity values at which the goods are supposed to be stored will be known. Using the DHT11 sensor, the actual temperature and humidity inside the truck can be known.

The temperature and humidity values can be obtained from the app. By comparing these values, a message will be sent to the authorized person asking him/her to turn on the AC or the heater in any abnormal conditions.

The air quality inside the truck is constantly monitored using MQ135 sensor. If the quality of the air inside the truck is bad, a message is sent to the authorized person regarding the same.

Through this goods can be maintained in constant conditions and their quality is maintained for a longer time. A fire sensor is also deployed in the truck to detect fire. If the fire is detected, the buzzer rings alerting the driver of the fire. The door of the truck is automated using a servo motor.

The authorized person of the truck can open or close the door of the truck using the Cargo Management System app.

GPS-based Child Tracker with Emergency Text Alerts IoT Project

The hectic life of parents makes it very difficult to personally look after the kids. To overcome the problem of personal monitoring of children, we have come up with the idea of a GPS-based tracker with text alerts when the child is not present in the specified region.

Problem Statement :

To solve the problem of difficulty in keeping a check on children while they are playing in open areas while letting the children have their freedom to play from constantly being mocked by parents and to monitor the whereabouts of children by working parents. There is a similar project on Women Security System that can be seen here

Project Working Process :

Hardware components.

Arduino UNO
GSM/GPRS Module

Software’s Used

Arduino IDE
Android (MIT App Inventor)

In this context, the solution we propose is a GPS-based Child Tracker with Emergency Text Alerts android application that can help parents in tracking the presence of their children. This application works with the help of android mobile-enabled with the ‘SMS’ feature and ‘Global-Positioning System (GPS)’ on the GSM network.

This Child Tracker with Emergency Notifier application works in two ways, the first is GPS-based is related to Location services, and the second is SMS-based which is related to Network services. In case when the Location-based services not working then the application alternatively use Network-based services that can send and receive messages.

CHILD TRACKER WITH EMERGENCY NOTIFIER Block Diagram

The GSM and GPS module is connected to Arduino Uno. The GSM module has a sim (data) through which we can receive message alerts and the GPS helps to track the location.

The data is sent to the cloud from GSM using AT commands and HTTP. The cloud is connected to the mobile app and the data is displayed in the app installed on the parent’s mobile.

Useful Projects on Self Security in Emergency Situations:

Self Security through GPS based Protection System

Stay Safe Women Security Android App Project Report

The GPS-based Child Tracker with Emergency Text Alerts app is integrated with maps and geo-fence.

The GPS is connected to Arduino using a VCC pin, GND pin, RX pin, and TX pin. Connections: VCC to 3V3, GND to GND, RX to TX, and TX to RX respectively. GSM is connected to Arduino using VCC, GND, RX, and TX pins. Connections: VCC to 5V, GND to GND, pin 3 to TX, pin 4 to RX respectively.

A tiny GPS++ library is included. Using IBM cloud (node-red flow editor) the data is sent to a mobile app developed using MIT app inventor.

Home Safety and Security System Using IoT Project

The main objective of the Home Safety and Security System Using IoT project is to implement a home safety and security system with the following features:

Monitoring and detection of leaks in LPG gas
Unauthorized opening of door/window

Hardware Requirements:

The hardware for the project consists of:

GISMO-V board with:

ESP32 dual-core 32-bit processor with Wi-Fi and BLE
MQ6 sensor module
Magnetic switch assembly
0.96” OLED display with 128×64 resolution

Cloud Platform:

In this project, we are going to use Google’s firebase as a cloud database. It is a No-SQL database in which data is stored as Key-Value pairs.

To access the database the following credentials are required

Database authentication key

These credentials are put into the ESP32 firmware to access the Google Firebase. The keys used to store the parameter values in the project are:

IOTLAB/HSSS/Gas_Leak
IOTLAB/ HSSS/Window_Open

Mobile App:

The Modular rapid mobile app development utility is used for the development of the mobile app. The utility has two modes, a Developer mode, and a Blocks mode. Different functional blocks are available in developer mode, they are – User Interface, Sensors, Connectivity, Firebase, and so on.
In the Blocks mode, a timer with timing set to two seconds will fetch the LPG gas concentration and magnetic switch status values from the Firebase database and fill it in the appropriate place in the UI.
To access the Firebase dataset its credentials will be placed in the Firebase component of the Modular app.

Results and Conclusions:

With the help of the MQ6 sensor and magnetic switch, we monitored the leakage in LPG gas and also the window/door open status. We can get notified with the help of the mobile app.

Download the complete Home Safety and Security System Using IoT Project code, report, ppt, design document, and SRS.

Design & Development of Smart Dustbin Project

The Smart Dustbin Project comes under the domain of Environment, Health, and Hygiene. Through this Smart Dustbin project, we aimed to build a working prototype of a dustbin whose lid opens automatically, without any contact when a person comes near it (in the range of 2 – 30 centimeters) to throw the trash. Since the process is contactless it maintains public hygiene and sanitation. Moreover, there are many instances in public places where the dustbins overflow because of irregularity in the waste collection from the dustbin (which is usually done by the municipality sanitation workers).

To overcome this issue, our next target was to provide functionality such that when the dustbin is full, it will not open at all if the person comes near it to throw the trash. Now, a sanitation worker will need to open the bin to empty the contents irrespective of whether it is full. Therefore, to unload the bin in case it is full we provided a switch that when pressed will open the lid in any case. And in this case, the lid will continue to remain open until there is an object (hand) in front of the ultrasonic sensor in the predefined range.

This Smart Dustbin product can be useful in all the places where the dustbin is frequently used and minimal or no contact is expected from the user. For example, doctors can use this in an operation theatre, flight attendants can use it while serving food, it can also be used in public toilets, etc. In countries like India, where waste management is a crucial problem, it is important to work further on such products that provide methods to collect the garbage along with maintaining proper hygiene as well as contributing to the environment.

Using a microcontroller-based system, we achieved the 3 functionalities at the end of this project that we had aimed for.

1. First, we were able to open the dustbin without any contact using the ultrasonic sensor (the side sensor). It is programmed to detect motion in the range of 2 – 30 centimeters in front of it and this will open the lid.

2. The second functionality is that when the dustbin is full (it reaches a level defined in the code), it will not open even if there is movement in front of the side sensor. This functionality is helpful to resolve the issue of the overloaded dustbins which are often seen in public places all around India. The level of the garbage inside the dustbin is sensed using another ultrasonic sensor (the top sensor).

3. Finally, the last functionality is to be able to unload the dustbin when it is full. This functionality is needed because when the garbage in the dustbin reaches a particular level, after that it can not be opened even with the motion in front of the side sensor (because of the second functionality). Therefore, in this case, to unload the dustbin for reusing we added a pushbutton in our circuit.

Components Used:

ARDUINO – UNO
2 HC-SR04 Ultrasonic Sensors – One on the cylindrical surface (Side Sensor) and the other on the lid (Top Sensor)
Mini/Micro Servo Motor (9 gms)
4-pin push button
9-volt power supply
Jumper wires
Breadboard code:

Visit Here to Download the Complete Smart Dustbin project code, report, Output Video Link, and any academic project help from the project developer.

I'm interested in using this for my final project, please send code related to this project.

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How to do this project what are the software requirements plz can u tell this will help for my final…

a good project

Civil Geotechnical Engineering Projects List
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Civil Engineering Construction Management Projects
Civil Structural Engineering Projects
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Hackathon the Code Festival Java Project
Simple Hospital Management System Project in C
E-Commerce Website for Online Nursery Store Plants & Accessories
Bookstore Management System PHP MySQL Project

.Net Framework AI Ajax Anaconda Android ANOVA Arduino UNO Asp.Net Bootstrap C#.Net C++ CSS DBMS Django Framework Eclipse Firebase Flask GitHub GPS Module GUI HTML IBM Cloud IBM Watson IOS IoT Java Javascript JDBC jQuery Js JSON JSP ML Mobile apps MongoDB Ms Access MVC MySQL Netbeans IDE Node-Red NODE JS OpenCV Oracle PHP PHPMyAdmin Python Raspberry pi React js Salesforce Servlets Spring SQL SQLite SQL Server Tomcat UI Visual Studio Code WAMP xampp XML

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9 of the Best Project Ideas for ECE Students in Their Final Year

Colleges like IITs, NITs, Vellore Institute of technology, Arya College Jaipur Main Campus, College of Engineering Pune, Birla Institute of Technology and Science Pilani, and more focus on the final year projects for ECE engineering so that the students can get proper placement.

Proper knowledge and understanding of the latest electronics technologies are crucial to enhancing credibility and developing primary projects for ECE students. Here, we show you the best final-year projects you can use for your ECE engineering.

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1. Robotic vehicle controlled through touch screen-based device

This is the incredible final year project for ECE engineering used to design the robotic vehicle that can be utilized to control the android based device. The project also uses a robot, and based on the input here, the touchscreen-based device is utilized.

The project also has the use of RF Tx & Rx as well as a microcontroller. The touch screen device is connected at the end of Tx, whereas the microcontroller is connected to the rECEiver’s end. By utilizing the remote, the motor in any robot can be controlled left, forward, right, and backward to a distance of 200 meters.

2. Coal mine system for safety alerting and monitoring

The procedure to remove coal from the underground is recognized as coal mining, and different companies like steel, cement, and more use the fuel similar to coal. In the mining industries, distinct everyday parameters can also be monitored like methane gas, temperature, fire, etc.

The disasters in coal mining will often occur, leading to a massive loss for humans and humanity due to numerous reasons. Hence, monitoring the working environment is essential in coal mining, and the proposed project is utilized for coal mining with the help of IoT, the internet of things.

3. IoT-based home automation system

The Home automation system based on Internet of Things is another topic for final year projects for ECE engineering that is utilized to remotely control home appliances with the help of the Internet. The proposed system is not only used to examine the sensor data, including temperature, gas, and light but is also used to initiate a procedure based on the need.

For example, it turns on the light when it becomes dim. It is also utilized in storing the sensor’s parameters within the cloud appropriately, allowing the users to study and analyze the situation of various parameters in the house at any time and from any location.

4. Home automation for disabled persons using his voice tag

This is also one of the best final year projects for ECE engineering that implements a home automation system controlled via voice commands. This type of project is primarily designed for disabled, elderly, and bedridden people to utilize an Android application to control appliances. It is also because operating home appliances is challenging for the bedridden as well as the elderly, and this project will employ voice commands in conjunction with switches to control the home appliances.

In this case, an Android application is used to collect the voice commands from the users. The timer and effort required to control the appliances can be reduced using this incredible project.

5. IoT-based reduction of electricity theft

Nowadays, energy theft is the primary issue because it is highly precious, but the resources are limited as well as electricity theft is somehow increasing. Therefore, the proposed system is utilized to overcome the problem, like reducing electricity theft as per the Internet of Things technology.

The system is utilized to understand electricity theft as well as to check the utilization of energy while informing the customer. The system will use WiFi connectivity to implement the internet of things network. The data will be transferred to the remote server using the internet of things server, which will require some differences to utilize the electricity.

6. Propeller LED display

The propeller LED display utilizes some LEDs that rotate at a higher velocity to generate the screen. In the LED display system, the set of LEDs will be rotated so that symbols, numbers, as well as characters, can be circularly rotated, so this is the reason to call the system the LED display.

The shape of this LED display system is disc or cylindrical. The cylindrical displays are utilized to display the digit and text, whereas the disc-shaped displays are utilized to display the analog clock. This project is a mechanically scanned device used to display the characters in digital form. Therefore, the applications of these displays incorporate both digital and analog clocks and display messages.

7. Biometric fingerprint identification for bank locker security system

The project is utilized to provide security to all the bank lockers with the help of biometric fingerprint technology. This security system uses RFID, fingerprint, password, and GSM. This is one of the final year projects for ECE engineering where users are required to enroll their personal details like secret code, person’s name, and mobile number after the user will place their finger on the biometric module so that the system can scan the fingerprint and store the fingerprint ID.

8. IVRS-based home automation with voice feedback

One of the final year projects for ECE engineering is IVRS for home automation using voice feedback. This will implement the home automation system with voice feedback and IVRS. The project is also used to control household devices like fans, TV, tube lights from anywhere around the world, or Bluetooth technology.

The project is developed using dissimilar technologies alongside the dissimilar microcontrollers via hardware. The primary benefit of this project is that the user can rECEive voice feedback. Once the device gets turned on, users will rECEive a voice message on the mobile that states the AC is turned on. The owner will be reminded to turn it off if not in use.

9. Detecting air pollution in vehicles using an embedded system

This is the final year project for ECE engineering used to develop the embedded system to detect air pollution in vehicles. Air pollution is a primary issue worldwide, and to overcome this, the project is designed to detect the pollution within the air. It incorporates carbon monoxide and LPG sensors. The arrangement of CO sensors can be done as per the outlet of emission in the vehicle, whereas the LPG sensor is connected closer to the pipeline to notice the outflows. The buzzer will alert the user once the emission gets higher than the threshold value.

With how science and technology have evolved from all those years back, we can feel the changes around and with how creative and determined today’s youth is we believe the world can become a better place to live in.

The above-mentioned projects are just some of the ideas that you can use in your resume or portfolio. We hope you create and use them well, do not forget to study them thoroughly for a better presentation and expand the ocean of your knowledge. Understand them while you use them for your projects as these are just not projects but a step for you to create a developed world in the future.

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Hand-Picked ECE Projects for Electronics Engineers

Electronics and Communication Engineering (ECE) Students and Enthusiasts are always searching for new projects to try out in their free time. They are also constantly searching for a good reference for their final-year projects.

So, in this article, we have compiled a list of top ECE projects for Electronics Engineers. You can click on the project name to know more about that particular ECE project.

List of ECE Projects

Raspberry pi-based ece projects .

Bonus Tip: Arduino Projects Ideas

Communication-based ECE Projects

Robotics-based ECE Projects

Recommended: 25+ Robotics Projects Ideas

Sensor-based ECE Project Ideas

Medical and Health-based ECE Projects

Looking for more ECE projects for engineering students? We’ve got you covered. Explore a wide range of project topics in our Electronics Projects section.

Discover projects related to-

Embedded System Projects
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Mini-projects

Find over 1000+ Electronics DIY Projects listed to spark your inspiration.

This article was first published on 20 September 2020 and recently updated on August 2023.

ece projects

Hi friends I have studied all the projects which are published above I am very happy to know about them. Well I have an idea to save the life’s of people. Let us warn them about their life’s.We can introduce an app to their mobiles that we can know a person using a mobile while driving or not.Many people lost their life’s due to this and their families becoming helpless.Let us help to the government in catching this kind of people and warn them.This may help the public to know about the value of their life.

hey , have you done that.

hii i have a idea of making a artificial skin that can feel human touches and feel the temperature as well. can anyone please help me the contact me (email- [email protected] )

Kindly email us at [email protected]

can you please check your mail i have already mailed you

It’s helps to improve your knowledge

Thank you for your valuable feedback

Hi EYF Team Thank you very much for your valuable information. I am parent of an ECE student. I am searching for a good idea. Your site threw enough light on these projects. I had a doubt. Can my child select one of the idea’s from these and take up the project . Will it be considered for publishing as it is not my child’s own idea.

Sure, you can use this project for Educational purposes. But if you are using it for another website or magazine, you will have to provide a reference link to our website/article.

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Home > Engineering > ECE > Electrical & Computer Engineering Masters Theses Collection

Electrical & Computer Engineering Masters Theses Collection

Theses from 2024 2024.

Extracting DNN Architectures Via Runtime Profiling On Mobile GPUs , Dong Hyub Kim, Electrical & Computer Engineering

Semantic-Aware Blockchain Architecture Design for Lifelong Edge-enabled Metaverse , Ning Wang, Electrical & Computer Engineering

Blockchain Design for a Secure Pharmaceutical Supply Chain , Zhe Xu, Electrical & Computer Engineering

Collaborative Caching and Computation Offloading for Intelligent Transportation Systems enabled by Satellite-Airborne-Terrestrial Networks , Shulun Yang, Electrical & Computer Engineering

Protecting Return Address Integrity for RISC-V via Pointer Authentication , yuhe zhao, Electrical & Computer Engineering

Theses from 2023 2023

Fingerprinting for Chiplet Architectures Using Power Distribution Network Transients , Matthew G. Burke, Electrical & Computer Engineering

Design and Fabrication of a Trapped Ion Quantum Computing Testbed , Christopher A. Caron, Electrical & Computer Engineering

Analog Cancellation of a Known Remote Interference: Hardware Realization and Analysis , James M. Doty, Electrical & Computer Engineering

Electrothermal Properties of 2D Materials in Device Applications , Samantha L. Klein, Electrical & Computer Engineering

Ablation Study on Deeplabv3+ for Semantic Segmentation , Bowen Lei, Electrical & Computer Engineering

A Composability-Based Transformer Pruning Framework , Yuping Lin, Electrical & Computer Engineering

A Model Extraction Attack on Deep Neural Networks Running on GPUs , Jonah G. O'Brien Weiss, Electrical & Computer Engineering

Heterogeneous IoT Network Architecture Design for Age of Information Minimization , Xiaohao Xia, Electrical & Computer Engineering

Theses from 2022 2022

Theory and Analysis of Backprojection Processing for Interferometric SAR , Marc Closa Tarres, Electrical & Computer Engineering

Unpaired Skeleton-to-Photo Translation for Sketch-to-Photo Synthesis , Yuanzhe Gu, Electrical & Computer Engineering

Integration of Digital Signal Processing Block in SymbiFlow FPGA Toolchain for Artix-7 Devices , Andrew T. Hartnett, Electrical & Computer Engineering

Planar Ultra-Wideband Modular Antenna (PUMA) Arrays for High-Volume Manufacturing on Organic Laminates and BGA Interfaces , James R. LaCroix, Electrical & Computer Engineering

Planar Transmission-Line Metamaterials on an Irregular Grid , Tina E. Maurer, Electrical & Computer Engineering

Formally Verifiable Synthesis Flow In FPGAs , Anurag V. Muttur, Electrical & Computer Engineering

Theses from 2021 2021

Graph-Algorithm Based Verification on Network Configuration Robustness , Zibin Chen, Electrical & Computer Engineering

A Cloud Infrastructure for Large Scale Health Monitoring in Older Adult Care Facilities , Uchechukwu Gabriel David, Electrical & Computer Engineering

Internet Infrastructures for Large Scale Emulation with Efficient HW/SW Co-design , Aiden K. Gula, Electrical & Computer Engineering

Mtemp: An Ambient Temperature Estimation Method Using Acoustic Signal on Mobile Devices , Hao Guo, Electrical & Computer Engineering

BENCHMARKING SMALL-DATASET STRUCTURE-ACTIVITY-RELATIONSHIP MODELS FOR PREDICTION OF WNT SIGNALING INHIBITION , Mahtab Kokabi, Electrical & Computer Engineering

ACTION : Adaptive Cache Block Migration in Distributed Cache Architectures , Chandra Sekhar Mummidi, Electrical & Computer Engineering

Modeling and Characterization of Optical Metasurfaces , Mahsa Torfeh, Electrical & Computer Engineering

TickNet: A Lightweight Deep Classifier for Tick Recognition , Li Wang, Electrical & Computer Engineering

Lecture Video Transformation through An Intelligent Analysis and Post-processing System , Xi Wang, Electrical & Computer Engineering

Correcting For Terrain Interference, Attenuation, and System Bias for a Dual Polarimetric, X-Band Radar , Casey Wolsieffer, Electrical & Computer Engineering

Theses from 2020 2020

Numerical Simulation of Thermoelectric Transport in Bulk and Nanostructured SiSn Alloys , Venkatakrishna Dusetty, Electrical & Computer Engineering

Deep Reinforcement Learning For Distributed Fog Network Probing , Xiaoding Guan, Electrical & Computer Engineering

COMPRESSIVE PARAMETER ESTIMATION VIA APPROXIMATE MESSAGE PASSING , Shermin Hamzehei, Electrical & Computer Engineering

Metric Learning via Linear Embeddings for Human Motion Recognition , ByoungDoo Kong, Electrical & Computer Engineering

Compound Effects of Clock and Voltage Based Power Side-Channel Countermeasures , Jacqueline Lagasse, Electrical & Computer Engineering

Network Virtualization and Emulation using Docker, OpenvSwitch and Mininet-based Link Emulation , Narendra Prabhu, Electrical & Computer Engineering

Thermal Transport Modeling Of Semiconductor Materials From First Principles , Aliya Qureshi, Electrical & Computer Engineering

CROSSTALK BASED SIDE CHANNEL ATTACKS IN FPGAs , Chethan Ramesh, Electrical & Computer Engineering

Accelerating RSA Public Key Cryptography via Hardware Acceleration , Pavithra Ramesh, Electrical & Computer Engineering

Real-Time TDDFT-Based Filtered Spectroscopy , Ivan Williams, Electrical & Computer Engineering

Perception System: Object and Landmark Detection for Visually Impaired Users , Chenguang Zhang, Electrical & Computer Engineering

Theses from 2019 2019

An Empirical Analysis of Network Traffic: Device Profiling and Classification , Mythili Vishalini Anbazhagan, Electrical & Computer Engineering

Pre-Travel Training And Real-Time Guidance System For People With Disabilities In Indoor Environments , Binru Cao, Electrical & Computer Engineering

Energy Efficiency of Computation in All-spin Logic: Projections and Fundamental Limits , Zongya Chen, Electrical & Computer Engineering

Improving Resilience of Communication in Information Dissemination for Time-Critical Applications , Rajvardhan Somraj Deshmukh, Electrical & Computer Engineering

InSAR Simulations for SWOT and Dual Frequency Processing for Topographic Measurements , Gerard Masalias Huguet, Electrical & Computer Engineering

A Study on Controlling Power Supply Ramp-Up Time in SRAM PUFs , Harshavardhan Ramanna, Electrical & Computer Engineering

The UMass Experimental X-Band Radar (UMAXX): An Upgrade of the CASA MA-1 to Support Cross-Polarization Measurements , Jezabel Vilardell Sanchez, Electrical & Computer Engineering

A Video-Based System for Emergency Preparedness and Recovery , Juechen Yin, Electrical & Computer Engineering

Theses from 2018 2018

Phonon Transport at Boundaries and Interfaces in Two-Dimensional Materials , Cameron Foss, Electrical & Computer Engineering

SkinnySensor: Enabling Battery-Less Wearable Sensors Via Intrabody Power Transfer , Neev Kiran, Electrical & Computer Engineering

Immersive Pre-travel Training Application for Seniors and People with Disabilities , Yang Li, Electrical & Computer Engineering

Analog Computing using 1T1R Crossbar Arrays , Yunning Li, Electrical & Computer Engineering

On-Chip Communication and Security in FPGAs , Shivukumar Basanagouda Patil, Electrical & Computer Engineering

CROWDSOURCING BASED MICRO NAVIGATION SYSTEM FOR VISUALLY IMPAIRED , Quan Shi, Electrical & Computer Engineering

AN EVALUATION OF SDN AND NFV SUPPORT FOR PARALLEL, ALTERNATIVE PROTOCOL STACK OPERATIONS IN FUTURE INTERNETS , Bhushan Suresh, Electrical & Computer Engineering

Applications Of Physical Unclonable Functions on ASICS and FPGAs , Mohammad Usmani, Electrical & Computer Engineering

Improvements to the UMASS S-Band FM-CW Vertical Wind Profiling Radar: System Performance and Data Analysis. , Joseph Waldinger, Electrical & Computer Engineering

Theses from 2017 2017

AutoPlug: An Automated Metadata Service for Smart Outlets , Lurdh Pradeep Reddy Ambati, Electrical & Computer Engineering

SkyNet: Memristor-based 3D IC for Artificial Neural Networks , Sachin Bhat, Electrical & Computer Engineering

Navigation Instruction Validation Tool and Indoor Wayfinding Training System for People with Disabilities , Linlin Ding, Electrical & Computer Engineering

Energy Efficient Loop Unrolling for Low-Cost FPGAs , Naveen Kumar Dumpala, Electrical & Computer Engineering

Effective Denial of Service Attack on Congestion Aware Adaptive Network on Chip , Vijaya Deepak Kadirvel, Electrical & Computer Engineering

VIRTUALIZATION OF CLOSED-LOOP SENSOR NETWORKS , Priyanka Dattatri Kedalagudde, Electrical & Computer Engineering

The Impact of Quantum Size Effects on Thermoelectric Performance in Semiconductor Nanostructures , Adithya Kommini, Electrical & Computer Engineering

MAGNETO-ELECTRIC APPROXIMATE COMPUTATIONAL FRAMEWORK FOR BAYESIAN INFERENCE , Sourabh Kulkarni, Electrical & Computer Engineering

Time Domain SAR Processing with GPUs for Airborne Platforms , Dustin Lagoy, Electrical & Computer Engineering

Query on Knowledge Graphs with Hierarchical Relationships , Kaihua Liu, Electrical & Computer Engineering

HIGH PERFORMANCE SILVER DIFFUSIVE MEMRISTORS FOR FUTURE COMPUTING , Rivu Midya, Electrical & Computer Engineering

Achieving Perfect Location Privacy in Wireless Devices Using Anonymization , Zarrin Montazeri, Electrical & Computer Engineering

KaSI: a Ka-band and S-band Cross-track Interferometer , Gerard Ruiz Carregal, Electrical & Computer Engineering

Analyzing Spark Performance on Spot Instances , Jiannan Tian, Electrical & Computer Engineering

Indoor Navigation For The Blind And Visually Impaired: Validation And Training Methodology Using Virtual Reality , Sili Wang, Electrical & Computer Engineering

Efficient Scaling of a Web Proxy Cluster , Hao Zhang, Electrical & Computer Engineering

ORACLE GUIDED INCREMENTAL SAT SOLVING TO REVERSE ENGINEER CAMOUFLAGED CIRCUITS , Xiangyu Zhang, Electrical & Computer Engineering

Theses from 2016 2016

Seamless Application Delivery Using Software Defined Exchanges , Divyashri Bhat, Electrical & Computer Engineering

PROCESSOR TEMPERATURE AND RELIABILITY ESTIMATION USING ACTIVITY COUNTERS , Mayank Chhablani, Electrical & Computer Engineering

PARQ: A MEMORY-EFFICIENT APPROACH FOR QUERY-LEVEL PARALLELISM , Qianqian Gao, Electrical & Computer Engineering

Accelerated Iterative Algorithms with Asynchronous Accumulative Updates on a Heterogeneous Cluster , Sandesh Gubbi Virupaksha, Electrical & Computer Engineering

Improving Efficiency of Thermoelectric Devices Made of Si-Ge, Si-Sn, Ge-Sn, and Si-Ge-Sn Binary and Ternary Alloys , Seyedeh Nazanin Khatami, Electrical & Computer Engineering

6:1 PUMA Arrays: Designs and Finite Array Effects , Michael Lee, Electrical & Computer Engineering

Protecting Controllers against Denial-of-Service Attacks in Software-Defined Networks , Jingrui Li, Electrical & Computer Engineering

INFRASTRUCTURE-FREE SECURE PAIRING OF MOBILE DEVICES , Chunqiu Liu, Electrical & Computer Engineering

Extrinsic Effects on Heat and Electron Transport In Two-Dimensional Van-Der Waals Materials- A Boltzmann Transport Study , Arnab K. Majee, Electrical & Computer Engineering

SpotLight: An Information Service for the Cloud , Xue Ouyang, Electrical & Computer Engineering

Localization, Visualization And Evacuation Guidance System In Emergency Situations , Jingyan Tang, Electrical & Computer Engineering

Variation Aware Placement for Efficient Key Generation using Physically Unclonable Functions in Reconfigurable Systems , Shrikant S. Vyas, Electrical & Computer Engineering

EVALUATING FEATURES FOR BROAD SPECIES BASED CLASSIFICATION OF BIRD OBSERVATIONS USING DUAL-POLARIZED DOPPLER WEATHER RADAR , Sheila Werth, Electrical & Computer Engineering

Theses from 2015 2015

Quality Factor of Horizontal Wire Dipole Antennas near Planar Conductor or Dielectric Interface , Adebayo Gabriel Adeyemi, Electrical & Computer Engineering

Evaluation of Two-Dimensional Codes for Digital Information Security in Physical Documents , Shuai Chen, Electrical & Computer Engineering

Design and Implementation of a High Performance Network Processor with Dynamic Workload Management , Padmaja Duggisetty, Electrical & Computer Engineering

Wavelet-Based Non-Homogeneous Hidden Markov Chain Model For Hyperspectral Signature Classification , Siwei Feng, Electrical & Computer Engineering

DEVELOPMENT OF INFRARED AND TERAHERTZ BOLOMETERS BASED ON PALLADIUM AND CARBON NANOTUBES USING ROLL TO ROLL PROCESS , Amulya Gullapalli, Electrical & Computer Engineering

Development of Prototypes of a Portable Road Weather Information System , Meha Kainth, Electrical & Computer Engineering

ADACORE: Achieving Energy Efficiency via Adaptive Core Morphing at Runtime , Nithesh Kurella, Electrical & Computer Engineering

Architecting SkyBridge-CMOS , Mingyu Li, Electrical & Computer Engineering

Function Verification of Combinational Arithmetic Circuits , Duo Liu, Electrical & Computer Engineering

ENERGY EFFICIENCY EXPLORATION OF COARSE-GRAIN RECONFIGURABLE ARCHITECTURE WITH EMERGING NONVOLATILE MEMORY , Xiaobin Liu, Electrical & Computer Engineering

Development of a Layout-Level Hardware Obfuscation Tool to Counter Reverse Engineering , Shweta Malik, Electrical & Computer Engineering

Energy Agile Cluster Communication , Muhammad Zain Mustafa, Electrical & Computer Engineering

Architecting NP-Dynamic Skybridge , Jiajun Shi, Electrical & Computer Engineering

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ECE Capstone Projects

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About the ECE Capstone Course

The Carnegie Mellon University Department of Electrical and Computer Engineering offers an ECE Design Experience course (18-500) every semester. As part of this class, students work in teams to develop interdisciplinary capstone projects over the course of a semester. The students start from a blank slate, developing a problem statement, and iterating through the design process, to build a working project under several real-world constraints.

This site provides links to both completed and ongoing projects, where students can document their entire design process. We will periodically feature some of the most successful and/or interesting projects.

Spring 2024 Capstone Projects

Team A0: Brailliant
Team A1: Pour-over-and-over
Team A2: HoverRail
Team A3: Bike Buddy
Team A4 - BeatLock
Team A5: Chargin'
Team A6: Aqualotl
Team A7: deciBright
Team A8: Pongpal
Team B0: EchoBudget
Team B1: Homerover
Team B2: SmartStand
Team B3: Music Mirror
Team B5: Guardian
Team B6: EyeSPy
Team B7: Scotty Maps
Team B8: Landhopper
Team C0: CueTips
Team C1: WeARClean
Team C2: TailorBot Room Designer
Team C3: Fast Grocery Checkout
Team C4: maGomoku
Team C5: FPGA-AMP
Team C6: Cameraman
Team C7: Search and Aid
Team C8: BenchSense
Team D0: Nav-Assist
Team D1: Sugar DB
Team D2: SightMate
Team D3: IntelliStorage
Team D4: UNOmatic
Team D5: Sonic Score Saxophonics
Team D6: Analog SQP Solver
Team D7: EchoSign
Team D8: Traffix
Team E0: Focus Tracker App
Team E1: GiveMeASign
Team E2: NutrientMatch
Team E3: Crisis Critters
Team E4: The Embellisher
Team E5: Sous-Chef
Team E6: TransLingualVisionary
Team E7: IntelliRack
Team E8: TableCast

Fall 2023 Capstone Projects

Team A0: Go Learning Buddy
Team A1: Mouseketool
Team A2: SuperFret
Team A3: N-body
Team A4: DigiBraille
Team A5: FollowMe
Team B0: AutoErasing
Team B1: Circuit Simulpaper
Team B2: Harmony Instruction Tool
Team B3: Scenescribe
Team B4: Taichine
Team B5: Transcriber
Team B6: SoundSync

Spring 2023 Capstone Projects

Team A0: Tactile Chess
Team A1: Multi-room Space Heater Temperature Control
Team A2: CyberJewelry
Team A3: LiftOff
Team A4: TeleTouch
Team A5: Dr. Green
Team A6: Flying Under the Radar
Team A7: Jack of All Trades
Team A8: Sensor Suit
Team B0: No Time to Dine
Team B1: FP(KEY)A
Team B2: Can U Cardio?
Team B3: Mobile Steering
Team B4 : Robotic Trash Concierge
Team B5: LaserDrop
Team B6: Anywhere Piano
Team B7: PetSTAR
Team B8: FireEscape
Team C0: People Counter
Team C1: B.L.I.N.D.S.
Team C2: WiSpider
Team C3: Best Ball
Team C4: PosePal
Team C5: DriveWise
Team C6: Picture This!
Team C7: 8 Ball lifeguard
Team C8: ScentBot
Team D0: KaraoKey
Team D1: The Emperor’s New Instrument
Team D2: Keynetic
Team D3: Meal By Words
Team D4 - Synesthesia
Team D5: Symphony AI
Team D6: The Well of Maxwell
Team D7: accompanyBot
Team D8: Musician's Scribe

Fall 2022 Capstone Projects

Team A0: Crosswalk Guardian
Team A1: FIRE AWAY
Team A2: PARROT (Parallel Asynchronous Robots, Robustly Organizing Trucks)
Team A3: Where is the Barcode?
Team A4: Recycle Queen Robot
Team B0: Seamless Autonotator
Team B1: Aware-ables
Team B2: Talking Piano
Team B3: ScottySeat

Spring 2022 Capstone Projects

Team A0: NeuroController
Team A1: Paymodoro
Team A2- The Bat-Belt
Team A3: FlexDance
Team A4: VR Ping Pong
Team A5: Hit It!
Team A6: Touch TrackIR
Team B0: Where's the Milk?
Team B1: Nature Photography Robot
Team B2: DrawBuddy
Team B3: FreshEyes
Team B4: Ride-ar
Team B5: KBBQ for KBBeginners
Team B6: Food Tracker
Team C0: CodeSwitch
Team C1: kerby
Team C2: LearNet
Team C3: Smart Traffic Camera
Team C4: CryptoHash
Team C5: Smart Parking Lot with Monitoring and Automated Vehicle Guidance
Team C6: Proj^2
Team D0: Accessibility Pi/O
Team D1: Is Mayonnaise an Instrument?
Team D2: PROGNOSTICATOR-6
Team D3: WoodwindMania
Team D4: My-Flection
Team D5: W.R.I.S.T.
Team D6: EyeHear
Team E0: To the 60's and Back
Team E1: FPGA Accelerated Fluid Simulation
Team E2: SAR
Team E4: Occupancy Monkey
Team E5: ASL Learning Platform
Team E6: waitr

Fall 2021 Capstone Projects

Team A0: D.R.O.P.
Team A1: FPGA-Assisted Verification
Team A2: Virtual Whiteboard
Team A3: FreeSeats
Team A4: ShelfBuddy
Team A5: TracKat
Team B0: Real Time Video Upscaling
Team B1: Ultimate Chess
Team B2: Lights Out
Team B3: BikewardsView
Team B4: Gesture Glove

Spring 2021 Capstone Projects

Team B0 : Autonomous Debris Collector
Team B2: Smart-Wardrobe
Team B3: FarmFresh
Team B4: Chess Teacher
Team B5: Work it
Team B6: AutoVot
Team B7: CarMa
Team B8 - Smart Mirror
Team B9: Hawkeye
Team C0: Backpack Buddy
Team C1: FP-GAme
Team C2: WiFi Localization
Team C3: Magic Mice
Team C4: HoloPyramid
Team C5 - AR FruitNinja 🍉
Team C6: Bin There Dump That
Team C8: Whiteboard Pal
Team C9: GrubTub
Team D0: BARI (Bluetooth Audio Rejiggering Instrument)
Team D1: SharpCam
Team D2: xWalk
Team D3 SmolKat: A Smart Kitchen Assistant
Team D4: Travelling Mind
Team D5: Acapella
Team D6: StenoPhone
Team D7: Pitch Perfect
Team D8: conFFTi
Team E0: Tartan's Gambit
Team E1: Drivaid
Team E2: Barista Bros
Team E3: Graduating Gardeners
Team E4: Automatic Gentleman
Team E5: Hot Pot Bot
Team E6: SHTTL <Xander L, Manny H, Joanna W>
Team E7: PokerCam
Team E8: Smart Poker Table
Team E9: Espresso Overflow
Team B1: FocusED

Fall 2020 Capstone Projects

Team A0: Falcon: the Pro Gym Assistant (FPGA)
Team A1: BLOKUS
F20 TEAM A2
Team A4: Fmpga
Team A6 : Thermonitor
Team B1: ChaseMe Alarm Clock
iRecruit | Team B2
Team B4: Smart Library
ASL Interpreter
MiGroBox: A 3D Printer For Greens

Spring 2020 Capstone Projects

A0 - AutoPuzzlr
Team A1: Cooperative vs Non-cooperative Autonomous Driving
Project Belka
Team A6: Edge Computing For Smart Home Devices
Team A7: Scalable Machine Learning Using FPGAs
Team B0: KATbot
Team B1: Asterism
RIP: Robotic Indoor Plotting
Team B3: 2D23D
Team B4 : That's So Fetch
Team B5: Codeblox
Real Time Localization System for Sports
Team B7: Resisthor
Team C1: Tetris: a Frame Perfect Game Adventure
Team E0: Sonicam
Team E1: 3D Printing Error Detection System
Caprice (Team E3)
Team E4: Run With It
Team E6, Carnegie Mellon ECE Capstone, Spring 2020
Team E7: Body Buddy
Team F0: *wave* Google
Team F2: Cookiebot, A Gesture Based Home Robot
Team F3: No Face
Team F5: E-MO

Fall 2019 Capstone Projects

ALTERAudio: Nicholas Paiva Roshan Nair Nicholas Saizan
UPMC (Ultimate Power Motor Controller)
Team A2 - laSEEr
Team A4: Carrel Corral
Team B0: Vehicle Cyclist Collision avoidance System
Team B1: IR MAN
Team B² - Jamming Attack on Voice Recognition Systems
Team B4 : Smart Trash Can

Electronics Engineering Projects

What is electronics engineering.

Electronics engineering is the engineering domain that deals with design and development of electricity powered applications. An electronics engineer makes use of microcontrollers, electronics components with printed circuit boards to develop electronics systems and devices.

#TrendingElectronicsProjects

All Electronics Projects

Pesticide Sprayer Spider Robot with Grass Cutter
Smart Shopping Trolley that Follows Customer
IR Wireless Underwater Communication System
Advanced Footstep Power Generation System using RFID for Charging
Induction Motor Speed Controller Project
Arduino Alcohol Sense Engine Lock
Arduino Covid Disinfection Box
Arduino Based System To Measure Solar Power
Hybrid Inverter With Solar Battery Charging
Fingerprint Based Bank Locker System
Fingerprint Vehicle Starter Project
TV Remote Controlled Home Automation PIC
IOT Based ICU Patient Monitoring System
Motion Based Door Opener With Metal Detector
Automatic Light Intensity Controller By External Light Sensing
Vehicle Movement Based Street Lights With External Light Sensing
Traffic Density Control With Android Override Using Avr
Alcohol Sensing Alert with Engine Locking Project
Prepaid Energy Meter With Theft Detection
Programmable Omni Direction Robotic Arm Vehicle
Smart Room Temperature Controller Atmega
Ultrasonic Radar Project
IOT Irrigation Monitoring & Controller System
Car Safety System With Airbag Notification
Automatic Noise Level Monitor & Controller System
Induction Motor Controller and Protection System
IOT Covid Patient Health Monitor in Quarantine
Smart Wireless Battery Charging With Charge Monitor Project
DIY Bluetooth Gamepad for Android Gaming
EV BMS With Charge Monitor and Fire Protection
IOT Garbage Monitoring Using Raspberry Pi
IOT Circuit Breaker Project
Third Eye For Blind Ultrasonic Vibrator Glove
Automatic Road Reflector Light
Arduino Ultrasonic Sonar/Radar Monitor Project
Remote Control Plant Watering System Using 8051
Women Safety Night Patrolling Robot
IOT Mining Tracking & Worker Safety Helmet
Auto Baby Cry Detector Sleep Music Player PIC
Auto Water Pump Switcher
Auto Billing Mall Shopping Cart 8051
IOT Flood Monitoring & Alerting System Using Ras Pi
DIY Power Bank with Plasma Lighter
Path Planner Robot for Indoor Positioning
Wifi Based Secure Wireless Communication Using RSA
IOT Car Parking System
Solar Powered Battery Charging With Reverse Current Protection
Multi Robot Coordination For Swarm Robotics
Wearable Health Monitoring System Project
Automated Night Lighting System
Zigbee Based Gas Fire Detection System
Short Circuit Indicator Project
Sun Tracking Solar Panel Using Arduino
Object Tracker & Follower Robot Using Raspberry Pi
IOT Smart Energy Grid
Bill Prediction & Power Factor Measuring With SMS Alert
Car Accident & Alcohol Detector & Recorder Blackbox
IOT Weather Reporting System using Adruino and Ras Pi
Lifi Data Transfer System
Ultrasonic Glasses For the Blind
Social Distancing ID Card
Industrial Production Line Counter System
Pocket Piano Using 555 Timer IC
Arduino Powered MP3 Player
Portable PM10 PM2.5 Pollution Analyzer
Smart Digital SchoolBell With Timetable Display
Arduino Stepper Motor Controller
Industrial Production Target Counter Display System
Stop and Go Queue Entry Manager System
Digital Car Turning and Braking Indicator
RFID Token Based Appointment Calling System
Digital Nameplate with Visitor Sensing
Wearable Computer With Temperature Distance Sensors
Weather Imaging CubeSat with Telemetry Transmission
Ebike Speed Controller System
Air Water Pollution Sensing Smart Watch
Solar SeaWeather and Pollution Transmitter Buoy
Coin Operated Water ATM with Bottle Dispenser
Wearable Oscilloscope Smart Watch
Contactless Switch For 4 Load Switching
Smart Vehicle Headlight Auto Switching
Contactless Gesture Controlled Study Lamp
Earthquake Monitor and Alerting System
3D Scanner Machine using Arduino
4 Slot Coin Operated Cola Vending Machine
Mobile Phone & Cash UV Disinfector for COVID
8 Leg Spider Robot by Theo Jansen Linkage
IOT IV Bag Monitoring and Alert System
Portable Induction Cooktop With Time/Temp Settings
Barcode Scanner & Display using Arduino
Electromagnetic Coil Gun 3 Stage
Gesture Control Bicycle Indicator Gloves
Wireless Master Joystick Controller for Robotics
Automatic Coil Winding Machine
Waterproof Action Camera Drone
IOT Water Pollution Monitor RC Boat
Voice Controlled Air Purifier
Automatic Hydroponic Plant Grow Pot
Video Calling/Recording Smartphone Stand
Solar Power Bank with Wireless Charging
Gesture Control Bluetooth Speaker
Rain Sensing Hands Free Umbrella Bag
LIDAR Micro Done With Proximity Sensing
Contactless IOT Doorbell
RC Underwater Exploration Drone
Android Powered Juice Vending Machine
IOT Smart Parking Using RFID
IOT Syringe Infusion Pump
Programmable Robotic Arm Using Arduino
IOT Virtual Doctor Robot
COVID-19 Vaccine Cold Storage Box
IOT Weather Station Airship
Solar Floor Cleaner Robot
Arduino Multi Player Air Hockey Table
Indoor Racing Drone with Action Camera
DIY Tricopter Selfie Drone
Automatic Wire Cutter And Stripper Machine
360° Aerial Surveillance UAV With IOT Camera
360° Filmmaking Drone For 4K HD Video
Solar Outdoor Air Purifier & Air Quality Monitor
Fire Extinguisher & Fire Fighting Drone
IOT Garbage Segregator & Bin Level Indicator
Fog Disinfection Handwash Machine To Save Water
IOT Temperature & Mask Scan Entry System
Semi Automatic Back Massager Machine
Indoor Farming Hydroponic Plant Grow Chamber
Portable PPE Kit Sterilizer Ozone + UV
Thermal Screening Drone
IOT Contactless Covid Testing Booth Automation
Floating Sun Tracker Hydraulic Solar Panel
AI Bartender Cocktail Maker Machine
IOT Dog Daycare Robot
IOT Social Distancing & Monitoring Robot For Queue
Dual Mount Auto Sanitizer Dispenser
Auto Indoor Hydroponic Fodder Grow Chamber
Autonomous Theft Proof Delivery Robot For Food & Ecommerce
Social Distancing & Mask Monitor Drone
DIY Oxygen Concentrator Generator For Covid 19
DIY Ventilator using Arduino For Covid Pandemic
Auto Temperature Detector for Entrance For Covid Safety
Waste and Garbage Recycling Vending Machine Project
Raspberry Pi Based Vehicle Starter on Face Detection
Gas Leakage Detection with Buzzer System using Atmega
Water Pollution Monitoring RC Boat
Multi-purpose Sea Surveillance + Search & Rescue RC Boat
Zigbee based Wireless Home Security System
Intelligent Surveillance and Night Patrolling Drone
Automatic Waste Segregation System
Arduino based Snake Robot Controlled using Android Application
Garbage Collection Robot Using Wireless Communication Technology
Smart Door Receptionist with Smart Lock
Auto Selection of any Available Phase in 3 Phase Supply System
ACPWM Control System for Induction Motor using AVR Microcontroller
Greenhouse Monitoring and Control System using IOT Project
IOT Based Coal Mine Safety Monitoring and Alerting System
Advanced Automatic Self-Car Parking using Arduino Project
IOT Based Heart Monitoring System Using ECG
Smart Stand-up wheelchair using Raspberry Pi & RF
Arduino Based Autonomous Fire Fighting Robot
Dual Axis Solar Tracking System with Weather Sensor
Face Recognition Door Lock System Using Raspberry Pi
Raspberry Pi Vehicle Anti-Theft Face Recognition System
Home Air Quality Monitoring System Project
Voice Based Hot Cold-Water Dispenser System using Ras Pi
Rotating Solar Inverter Project using Microcontroller 50W
Vertical Axis Wind Turbine With Inverter
Raspberry Pi based Weather Reporting Over IOT
IOT Based Monitoring System for Comatose Patients
Motion Controlled Pick & Place Obstacle Avoider Robot
IOT Early Flood Detection & Avoidance
IOT Prison Break Monitoring & Alerting System
Plant Soil Moisture & Ph Sensing Alarm Using 8051
Smart Crop Protection System From Animals PIC
IOT Paralysis Patient Health Care Project
RFID Based Smart Master Card For Bus Train Metro Ticketing
Induction Motor Speed & Direction Controller
DC Motor Speed Control Using GSM
Mini Windmill Power Generation Project
Raspberry Pi Wheelchair With Safety System
Multiple Cities Load Shedding Using ARM
Automatic Lemon Juice Vending Machine
Solar Peizo Hybrid Power Charging System
Zigbee Based Room Temperature Controller Project
Load Sensing Seats With Lights Fan Control
Secure Fingerprint Bank Locker With Image Capture
Accurate Room Temperature Controller Project
High Performance Hovercraft With Power Turning
Smart Solar Grass Cutter With Lawn Coverage
PC Based Home Automation
Advanced Military Spying & Bomb Disposal Robot
Human Speed Detection Project
Hovercraft Controlled By Android
Fully Automated Solar Grass Cutter
Machine Overheat Detection With Alert
Rf Controlled Spy Robot With Night Vision Camera
GSM based Industry Protection System
Automated Visitor Counter With 7 Segment Display
Vehicle Theft Detection/Notification With Remote Engine Locking
Android Controlled Automobile
Home Automation Using Android
Zigbee Based Secure Wireless Communication Using AES
Voice Controlled Robotic Vehicle
Automated Elevator With Overload Alert
Gsm Based Weather Reporting (Temperature/Light/Humidity)
Fingerprint Authenticated Device Switcher
Fingerprint Based Exam Hall Authentication
Rain Sensing Automatic Car Wiper
Wireless Red Signal Alerting For Trains

Need Help Finding a Topic?

Nevonprojects holds the largest variety of electronics projects on the web with over 1200+ innovative electronics projects in 2021 for beginners and final year. Explore electronics development with nevonprojects with our collection of electronics projects ideas and topics for your development needs. From simple electronics projects for beginners to advanced eee projects, our electronics projects ideas researched from various electronics domains. Your search for innovative electronics projects for final year as well as for beginners at nevonprojects. Visited by over half a million users every month in search of latest electronics project ideas for eee and ece, nevonprojects is a one stop destination for electronics projects and ideas.

You are sure to find your electronics project after going through our ECE categories and domains including IOT, Sensor based electronics, power electronics, robotics, microcontrollers, mechatronics, GSM/GPS, Wireless communication and more.

Top 45+ Mini Project Ideas for ECE Students (Updated 2023)

Electronics and Communication Engineering (ECE) is a field that deals with the study and application of electronics, telecommunications, and signal processing. As technology evolves rapidly, ECE students need to gain practical knowledge and experience. Mini projects offer a unique opportunity for students to apply their theoretical knowledge to real-world problems and develop practical skills. These projects are often completed in teams, providing students with valuable experience working collaboratively with others to achieve a common goal.

In this blog, we will explore a range of mini project ideas for ECE students to help them develop practical skills and foster creativity and innovation.

Need of Mini Project for ECE students

Table of Contents

Mini Projects are essential to the ECE curriculum as they provide students hands-on experience and practical knowledge. Here are some reasons why projects are important for ECE students:

1. Enhance technical skills

Projects help students apply the theoretical concepts they have learned in the classroom to real-world applications, which enhances their technical skills.

2. Develop problem-solving skills

Projects require students to identify problems and develop innovative solutions, which helps develop their problem-solving skills.

3. Build teamwork and collaboration skills

Projects often involve teamwork, which helps students develop collaboration skills and learn how to work effectively in a team.

4. Improve communication skills

Projects require students to present their work and communicate their ideas effectively, which helps improve their communication skills.

5. Prepare for industry

Projects provide practical experience that is highly valued by employers, making students more employable after graduation.

Significance of Mini Project for ECE

Mini projects are an important part of the ECE curriculum and offer many benefits to students. Here are some of the main reasons why mini projects are significant for ECE students:

1. Practical learning experience

Mini projects provide hands-on experience to students, which is crucial in developing their skills in applying theoretical concepts learned in the classroom.

2. Skill development

Mini projects allow students to develop skills such as design, analysis, testing, troubleshooting, and project management.

3. Preparation for the future

Mini projects help students to develop problem-solving abilities, critical thinking skills, and creativity, which are essential for success in any technical profession.

4. Teamwork and collaboration

Mini projects often require students to work in teams, which helps them to develop teamwork, communication, and collaboration skills.

5. Increased confidence

Successfully completing mini-projects helps boost students’ confidence and self-esteem, which can be helpful in their academic and professional pursuits.

Elements of Mini Project for ECE

Mini projects for ECE typically consist of several key elements that help students to develop their skills and knowledge in the field. These elements may vary depending on the specific project but generally include the following:

1. Problem statement

The problem statement defines the issue that the project aims to solve. It should be clear, concise, and specific.

2. Literature review

A literature review involves researching and reviewing existing literature on the topic to understand the problem and its potential solutions better.

3. Design and planning

This element involves developing a plan or design for the project. It may include creating schematics, selecting components, and determining how the project will be executed.

4. Implementation

This element involves building and testing the project. It may involve programming, building circuits, or assembling hardware.

5. Results and analysis

After implementation, the project results are analyzed and evaluated to determine whether the problem statement has been adequately addressed. This may involve collecting data, analyzing results, and drawing conclusions.

6. Conclusion and future work

The conclusion summarizes the project and its findings. Future work outlines potential areas for further research or improvement.

Here are 45+ mini project ideas for ECE students that you must know if you are an ECE students:

1. Bluetooth-based Home Automation System

This project aims to design a system to control various home appliances using Bluetooth. The user can control the appliances with their smartphones, tablets or laptops. The system will have a Bluetooth module, a microcontroller and relays to control the appliances.

2. Automatic Street Light Controller

This project aims to automatically control street lights based on the presence of vehicles or pedestrians. The system will have sensors that detect the presence of vehicles or pedestrians and control the street lights accordingly. This will help conserve energy by switching off the street lights when not required.

3. Smart Traffic Management System

This project aims to optimize traffic flow in a given area using real-time sensor data. The system will have sensors that detect traffic density and control the traffic lights accordingly. This will help in reducing traffic congestion and improving traffic flow.

4. Wireless Power Transmission

This project aims to transmit power wirelessly over short distances using magnetic resonance. The system will have a transmitter and a receiver coil. The transmitter coil will generate an electromagnetic field that the receiver coil will receive. This technology has many applications, such as wirelessly charging mobile phones.

5. Smart Irrigation System

This project aims to optimize irrigation by automatically sensing soil moisture levels and controlling water flow. The system will have sensors that detect the soil’s moisture levels and control the water flow accordingly. This will help in conserving water and reducing water wastage.

6. RFID-based Attendance System

This project aims to develop an attendance system using RFID technology. Each student will have an RFID tag which the reader will detect as they enter the classroom. The attendance will be automatically marked and recorded in the database. The RFID tags also enable rfid asset tracking for inventory or equipment monitoring.

7. GPS-based Vehicle Tracking System

This project aims to develop a vehicle tracking system using GPS technology. The system will have a GPS module that will track the vehicle’s location in real-time. This technology is useful for fleet management and logistics.

8. Ultrasonic Distance Measurement System

This project aims to design a system to measure distance using ultrasonic waves. The system will have an ultrasonic sensor that emits ultrasonic waves and receives the reflected waves. The time taken for the waves to travel will be used to calculate the distance.

9. Smart Helmet for Bike Riders

The purpose of this project is to develop a smart helmet for bike riders. The helmet will have sensors that detect the rider’s heart rate, temperature, and speed. It will also have a camera to record the ride and a GPS module to track the location.

10. Gesture-Controlled Robot

This project aims to develop a robot that can be controlled using gestures. The system will have a camera to detect the user’s hand movements and control the robot accordingly.

11. Voice-Controlled Home Automation System

This project aims to design a system that can control various home appliances using voice commands. The system will have a voice recognition module, a microcontroller and relays to control the appliances.

12. Wireless Weather Monitoring System

This project aims to develop a system to monitor weather conditions wirelessly. The system will have sensors that detect temperature, humidity, and atmospheric pressure. The data will be transmitted wirelessly to a receiver.

13. Touchless Doorbell System

The purpose of this project is to develop a touchless doorbell system. The system will have a sensor that detects the user’s presence and rings the doorbell. This technology is useful for people with disabilities.

14. Automatic Plant Watering System

This project aims to design a system to water plants automatically. The system will have sensors that detect the soil’s moisture level and control the water flow accordingly. This technology is useful for people who travel frequently.

15. Home Security System

The objective of this project is to design a home security system. The system will have sensors that detect motion, door and window opening, and break-ins. It will also have a camera to record footage and send alerts to the user’s phone.

16. Heart Rate Monitoring System

This project aims to design a system to monitor the user’s heart rate. The system will have a sensor that detects and displays the user’s heart rate and displays it on a screen.

17. Smart Waste Management System:

The goal of this project is to optimize waste management using sensors. The system will have sensors that detect the level of waste in the bin and notify the authorities when it is full.

18. Smart Traffic Light System

This project aims to design a traffic light system that can adapt to traffic flow. The system will have sensors that detect traffic density and adjust the traffic light timings accordingly.

19. Automatic Water Level Controller

This project aims to design a system to control the water level in a tank automatically. The system will have sensors that detect the water level and control the water flow accordingly.

20. Wireless Health Monitoring System

This project aims to develop a wireless health monitoring system. The system will have sensors that detect the user’s heart rate, blood pressure, and oxygen levels. The data will be transmitted wirelessly to a receiver.

21. Intelligent Energy Management System

The purpose of this project is to design an intelligent energy management system. The system will have sensors that detect the energy consumption of appliances and control them accordingly to optimize energy usage.

22. Robotic Arm Control System

This project aims to design a control system for a robotic arm. The system will have sensors that detect the arm’s position and control it accordingly.

23. GPS-based Emergency Vehicle Tracking System

This project aims to develop a GPS-based system to track emergency vehicles. The system will have a GPS module that tracks the vehicle’s location and transmits the data to the emergency services.

24. Smart Shopping Cart

This project aims to develop a smart shopping cart. The cart will have sensors that detect the items in the cart and display the total cost on a screen. It will also have a barcode scanner to scan items.

25. Biometric Authentication System

The objective of this project is to design a biometric authentication system. The system will have a sensor that detects the user’s biometric data and verifies their identity.

26. Intelligent Traffic Signal Control System

This project aims to design an intelligent traffic signal control system. The system will have sensors that detect traffic density and adjust the traffic light timings accordingly to optimize traffic flow.

27. Wireless Home Audio System

The goal of this project is to design a wireless home audio system. The system will have a transmitter and receivers that transmit audio wirelessly to speakers placed throughout the house.

28. Automatic Room Light Controller

This project aims to design a system to control room lights automatically. The system will have sensors that detect the presence of people in the room and control the lights accordingly.

29. Vehicle Accident Detection and Alert System

This project aims to develop a system to detect vehicle accidents and alert emergency services. The system will have sensors that detect the accident’s impact and automatically send an alert to emergency services.

30. Solar Tracking System

This project aims to design a solar tracking system. The system will have sensors that detect the sun’s position and adjust the solar panels accordingly to optimize energy production.

31. Gesture-Controlled Robotic Arm

This project aims to design a robotic arm that can be controlled using gestures. The system will have sensors that detect the user’s gestures and control the robotic arm accordingly.

32. Automatic Door Control System

This project aims to design a system to control doors automatically. The system will have sensors that detect the presence of people and control the doors accordingly.

33. Automatic Irrigation System

This project aims to design a system to control irrigation automatically. The system will have sensors that detect the moisture level in the soil and control the irrigation system accordingly.

34. Vehicle Tracking System

The goal of this project is to develop a vehicle tracking system. The system will have a GPS module that tracks the vehicle’s location and transmits the data to the user’s phone.

35. Wireless Weather Monitoring System

This project aims to develop a wireless weather monitoring system. The system will have sensors that detect temperature, humidity, and other weather parameters. The data will be transmitted wirelessly to a receiver.

36. Voice-Controlled Home Automation System

This project aims to design a home automation system that can be controlled using voice commands. The system will have a microphone that detects the user’s voice and controls the appliances accordingly.

37. Smart Parking System

This project aims to design a smart parking system. The system will have sensors that detect the availability of parking spots and display the information on a screen. It will also guide the user to an available spot.

38. Traffic Density Measurement System

This project aims to design a system to measure traffic density. The system will have sensors that detect the number of vehicles passing through a road and display the information on a screen.

39. Face Recognition System

This project aims to design a face recognition system. The system will have a camera that captures the user’s face and verifies their identity.

40. Wireless Temperature Monitoring System

The goal of this project is to develop a wireless temperature monitoring system. The system will have sensors that detect temperature and transmit the data wirelessly to a receiver.

41. Microcontroller-based Energy Monitoring System

Build a microcontroller-based energy monitoring system that can measure and display the energy consumption of different appliances in a home or office. The system can use current sensors and a microcontroller to monitor the energy consumption.

42. Electronic Voting Machine

Build an electronic voting machine that can be used for voting in elections. The machine should have a display screen, keypad, and a microcontroller to store and tally votes.

43. Voice-controlled Wheelchair

Build a voice-controlled wheelchair that can be controlled using voice commands. The system can use a microcontroller and speech recognition module to control the movements of the wheelchair.

44. Arduino-based Quadcopter

Build an Arduino-based quadcopter that can be controlled using a mobile app or remote control. The quadcopter can use sensors like a gyroscope and accelerometer to stabilize its flight.

45. Remote Sensing using IoT

Develop an IoT-based remote sensing system to monitor environmental parameters like temperature, humidity, and soil moisture levels. The system can use sensors and a microcontroller to send data to a cloud server.

46. Vehicle-to-Vehicle Communication System

Build a vehicle-to-vehicle communication system that can transmit data like speed, direction, and location between vehicles using wireless communication. The system can use sensors and a microcontroller to transmit and receive data.

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How to Find Mini Project Ideas for ECE Students?

Choosing a topic for a mini project in ECE can be a challenging task, but there are several approaches you can take to find a suitable topic. Here are some tips to help you find mini-project ideas for ece students:

1. Look for inspiration

Look for inspiration from recent developments in the ECE field, such as new technologies or emerging trends.

2. Brainstorm

Take some time to brainstorm ideas with your classmates or professor. Share your thoughts and ask for feedback to refine your ideas.

3. Identify your interests

Consider your interests and passions in ECE, and try to find a topic that aligns with your areas of interest.

4. Check previous projects

Look for previous mini-projects completed by ECE students. These can provide you with ideas and insights into potential project topics.

5. Consult with your professor

Consult with your professor or academic advisor. They can offer guidance and suggestions based on your interests and academic strengths.

6. Solve a problem

Identify a real-world problem in ECE that you are passionate about and develop a solution.

Role Of Mini Project Ideas For Ece Students

Mini-project ideas play an important role in the education of ECE students. Here are some of the roles that mini-projects can play:

1. Practical application of theoretical concepts

Mini projects allow students to apply theoretical concepts they have learned in a practical setting. This helps students understand the relevance and practicality of their studied concepts.

Mini projects provide students a platform to develop practical skills such as programming, circuit design, and soldering. These skills are essential for a career in electronics and communication engineering .

3. Creativity and innovation

Mini projects encourage students to think creatively and innovatively. By working on projects, students learn to identify problems and develop solutions that are effective and innovative.

4. Teamwork

Mini projects are often completed in teams. This helps students develop teamwork skills and learn to collaborate with others to achieve a common goal.

5. Portfolio building

Mini projects can be included in a student’s portfolio and presented to potential employers. A portfolio that showcases innovative and well-executed mini-projects can help students stand out in a competitive job market.

6. Preparation for larger projects

Mini projects are a stepping stone to larger projects such as final year and research projects. By working on mini projects, students develop the skills and experience required to complete larger projects successfully.

In conclusion, mini-projects are an integral part of the education of electronics and communication engineering (ECE) students. They offer students an opportunity to apply theoretical concepts they have learned in a practical setting, develop practical skills, encourage creativity and innovation, and build teamwork skills.

Mini projects also prepare students for larger projects such as final year and research projects. By working on mini projects, ECE students develop the skills and experience required to complete larger projects and excel in their future careers successfully.

The list of mini-project ideas for ECE students is vast, and students can choose a project that aligns with their interests and expertise. Overall, mini-projects play a significant role in the education of ECE students and are an essential part of their journey toward becoming successful engineers.

Q1. How do I choose a mini-project for ECE?

To choose a mini project for ECE, consider your level of expertise, available resources, relevance to real-world problems, and potential for future development. On the other hand, look for ideas that match your interests and align with your career goals. Lastly, choose a project that challenges you and allows you to develop new skills and knowledge.

Q2. What are some benefits of working on mini-project ideas for ECE students?

Working on mini-project ideas for ECE students can help them develop practical skills in designing, building, and testing electronic circuits and systems. Furthermore, it can also improve their problem-solving and critical thinking abilities and enhance their creativity and innovation skills. Additionally, mini-projects provide opportunities for students to showcase their work and gain recognition for their achievements.

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ECE 496/499 Senior Research and Thesis: Another Way of Receiving ECE 445 Credit

ECE students can receive credit for ECE 445 Senior Design (4 Hrs) by taking Senior Research ECE 496 (2 Hrs) and Senior Thesis ECE 499 (2 Hrs) on successive semesters. If the reserach project does not involve the design or testing of an electrical hardware component, then the student needs to implement a "special circuit" to fulfill the Senior Design requirement (see the ECE 445 webpage and/or contact ECE 445 Course Director, Professor Paul Carney).

ECE 496 credit is awarded only after the completion of ECE 499. Research conducted under ECE 496/499 most frequently originates from the earlier projects of students conducted under ECE 297, ECE 396, or ECE 397. Undergraduate research, including Senior Thesis, requires proactive involvement of students in seeking research topics and ideas, and finding interested research advisers --- student groups and initiatives such as HKN , IEEE Student Chapter , and PURE (Promoting Undergraduate Reseach in ECE) can help with the process. Senior Thesis ECE 499 also fulfills the Advanced Composition (formerly Composition II) requirement.

To take the ECE 496/499 Senior Research and Thesis option, complete the ECE 496/499 form .

Undergrad Advisors

Erhan Kudeki Christopher Schmitz Molly Helgesen Tara Murray

Graduate Advisors

Jennifer Merry Sayan Mitra James Sutton Stacy Walker

Advising Contacts

ECE Office of Student Affairs 2120 ECE Building Hours: Weekdays 8am-12pm, 1-5pm PH: (217) 333-0716 FAX: (217) 333-8582

Contact Advising Office

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Home > Engineering & Technology > Electrical & Computer Engineering > ECE_ETDS

Electrical & Computer Engineering Theses & Dissertations

Theses and dissertations published by graduate students in the Department of Electrical and Computer Engineering, College of Engineering, Old Dominion University since Fall 2016 are available in this collection. Backfiles of all dissertations (and some theses) have also been added.

In late Fall 2023 or Spring 2024, all theses will be digitized and available here. In the meantime, consult the Library Catalog to find older items in print.

Theses/Dissertations from 2023 2023

Dissertation: An Advanced Simulation Architecture for Testing Autonomous and Connected Vehicles Enabled by Virtual Reality , Defu Cui

Thesis: OpenSim-Based Musculoskeletal Modeling: Foundation for Interactive Obstetric Simulator , Bahador Dodge

Dissertation: Framework for Implementing Advanced Radar Plotting Aid Capability for Small Maritime Vessels , Jason Stark Harris

Thesis: Generation Of Plasma with a Rotating Electric Field , Franklin Price Mosely

Dissertation: Deep-Learning-Based Classification of Digitally Modulated Signals , John A. Snoap

Dissertation: Wearable Sensor Gait Analysis for Fall Detection Using Deep Learning Methods , Haben Girmay Yhdego

Dissertation: Towards a Robust Defense: A Multifaceted Approach to the Detection and Mitigation of Neural Backdoor Attacks through Feature Space Exploration and Analysis , Liuwan Zhu

Theses/Dissertations from 2022 2022

Dissertation: A Preventive Medicine Framework for Wearable Abiotic Glucose Detection System , Saikat Banerjee

Dissertation: Development of High Quantum Efficiency Strained Superlattice Spin Polarized Photocathodes Via Metal Organic Chemical Vapor Deposition , Benjamin Belfore

Dissertation: Optimization of 8-Plate Multi-Resonant Coupling Structure Using Class-E 2 Based Capacitive-Wireless Power Transfer System , Yashwanth C. Bezawada

Dissertation: Detection, Tracking, and Classification of Aircraft and Birds from Multirotor Small Unmanned Aircraft Systems , Chester Valentine Dolph

Thesis: Emotion Detection Using an Ensemble Model Trained with Physiological Signals and Inferred Arousal-Valence States , Matthew Nathanael Gray

Thesis: Fabrication of NMOS Logic Gates , Samantha Hahn

Dissertation: Cyber Resilience Analytics For Cyber-Physical Systems , Md Ariful Haque

Thesis: Integrative Physiology-Coupled Pilot-Centered Flight Simulation , Shawn C. Harrison

Thesis: Frequency Agile OFDM System for Radio Communication in High Frequency Bands , Erin E. Hill

Dissertation: Applied Deep Learning: Case Studies in Computer Vision and Natural Language Processing , Md Reshad Ul Hoque

Dissertation: Development and Validation of a Three-Dimensional Optical Imaging System for Chest Wall Deformity Measurement , Nahom Kidane

Thesis: Machine Learning Classification of Digitally Modulated Signals , James A. Latshaw

Dissertation: E-Beam Irradiation Beamline at Jefferson Lab for Wastewater Treatment , Xi Li

Thesis: Chen-Fliess Series for Linear Distributed Systems , Natalie T. Pham

Dissertation: Recrystallization of Cu(In,Ga)Se 2 Semiconductor Thin Films Via Metal Halides Treatment , Deewakar Poudel

Dissertation: Fabrication of Nb 3 Sn by Magnetron Sputtering for Superconducting Radiofrequency Application , Md Nizam Sayeed

Thesis: Development of a Fuzzy Logic Model-Less Aircraft Controller , Christopher M. Scott

Thesis: Design and Analysis of Electrical Power and Communication Systems for 3U SeaLion CubeSat Mission , Joseph D. Siciliano

Theses/Dissertations from 2021 2021

Dissertation: Enhancing Thermal Stability of Perovskite Solar Cells with a Polymer Through Grain Boundary Passivation , Tanzila Tasnim Ava

Dissertation: Specification, Control, and Applications of Z-Source Circuit Breakers for the Protection of DC Power Networks , Sagar Bhatta

Dissertation: Protection and Disturbance Mitigation of Next Generation Shipboard Power Systems , Marounfa Djibo

Dissertation: Wiener-Fliess Composition of Formal Power Series: Additive Static Feedback and Shuffle Rational Series , Subbarao Venkatesh Guggilam

Dissertation: Deep Learning Approaches for Seagrass Detection in Multispectral Imagery , Kazi Aminul Islam

Thesis: Security Improvements for the Automatic Identification System , Robert E. Litts

Dissertation: Electrostatic Design and Characterization of a 200 keV Photogun and Wien Spin Rotator , Gabriel G. Palacios Serrano

Dissertation: Commissioning & Characterization of Magnetized Gridded Thermionic Electron Source , Mark Stefani

Dissertation: Towards Characterizing Adversarial Opportunity and Behavior in Critical Infrastructure Network , Md Sharif Ullah

Dissertation: Joint Linear and Nonlinear Computation with Data Encryption for Efficient Privacy-Preserving Deep Learning , Qiao Zhang

Theses/Dissertations from 2020 2020

Thesis: Deposition and Characterization of Indium Nitride and Aluminum Nitride Thin Films by Reactive Sputtering , Sushma Swaraj Atluri

Dissertation: A Novel Non-Enzymatic Glucose Biofuel Cell with Mobile Glucose Sensing , Ankit Baingane

Thesis: Hardware Development for the Generation of Large-Volume High Pressure Plasma By Spatiotemporal Control of Space Charge , Nikhil Boothpur

Dissertation: Secure Mobile Computing by Using Convolutional and Capsule Deep Neural Networks , Rui Ning

Dissertation: Topology Control, Scheduling, and Spectrum Sensing in 5G Networks , Prosanta Paul

Dissertation: Longitudinal Brain Tumor Tracking, Tumor Grading, and Patient Survival Prediction Using MRI , Linmin Pei

Dissertation: Model-Based Approach for Diffuse Glioma Classification, Grading, and Patient Survival Prediction , Zeina A. Shboul

Dissertation: Diagnostic Studies of Non-Thermal Atmospheric Pressure Nanosecond Plasma Jets , Shutong Song

Thesis: Highly Transmissive Scalable Colored Coatings for Architectural Photovoltaic Panels , Akbar Ali Syed

Dissertation: Deep Cellular Recurrent Neural Architecture for Efficient Multidimensional Time-Series Data Processing , Lasitha S. Vidyaratne

Dissertation: Virtual SATCOM, Long Range Broadband Digital Communications , Dennis George Watson

Dissertation: Comprehensive Designs of Innovate Secure Hardware Devices against Machine Learning Attacks and Power Analysis Attacks , Yiming Wen

Theses/Dissertations from 2019 2019

Thesis: Pulse Power Effects on Transient Plasma Ignition for Combustion , David Wayne Alderman II

Thesis: Demonstration of Visible and Near Infrared Raman Spectrometers and Improved Matched Filter Model for Analysis of Combined Raman Signals , Alexander Matthew Atkinson

Dissertation: Laser-Spark Multicharged Ion Implantation System ‒ Application in Ion Implantation and Neural Deposition of Carbon in Nickel (111) , Oguzhan Balki

Thesis: Radio Frequency Toolbox for Drone Detection and Classification , Abdulkabir Bello

Thesis: Computational Analysis of Antipode Algorithms for the Output Feedback Hopf Algebra , Lance Berlin

Thesis: Solid State Polyaniline Supercapacitors Based on Electrodes Fabricated with Electropolymerization , Jonathan R. Blincoe

Thesis: Design, Implementation, and Analysis of Electrical System Architecture for CubeSat to Ground Communications , Anthony G. Cappiello

Thesis: A Design of Inductive Coupling Wireless Power Transfer System for Electric Vehicle Applications , Sarika Reddy Daida

Dissertation: A Multi-Agent Systems Approach for Analysis of Stepping Stone Attacks , Marco Antonio Gamarra

Dissertation: Using Feature Extraction From Deep Convolutional Neural Networks for Pathological Image Analysis and Its Visual Interpretability , Wei-Wen Hsu

Dissertation: Enhanced Sensing Performance of Novel Nanostructured ZnO Gas Sensors in Ethanol Vapor Concentration Detection Applications , Pengtao Lin

Dissertation: Performance of Cognitive Radio Networks with Unknown Dynamic Primary User Signals , Sara L. MacDonald

Dissertation: Effect of Grain Size and Interface Engineering on the Photovoltaic Performance and Stability of Perovskite Solar Cells , Abdullah Al Mamun

Dissertation: A Laser Ion Source for Thin Film Deposition: Characterization of Source and Growth Conditions , Md Mahmudur Rahman

Thesis: Cyber Security- A New Secured Password Generation Algorithm with Graphical Authentication and Alphanumeric Passwords Along With Encryption , Akash Rao

Dissertation: MIMO Radar Waveform Design and Sparse Reconstruction for Extended Target Detection in Clutter , Christopher Alan Rogers

Dissertation: On Analytic Nonlinear Input-output Systems: Expanded Global Convergence and System Interconnections , Irina M. Winter Arboleda

Theses/Dissertations from 2018 2018

Dissertation: Deep Recurrent Learning for Efficient Image Recognition Using Small Data , Mahbubul Alam

Thesis: Characterization of Language Cortex Activity During Speech Production and Perception , Hassan Baker

Dissertation: Coexistence and Secure Communication in Wireless Networks , Saygin Bakşi

Thesis: Model-Less Fuzzy Logic Control for the NASA Modeling and Control for Agile Aircraft Development Program , Keith A. Benjamin

Thesis: Non-Destructive Evaluation for Composite Material , Desalegn Temesgen Delelegn

Thesis: Improved Thermal Stability of Cesium-Doped Perovskite Films With PMMA for Solar Cell Application , Christine M. Gausin

Thesis: A Dual Resonant Transformer and a Dielectric Antenna for Picosecond Pulse Radiation , Khiem Huynh

Thesis: A Novel Power Sharing Control Method for Distributed Generators in DC Networks , Christina James

Thesis: IDPAL - Input Decoupled Partially Adiabatic Logic: Implementation and Examination , Kevin A. Johnson

Thesis: New Method of Nickel Oxide as Hole Transport Layer and Characteristics of Nickel Oxide Based Perovskite Solar Cell , Loi Nguyen

Dissertation: Non-Invasive Picosecond Pulse System for Electrostimulation , Ross Aaron Petrella

Dissertation: Optimization of Top Contact for Cu(In,Ga)Se2 Solar Cells , Grace Cherukara Rajan

Dissertation: Generation of Large-Volume Diffuse Plasma by an External Ionization Wave From a Single-Electrode Plasma Jet , Seyed Hamid Razavi Barzoki

Dissertation: 3D Bioprinting Systems for the Study of Mammary Development and Tumorigenesis , John Reid

Dissertation: Development of a Laser-Spark Multicharged Ion System – Application in Shallow Implantation of Sic by Boron and Barium , Md. Haider Ali Shaim

Thesis: Learn-To-Fly Control System Design , Alexander Brent Streit

Theses/Dissertations from 2017 2017

Thesis: Diffusion Modeling of Impurities Through the Molybdenum Back Contact of CIGS Solar Cells , Chinedum John Akwari

Dissertation: Study of Modified Deposition Process for Cu(In,Ga)Se2 Solar Cell Back Contact , Tasnuva Ashrafee

Thesis: Virtual Substrate Synthesis for Low-Cost High Efficiency III-V , Sean J. Babcock

Dissertation: Speech Based Machine Learning Models for Emotional State Recognition and PTSD Detection , Debrup Banerjee

Thesis: Study of a High-Efficient Wide-Bandgap DC-DC Power Converter for Solar Power Integration , Yashwanth Bezawada

Thesis: Modification of Deposition Process Parameters for Uniform Indium Layer Deposition , Isaac Butt

Dissertation: Enhancement of Thermoelectric Properties of ALD Synthesized PbTe and PbSe by Phonon Engineering , Xin Chen

Thesis: A Correlational Study of SansEC Sensors’ Electric Field Distribution on Lightning Attachment , Kayla M. Farrow

Thesis: Recurrent Neural Networks and Matrix Methods for Cognitive Radio Spectrum Prediction and Security , Alexander M. Glandon

Thesis: A Study of the Sensitivity of Energy Conversion Efficiency to Load Variation in Class-E Resonant Power Inverter , Richard Samuel Jennings

Thesis: Investigation of Low Cost Substrate Approaches for III-V Solar Cells , Marlene Lydia Lichty

Thesis: Deposition of Silicon Thin Films by Ion Beam Assisted Deposition , Tejaswini Miryala

Dissertation: Low Temperature Plasma for the Treatment of Epithelial Cancer Cells , Soheila Mohades

Dissertation: The Efficacy of Programming Energy Controlled Switching in Resistive Random Access Memory (RRAM) , David Malien Nminibapiel

Dissertation: Computational Modeling for Abnormal Brain Tissue Segmentation, Brain Tumor Tracking, and Grading , Syed Mohammad Shamin Reza

Theses/Dissertations from 2016 2016

Thesis: Microbubble Generation By Piezoelectric Transducers For Biomedical Studies , Mohammed Alkhazal

Thesis: Carbon and Boron Nitride Nanotube Fabricated Supercapacitors , Derek Christian Demuth

Dissertation: Simulation, Measurement, and Emulation of Photovoltaic Modules Using High Frequency and High Power Density Power Electronic Circuits , Yunas Erkaya

Thesis: Analysis and Implementation of Communications Systems for Small Satellite Missions , Jason S. Harris

Thesis: IDPAL - Input Decoupled Partially Adiabatic Logic Family: Theory and Implementation of Side-Channel Attack Resistant Circuits , Matthew Edward McAllister

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ECE Projects for Engineering Students

Nowadays electronics play a vital role on the Earth. And we all know that it has become a part of our daily life. So, many people are showing a lot of interest in electrical and electronics concepts. Even the students are also showing a lot of interest in ECE and EEE branches in Engineering for a better future. Especially the demand for the ECE branch is increasing at a rapid rate. The branch ECE refers to electronics and communication engineering. This stream is the topmost branch in engineering. There are many opportunities for students who join this stream. Every engineering student must complete their project work to get their degree certificate. They have various options in choosing their project. For their purpose, the list of ECE projects for engineering students in various categories is listed below. ECE project ideas for electronics engineering students mainly involve in various categories like embedded, communication, solar, general electronics, etc.

ECE Projects for Electronics Engineering Students

For engineering students, projects play a very important role in the final year. They have to use their knowledge and do the projects individually with innovative ideas.

So, here we are providing the list of many ECE Projects ideas on various categories to create better knowledge on what type of projects that an ECE student can choose. Here we are providing the list of ECE projects in various categories such as Embedded Systems , Electrical, Robotics, Communication based, DTMF, GSM, PC, Solar based, Sensor-based, power electronics, general electronics, RF-based, RFID based projects, etc. Here are also providing the abstract details also along with the project ideas.

We hope this would give a better idea of choosing the best projects in the final year of engineering. The list of ECE projects for electronics engineering students in various categories is listed below.

The selection process for various ECE projects is very important for the engineering students because it influences his/her career as most of the recruiters prefer knowing the project details of the candidates. Not only has that but implementing a project also enhances your practical knowledge. Here a complete list of the embedded projects by various technologies is provided.

Bio-metrics based ECE Projects

The biometric fingerprint identification system projects are among the advanced Electronics projects. It is an advanced security system and it is applicable for banks, offices, homes, and other important places.

Biometric Fingerprint Identification Based Security System

Please refer to this link to know more about the fingerprint identification project

Biometric Fingerprint Identification based Access Control System

Please refer to this link to know more about access control system using fingerprint

Biometric Fingerprint Identification based Bank Locker Security System

project is used to provide security for bank lockers using biometric fingerprint technology. This security system project uses fingerprint, RFID, GSM & password. In this project, the user has to enroll his personal details like a person’s name, secret code & his mobile number, after that the user will place his finger on the fingerprint module so that fingerprint can be scanned as well as stored along with the fingerprint ID.

Monitoring of Time and Attendance with Fingerprint Biometric Solution

This biometric project is used to monitor staff attendance as well as time. By using this project we can eliminate buddy punching, prevent time theft, increase profits, a job can be monitored remotely, increase the productivity, precision, and satisfaction of a job.

High-level Authentication for a Power Plant using Voice Recognition

This project is used for high-level authentication of a power plant through voice recognition. This project is used for security purposes in power plants.

IVRS based Home Automation with Immediate Voice Feedback

This project is used to implement a home automation system using IVRS and voice feedback immediately. This project is used to control household devices such as TV, fan, tube lights from anywhere in the globe, or else by using Bluetooth technology.

This project can be designed by using two dissimilar technologies along with dissimilar microcontrollers through similar hardware. The main benefit of this automation project is, we can receive voice feedback. Once the device is turned ON, then we can get a voice message in the mobile which states that the AC is turned ON.

An Electronic Voting System with an Automatic Image Comparing System

There are many benefits by using EVMs as compared with the usual ways of voting like less cost, quick results, better convenience, high accuracy & less human risks. It is extremely complicated to propose an ideal EVM that can allow safety on a high level without compromise.

In the future, this project can be enhanced to implement a system to provide privacy as well as safety of votes on a suitable level through authentication & processing divisions For online electronic voting, one of the verification parameters is a facial reorganization. Similarly for offline, the verification parameter is like iris and finger detection

Home Automation for Disable Persons using His Voice Tag

This project implements a home automation system controlling through voice commands. This project is mainly implemented for disabled, elder, and bedridden people to control the appliances with the android application. For bed-ridden and elder people, operating home appliances is a difficult task so this project uses the voice commands along with switches to control the appliances.

Here, an android application is used to get the voice commands from the user. By using this project, timer, and effort in controlling the appliances can be reduced.

Prepaid Coffee Dispenser with Biometric Recharge using Fingerprint Module

This project is used to design a fingerprint module based prepaid coffee dispenser using biometric recharge. There are different biometric systems are available, in that fingerprint scanning is one of the best which gives reliable and good mismatch ratio. This project uses two technologies like biometrics and embedded systems. The fingerprint scanner used in this project is the FIM 3030N module that includes RAM, DSP & ROM.

This scanner works in two modes like master and user. Master mode is used to record the stored fingerprints in the ROM. Once this module is connected to the microcontroller then it can be used in user mode. This mode is used to verify the images which are scanned as well as stored.

In this project, the scanner is connected to the microcontroller so that the scanning process can be controlled. Once the scanning process is done, the coffee dispenser can be turned ON automatically. If the person attempts to scan his image after that the coffee machine doesn’t turn on for him & generates a buzzer sound.

Fingerprint-based Driving License Management System

This project implements a system for driving license verification using fingerprint. This project is very useful to monitor the driving license through a biometric system which is easy and more suitable for monitoring. In this project, a prototype of the license verification system is implemented.

In this project, a prototype is implemented like a verification system of automatic license. This system uses fingerprints to confirm personal identity. In this project, an accurate and faster algorithm is developed.

Robotics based Projects

The robot is an automated machine that has the capability of performing some of the functions carried out by human beings. Here is a list of robotics projects for engineering students.

Wireless AI-based Mobile Robot for Multi-specialty Operations

This project implements a mobile robot based on wireless AI to do multiple tasks because sometimes automation is most definitely an effect in the best usage of the machine as well as manpower. There are some robots that are used for multiple tasks like pick & place, detect fire, gas, etc. The robot designed in this project will move automatically.

The working of this robot can be done based on the commands provided by the program. This robot moves in four directions and it includes a smoke sensing device. Once the robot detects the smoke then it generates an alarm. At the control unit of a robot, an RF camera is fixe to monitor the audio as well as video.

Intelligent-Robot for Materials Handling

This project implements an intelligent robot. The main intension of this project is to make a robot for color detecting which disconnects the moving objects in a conveyer belt of an industry. In this project, a color detection algorithm is developed using MATLAB.

Fire Fighting Robotic Vehicle

Please refer to this link to know more about this project Fire Fighting Controlling Robots Used in Dangerous Situations

Pole Climbing Robot

This project designs a robot for climbing an electric pole to reduce the risk for electricians while connecting transmission lines. At present, this robot is used to connect the transmission lines according to the instructions provided to it.

There are many benefits by using these robots like risk-free, as compared to humans; tasks can be done very quickly as well as efficiently. The main reason to develop this project is to save the lives of humans. Further, this robot can be enhanced by performing the tasks of an electrician like repairing, wiring, etc

Microcontroller Controlled Robot Arm for Paint Spraying

There are different kinds of robots available which are used in different fields for different purposes like medical, industrial, exploration of space, military, etc. In this project, the microcontroller-based robot arm is developed.

The classification of these robots can be done like manipulator robots to assist with other automated otherwise semi-automated parts of equipment to attain different tasks like welding, painting with spray, assembling, loading, etc. In general, controlling robots can be done through a control device or a computer by using an algorithm or a specific program.

Wireless AI-based fire fighting robot for relief operations
Integrated rule-based control of the robot using fuzzy system & Neural Networks
Ai based mobile robot for multi-specialty operations
Industrial security robot with the motion detection system
Production monitoring robot
Two-axis robot with artificial intelligence
Three-axis robot with artificial intelligence
Four-axis robot with artificial intelligence
Five-axis robot with artificial intelligence
Wireless industrial security robot
Alive human detector robot with counter using wireless pc interfacing
Microcontroller based surveillance robot for a military application
PC controlled wireless robot using RF module with a feedback sensor to detect fire.

Bluetooth based Projects

Bluetooth technology is an advanced wireless technology that is designed to connect phones or other portable equipment. It is a specification for the use of low power radio communications to link phones, computers, and other network devices over a short distance without wires. Now a day so many ECE projects are developed based on this technology.

Here I am giving some advanced Bluetooth based projects for engineering students

Wireless code modulation for secure Communication using encryption & Decryption
Bluetooth enabled wireless network synchronization
Wireless heartbeat rate monitoring & A Cardiac Pacemaker Simulation – Mobile Messenger
Wireless AI (Artificial intelligent ) Based Intelligent- Robot for Materials Handling
Wireless AI (Artificial intelligent) Based Fire Fighting Robot for Relief Operation
Wireless Industrial Security Robot With Motion Detection System
Wireless AI (Artificial intelligent) Based Mobile Robot For Multi-Specialty Operations
Smart / Proximity Based College Campus Card & Access Control System
Smart / Proximity Based Employee Id Cards & Access Control System
Smart Card / Proximity Based BioMedical Health Card Design
Smart Card / Proximity Based Human Resources Management System
Smart Card / Proximity Based Membership Management System
Smart / Proximity Based Punctuality Monitoring System For Public Transport System
Microcontroller Communication System with LCD Display
Wireless Temperature Monitor & Controller Based On Vhf Transmission
Wireless Motor Speed Controller Using RF Module
Electrical Parameters In Industries
Monitoring Through PC Using Wireless Data Transfer.

Security and Access Control System

Here is a list of security and access control based systems, mostly using smart cards.

Intelligent Industrial Security Surveillance System with Auto Dialer

This project implements an effective security alarm system to monitor the industry with the help of different sensors like fire accidents, IR detection, unauthorized entry, wall braking, etc. The sensor data can be displayed on an LCD. In this system, all the sensors are connected to a burglar alarm. These sensor’s status can be indicated through LEDs. Once the alarm is turned ON, then the sensor’s LED will make the alarm to turn on the LED once the cable failure occurs.

Automatic Railway Gate Signaling Simulator & Controller

Generally, the controlling of railway gates can be done manually by a gatekeeper. The status of the train can be received by the nearby railway station so that gatekeeper opens or closes the gate. However, some railway crossings are completely unmanned so there is a lot of change for accidents. To avoid these accidents by avoiding manual operation, here automatic railway gate controller is developed.

Code Modulation based Encryption & Decryption for Secured WIRELESS Communication

At present, communication technology plays a key role to make chatting from one place to another fast and easy. However, the security of the data is the main concern, so the data transmission can be done through the advanced chatting system with a microcontroller. This project includes two sections like transmitter and receiver which are designed like a control unit in the region of a microcontroller by interfacing all the devices to it.

The main aim of the project is to transmit encrypted data using wireless communication. This data can be received by the receiver and decrypts to shown within the PC. If a person wants to send a message to a remote location then he has to enter the data through the PC. This data can be obtained by the microcontroller and transmits to RF TX when it is encrypted. Similarly, the RF receiver gets the data to decode it & displays it through PC. So finally, code text is converted to plaintext.

Smart Card Technology-Based Employee ID Cards & Access Control

A smart card looks like a plastic card that includes a chip that works like a memory otherwise a microprocessor. This chip is mainly used to store the data and process in the chip of the card.

The data in the card can be sent through a reader that is the outside component of the smart card. This is used in a wide range of areas like companies, banking, finance, healthcare, media, and entertainment. In this project, the smart card is used in employee id cards to give access to the organization. By using these cards, security can be provided to the data stored in the cards.

Wireless heartbeat rate monitoring & a cardiac pacemaker simulation – mobile messenger
Smart networked home – connected devices with auto design
Methodology for modeling a microcontroller with the TELE-load switch application
Smart/proximity-based college campus card & access control system
Smart card/proximity-based membership management system
Smart/proximity-based punctuality monitoring system for the public transport system
Smart card/proximity-based human resources management system
Smart networked home – connected devices with auto dallier
Wireless BLUETOOTH enabled the network to synchronize
Smart card/proximity-based vehicle identification & access control system

Networking Projects Ideas

Here are a couple of network-based projects

Wireless home automation system using telephone line with WAP
Wireless heartbeat monitoring system with WAP

Communication-based ECE Projects

Communication-based projects mainly include different technologies like Bluetooth, DTMF, RFID, GPS, GSM, PC, RF, Smart Card, Voice module, and XBEE. The list of communication-based projects is listed below.

RF-based Wireless Encryption & Decryption Method

The main aim of this project is to send encrypted data & receive the data using RF wireless communication. The transmitter used in this project is TLP434A with 433.92MHZ frequency which is used in the application of remote control. The operating range of this transmitter is in between 2V-12V. In this project, the microcontroller works like a decoder.

The data is shown on LCD before transmitted through the transmitter. On the receiver side, the antenna receives the signal & transmits it to the receiver. For further processing, the data can be transmitted to the microcontroller.

RF-based Wireless Weather Station

Before performing any activity which is related to the environment, knowing the weather information is essential. There are different parameters in the weather like wind speed, temperature & intensity of solar radiation. This project is designed with opt coupler, LM35 & LDR. These sensors obtained through microcontrollers like ATmega8535.

Then the sensor signal can be processed & transmitted to the processor to translate it into wind speed of the data parameter, sun intensity, and temperature. Here, KYL 1020 U plays an intermediate in between the processor and the client computer to transmit data.

Wireless Electronic Notice Board with Multipoint Receivers using RF

This project implements an RF-based wireless notice board. This project replaces the wired notice boards because these boards need manual operation. The essential components of this project are AT89S52 microcontroller, LCD, RPS, RF receiver, RF transmitter, etc.

In this project, an alphanumerical keypad is connected to the transmitter to enter the data as well as transmit to the receiver. Once the text is entered then the user can detach the keypad at any time. And the user can change, add otherwise remove the text based on his requirement. The main benefits of this project are not expensive, less complex, and don’t depend on the network.

Wireless Stepper Motor Control using RF Communication

This project is used to control a stepper motor with the help of RF. When the RF transmitter generates commands then the motor can move in the clockwise direction or anticlockwise. The frequency range of RF communication ranges 30 KHz – 300 GHz. This kind of communication works by making electromagnetic waves at a source & receives at the destination.

These waves can move throughout the air with the same speed of beam. Both the signal wavelength and its frequency are inversely proportional. When the frequency is high then the wavelength is low. In this project, the control system includes a microcontroller, RF TX and Rf RX, where the microcontroller gets the data from RF for motor control.

The program in the microcontroller can be developed by the embedded C language. This motor works based on the instructions received by the microcontroller. Thus, this motor is used in robotics to control its directions.

Wireless DC Motor Speed and Direction Control using RF Communication

There are many industries like printing machines, rolling mills, cranes, paper mills, etc. DC motor is used to move a product on the conveyor belt from one location to another location. So, speed, as well as direct control, is essential for DC motor. In the proposed system, RF communication is used to control the motor speed & direction.

The motor speed controller is to take a signal representing the required speed and to drive a motor at that speed For that purpose wireless speed and direction control of dc motor by radiofrequency technique is very crucial with pulse width modulation and H-Bridge converter. The microcontroller AT89S51 is used to control the dc motor speed and the Transistorised h-bridge converter is used for direction control.

By adjusting the duty cycle of the pulse from the Pulse Width Modulation technique simultaneously the terminal voltage of the motor is change and hence speed will vary with terminal voltage. H-Bridge is a DC to DC converter used for direction and made by 4 transistor switch across it a diode is connected. RF-based power meter reading system for locked house

RF-based wireless remote for advanced steward calling system in airlines/flights
RF communication based wireless remote control of devices in-home/ offices using AVR microcontroller
Wireless multipurpose 4 channel RF remote for controlling the devices using AVR microcontroller
Microcontroller based fire monitoring system in petro and chemical industries using RF communication
Cell Phone Controlled Home Appliance Switching by PIC microcontroller
Phone Controlled-Load Management System
Auto Dialing on Detecting Burglary using I2C Protocol
Garage Door Lifting System by Cell Phone
Vehicle Theft Location Intimation by GPS/GSM to the Owner
Vehicle tracking by GPS – GSM
Prepaid Energy Meter with GSM Interface
GSM based Electricity Energy Meter Billing with On-site Display
Detecting Power Theft prior to feeding the energy Meter and
Intimating to Control Room by GSM
PC Mouse operated Electrical Load Control Using VB Application
Scrolling Message Display by LCD from PC Terminal
PC Controlled Surveillance Camera
Electrical Load Control from PC Terminal
Wireless Home Appliance like Fan Speed Control using RF Communication
RF Controlled Robotic Vehicle with Laser Beam Arrangement
Unique Office Communication System Using RF
RFID based Electronic Passport System for Easy Governance using Arduino
Arduino based RFID Sensed Device Access
Car Parking Management by RFID
RFID Security Access Control System

Android-based ECE Projects

Android is an OS that is based on the Linux kernel and it works on the touch screen panel-based gadgets. The main advantage of this operating system is, it permits for best use of memory and hardware resources on the mobile platform. Here is a list of android based projects are listed below.

Android Phone Speech Recognition Sensed Voice Command based Notice Board Display
Android Based Smart Phone Used for Induction Motor Control
Android-based Remotely Programmable Sequential Load Operation
War Field Spying Robot with Night Vision Wireless Camera by Android Applications
Remote Induction Motor Control by Android Application with 7 Segment Display
Remote Operated Domestic Appliances Control by Android Application
Remote Password Operated Security Control by Android Applications
Density-Based Auto Traffic Signal Control with Android Based Remote Override
Four Quadrant Operation of DC Motor Remotely Controlled by Android Application
Fire Fighting Robot Remotely Operated by Android Applications
Pick N Place Robotic Arm And Movement Controlled by Android Wirelessly
Remote Alignment of 3D Dish Positioning by Android Application
Metal Detector Robotic Vehicle Operated by Android Application
Password-based Remote Controlled Door Opening by Android Application
Railway Level Crossing Gate Operation Remotely by And

Arduino based ECE Projects

Arduino is a simple microcontroller board that allows you to make computers that drive both functional and creative projects. The list of Arduino based projects is listed below.

Arduino based Industrial Appliances Control System by Decoding Dual Tone Multi-Frequency Signals via GSM Network
Arduino based Electrical Appliances Control using IR
Arduino based LED Street Lights with Auto Intensity Control
Arduino based Home Automation
Arduino based Underground Cable Fault Detection
Arduino based Solar Street Light
Arduino Based Auto Intensity Control of Street Lights

ARM Cortex based ECE Projects for Electronics Engineering Students

ARM refers to Advanced RISC (reduced instruction set computer) processor. It is the heart of the various portable devices. The list of arm cortex based projects is listed below.

ARM Cortex (STM32) based Motor Speed Control
ARM Cortex (STM32) based Solar Street Light
ARM Cortex (STM32) based Auto Intensity Control

Embedded based ECE Projects for Electronics Engineering Students

An embedded system is an electronic system that is designed to control, access the data in electronics-based systems. The list of embedded systems based projects is listed below.

Arduino Managed High Sensitive LDR based Power Saver for Street Light Control System
The Temperature Humidity Monitoring System of Soil Based on Wireless Sensor Networks using Arduino
Zigbee based Automatic Meter Reading System
Automated Irrigation System using a Wireless Sensor Network and GPRS Module
Automatic Irrigation System on Sensing Soil Moisture using PIC Microcontroller.
Parking Availability Indication System
Voice Controlled Home Appliances
Voice Controlled Robot by Cell Phone with Android App
EVM-Electronic Voting Machine
Industrial Power Control by Integral Cycle Switching without Generating Harmonics using PIC Microcontroller
Programmable Decoration Light
ATmega based Garage Door Opening
Speed Control Unit Designed for a DC Motor using PIC Microcontroller
Auto Intensity Control of Street Lights using PIC Microcontroller
Cordless Mouse Features by TV Remote Using PIC Microcontroller
Medication Reminder using PIC Microcontroller
PIC Controlled Dynamic Time Based City Traffic Signal
Using TV Remote as a Cordless Mouse for the Computer using PIC Microcontroller
Pre Stampede Monitoring and Alarm System using PIC Microcontroller
Portable Programmable Medication Reminder using PIC Microcontroller
Speed Synchronization of Multiple Motors In Industries using PIC Microcontroller
Synchronized Traffic Signals at Various Junctions using PIC Microcontroller
Density-based Traffic Signal System using PIC Microcontroller
RFID Based Device Control and Authentication using PIC Microcontroller

Raspberry Pi based ECE Projects

Raspberry Pi is a credit card-sized single computer board, which is used for many of the things that your desktop PC does. The list of raspberry pi based projects is listed below.

Raspberry Pi based Solar Street Light
Raspberry Pi based Programmable Sequential Switching
Raspberry Pi based Motor Speed Control
Raspberry Pi based Auto Intensity Control

Sensor-based ECE Projects

The sensor is a device, that detects the physical quantity and converts into an electrical signal. The list of sensor-based projects is listed below.

Vehicle Movement Sensed Streetlight with Daytime auto-off Features
LDR Based Power Saver for Intensity Controlled Street Light
Temperature Control with Digital Sensor
Vehicle Movement Sensed LED Street Light with Idle Time Dimming
Vehicle Over Speed Detection on Highways
Conveyor Belt Object Counting with IR Sensing & Display
Ultrasonic Sound Reflecting Means of Distance Measurement
Obstacle Sensed Switching in Industrial Applications
Traffic Density Sensed Signal Light System
Path Tracking Robotic Vehicle by Programmed Microcontroller
Temperature Controlled-Load by Thermistor Sensor
Contactless Liquid Level Controller
Speed Checker to Detect Rash Driving on Highways
Movement Sensed Automatic Door Opening System
IR Obstacle Detection to Actuate Load

Solar based ECE Projects

Solar energy is nothing but the radiant energy emitted by the sun. We may convert this solar energy into electricity either directly using photovoltaic. This solar energy is mainly useful in solar street lights, auto solar irrigation systems, traffic junction signal lighting, etc. The list of solar-based projects is listed below. If you are aware of solar energy facts , then the below mentioned project ideas will be best suitable for your final year projects .

Implementation of Solar Inverter for Home Garden/Street Light Applications

Please refer to this link to know more about the solar inverter project

Design and Implementation of a Maximum Power Tracking System

Please refer to this link to know more about this project Implementation of a Maximum Power Tracking System

What is Solar Charge Controller: Working with MPPT Technology

Please refer to this link to know more about this project Solar Charge Controller

Solar based High Efficient Vacuum Cleaner

This project implements a high efficient based vacuum cleaner using solar energy. This project is capable of capturing even 40 microns of small dust.

The Solar-Based Energy Measurement System

This project designs a solar energy management system. This project is used to determine the different parameters of the solar cell such as voltage, temperature, current & intensity of light using several sensors.

Sun Tracking Solar Panel

This project is used to design a maximum power tracking system through automatic control of solar panel direction based on the sun direction. Please refer to this link to know more about this project Sun Tracking Solar Power System

Solar Based Air Compressor Pump for Car Bike Tire Inflate

We know that solar energy is used for different purposes. Similarly, the application like the hybrid charger is used to recharge small devices like a camera, a DC fan, and a cell phone. This project implements an air compressor pump using solar energy for the bike and car tire inflate.

This project includes a control unit based on the microcontroller to monitor as well as control the air pressure and displays on LCD. The solar cell regulated o/p can be given to the rechargeable battery. The output of this battery can be given to the compressor motor’s input so that controlling of the motor can be achieved by the user with controlled buttons.

The input modules of the microcontroller are control buttons & pressure sensor whereas the output modules are buzzer, LCD display & switching driver of the compressor. The buzzer gives an alert in case of high force.

Solar Highway Lighting System with Auto Turn Off in Daytime
Solar Water Pump Control with Four Different Time Slots for Power Saving Applications
Farmer Friendly Solar Based Electric Fence for Deterring Cattles
Implementation of Solar Inverter for Home, Garden, Street Light Applications
Charge and Load Protection in Solar Power Management
Measuring Solar Photovoltaic Power
Time Programmed Sun Tracking Solar Panel
Solar Power Charge Controller
Solar Powered Led Street Light with Auto Intensity Control
Solar Energy Measurement System
Solar Powered Auto Irrigation System
Implementation of Solar inverter for home garden/street light applications
Design and implementation of a maximum power tracking system by automatic control of solar panel direction according to the sun direction
Solar based high efficient vacuum cleaner capable of capturing even 40 microns small dust
the solar-based energy measurement system
Solar based air compressor pump for car bike tire inflate.

Global Positioning System(GPS) Projects

GPS is a satellite-based communication system used to attain information about the location. The GPS navigation system and tracking system are used in many ECE projects and here is a list of GPS embedded projects.

GPS based Active Fleet Management – Automated Vehicle Tracking

This project is used to track the real-time information of vehicle location. Automated vehicle tracking system allows corporations to get in touch with their automobiles at any time to decide the exact place & without delay retrieves the data used by other vehicles. These systems permit better control in excess of the fleet management

GPS based Highway Monitoring & Control

This project is used to track the vehicle on the highway by using GPS & GSM technologies. GPS plays a key role in calculating the values of longitude & latitude of the vehicle location. The vehicle position information can be obtained by the GPS which communicates with four satellites. Here, MAX232 works like an interface between microcontroller & GPS device, that works on serial communication.

Global Positioning System with AI

GPS is a navigation system that stores route map information to determine the route selection depending on a straight path algorithm. This method is very useful to reach your destination within less time. The main drawback of this is, it doesn’t have any recollection, so there is no chance of remembering the actual time and route.

Here is a simple method to change a GPS system by including velocity profiles for easy learning. These profiles are also used for removing features from the surroundings so that the accuracy of the optimal path selection can be improved. All of the necessary data can be derived from GPS location recording, time & date.

GPS based intelligent guided vehicle with collision mitigation
GPS based vehicle parameter monitoring with intelligent data analysis
Advanced real-time vehicle tracking system using GPS modem
Automatic vehicle accident detection and messaging system using GSM and GPS
Design and development of an SMS based car engine control system to prevent car theft
Mobile phone signal jammer for GSM, CDMA, and 3g networks with user-selectable pre-scheduled time duration (mobile jammer)
Blind person navigation system using GPS & voice announcement
GPS based active fleet management – automated vehicle tracking
GPS based highway monitoring & control
GPS enabled PC based geographic information system (GIS) and routing/scheduling system
Global positioning system with AI

The robot is an automated machine that has the capability of performing some of the functions carried out by human beings. Here is a list of robotics-based ECE projects for engineering students.

The working of this robot can be done based on the commands provided by the program. This robot moves in four directions and it includes a smoke sensing device. Once the robot detects the smoke then it generates an alarm. At the control unit of the robot, an RF camera is fixe to monitor the audio as well as video.

Pc controlled wireless robot using RF module with a feedback sensor to detect fire.
Wireless Power Driven Car or Train
Ultrasonic Obstacle Sensed Robotic Vehicle
Robotic Vehicle Movement By Cell Phone
Arduino Based Line Following Robot
Robotic Vehicle Operated by a TV Remote
Track Sensing Robotic Vehicle Movement
Voice Controlled Robotic Vehicle with Long Distance Speech Recognition
Line Following Robotic Vehicle
War Field Spying Robot with Night Vision Wireless Camera

Zigbee Communication Projects

The list of ECE projects based on Zigbee communication is listed below.

Mobile embedded system for home care applications using Zigbee and RF communication
An automation system for energy saving and accident detector (fire and gas) using integrated Zigbee and sensors
PC to PC communication by high-speed secure data transmission using Zigbee technology
Compact Zigbee wireless communication-based handheld unit for controlling the robot within 1km
The high-speed secure data transmission and reception from hackers using Zigbee
Development of pollution monitoring system for detecting waste gas using gas sensor and Zigbee
Zigbee based intelligent helmet for coal miners
Zigbee based wireless sensor network for sewerage monitoring
Zigbee based vehicle access control system
Zigbee based wireless remote weather monitoring system
Digital control for a home lighting system with Zigbee communication

PC Communication Projects

The PC communication-based ECE projects include the following.

PC based Appliances control in a plant using PCs parallel port (C-Language)
Communicating to 89S52 Microcontroller through windows hyper terminal using RS-232
PC Based stepper motor control for robotic applications
PC Based DC Motor Speed and direction control using PWM and H-Bridge
PC Based Hi-Tech industrial automation with auto / manual modes of operation
PC to Microcontroller Secured Data Communication using Fiber Optic cable
PS2 Controlled mouse for controlling Robot using RF transmitter and receiver.
PS2 keyboard-based text message transmission using GSM.
PS2 keyboard-based wireless data transmission between two microcontrollers.
Robotic Arm manipulator using PS2 protocol.
PS2 + Zigbee based high-speed data transmission.

Fuzzy Logic/AI based Projects

The list of Fuzzy Logic/AI based ECE Projects include the following.

Speed control of dc/induction motor using
PID / fuzzy controller
Fuzzy logic control of stepper motor
Fuzzy logic controller design speed control system
Elevator control system using fuzzy logic
Intelligent fuzzy control guided vehicle for collision intelligent
Application of fuzzy logic in automated train speed control system
Ai based fire fighting robot for relief operations
Ai based intelligent-robot for materials handling
Instrumentation with artificial intelligence
Frequency jammer for remote-controlled bomb blasting system
Fuzzy logic based collision prevention for vehicle
Microcontroller based speed control of a vehicle

Power Electronics Based Projects

Intelligent power factor correction with multiple capacitors banks
Intellectual power analyzer & phase changer
Handheld intelligent multi-parameter monitoring system – das with LCD
Smart multifunctional power meter with LCD
Digital energy meter & voice annunciation with proximity card – contactless
Intelligent power-sharing of transformers with auto-protection
Prepaid digital energy meter billing & cost indicator with voice annunciation
Multiple starters with overload & high, low voltage protection
Prepaid electricity billing automation & cost indicator
Industrial power management system
Smart power monitoring for efficient energy management
Distribution & substation automation with SCADA
Automatic phase changer cum change over & load breaker
Microcontroller based SCADA for substation by WAP
Microcontroller controlled power supply for testing application
Power line monitoring system

Electrical Based Projects

Noiseless speed control of dc motor using PWM converter
Remote control of ac / dc motor with parameter monitoring
Remote on / off of an ac / dc motor
Remote on/off controller for ac motors with parameter monitoring
Remote speed control of ac / dc motor
Remote switching system for home appliances
Dual control of electrical devices through computer keyboard and Hardware
Substation monitoring system – electrical transmission and distribution Process
Electrical network automation & communication systems
Remote data monitoring & data analysis for power station
Postpaid electricity billing automation
Power-sharing of the transformer with overload protection
EB theft monitoring and control system
An artificial intelligent solar tracking system with a true graph & pc interface
Petrol level indicator

Mechanical, Model-based and Mechatronics Embedded Projects

Smart Solar Tracking System For Optimal Power Generation
GPS Based Intelligent Guided Vehicle With Collision Mitigation
Automatic Electrolyte Battery Filling Using Conveyor System

SCADA & PLC based Embedded Projects

Electrical station variables reader/controller with true graph and SCADA
Multi-channel voltage scanner – SCADA
Multi-parameter measurement system – SCADA
Plc based bottle filling station with conveyors
Automatic anesthesia controller using infusion pump with heartbeat rate
Automatic ANESTHESIA controller using infusion pump with respiratory.

Biomedical System-based ECE Projects

The biomedical based ECE projects include the following.

Smart MEDICARE system – ICU caretaker & life support system
Automatic ANESTHESIA controller using infusion pump with heartbeat rate
Automatic ANESTHESIA controller with respiratory using infusion pump
The smart card-based biomedical health care system
Bedside patient monitoring system with remote alert
Unique system for remote monitoring patients with data mining
Heartbeat monitoring system with wireless pc interfacing including body & respiratory temperature
RF-based heartbeat monitoring system with the pacemaker
Detection of cardiac disorder using bio-medical sensor
Automatic ANESTHESIA feeder based on medical analysis

ARM-based ECE Projects

The list of ARM-based ECE projects includes the following.

Cortex-M3 based Projects

Design of Integrated Mine Safety Monitor System
The Design of the Scene of the Accident Alarm System Based On Arm and GPS
A Parking Guidance and Information System Based On Wireless Sensor Network
A Parking Guidance And Information System Based On Wireless Sensor Network using with ARM cortex
A Wireless Surveillance and Safety System for Mine Workers based on Zigbee.

ARM-9 based Projects

Design of arm based power meter having Wi-Fi
Wireless communication module
The Wireless Remote Control Car System Based on ARM9
An Application of Wireless Standards for Remote monitoring of Electric Drive Systems
Remote Control of Electrical Appliances Using GSM Networks
Design and Development of Embedded Intelligent Public Transport Vehicular Terminal Using GPRS.

ARM-7 based projects

H-Bridge based DC Motor speed & Direction control using PWM using ARM 7 LPC2148
GSM based Remote Industrial control system using ARM 7 TDMI LPC2148
Biometric fingerprint based electronic voting system for rigging free governance using ARM 7 TDMI processor based LPC2148 Controller
Implementation of Solar Fridge with fast chilling Applications with temperature monitoring using ARM7
An industrial Temperature Monitoring and controlling using ARM 7 TDMI LPC2148

ECE Project Ideas

Some more ECE project ideas for engineering students include the following.

Propeller display of Time / Message
Vehicle tracking By GPS – GSM –
Auto Intensity Control of Street Lights
Automatic Irrigation System on Sensing Soil Moisture Content
Programmable Switching Control for Industrial Automation in Repetitive Nature of Work
Automatic Wireless Health Monitoring System for Patients
Precise controlled Digital Temperature system
Optimum Energy Management System
Security System Using Smartcard Technology
PC Based Electrical Load Control
Secret Code Enabled Secure Communication Using RF Technology
Density Based Traffic Signal System
TV Remote Operated Domestic Appliances Control
Password-Based Circuit Breaker –
Programmable Load Shedding Time Management for Utility Department
Object Detection by Ultrasonic Means
Street Light that Glows on Detecting Vehicle Movement
Tampered Energy Meter Information Conveyed to Concerned Authority by Wireless Communication
Distance Measurement by Ultrasonic Sensor
Portable Programmable Medication Reminder
Programmable Energy Meter for Electrical Load Survey
Security System With User Changeable Password
Networking of Multiple Microcontrollers
Solar Powered LED Street Light with Auto Intensity Control
SCADA (Supervisory Control & Data Acquisition) for Remote Industrial Plant
Parallel Telephone Lines with Security System
Using TV Remote as a Cordless Mouse for the Computer
Railway Level Crossing Gate Control through SMS by the Station Master or the Driver
GSM Based Monthly Energy Meter Billing via SMS
DTMF Based Load Control System
Synchronized Traffic Signals
Pick N Place with Soft Catching Gripper
Theft Intimation of the Vehicle Over SMS to Owner Who Can Stop the Engine Remotely
Closed-Loop Control for a Brushless DC Motor to Run at the Exactly Entered Speed
Automatic Surveillance Camera Panning System from PC
Flash Flood Intimation Over GSM Network
RFID security access control system
Integrated Energy Management System Based on GSM Protocol with Acknowledgement Feature
Cell Phone Based DTMF Controlled Garage Door Opening System
Display of Dialed Telephone Numbers on Seven Segment Displays
Non-Contact Tachometer
RFID based attendance system
Line Following Robotic Vehicle Using Microcontroller
Automatic Dialing to Any Telephone Using I2C Protocol on Detecting Burglary
Life Cycle Testing of Electrical Loads by Down Counter
GSM Based Energy Meter Reading with Load Control
BLDC Motor Speed Control with RPM Display
Predefined Speed Control of BLDC Motor
Stamp Value Calculator for Postage Needs
Dish Positioning Control by IR Remote
Hidden Active Cell Phone Detector
Long Range FM Transmitter with Audio Modulation
Railway Track Security System
Remote Jamming Device
Wireless Electronic Notice Board Using GSM
Automatic Dusk to Dawn (Evening on to Morning Off)
Rhythm Following Flashing Lights
Thermistor Based Temperature Control
Object Counter with 7 Segment Display
Incoming Phone Ring Light Flasher
Wire Loop Breaking Alarm Signal
Video Activated Relay to Control the Load
Touch Controlled Load Switch
Time Delay Based Relay Operated Load
Electronic Eye Controlled Security System
Fastest Finger Press Quiz Buzzer
Pre-programmed Digital Scrolling Message System
Home Automation Using Digital Control
Four Quadrant DC Motor Speed Control with Microcontroller
Intelligent Overhead Tank Water Level Indicator
Speed Synchronization of Multiple Motors in Industries
Pre Stampede Monitoring and Alarm System
PC Controlled Scrolling Message Display for Notice Board
Touch Screen Based Industrial Load Switching
Touch Screen Based Home Automation System
RF Based Home Automation System
Wireless message Communication Between Two Computers
Obstacle Avoidance Robotic Vehicle
Auto Metro Train to Shuttle Between Stations
Touch Screen Based Remote Controlled Robotic Vehicle for Stores Management
Metal Detector Robotic Vehicle
RFID Based Passport Details
Beacon Flasher Using Microcontroller
Discotheque Light Stroboscopic Flasher
IR Controlled Robotic Vehicle
Automatic Bell System for Institutions
Cell Phone Controlled Robotic Vehicle
RFID Based Device Control and Authentication Using PIC Microcontroller
Theft Intimation of Vehicle Over SMS to Owner Who Can Stop the Engine Remotely
Density Based Traffic Signal System Using PIC Microcontroller

We hope all the ECE projects which we have listed above sound interesting and worth to be implemented. So why wait, pick up a category from electronics project ideas and select the project which best suits you. Furthermore, any queries regarding electronics projects please give your feedback in the comment section below. But before that, don’t forget to mention your choice of category among the described above. Do you want to implement real-time ECE projects with your innovative ideas?

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Electronics And Communications Engineering Master's Theses

Theses/dissertations from 2023 2023.

Development of a smart hydroponic vertical farm for diversified crop cultivation , Oliver John Y. Alajas

Development of a fuzzy-based telecommuting capability assessment tool via mobile application , Rex Paolo C. Gamara

Design and implementation of an intelligent monitoring system for real-time tip-over assessment of mobile manipulator , Mark Lawrence D. Lupoy

Wireless coverage and frequency availability forecasting with sparse geolocation spectrum databases , Vladimir Christian R. Ocampo II

A domain specific virtual assistant using paraphrase generation for data augmentation and Ssentence transformers on limited data , Matthew Theodore C. Roque

Recognizing Filipino sign language video sequences using deep learning techniques , Isaiah Jassen L. Tupal

Theses/Dissertations from 2022 2022

Development of an underwater camera system for inland freshwater aquaculture , Vincent Jan D. Almero

A rotating hydroponics for lettuce cultivation with fuzzy-based adaptive speed control using computer vision-based spectral phenotypes , Heinrick L. Aquino

Hand-eye coordination assessment using leap motion , Rainiell Bugay Bacani

Synthesis of annotated images as dataset for vehicle counting neural networks using semi-supervised learning , Patrick Matthew J. Chan

Design and development of a hybrid metamorphic portable executable malware detection system , Julianne Alyson I. Diaz

Towards the new normal: A microcontroller-based screening and contact tracing information system aggregated with a web application , Louielito U. Ferrolino

Towards technology adoption in the Philippines telecommunications sector: Intelligent agent-based model for the fiber-to-the-home broadband service availability , Robert Joseph M. Licup

An implementation for bus passenger counter using an improved yolov5 , Yuan Liu

Development of a local automatic identification system (AIS) , Jomel A. Lorenzo Jr.

Employing computational intelligence in transportation systems , Karl Cedric Joel U. Obias

OPTIMIZATION OF AN ANN-BASED SPEED AND POSITION ESTIMATOR FOR AN FOC-CONTROLLED PMSM USING GENETIC ALGORITHM , Juan Paolo B. Quismundo

Cleanroom dashboard system for time-reduction checking of fixed-disk tester availability , Camille Merlin Sy Tan

CMOS design of reconfigurable data-panning algorithm based sorter for 8-input, 8-bit digital data using the 0.35um library , Anthony S. Tolentino

Visualization assisted interactive wireless multipath clustering using dimensionality reduction techniques , Emmanuel T. Trinidad

Theses/Dissertations from 2021 2021

Remote monitoring system for outland precision farming , Jonnel D. Alejandrino

Implementation of common attack techniques and detection of malicious binaries and executables using machine learning-based detector in Microsoft Windows environment , John Martin M. Ladrido

Computational intelligence-based automation and control for adaptive management system (AMS) of a smart aquaponics , Sandy C. Lauguico

Formulation of an alternative rapidly-exploring random trees (RRT) sampling based algorithm through parameter alterations , Matt Ervin G. Mital

Development of a semi-automated ground truth annotation system for intelligent transport system applications , Maverick C. Rivera

Path planning trajectory based on particle swarm optimization (PSO) , Marc Francis Q. Say

Development of a multifunctional farm-to-table business intelligence system for smart aquaponics using computational intelligence , Rogelio Ruzcko Tobias

Development of a vision-based bus-passenger data counting and density mapping for GPS location clustering , Neil Oliver M. Velasco

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150+ ECE Projects for Final Year Students

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Category: ECE Final Year Projects

IOT Solution for Vehicle Maintenance and Report Generation System

FLOW DIAGRAM-FUNCTIONAL DECOMPOSITION

FUNCTIONAL DECOMPOSITION

Event trigger:

FUNCTIONAL SPECIFICATION

Programming Language:

Cloud and IoT Based Health Monitoring System Project

Introduction

Literature Survey

Architecture Design

Hardware and Software Requirements:

Product Perspective

User Interfaces

Functional requirements

Performance Requirement

Implementation of E-voting Machine Project using Python and Arduino

PROBLEM STATEMENT

FUNCTIONS TO BE PROVIDED:

SYSTEM REQUIREMENTS

FUTURE SCOPE OF THE PROJECT

Two Wheeled Self Balancing Robot Minor Project Synopsis

Feasibility Study

2) Need of the project –

Methodology/ Planning of work

Facilities required for proposed work

Design and Implement a Healthcare Monitoring and Management System IoT Project

Raspberry Pi Project on Intelligent Door Access Management System

Background of Project

Statement of the problem

Aims and Objectives of the project

Flow Diagram

Bill of Materials:

Development of IoT Project on Intelligent Cargo Management System

Block Diagram:

GPS-based Child Tracker with Emergency Text Alerts IoT Project

Problem Statement :

Project Working Process :

Software’s Used

Home Safety and Security System Using IoT Project

Hardware Requirements:

Cloud Platform:

Mobile App:

Results and Conclusions:

Design & Development of Smart Dustbin Project

Components Used:

9 of the Best Project Ideas for ECE Students in Their Final Year

1. Robotic vehicle controlled through touch screen-based device

2. Coal mine system for safety alerting and monitoring

3. IoT-based home automation system

4. Home automation for disabled persons using his voice tag

5. IoT-based reduction of electricity theft

6. Propeller LED display

7. Biometric fingerprint identification for bank locker security system

8. IVRS-based home automation with voice feedback

9. Detecting air pollution in vehicles using an embedded system

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