new research topics in computer science

Research Topics & Ideas: CompSci & IT

50+ Computer Science Research Topic Ideas To Fast-Track Your Project

Finding and choosing a strong research topic is the critical first step when it comes to crafting a high-quality dissertation, thesis or research project. If you’ve landed on this post, chances are you’re looking for a computer science-related research topic , but aren’t sure where to start. Here, we’ll explore a variety of CompSci & IT-related research ideas and topic thought-starters, including algorithms, AI, networking, database systems, UX, information security and software engineering.

NB – This is just the start…

The topic ideation and evaluation process has multiple steps . In this post, we’ll kickstart the process by sharing some research topic ideas within the CompSci domain. This is the starting point, but to develop a well-defined research topic, you’ll need to identify a clear and convincing research gap , along with a well-justified plan of action to fill that gap.

If you’re new to the oftentimes perplexing world of research, or if this is your first time undertaking a formal academic research project, be sure to check out our free dissertation mini-course. In it, we cover the process of writing a dissertation or thesis from start to end. Be sure to also sign up for our free webinar that explores how to find a high-quality research topic.

Overview: CompSci Research Topics

Algorithms & data structures
Artificial intelligence ( AI )
Computer networking
Database systems
Human-computer interaction
Information security (IS)
Software engineering
Examples of CompSci dissertation & theses

Topics/Ideas: Algorithms & Data Structures

An analysis of neural network algorithms’ accuracy for processing consumer purchase patterns
A systematic review of the impact of graph algorithms on data analysis and discovery in social media network analysis
An evaluation of machine learning algorithms used for recommender systems in streaming services
A review of approximation algorithm approaches for solving NP-hard problems
An analysis of parallel algorithms for high-performance computing of genomic data
The influence of data structures on optimal algorithm design and performance in Fintech
A Survey of algorithms applied in internet of things (IoT) systems in supply-chain management
A comparison of streaming algorithm performance for the detection of elephant flows
A systematic review and evaluation of machine learning algorithms used in facial pattern recognition
Exploring the performance of a decision tree-based approach for optimizing stock purchase decisions
Assessing the importance of complete and representative training datasets in Agricultural machine learning based decision making.
A Comparison of Deep learning algorithms performance for structured and unstructured datasets with “rare cases”
A systematic review of noise reduction best practices for machine learning algorithms in geoinformatics.
Exploring the feasibility of applying information theory to feature extraction in retail datasets.
Assessing the use case of neural network algorithms for image analysis in biodiversity assessment

Topics & Ideas: Artificial Intelligence (AI)

Applying deep learning algorithms for speech recognition in speech-impaired children
A review of the impact of artificial intelligence on decision-making processes in stock valuation
An evaluation of reinforcement learning algorithms used in the production of video games
An exploration of key developments in natural language processing and how they impacted the evolution of Chabots.
An analysis of the ethical and social implications of artificial intelligence-based automated marking
The influence of large-scale GIS datasets on artificial intelligence and machine learning developments
An examination of the use of artificial intelligence in orthopaedic surgery
The impact of explainable artificial intelligence (XAI) on transparency and trust in supply chain management
An evaluation of the role of artificial intelligence in financial forecasting and risk management in cryptocurrency
A meta-analysis of deep learning algorithm performance in predicting and cyber attacks in schools

Topics & Ideas: Networking

An analysis of the impact of 5G technology on internet penetration in rural Tanzania
Assessing the role of software-defined networking (SDN) in modern cloud-based computing
A critical analysis of network security and privacy concerns associated with Industry 4.0 investment in healthcare.
Exploring the influence of cloud computing on security risks in fintech.
An examination of the use of network function virtualization (NFV) in telecom networks in Southern America
Assessing the impact of edge computing on network architecture and design in IoT-based manufacturing
An evaluation of the challenges and opportunities in 6G wireless network adoption
The role of network congestion control algorithms in improving network performance on streaming platforms
An analysis of network coding-based approaches for data security
Assessing the impact of network topology on network performance and reliability in IoT-based workspaces

Free Webinar: How To Find A Dissertation Research Topic

Topics & Ideas: Database Systems

An analysis of big data management systems and technologies used in B2B marketing
The impact of NoSQL databases on data management and analysis in smart cities
An evaluation of the security and privacy concerns of cloud-based databases in financial organisations
Exploring the role of data warehousing and business intelligence in global consultancies
An analysis of the use of graph databases for data modelling and analysis in recommendation systems
The influence of the Internet of Things (IoT) on database design and management in the retail grocery industry
An examination of the challenges and opportunities of distributed databases in supply chain management
Assessing the impact of data compression algorithms on database performance and scalability in cloud computing
An evaluation of the use of in-memory databases for real-time data processing in patient monitoring
Comparing the effects of database tuning and optimization approaches in improving database performance and efficiency in omnichannel retailing

Topics & Ideas: Human-Computer Interaction

An analysis of the impact of mobile technology on human-computer interaction prevalence in adolescent men
An exploration of how artificial intelligence is changing human-computer interaction patterns in children
An evaluation of the usability and accessibility of web-based systems for CRM in the fast fashion retail sector
Assessing the influence of virtual and augmented reality on consumer purchasing patterns
An examination of the use of gesture-based interfaces in architecture
Exploring the impact of ease of use in wearable technology on geriatric user
Evaluating the ramifications of gamification in the Metaverse
A systematic review of user experience (UX) design advances associated with Augmented Reality
A comparison of natural language processing algorithms automation of customer response Comparing end-user perceptions of natural language processing algorithms for automated customer response
Analysing the impact of voice-based interfaces on purchase practices in the fast food industry

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Topics & Ideas: Information Security

A bibliometric review of current trends in cryptography for secure communication
An analysis of secure multi-party computation protocols and their applications in cloud-based computing
An investigation of the security of blockchain technology in patient health record tracking
A comparative study of symmetric and asymmetric encryption algorithms for instant text messaging
A systematic review of secure data storage solutions used for cloud computing in the fintech industry
An analysis of intrusion detection and prevention systems used in the healthcare sector
Assessing security best practices for IoT devices in political offices
An investigation into the role social media played in shifting regulations related to privacy and the protection of personal data
A comparative study of digital signature schemes adoption in property transfers
An assessment of the security of secure wireless communication systems used in tertiary institutions

Topics & Ideas: Software Engineering

A study of agile software development methodologies and their impact on project success in pharmacology
Investigating the impacts of software refactoring techniques and tools in blockchain-based developments
A study of the impact of DevOps practices on software development and delivery in the healthcare sector
An analysis of software architecture patterns and their impact on the maintainability and scalability of cloud-based offerings
A study of the impact of artificial intelligence and machine learning on software engineering practices in the education sector
An investigation of software testing techniques and methodologies for subscription-based offerings
A review of software security practices and techniques for protecting against phishing attacks from social media
An analysis of the impact of cloud computing on the rate of software development and deployment in the manufacturing sector
Exploring the impact of software development outsourcing on project success in multinational contexts
An investigation into the effect of poor software documentation on app success in the retail sector

CompSci & IT Dissertations/Theses

While the ideas we’ve presented above are a decent starting point for finding a CompSci-related research topic, they are fairly generic and non-specific. So, it helps to look at actual dissertations and theses to see how this all comes together.

Below, we’ve included a selection of research projects from various CompSci-related degree programs to help refine your thinking. These are actual dissertations and theses, written as part of Master’s and PhD-level programs, so they can provide some useful insight as to what a research topic looks like in practice.

An array-based optimization framework for query processing and data analytics (Chen, 2021)
Dynamic Object Partitioning and replication for cooperative cache (Asad, 2021)
Embedding constructural documentation in unit tests (Nassif, 2019)
PLASA | Programming Language for Synchronous Agents (Kilaru, 2019)
Healthcare Data Authentication using Deep Neural Network (Sekar, 2020)
Virtual Reality System for Planetary Surface Visualization and Analysis (Quach, 2019)
Artificial neural networks to predict share prices on the Johannesburg stock exchange (Pyon, 2021)
Predicting household poverty with machine learning methods: the case of Malawi (Chinyama, 2022)
Investigating user experience and bias mitigation of the multi-modal retrieval of historical data (Singh, 2021)
Detection of HTTPS malware traffic without decryption (Nyathi, 2022)
Redefining privacy: case study of smart health applications (Al-Zyoud, 2019)
A state-based approach to context modeling and computing (Yue, 2019)
A Novel Cooperative Intrusion Detection System for Mobile Ad Hoc Networks (Solomon, 2019)
HRSB-Tree for Spatio-Temporal Aggregates over Moving Regions (Paduri, 2019)

Looking at these titles, you can probably pick up that the research topics here are quite specific and narrowly-focused , compared to the generic ones presented earlier. This is an important thing to keep in mind as you develop your own research topic. That is to say, to create a top-notch research topic, you must be precise and target a specific context with specific variables of interest . In other words, you need to identify a clear, well-justified research gap.

Fast-Track Your Research Topic

If you’re still feeling a bit unsure about how to find a research topic for your Computer Science dissertation or research project, check out our Topic Kickstarter service.

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Research topics and ideas about data science and big data analytics

Investigating the impacts of software refactoring techniques and tools in blockchain-based developments.

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Home » 500+ Computer Science Research Topics

500+ Computer Science Research Topics

Computer Science is a constantly evolving field that has transformed the world we live in today. With new technologies emerging every day, there are countless research opportunities in this field. Whether you are interested in artificial intelligence, machine learning, cybersecurity, data analytics, or computer networks, there are endless possibilities to explore. In this post, we will delve into some of the most interesting and important research topics in Computer Science. From the latest advancements in programming languages to the development of cutting-edge algorithms, we will explore the latest trends and innovations that are shaping the future of Computer Science. So, whether you are a student or a professional, read on to discover some of the most exciting research topics in this dynamic and rapidly expanding field.

Computer Science Research Topics

Computer Science Research Topics are as follows:

Using machine learning to detect and prevent cyber attacks
Developing algorithms for optimized resource allocation in cloud computing
Investigating the use of blockchain technology for secure and decentralized data storage
Developing intelligent chatbots for customer service
Investigating the effectiveness of deep learning for natural language processing
Developing algorithms for detecting and removing fake news from social media
Investigating the impact of social media on mental health
Developing algorithms for efficient image and video compression
Investigating the use of big data analytics for predictive maintenance in manufacturing
Developing algorithms for identifying and mitigating bias in machine learning models
Investigating the ethical implications of autonomous vehicles
Developing algorithms for detecting and preventing cyberbullying
Investigating the use of machine learning for personalized medicine
Developing algorithms for efficient and accurate speech recognition
Investigating the impact of social media on political polarization
Developing algorithms for sentiment analysis in social media data
Investigating the use of virtual reality in education
Developing algorithms for efficient data encryption and decryption
Investigating the impact of technology on workplace productivity
Developing algorithms for detecting and mitigating deepfakes
Investigating the use of artificial intelligence in financial trading
Developing algorithms for efficient database management
Investigating the effectiveness of online learning platforms
Developing algorithms for efficient and accurate facial recognition
Investigating the use of machine learning for predicting weather patterns
Developing algorithms for efficient and secure data transfer
Investigating the impact of technology on social skills and communication
Developing algorithms for efficient and accurate object recognition
Investigating the use of machine learning for fraud detection in finance
Developing algorithms for efficient and secure authentication systems
Investigating the impact of technology on privacy and surveillance
Developing algorithms for efficient and accurate handwriting recognition
Investigating the use of machine learning for predicting stock prices
Developing algorithms for efficient and secure biometric identification
Investigating the impact of technology on mental health and well-being
Developing algorithms for efficient and accurate language translation
Investigating the use of machine learning for personalized advertising
Developing algorithms for efficient and secure payment systems
Investigating the impact of technology on the job market and automation
Developing algorithms for efficient and accurate object tracking
Investigating the use of machine learning for predicting disease outbreaks
Developing algorithms for efficient and secure access control
Investigating the impact of technology on human behavior and decision making
Developing algorithms for efficient and accurate sound recognition
Investigating the use of machine learning for predicting customer behavior
Developing algorithms for efficient and secure data backup and recovery
Investigating the impact of technology on education and learning outcomes
Developing algorithms for efficient and accurate emotion recognition
Investigating the use of machine learning for improving healthcare outcomes
Developing algorithms for efficient and secure supply chain management
Investigating the impact of technology on cultural and societal norms
Developing algorithms for efficient and accurate gesture recognition
Investigating the use of machine learning for predicting consumer demand
Developing algorithms for efficient and secure cloud storage
Investigating the impact of technology on environmental sustainability
Developing algorithms for efficient and accurate voice recognition
Investigating the use of machine learning for improving transportation systems
Developing algorithms for efficient and secure mobile device management
Investigating the impact of technology on social inequality and access to resources
Machine learning for healthcare diagnosis and treatment
Machine Learning for Cybersecurity
Machine learning for personalized medicine
Cybersecurity threats and defense strategies
Big data analytics for business intelligence
Blockchain technology and its applications
Human-computer interaction in virtual reality environments
Artificial intelligence for autonomous vehicles
Natural language processing for chatbots
Cloud computing and its impact on the IT industry
Internet of Things (IoT) and smart homes
Robotics and automation in manufacturing
Augmented reality and its potential in education
Data mining techniques for customer relationship management
Computer vision for object recognition and tracking
Quantum computing and its applications in cryptography
Social media analytics and sentiment analysis
Recommender systems for personalized content delivery
Mobile computing and its impact on society
Bioinformatics and genomic data analysis
Deep learning for image and speech recognition
Digital signal processing and audio processing algorithms
Cloud storage and data security in the cloud
Wearable technology and its impact on healthcare
Computational linguistics for natural language understanding
Cognitive computing for decision support systems
Cyber-physical systems and their applications
Edge computing and its impact on IoT
Machine learning for fraud detection
Cryptography and its role in secure communication
Cybersecurity risks in the era of the Internet of Things
Natural language generation for automated report writing
3D printing and its impact on manufacturing
Virtual assistants and their applications in daily life
Cloud-based gaming and its impact on the gaming industry
Computer networks and their security issues
Cyber forensics and its role in criminal investigations
Machine learning for predictive maintenance in industrial settings
Augmented reality for cultural heritage preservation
Human-robot interaction and its applications
Data visualization and its impact on decision-making
Cybersecurity in financial systems and blockchain
Computer graphics and animation techniques
Biometrics and its role in secure authentication
Cloud-based e-learning platforms and their impact on education
Natural language processing for machine translation
Machine learning for predictive maintenance in healthcare
Cybersecurity and privacy issues in social media
Computer vision for medical image analysis
Natural language generation for content creation
Cybersecurity challenges in cloud computing
Human-robot collaboration in manufacturing
Data mining for predicting customer churn
Artificial intelligence for autonomous drones
Cybersecurity risks in the healthcare industry
Machine learning for speech synthesis
Edge computing for low-latency applications
Virtual reality for mental health therapy
Quantum computing and its applications in finance
Biomedical engineering and its applications
Cybersecurity in autonomous systems
Machine learning for predictive maintenance in transportation
Computer vision for object detection in autonomous driving
Augmented reality for industrial training and simulations
Cloud-based cybersecurity solutions for small businesses
Natural language processing for knowledge management
Machine learning for personalized advertising
Cybersecurity in the supply chain management
Cybersecurity risks in the energy sector
Computer vision for facial recognition
Natural language processing for social media analysis
Machine learning for sentiment analysis in customer reviews
Explainable Artificial Intelligence
Quantum Computing
Blockchain Technology
Human-Computer Interaction
Natural Language Processing
Cloud Computing
Robotics and Automation
Augmented Reality and Virtual Reality
Cyber-Physical Systems
Computational Neuroscience
Big Data Analytics
Computer Vision
Cryptography and Network Security
Internet of Things
Computer Graphics and Visualization
Artificial Intelligence for Game Design
Computational Biology
Social Network Analysis
Bioinformatics
Distributed Systems and Middleware
Information Retrieval and Data Mining
Computer Networks
Mobile Computing and Wireless Networks
Software Engineering
Database Systems
Parallel and Distributed Computing
Human-Robot Interaction
Intelligent Transportation Systems
High-Performance Computing
Cyber-Physical Security
Deep Learning
Sensor Networks
Multi-Agent Systems
Human-Centered Computing
Wearable Computing
Knowledge Representation and Reasoning
Adaptive Systems
Brain-Computer Interface
Health Informatics
Cognitive Computing
Cybersecurity and Privacy
Internet Security
Cybercrime and Digital Forensics
Cloud Security
Cryptocurrencies and Digital Payments
Machine Learning for Natural Language Generation
Cognitive Robotics
Neural Networks
Semantic Web
Image Processing
Cyber Threat Intelligence
Secure Mobile Computing
Cybersecurity Education and Training
Privacy Preserving Techniques
Cyber-Physical Systems Security
Virtualization and Containerization
Machine Learning for Computer Vision
Network Function Virtualization
Cybersecurity Risk Management
Information Security Governance
Intrusion Detection and Prevention
Biometric Authentication
Machine Learning for Predictive Maintenance
Security in Cloud-based Environments
Cybersecurity for Industrial Control Systems
Smart Grid Security
Software Defined Networking
Quantum Cryptography
Security in the Internet of Things
Natural language processing for sentiment analysis
Blockchain technology for secure data sharing
Developing efficient algorithms for big data analysis
Cybersecurity for internet of things (IoT) devices
Human-robot interaction for industrial automation
Image recognition for autonomous vehicles
Social media analytics for marketing strategy
Quantum computing for solving complex problems
Biometric authentication for secure access control
Augmented reality for education and training
Intelligent transportation systems for traffic management
Predictive modeling for financial markets
Cloud computing for scalable data storage and processing
Virtual reality for therapy and mental health treatment
Data visualization for business intelligence
Recommender systems for personalized product recommendations
Speech recognition for voice-controlled devices
Mobile computing for real-time location-based services
Neural networks for predicting user behavior
Genetic algorithms for optimization problems
Distributed computing for parallel processing
Internet of things (IoT) for smart cities
Wireless sensor networks for environmental monitoring
Cloud-based gaming for high-performance gaming
Social network analysis for identifying influencers
Autonomous systems for agriculture
Robotics for disaster response
Data mining for customer segmentation
Computer graphics for visual effects in movies and video games
Virtual assistants for personalized customer service
Natural language understanding for chatbots
3D printing for manufacturing prototypes
Artificial intelligence for stock trading
Machine learning for weather forecasting
Biomedical engineering for prosthetics and implants
Cybersecurity for financial institutions
Machine learning for energy consumption optimization
Computer vision for object tracking
Natural language processing for document summarization
Wearable technology for health and fitness monitoring
Internet of things (IoT) for home automation
Reinforcement learning for robotics control
Big data analytics for customer insights
Machine learning for supply chain optimization
Natural language processing for legal document analysis
Artificial intelligence for drug discovery
Computer vision for object recognition in robotics
Data mining for customer churn prediction
Autonomous systems for space exploration
Robotics for agriculture automation
Machine learning for predicting earthquakes
Natural language processing for sentiment analysis in customer reviews
Big data analytics for predicting natural disasters
Internet of things (IoT) for remote patient monitoring
Blockchain technology for digital identity management
Machine learning for predicting wildfire spread
Computer vision for gesture recognition
Natural language processing for automated translation
Big data analytics for fraud detection in banking
Internet of things (IoT) for smart homes
Robotics for warehouse automation
Machine learning for predicting air pollution
Natural language processing for medical record analysis
Augmented reality for architectural design
Big data analytics for predicting traffic congestion
Machine learning for predicting customer lifetime value
Developing algorithms for efficient and accurate text recognition
Natural Language Processing for Virtual Assistants
Natural Language Processing for Sentiment Analysis in Social Media
Explainable Artificial Intelligence (XAI) for Trust and Transparency
Deep Learning for Image and Video Retrieval
Edge Computing for Internet of Things (IoT) Applications
Data Science for Social Media Analytics
Cybersecurity for Critical Infrastructure Protection
Natural Language Processing for Text Classification
Quantum Computing for Optimization Problems
Machine Learning for Personalized Health Monitoring
Computer Vision for Autonomous Driving
Blockchain Technology for Supply Chain Management
Augmented Reality for Education and Training
Natural Language Processing for Sentiment Analysis
Machine Learning for Personalized Marketing
Big Data Analytics for Financial Fraud Detection
Cybersecurity for Cloud Security Assessment
Artificial Intelligence for Natural Language Understanding
Blockchain Technology for Decentralized Applications
Virtual Reality for Cultural Heritage Preservation
Natural Language Processing for Named Entity Recognition
Machine Learning for Customer Churn Prediction
Big Data Analytics for Social Network Analysis
Cybersecurity for Intrusion Detection and Prevention
Artificial Intelligence for Robotics and Automation
Blockchain Technology for Digital Identity Management
Virtual Reality for Rehabilitation and Therapy
Natural Language Processing for Text Summarization
Machine Learning for Credit Risk Assessment
Big Data Analytics for Fraud Detection in Healthcare
Cybersecurity for Internet Privacy Protection
Artificial Intelligence for Game Design and Development
Blockchain Technology for Decentralized Social Networks
Virtual Reality for Marketing and Advertising
Natural Language Processing for Opinion Mining
Machine Learning for Anomaly Detection
Big Data Analytics for Predictive Maintenance in Transportation
Cybersecurity for Network Security Management
Artificial Intelligence for Personalized News and Content Delivery
Blockchain Technology for Cryptocurrency Mining
Virtual Reality for Architectural Design and Visualization
Natural Language Processing for Machine Translation
Machine Learning for Automated Image Captioning
Big Data Analytics for Stock Market Prediction
Cybersecurity for Biometric Authentication Systems
Artificial Intelligence for Human-Robot Interaction
Blockchain Technology for Smart Grids
Virtual Reality for Sports Training and Simulation
Natural Language Processing for Question Answering Systems
Machine Learning for Sentiment Analysis in Customer Feedback
Big Data Analytics for Predictive Maintenance in Manufacturing
Cybersecurity for Cloud-Based Systems
Artificial Intelligence for Automated Journalism
Blockchain Technology for Intellectual Property Management
Virtual Reality for Therapy and Rehabilitation
Natural Language Processing for Language Generation
Machine Learning for Customer Lifetime Value Prediction
Big Data Analytics for Predictive Maintenance in Energy Systems
Cybersecurity for Secure Mobile Communication
Artificial Intelligence for Emotion Recognition
Blockchain Technology for Digital Asset Trading
Virtual Reality for Automotive Design and Visualization
Natural Language Processing for Semantic Web
Machine Learning for Fraud Detection in Financial Transactions
Big Data Analytics for Social Media Monitoring
Cybersecurity for Cloud Storage and Sharing
Artificial Intelligence for Personalized Education
Blockchain Technology for Secure Online Voting Systems
Virtual Reality for Cultural Tourism
Natural Language Processing for Chatbot Communication
Machine Learning for Medical Diagnosis and Treatment
Big Data Analytics for Environmental Monitoring and Management.
Cybersecurity for Cloud Computing Environments
Virtual Reality for Training and Simulation
Big Data Analytics for Sports Performance Analysis
Cybersecurity for Internet of Things (IoT) Devices
Artificial Intelligence for Traffic Management and Control
Blockchain Technology for Smart Contracts
Natural Language Processing for Document Summarization
Machine Learning for Image and Video Recognition
Blockchain Technology for Digital Asset Management
Virtual Reality for Entertainment and Gaming
Natural Language Processing for Opinion Mining in Online Reviews
Machine Learning for Customer Relationship Management
Big Data Analytics for Environmental Monitoring and Management
Cybersecurity for Network Traffic Analysis and Monitoring
Artificial Intelligence for Natural Language Generation
Blockchain Technology for Supply Chain Transparency and Traceability
Virtual Reality for Design and Visualization
Natural Language Processing for Speech Recognition
Machine Learning for Recommendation Systems
Big Data Analytics for Customer Segmentation and Targeting
Cybersecurity for Biometric Authentication
Artificial Intelligence for Human-Computer Interaction
Blockchain Technology for Decentralized Finance (DeFi)
Virtual Reality for Tourism and Cultural Heritage
Machine Learning for Cybersecurity Threat Detection and Prevention
Big Data Analytics for Healthcare Cost Reduction
Cybersecurity for Data Privacy and Protection
Artificial Intelligence for Autonomous Vehicles
Blockchain Technology for Cryptocurrency and Blockchain Security
Virtual Reality for Real Estate Visualization
Natural Language Processing for Question Answering
Big Data Analytics for Financial Markets Prediction
Cybersecurity for Cloud-Based Machine Learning Systems
Artificial Intelligence for Personalized Advertising
Blockchain Technology for Digital Identity Verification
Virtual Reality for Cultural and Language Learning
Natural Language Processing for Semantic Analysis
Machine Learning for Business Forecasting
Big Data Analytics for Social Media Marketing
Artificial Intelligence for Content Generation
Blockchain Technology for Smart Cities
Virtual Reality for Historical Reconstruction
Natural Language Processing for Knowledge Graph Construction
Machine Learning for Speech Synthesis
Big Data Analytics for Traffic Optimization
Artificial Intelligence for Social Robotics
Blockchain Technology for Healthcare Data Management
Virtual Reality for Disaster Preparedness and Response
Natural Language Processing for Multilingual Communication
Machine Learning for Emotion Recognition
Big Data Analytics for Human Resources Management
Cybersecurity for Mobile App Security
Artificial Intelligence for Financial Planning and Investment
Blockchain Technology for Energy Management
Virtual Reality for Cultural Preservation and Heritage.
Big Data Analytics for Healthcare Management
Cybersecurity in the Internet of Things (IoT)
Artificial Intelligence for Predictive Maintenance
Computational Biology for Drug Discovery
Virtual Reality for Mental Health Treatment
Machine Learning for Sentiment Analysis in Social Media
Human-Computer Interaction for User Experience Design
Cloud Computing for Disaster Recovery
Quantum Computing for Cryptography
Intelligent Transportation Systems for Smart Cities
Cybersecurity for Autonomous Vehicles
Artificial Intelligence for Fraud Detection in Financial Systems
Social Network Analysis for Marketing Campaigns
Cloud Computing for Video Game Streaming
Machine Learning for Speech Recognition
Augmented Reality for Architecture and Design
Natural Language Processing for Customer Service Chatbots
Machine Learning for Climate Change Prediction
Big Data Analytics for Social Sciences
Artificial Intelligence for Energy Management
Virtual Reality for Tourism and Travel
Cybersecurity for Smart Grids
Machine Learning for Image Recognition
Augmented Reality for Sports Training
Natural Language Processing for Content Creation
Cloud Computing for High-Performance Computing
Artificial Intelligence for Personalized Medicine
Virtual Reality for Architecture and Design
Augmented Reality for Product Visualization
Natural Language Processing for Language Translation
Cybersecurity for Cloud Computing
Artificial Intelligence for Supply Chain Optimization
Blockchain Technology for Digital Voting Systems
Virtual Reality for Job Training
Augmented Reality for Retail Shopping
Natural Language Processing for Sentiment Analysis in Customer Feedback
Cloud Computing for Mobile Application Development
Artificial Intelligence for Cybersecurity Threat Detection
Blockchain Technology for Intellectual Property Protection
Virtual Reality for Music Education
Machine Learning for Financial Forecasting
Augmented Reality for Medical Education
Natural Language Processing for News Summarization
Cybersecurity for Healthcare Data Protection
Artificial Intelligence for Autonomous Robots
Virtual Reality for Fitness and Health
Machine Learning for Natural Language Understanding
Augmented Reality for Museum Exhibits
Natural Language Processing for Chatbot Personality Development
Cloud Computing for Website Performance Optimization
Artificial Intelligence for E-commerce Recommendation Systems
Blockchain Technology for Supply Chain Traceability
Virtual Reality for Military Training
Augmented Reality for Advertising
Natural Language Processing for Chatbot Conversation Management
Cybersecurity for Cloud-Based Services
Artificial Intelligence for Agricultural Management
Blockchain Technology for Food Safety Assurance
Virtual Reality for Historical Reenactments
Machine Learning for Cybersecurity Incident Response.
Secure Multiparty Computation
Federated Learning
Internet of Things Security
Blockchain Scalability
Quantum Computing Algorithms
Explainable AI
Data Privacy in the Age of Big Data
Adversarial Machine Learning
Deep Reinforcement Learning
Online Learning and Streaming Algorithms
Graph Neural Networks
Automated Debugging and Fault Localization
Mobile Application Development
Software Engineering for Cloud Computing
Cryptocurrency Security
Edge Computing for Real-Time Applications
Natural Language Generation
Virtual and Augmented Reality
Computational Biology and Bioinformatics
Internet of Things Applications
Robotics and Autonomous Systems
Explainable Robotics
3D Printing and Additive Manufacturing
Distributed Systems
Parallel Computing
Data Center Networking
Data Mining and Knowledge Discovery
Information Retrieval and Search Engines
Network Security and Privacy
Cloud Computing Security
Data Analytics for Business Intelligence
Neural Networks and Deep Learning
Reinforcement Learning for Robotics
Automated Planning and Scheduling
Evolutionary Computation and Genetic Algorithms
Formal Methods for Software Engineering
Computational Complexity Theory
Bio-inspired Computing
Computer Vision for Object Recognition
Automated Reasoning and Theorem Proving
Natural Language Understanding
Machine Learning for Healthcare
Scalable Distributed Systems
Sensor Networks and Internet of Things
Smart Grids and Energy Systems
Software Testing and Verification
Web Application Security
Wireless and Mobile Networks
Computer Architecture and Hardware Design
Digital Signal Processing
Game Theory and Mechanism Design
Multi-agent Systems
Evolutionary Robotics
Quantum Machine Learning
Computational Social Science
Explainable Recommender Systems.
Artificial Intelligence and its applications
Cloud computing and its benefits
Cybersecurity threats and solutions
Internet of Things and its impact on society
Virtual and Augmented Reality and its uses
Blockchain Technology and its potential in various industries
Web Development and Design
Digital Marketing and its effectiveness
Big Data and Analytics
Software Development Life Cycle
Gaming Development and its growth
Network Administration and Maintenance
Machine Learning and its uses
Data Warehousing and Mining
Computer Architecture and Design
Computer Graphics and Animation
Quantum Computing and its potential
Data Structures and Algorithms
Computer Vision and Image Processing
Robotics and its applications
Operating Systems and its functions
Information Theory and Coding
Compiler Design and Optimization
Computer Forensics and Cyber Crime Investigation
Distributed Computing and its significance
Artificial Neural Networks and Deep Learning
Cloud Storage and Backup
Programming Languages and their significance
Computer Simulation and Modeling
Computer Networks and its types
Information Security and its types
Computer-based Training and eLearning
Medical Imaging and its uses
Social Media Analysis and its applications
Human Resource Information Systems
Computer-Aided Design and Manufacturing
Multimedia Systems and Applications
Geographic Information Systems and its uses
Computer-Assisted Language Learning
Mobile Device Management and Security
Data Compression and its types
Knowledge Management Systems
Text Mining and its uses
Cyber Warfare and its consequences
Wireless Networks and its advantages
Computer Ethics and its importance
Computational Linguistics and its applications
Autonomous Systems and Robotics
Information Visualization and its importance
Geographic Information Retrieval and Mapping
Business Intelligence and its benefits
Digital Libraries and their significance
Artificial Life and Evolutionary Computation
Computer Music and its types
Virtual Teams and Collaboration
Computer Games and Learning
Semantic Web and its applications
Electronic Commerce and its advantages
Multimedia Databases and their significance
Computer Science Education and its importance
Computer-Assisted Translation and Interpretation
Ambient Intelligence and Smart Homes
Autonomous Agents and Multi-Agent Systems.

About the author

Muhammad Hassan

Researcher, Academic Writer, Web developer

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Nezha: Deployable and High-Performance Consensus Using Synchronized Clocks

steamgjk/nezha • 3 Jun 2022

Nezha bridges the gap between protocols such as Multi-Paxos and Raft, which can be readily deployed and protocols such as NOPaxos and Speculative Paxos, that provide better performance, but require access to technologies such as programmable switches and in-network prioritization, which cloud tenants do not have.

Distributed, Parallel, and Cluster Computing Databases Networking and Internet Architecture C.2.1; C.2.4; C.4

Stream-K: Work-centric Parallel Decomposition for Dense Matrix-Matrix Multiplication on the GPU

We introduce Stream-K, a work-centric parallelization of matrix multiplication (GEMM) and related computations in dense linear algebra.

Data Structures and Algorithms Distributed, Parallel, and Cluster Computing

AISHELL-4: An Open Source Dataset for Speech Enhancement, Separation, Recognition and Speaker Diarization in Conference Scenario

This allows the researchers to explore different aspects in meeting processing, ranging from individual tasks such as speech front-end processing, speech recognition and speaker diarization, to multi-modality modeling and joint optimization of relevant tasks.

Sound Audio and Speech Processing

A Hybrid DSP/Deep Learning Approach to Real-Time Full-Band Speech Enhancement

xiph/rnnoise • 24 Sep 2017

Despite noise suppression being a mature area in signal processing, it remains highly dependent on fine tuning of estimator algorithms and parameters.

Safe Low-Altitude Navigation in Steep Terrain with Fixed-Wing Aerial Vehicles

ethz-asl/terrain-navigation • 9 Jan 2024

Fixed-wing aerial vehicles provide an efficient way to navigate long distances or cover large areas for environmental monitoring applications.

Body Design and Gait Generation of Chair-Type Asymmetrical Tripedal Low-rigidity Robot

shin0805/chair-typeasymmetricaltripedalrobot • 9 Apr 2024

In this study, a chair-type asymmetric tripedal low-rigidity robot was designed based on the three-legged chair character in the movie "Suzume" and its gait was generated.

CARLA-Autoware-Bridge: Facilitating Autonomous Driving Research with a Unified Framework for Simulation and Module Development

tumftm/carla-autoware-bridge • 17 Feb 2024

In addition to component tests, the safety assessment of individual modules also requires a holistic view at system level, which can be carried out efficiently with the help of simulation.

Tightly Joining Positioning and Control for Trustworthy Unmanned Aerial Vehicles Based on Factor Graph Optimization in Urban Transportation

roboticspolyu/ipn_mpc • 4 Oct 2023

Given the fact that the system positioning and control are highly correlated with each other, for example, the system dynamics of the control can largely help with the positioning, this paper proposed a joint positioning and control method (JPCM) based on factor graph optimization (FGO), which combines sensors' measurements and control intention.

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100 Great Computer Science Research Topics Ideas for 2023

Being a computer student in 2023 is not easy. Besides studying a constantly evolving subject, you have to come up with great computer science research topics at some point in your academic life. If you’re reading this article, you’re among many other students that have also come to this realization.

Interesting Computer Science Topics

Awesome research topics in computer science, hot topics in computer science, topics to publish a journal on computer science.

Controversial Topics in Computer Science

Fun AP Computer Science Topics

Exciting computer science ph.d. topics, remarkable computer science research topics for undergraduates, incredible final year computer science project topics, advanced computer science topics, unique seminars topics for computer science, exceptional computer science masters thesis topics, outstanding computer science presentation topics.

Key Computer Science Essay Topics

Main Project Topics for Computer Science

We Can Help You with Computer Science Topics

Whether you’re earnestly searching for a topic or stumbled onto this article by accident, there is no doubt that every student needs excellent computer science-related topics for their paper. A good topic will not only give your essay or research a good direction but will also make it easy to come up with supporting points. Your topic should show all your strengths as well.

Fortunately, this article is for every student that finds it hard to generate a suitable computer science topic. The following 100+ topics will help give you some inspiration when creating your topics. Let’s get into it.

One of the best ways of making your research paper interesting is by coming up with relevant topics in computer science . Here are some topics that will make your paper immersive:

Evolution of virtual reality
What is green cloud computing
Ways of creating a Hopefield neural network in C++
Developments in graphic systems in computers
The five principal fields in robotics
Developments and applications of nanotechnology
Differences between computer science and applied computing

Your next research topic in computer science shouldn’t be tough to find once you’ve read this section. If you’re looking for simple final year project topics in computer science, you can find some below.

Applications of the blockchain technology in the banking industry
Computational thinking and how it influences science
Ways of terminating phishing
Uses of artificial intelligence in cyber security
Define the concepts of a smart city
Applications of the Internet of Things
Discuss the applications of the face detection application

Whenever a topic is described as “hot,” it means that it is a trendy topic in computer science. If computer science project topics for your final years are what you’re looking for, have a look at some below:

Applications of the Metaverse in the world today
Discuss the challenges of machine learning
Advantages of artificial intelligence
Applications of nanotechnology in the paints industry
What is quantum computing?
Discuss the languages of parallel computing
What are the applications of computer-assisted studies?

Perhaps you’d like to write a paper that will get published in a journal. If you’re searching for the best project topics for computer science students that will stand out in a journal, check below:

Developments in human-computer interaction
Applications of computer science in medicine
Developments in artificial intelligence in image processing
Discuss cryptography and its applications
Discuss methods of ransomware prevention
Applications of Big Data in the banking industry
Challenges of cloud storage services in 2023

Controversial Topics in Computer Science

Some of the best computer science final year project topics are those that elicit debates or require you to take a stand. You can find such topics listed below for your inspiration:

Can robots be too intelligent?
Should the dark web be shut down?
Should your data be sold to corporations?
Will robots completely replace the human workforce one day?
How safe is the Metaverse for children?
Will artificial intelligence replace actors in Hollywood?
Are social media platforms safe anymore?

Are you a computer science student looking for AP topics? You’re in luck because the following final year project topics for computer science are suitable for you.

Standard browser core with CSS support
Applications of the Gaussian method in C++ development in integrating functions
Vital conditions of reducing risk through the Newton method
How to reinforce machine learning algorithms.
How do artificial neural networks function?
Discuss the advancements in computer languages in machine learning
Use of artificial intelligence in automated cars

When studying to get your doctorate in computer science, you need clear and relevant topics that generate the reader’s interest. Here are some Ph.D. topics in computer science you might consider:

Developments in information technology
Is machine learning detrimental to the human workforce?
How to write an algorithm for deep learning
What is the future of 5G in wireless networks
Statistical data in Maths modules in Python
Data retention automation from a website using API
Application of modern programming languages

Looking for computer science topics for research is not easy for an undergraduate. Fortunately, these computer science project topics should make your research paper easy:

Ways of using artificial intelligence in real estate
Discuss reinforcement learning and its applications
Uses of Big Data in science and medicine
How to sort algorithms using Haskell
How to create 3D configurations for a website
Using inverse interpolation to solve non-linear equations
Explain the similarities between the Internet of Things and artificial intelligence

Your dissertation paper is one of the most crucial papers you’ll ever do in your final year. That’s why selecting the best ethics in computer science topics is a crucial part of your paper. Here are some project topics for the computer science final year.

How to incorporate numerical methods in programming
Applications of blockchain technology in cloud storage
How to come up with an automated attendance system
Using dynamic libraries for site development
How to create cubic splines
Applications of artificial intelligence in the stock market
Uses of quantum computing in financial modeling

Your instructor may want you to challenge yourself with an advanced science project. Thus, you may require computer science topics to learn and research. Here are some that may inspire you:

Discuss the best cryptographic protocols
Advancement of artificial intelligence used in smartphones
Briefly discuss the types of security software available
Application of liquid robots in 2023
How to use quantum computers to solve decoherence problem
macOS vs. Windows; discuss their similarities and differences
Explain the steps taken in a cyber security audit

When searching for computer science topics for a seminar, make sure they are based on current research or events. Below are some of the latest research topics in computer science:

How to reduce cyber-attacks in 2023
Steps followed in creating a network
Discuss the uses of data science
Discuss ways in which social robots improve human interactions
Differentiate between supervised and unsupervised machine learning
Applications of robotics in space exploration
The contrast between cyber-physical and sensor network systems

Are you looking for computer science thesis topics for your upcoming projects? The topics below are meant to help you write your best paper yet:

Applications of computer science in sports
Uses of computer technology in the electoral process
Using Fibonacci to solve the functions maximum and their implementations
Discuss the advantages of using open-source software
Expound on the advancement of computer graphics
Briefly discuss the uses of mesh generation in computational domains
How much data is generated from the internet of things?

A computer science presentation requires a topic relevant to current events. Whether your paper is an assignment or a dissertation, you can find your final year computer science project topics below:

Uses of adaptive learning in the financial industry
Applications of transitive closure on graph
Using RAD technology in developing software
Discuss how to create maximum flow in the network
How to design and implement functional mapping
Using artificial intelligence in courier tracking and deliveries
How to make an e-authentication system

Key Computer Science Essay Topics

You may be pressed for time and require computer science master thesis topics that are easy. Below are some topics that fit this description:

What are the uses of cloud computing in 2023
Discuss the server-side web technologies
Compare and contrast android and iOS
How to come up with a face detection algorithm
What is the future of NFTs
How to create an artificial intelligence shopping system
How to make a software piracy prevention algorithm

One major mistake students make when writing their papers is selecting topics unrelated to the study at hand. This, however, will not be an issue if you get topics related to computer science, such as the ones below:

Using blockchain to create a supply chain management system
How to protect a web app from malicious attacks
Uses of distributed information processing systems
Advancement of crowd communication software since COVID-19
Uses of artificial intelligence in online casinos
Discuss the pillars of math computations
Discuss the ethical concerns arising from data mining

We Can Help You with Computer Science Topics, Essays, Thesis, and Research Papers

We hope that this list of computer science topics helps you out of your sticky situation. We do offer other topics in different subjects. Additionally, we also offer professional writing services tailor-made for you.

We understand what students go through when searching the internet for computer science research paper topics, and we know that many students don’t know how to write a research paper to perfection. However, you shouldn’t have to go through all this when we’re here to help.

Don’t waste any more time; get in touch with us today and get your paper done excellently.

The Top 10 Most Interesting Computer Science Research Topics

Computer science touches nearly every area of our lives. With new advancements in technology, the computer science field is constantly evolving, giving rise to new computer science research topics. These topics attempt to answer various computer science research questions and how they affect the tech industry and the larger world.

Computer science research topics can be divided into several categories, such as artificial intelligence, big data and data science, human-computer interaction, security and privacy, and software engineering. If you are a student or researcher looking for computer research paper topics. In that case, this article provides some suggestions on examples of computer science research topics and questions.

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What makes a strong computer science research topic.

A strong computer science topic is clear, well-defined, and easy to understand. It should also reflect the research’s purpose, scope, or aim. In addition, a strong computer science research topic is devoid of abbreviations that are not generally known, though, it can include industry terms that are currently and generally accepted.

Tips for Choosing a Computer Science Research Topic

Brainstorm . Brainstorming helps you develop a few different ideas and find the best topic for you. Some core questions you should ask are, What are some open questions in computer science? What do you want to learn more about? What are some current trends in computer science?
Choose a sub-field . There are many subfields and career paths in computer science . Before choosing a research topic, ensure that you point out which aspect of computer science the research will focus on. That could be theoretical computer science, contemporary computing culture, or even distributed computing research topics.
Aim to answer a question . When you’re choosing a research topic in computer science, you should always have a question in mind that you’d like to answer. That helps you narrow down your research aim to meet specified clear goals.
Do a comprehensive literature review . When starting a research project, it is essential to have a clear idea of the topic you plan to study. That involves doing a comprehensive literature review to better understand what has been learned about your topic in the past.
Keep the topic simple and clear. The topic should reflect the scope and aim of the research it addresses. It should also be concise and free of ambiguous words. Hence, some researchers recommended that the topic be limited to five to 15 substantive words. It can take the form of a question or a declarative statement.

What’s the Difference Between a Research Topic and a Research Question?

A research topic is the subject matter that a researcher chooses to investigate. You may also refer to it as the title of a research paper. It summarizes the scope of the research and captures the researcher’s approach to the research question. Hence, it may be broad or more specific. For example, a broad topic may read, Data Protection and Blockchain, while a more specific variant can read, Potential Strategies to Privacy Issues on the Blockchain.

On the other hand, a research question is the fundamental starting point for any research project. It typically reflects various real-world problems and, sometimes, theoretical computer science challenges. As such, it must be clear, concise, and answerable.

How to Create Strong Computer Science Research Questions

To create substantial computer science research questions, one must first understand the topic at hand. Furthermore, the research question should generate new knowledge and contribute to the advancement of the field. It could be something that has not been answered before or is only partially answered. It is also essential to consider the feasibility of answering the question.

2. The Influence of Extraction Methods on Big Data Mining

Data mining has drawn the scientific community’s attention, especially with the explosive rise of big data. Many research results prove that the extraction methods used have a significant effect on the outcome of the data mining process. However, a topic like this analyzes algorithms. It suggests strategies and efficient algorithms that may help understand the challenge or lead the way to find a solution.

3. Integration of 5G with Analytics and Artificial Intelligence

According to the International Finance Corporation, 5G and AI technologies are defining emerging markets and our world. Through different technologies, this research aims to find novel ways to integrate these powerful tools to produce excellent results. Subjects like this often spark great discoveries that pioneer new levels of research and innovation. A breakthrough can influence advanced educational technology, virtual reality, metaverse, and medical imaging.

4. Leveraging Asynchronous FPGAs for Crypto Acceleration

To support the growing cryptocurrency industry, there is a need to create new ways to accelerate transaction processing. This project aims to use asynchronous Field-Programmable Gate Arrays (FPGAs) to accelerate cryptocurrency transaction processing. It explores how various distributed computing technologies can influence mining cryptocurrencies faster with FPGAs and generally enjoy faster transactions.

5. Cyber Security Future Technologies

Cyber security is a trending topic among businesses and individuals, especially as many work teams are going remote. Research like this can stretch the length and breadth of the cyber security and cloud security industries and project innovations depending on the researcher’s preferences. Another angle is to analyze existing or emerging solutions and present discoveries that can aid future research.

6. Exploring the Boundaries Between Art, Media, and Information Technology

The field of computers and media is a vast and complex one that intersects in many ways. They create images or animations using design technology like algorithmic mechanism design, design thinking, design theory, digital fabrication systems, and electronic design automation. This paper aims to define how both fields exist independently and symbiotically.

7. Evolution of Future Wireless Networks Using Cognitive Radio Networks

This research project aims to study how cognitive radio technology can drive evolution in future wireless networks. It will analyze the performance of cognitive radio-based wireless networks in different scenarios and measure its impact on spectral efficiency and network capacity. The research project will involve the development of a simulation model for studying the performance of cognitive radios in different scenarios.

8. The Role of Quantum Computing and Machine Learning in Advancing Medical Predictive Systems

In a paper titled Exploring Quantum Computing Use Cases for Healthcare , experts at IBM highlighted precision medicine and diagnostics to benefit from quantum computing. Using biomedical imaging, machine learning, computational biology, and data-intensive computing systems, researchers can create more accurate disease progression prediction, disease severity classification systems, and 3D Image reconstruction systems vital for treating chronic diseases.

9. Implementing Privacy and Security in Wireless Networks

Wireless networks are prone to attacks, and that has been a big concern for both individual users and organizations. According to the Cyber Security and Infrastructure Security Agency CISA, cyber security specialists are working to find reliable methods of securing wireless networks . This research aims to develop a secure and privacy-preserving communication framework for wireless communication and social networks.

10. Exploring the Challenges and Potentials of Biometric Systems Using Computational Techniques

Much discussion surrounds biometric systems and the potential for misuse and privacy concerns. When exploring how biometric systems can be effectively used, issues such as verification time and cost, hygiene, data bias, and cultural acceptance must be weighed. The paper may take a critical study into the various challenges using computational tools and predict possible solutions.

Computer Research Questions

Why are there so many programming languages?
Is there a better way to enhance human-computer interactions in computer-aided learning?
How safe is cloud computing, and what are some ways to enhance security?
Can computers effectively assist in the sequencing of human genes?
How valuable is SCRUM methodology in Agile software development?

Choosing the Right Computer Science Research Topic

Computer science research is a vast field, and it can be challenging to choose the right topic. There are a few things to keep in mind when making this decision. Choose a topic that you are interested in. This will make it easier to stay motivated and produce high-quality research for your computer science degree .

Select a topic that is relevant to your field of study. This will help you to develop specialized knowledge in the area. Choose a topic that has potential for future research. This will ensure that your research is relevant and up-to-date. Typically, coding bootcamps provide a framework that streamlines students’ projects to a specific field, doing their search for a creative solution more effortless.

Computer Science Research Topics FAQ

To start a computer science research project, you should look at what other content is out there. Complete a literature review to know the available findings surrounding your idea. Design your research and ensure that you have the necessary skills and resources to complete the project.

The first step to conducting computer science research is to conceptualize the idea and review existing knowledge about that subject. You will design your research and collect data through surveys or experiments. Analyze your data and build a prototype or graphical model. You will also write a report and present it to a recognized body for review and publication.

You can find computer science research jobs on the job boards of many universities. Many universities have job boards on their websites that list open positions in research and academia. Also, many Slack and GitHub channels for computer scientists provide regular updates on available projects.

There are several hot topics and questions in AI that you can build your research on. Below are some AI research questions you may consider for your research paper.

Will it be possible to build artificial emotional intelligence?
Will robots replace humans in all difficult cumbersome jobs as part of the progress of civilization?
Can artificial intelligence systems self-improve with knowledge from the Internet?

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How to Contact Faculty for IW/Thesis Advising

Send the professor an e-mail. When you write a professor, be clear that you want a meeting regarding a senior thesis or one-on-one IW project, and briefly describe the topic or idea that you want to work on. Check the faculty listing for email addresses.

Parastoo Abtahi, Room 419

Available for single-semester IW and senior thesis advising, 2024-2025

Research Areas: Human-Computer Interaction (HCI), Augmented Reality (AR), and Spatial Computing
Input techniques for on-the-go interaction (e.g., eye-gaze, microgestures, voice) with a focus on uncertainty, disambiguation, and privacy.
Minimal and timely multisensory output (e.g., spatial audio, haptics) that enables users to attend to their physical environment and the people around them, instead of a 2D screen.
Interaction with intelligent systems (e.g., IoT, robots) situated in physical spaces with a focus on updating users’ mental model despite the complexity and dynamicity of these systems.

Ryan Adams, Room 411

Research areas:

Machine learning driven design
Generative models for structured discrete objects
Approximate inference in probabilistic models
Accelerating solutions to partial differential equations
Innovative uses of automatic differentiation
Modeling and optimizing 3d printing and CNC machining

Andrew Appel, Room 209

Available for Fall 2024 IW advising, only

Research Areas: Formal methods, programming languages, compilers, computer security.
Software verification (for which taking COS 326 / COS 510 is helpful preparation)
Game theory of poker or other games (for which COS 217 / 226 are helpful)
Computer game-playing programs (for which COS 217 / 226)
Risk-limiting audits of elections (for which ORF 245 or other knowledge of probability is useful)

Sanjeev Arora, Room 407

Theoretical machine learning, deep learning and its analysis, natural language processing. My advisees would typically have taken a course in algorithms (COS423 or COS 521 or equivalent) and a course in machine learning.
Show that finding approximate solutions to NP-complete problems is also NP-complete (i.e., come up with NP-completeness reductions a la COS 487).
Experimental Algorithms: Implementing and Evaluating Algorithms using existing software packages.
Studying/designing provable algorithms for machine learning and implementions using packages like scipy and MATLAB, including applications in Natural language processing and deep learning.
Any topic in theoretical computer science.

David August, Room 221

Not available for IW or thesis advising, 2024-2025

Research Areas: Computer Architecture, Compilers, Parallelism
Containment-based approaches to security: We have designed and tested a simple hardware+software containment mechanism that stops incorrect communication resulting from faults, bugs, or exploits from leaving the system. Let's explore ways to use containment to solve real problems. Expect to work with corporate security and technology decision-makers.
Parallelism: Studies show much more parallelism than is currently realized in compilers and architectures. Let's find ways to realize this parallelism.
Any other interesting topic in computer architecture or compilers.

Mark Braverman, 194 Nassau St., Room 231

Research Areas: computational complexity, algorithms, applied probability, computability over the real numbers, game theory and mechanism design, information theory.
Topics in computational and communication complexity.
Applications of information theory in complexity theory.
Algorithms for problems under real-life assumptions.
Game theory, network effects
Mechanism design (could be on a problem proposed by the student)

Sebastian Caldas, 221 Nassau Street, Room 105

Research Areas: collaborative learning, machine learning for healthcare. Typically, I will work with students that have taken COS324.
Methods for collaborative and continual learning.
Machine learning for healthcare applications.

Bernard Chazelle, 194 Nassau St., Room 301

Research Areas: Natural Algorithms, Computational Geometry, Sublinear Algorithms.
Natural algorithms (flocking, swarming, social networks, etc).
Sublinear algorithms
Self-improving algorithms
Markov data structures

Danqi Chen, Room 412

My advisees would be expected to have taken a course in machine learning and ideally have taken COS484 or an NLP graduate seminar.
Representation learning for text and knowledge bases
Pre-training and transfer learning
Question answering and reading comprehension
Information extraction
Text summarization
Any other interesting topics related to natural language understanding/generation

Marcel Dall'Agnol, Corwin 034

Research Areas: Theoretical computer science. (Specifically, quantum computation, sublinear algorithms, complexity theory, interactive proofs and cryptography)
Research Areas: Machine learning

Jia Deng, Room 423

Research Areas: Computer Vision, Machine Learning.
Object recognition and action recognition
Deep Learning, autoML, meta-learning
Geometric reasoning, logical reasoning

Adji Bousso Dieng, Room 406

Research areas: Vertaix is a research lab at Princeton University led by Professor Adji Bousso Dieng. We work at the intersection of artificial intelligence (AI) and the natural sciences. The models and algorithms we develop are motivated by problems in those domains and contribute to advancing methodological research in AI. We leverage tools in statistical machine learning and deep learning in developing methods for learning with the data, of various modalities, arising from the natural sciences.

Robert Dondero, Corwin Hall, Room 038

Research Areas: Software engineering; software engineering education.
Develop or evaluate tools to facilitate student learning in undergraduate computer science courses at Princeton, and beyond.
In particular, can code critiquing tools help students learn about software quality?

Zeev Dvir, 194 Nassau St., Room 250

Research Areas: computational complexity, pseudo-randomness, coding theory and discrete mathematics.
Independent Research: I have various research problems related to Pseudorandomness, Coding theory, Complexity and Discrete mathematics - all of which require strong mathematical background. A project could also be based on writing a survey paper describing results from a few theory papers revolving around some particular subject.

Benjamin Eysenbach, Room 416

Research areas: reinforcement learning, machine learning. My advisees would typically have taken COS324.
Using RL algorithms to applications in science and engineering.
Emergent behavior of RL algorithms on high-fidelity robotic simulators.
Studying how architectures and representations can facilitate generalization.

Christiane Fellbaum, 1-S-14 Green

Research Areas: theoretical and computational linguistics, word sense disambiguation, lexical resource construction, English and multilingual WordNet(s), ontology
Anything having to do with natural language--come and see me with/for ideas suitable to your background and interests. Some topics students have worked on in the past:
Developing parsers, part-of-speech taggers, morphological analyzers for underrepresented languages (you don't have to know the language to develop such tools!)
Quantitative approaches to theoretical linguistics questions
Extensions and interfaces for WordNet (English and WN in other languages),
Applications of WordNet(s), including:
Foreign language tutoring systems,
Spelling correction software,
Word-finding/suggestion software for ordinary users and people with memory problems,
Machine Translation
Sentiment and Opinion detection
Automatic reasoning and inferencing
Collaboration with professors in the social sciences and humanities ("Digital Humanities")

Adam Finkelstein, Room 424

Research Areas: computer graphics, audio.

Robert S. Fish, Corwin Hall, Room 037

Networking and telecommunications
Learning, perception, and intelligence, artificial and otherwise;
Human-computer interaction and computer-supported cooperative work
Online education, especially in Computer Science Education
Topics in research and development innovation methodologies including standards, open-source, and entrepreneurship
Distributed autonomous organizations and related blockchain technologies

Michael Freedman, Room 308

Research Areas: Distributed systems, security, networking
Projects related to streaming data analysis, datacenter systems and networks, untrusted cloud storage and applications. Please see my group website at http://sns.cs.princeton.edu/ for current research projects.

Ruth Fong, Room 032

Research Areas: computer vision, machine learning, deep learning, interpretability, explainable AI, fairness and bias in AI
Develop a technique for understanding AI models
Design a AI model that is interpretable by design
Build a paradigm for detecting and/or correcting failure points in an AI model
Analyze an existing AI model and/or dataset to better understand its failure points
Build a computer vision system for another domain (e.g., medical imaging, satellite data, etc.)
Develop a software package for explainable AI
Adapt explainable AI research to a consumer-facing problem

Note: I am happy to advise any project if there's a sufficient overlap in interest and/or expertise; please reach out via email to chat about project ideas.

Tom Griffiths, Room 405

Available for Fall 2024 single-semester IW advising, only

Research areas: computational cognitive science, computational social science, machine learning and artificial intelligence

Note: I am open to projects that apply ideas from computer science to understanding aspects of human cognition in a wide range of areas, from decision-making to cultural evolution and everything in between. For example, we have current projects analyzing chess game data and magic tricks, both of which give us clues about how human minds work. Students who have expertise or access to data related to games, magic, strategic sports like fencing, or other quantifiable domains of human behavior feel free to get in touch.

Aarti Gupta, Room 220

Research Areas: Formal methods, program analysis, logic decision procedures
Finding bugs in open source software using automatic verification tools
Software verification (program analysis, model checking, test generation)
Decision procedures for logical reasoning (SAT solvers, SMT solvers)

Elad Hazan, Room 409

Research interests: machine learning methods and algorithms, efficient methods for mathematical optimization, regret minimization in games, reinforcement learning, control theory and practice
Machine learning, efficient methods for mathematical optimization, statistical and computational learning theory, regret minimization in games.
Implementation and algorithm engineering for control, reinforcement learning and robotics
Implementation and algorithm engineering for time series prediction

Felix Heide, Room 410

Research Areas: Computational Imaging, Computer Vision, Machine Learning (focus on Optimization and Approximate Inference).
Optical Neural Networks
Hardware-in-the-loop Holography
Zero-shot and Simulation-only Learning
Object recognition in extreme conditions
3D Scene Representations for View Generation and Inverse Problems
Long-range Imaging in Scattering Media
Hardware-in-the-loop Illumination and Sensor Optimization
Inverse Lidar Design
Phase Retrieval Algorithms
Proximal Algorithms for Learning and Inference
Domain-Specific Language for Optics Design

Peter Henderson , 302 Sherrerd Hall

Research Areas: Machine learning, law, and policy

Kyle Jamieson, Room 306

Research areas: Wireless and mobile networking; indoor radar and indoor localization; Internet of Things
See other topics on my independent work ideas page (campus IP and CS dept. login req'd)

Alan Kaplan, 221 Nassau Street, Room 105

Research Areas:

Random apps of kindness - mobile application/technology frameworks used to help individuals or communities; topic areas include, but are not limited to: first response, accessibility, environment, sustainability, social activism, civic computing, tele-health, remote learning, crowdsourcing, etc.
Tools automating programming language interoperability - Java/C++, React Native/Java, etc.
Software visualization tools for education
Connected consumer devices, applications and protocols

Brian Kernighan, Room 311

Research Areas: application-specific languages, document preparation, user interfaces, software tools, programming methodology
Application-oriented languages, scripting languages.
Tools; user interfaces
Digital humanities

Zachary Kincaid, Room 219

Research areas: programming languages, program analysis, program verification, automated reasoning
Independent Research Topics:
Develop a practical algorithm for an intractable problem (e.g., by developing practical search heuristics, or by reducing to, or by identifying a tractable sub-problem, ...).
Design a domain-specific programming language, or prototype a new feature for an existing language.
Any interesting project related to programming languages or logic.

Gillat Kol, Room 316

Aleksandra korolova, 309 sherrerd hall.

Research areas: Societal impacts of algorithms and AI; privacy; fair and privacy-preserving machine learning; algorithm auditing.

Advisees typically have taken one or more of COS 226, COS 324, COS 423, COS 424 or COS 445.

Pravesh Kothari, Room 320

Research areas: Theory

Amit Levy, Room 307

Research Areas: Operating Systems, Distributed Systems, Embedded Systems, Internet of Things
Distributed hardware testing infrastructure
Second factor security tokens
Low-power wireless network protocol implementation
USB device driver implementation

Kai Li, Room 321

Research Areas: Distributed systems; storage systems; content-based search and data analysis of large datasets.
Fast communication mechanisms for heterogeneous clusters.
Approximate nearest-neighbor search for high dimensional data.
Data analysis and prediction of in-patient medical data.
Optimized implementation of classification algorithms on manycore processors.

Xiaoyan Li, 221 Nassau Street, Room 104

Research areas: Information retrieval, novelty detection, question answering, AI, machine learning and data analysis.
Explore new statistical retrieval models for document retrieval and question answering.
Apply AI in various fields.
Apply supervised or unsupervised learning in health, education, finance, and social networks, etc.
Any interesting project related to AI, machine learning, and data analysis.

Lydia Liu, Room 414

Research Areas: algorithmic decision making, machine learning and society
Theoretical foundations for algorithmic decision making (e.g. mathematical modeling of data-driven decision processes, societal level dynamics)
Societal impacts of algorithms and AI through a socio-technical lens (e.g. normative implications of worst case ML metrics, prediction and model arbitrariness)
Machine learning for social impact domains, especially education (e.g. responsible development and use of LLMs for education equity and access)
Evaluation of human-AI decision making using statistical methods (e.g. causal inference of long term impact)

Wyatt Lloyd, Room 323

Research areas: Distributed Systems
Caching algorithms and implementations
Storage systems
Distributed transaction algorithms and implementations

Alex Lombardi , Room 312

Research Areas: Theory

Margaret Martonosi, Room 208

Quantum Computing research, particularly related to architecture and compiler issues for QC.
Computer architectures specialized for modern workloads (e.g., graph analytics, machine learning algorithms, mobile applications
Investigating security and privacy vulnerabilities in computer systems, particularly IoT devices.
Other topics in computer architecture or mobile / IoT systems also possible.

Jonathan Mayer, Sherrerd Hall, Room 307

Available for Spring 2025 single-semester IW, only

Research areas: Technology law and policy, with emphasis on national security, criminal procedure, consumer privacy, network management, and online speech.
Assessing the effects of government policies, both in the public and private sectors.
Collecting new data that relates to government decision making, including surveying current business practices and studying user behavior.
Developing new tools to improve government processes and offer policy alternatives.

Mae Milano, Room 307

Local-first / peer-to-peer systems
Wide-ares storage systems
Consistency and protocol design
Type-safe concurrency
Language design
Gradual typing
Domain-specific languages
Languages for distributed systems

Andrés Monroy-Hernández, Room 405

Research Areas: Human-Computer Interaction, Social Computing, Public-Interest Technology, Augmented Reality, Urban Computing
Research interests:developing public-interest socio-technical systems. We are currently creating alternatives to gig work platforms that are more equitable for all stakeholders. For instance, we are investigating the socio-technical affordances necessary to support a co-op food delivery network owned and managed by workers and restaurants. We are exploring novel system designs that support self-governance, decentralized/federated models, community-centered data ownership, and portable reputation systems. We have opportunities for students interested in human-centered computing, UI/UX design, full-stack software development, and qualitative/quantitative user research.
Beyond our core projects, we are open to working on research projects that explore the use of emerging technologies, such as AR, wearables, NFTs, and DAOs, for creative and out-of-the-box applications.

Christopher Moretti, Corwin Hall, Room 036

Research areas: Distributed systems, high-throughput computing, computer science/engineering education
Expansion, improvement, and evaluation of open-source distributed computing software.
Applications of distributed computing for "big science" (e.g. biometrics, data mining, bioinformatics)
Software and best practices for computer science education and study, especially Princeton's 126/217/226 sequence or MOOCs development
Sports analytics and/or crowd-sourced computing

Radhika Nagpal, F316 Engineering Quadrangle

Research areas: control, robotics and dynamical systems

Karthik Narasimhan, Room 422

Research areas: Natural Language Processing, Reinforcement Learning
Autonomous agents for text-based games ( https://www.microsoft.com/en-us/research/project/textworld/ )
Transfer learning/generalization in NLP
Techniques for generating natural language
Model-based reinforcement learning

Arvind Narayanan, 308 Sherrerd Hall

Research Areas: fair machine learning (and AI ethics more broadly), the social impact of algorithmic systems, tech policy

Pedro Paredes, Corwin Hall, Room 041

My primary research work is in Theoretical Computer Science.

* Research Interest: Spectral Graph theory, Pseudorandomness, Complexity theory, Coding Theory, Quantum Information Theory, Combinatorics.

The IW projects I am interested in advising can be divided into three categories:

1. Theoretical research

I am open to advise work on research projects in any topic in one of my research areas of interest. A project could also be based on writing a survey given results from a few papers. Students should have a solid background in math (e.g., elementary combinatorics, graph theory, discrete probability, basic algebra/calculus) and theoretical computer science (226 and 240 material, like big-O/Omega/Theta, basic complexity theory, basic fundamental algorithms). Mathematical maturity is a must.

A (non exhaustive) list of topics of projects I'm interested in: * Explicit constructions of better vertex expanders and/or unique neighbor expanders. * Construction deterministic or random high dimensional expanders. * Pseudorandom generators for different problems. * Topics around the quantum PCP conjecture. * Topics around quantum error correcting codes and locally testable codes, including constructions, encoding and decoding algorithms.

2. Theory informed practical implementations of algorithms Very often the great advances in theoretical research are either not tested in practice or not even feasible to be implemented in practice. Thus, I am interested in any project that consists in trying to make theoretical ideas applicable in practice. This includes coming up with new algorithms that trade some theoretical guarantees for feasible implementation yet trying to retain the soul of the original idea; implementing new algorithms in a suitable programming language; and empirically testing practical implementations and comparing them with benchmarks / theoretical expectations. A project in this area doesn't have to be in my main areas of research, any theoretical result could be suitable for such a project.

Some examples of areas of interest: * Streaming algorithms. * Numeric linear algebra. * Property testing. * Parallel / Distributed algorithms. * Online algorithms. 3. Machine learning with a theoretical foundation

I am interested in projects in machine learning that have some mathematical/theoretical, even if most of the project is applied. This includes topics like mathematical optimization, statistical learning, fairness and privacy.

One particular area I have been recently interested in is in the area of rating systems (e.g., Chess elo) and applications of this to experts problems.

Final Note: I am also willing to advise any project with any mathematical/theoretical component, even if it's not the main one; please reach out via email to chat about project ideas.

Iasonas Petras, Corwin Hall, Room 033

Research Areas: Information Based Complexity, Numerical Analysis, Quantum Computation.
Prerequisites: Reasonable mathematical maturity. In case of a project related to Quantum Computation a certain familiarity with quantum mechanics is required (related courses: ELE 396/PHY 208).
Possible research topics include:

1. Quantum algorithms and circuits:

i. Design or simulation quantum circuits implementing quantum algorithms.
ii. Design of quantum algorithms solving/approximating continuous problems (such as Eigenvalue problems for Partial Differential Equations).

2. Information Based Complexity:

i. Necessary and sufficient conditions for tractability of Linear and Linear Tensor Product Problems in various settings (for example worst case or average case).
ii. Necessary and sufficient conditions for tractability of Linear and Linear Tensor Product Problems under new tractability and error criteria.
iii. Necessary and sufficient conditions for tractability of Weighted problems.
iv. Necessary and sufficient conditions for tractability of Weighted Problems under new tractability and error criteria.

3. Topics in Scientific Computation:

i. Randomness, Pseudorandomness, MC and QMC methods and their applications (Finance, etc)

Yuri Pritykin, 245 Carl Icahn Lab

Research interests: Computational biology; Cancer immunology; Regulation of gene expression; Functional genomics; Single-cell technologies.
Potential research projects: Development, implementation, assessment and/or application of algorithms for analysis, integration, interpretation and visualization of multi-dimensional data in molecular biology, particularly single-cell and spatial genomics data.

Benjamin Raphael, Room 309

Research interests: Computational biology and bioinformatics; Cancer genomics; Algorithms and machine learning approaches for analysis of large-scale datasets
Implementation and application of algorithms to infer evolutionary processes in cancer
Identifying correlations between combinations of genomic mutations in human and cancer genomes
Design and implementation of algorithms for genome sequencing from new DNA sequencing technologies
Graph clustering and network anomaly detection, particularly using diffusion processes and methods from spectral graph theory

Vikram Ramaswamy, 035 Corwin Hall

Research areas: Interpretability of AI systems, Fairness in AI systems, Computer vision.
Constructing a new method to explain a model / create an interpretable by design model
Analyzing a current model / dataset to understand bias within the model/dataset
Proposing new fairness evaluations
Proposing new methods to train to improve fairness
Developing synthetic datasets for fairness / interpretability benchmarks
Understanding robustness of models

Ran Raz, Room 240

Research Area: Computational Complexity
Independent Research Topics: Computational Complexity, Information Theory, Quantum Computation, Theoretical Computer Science

Szymon Rusinkiewicz, Room 406

Research Areas: computer graphics; computer vision; 3D scanning; 3D printing; robotics; documentation and visualization of cultural heritage artifacts
Research ways of incorporating rotation invariance into computer visiontasks such as feature matching and classification
Investigate approaches to robust 3D scan matching
Model and compensate for imperfections in 3D printing
Given a collection of small mobile robots, apply control policies learned in simulation to the real robots.

Olga Russakovsky, Room 408

Research Areas: computer vision, machine learning, deep learning, crowdsourcing, fairness&bias in AI
Design a semantic segmentation deep learning model that can operate in a zero-shot setting (i.e., recognize and segment objects not seen during training)
Develop a deep learning classifier that is impervious to protected attributes (such as gender or race) that may be erroneously correlated with target classes
Build a computer vision system for the novel task of inferring what object (or part of an object) a human is referring to when pointing to a single pixel in the image. This includes both collecting an appropriate dataset using crowdsourcing on Amazon Mechanical Turk, creating a new deep learning formulation for this task, and running extensive analysis of both the data and the model

Sebastian Seung, Princeton Neuroscience Institute, Room 153

Research Areas: computational neuroscience, connectomics, "deep learning" neural networks, social computing, crowdsourcing, citizen science
Gamification of neuroscience (EyeWire 2.0)
Semantic segmentation and object detection in brain images from microscopy
Computational analysis of brain structure and function
Neural network theories of brain function

Jaswinder Pal Singh, Room 324

Research Areas: Boundary of technology and business/applications; building and scaling technology companies with special focus at that boundary; parallel computing systems and applications: parallel and distributed applications and their implications for software and architectural design; system software and programming environments for multiprocessors.
Develop a startup company idea, and build a plan/prototype for it.
Explore tradeoffs at the boundary of technology/product and business/applications in a chosen area.
Study and develop methods to infer insights from data in different application areas, from science to search to finance to others.
Design and implement a parallel application. Possible areas include graphics, compression, biology, among many others. Analyze performance bottlenecks using existing tools, and compare programming models/languages.
Design and implement a scalable distributed algorithm.

Mona Singh, Room 420

Research Areas: computational molecular biology, as well as its interface with machine learning and algorithms.
Whole and cross-genome methods for predicting protein function and protein-protein interactions.
Analysis and prediction of biological networks.
Computational methods for inferring specific aspects of protein structure from protein sequence data.
Any other interesting project in computational molecular biology.

Robert Tarjan, 194 Nassau St., Room 308

Research Areas: Data structures; graph algorithms; combinatorial optimization; computational complexity; computational geometry; parallel algorithms.
Implement one or more data structures or combinatorial algorithms to provide insight into their empirical behavior.
Design and/or analyze various data structures and combinatorial algorithms.

Olga Troyanskaya, Room 320

Research Areas: Bioinformatics; analysis of large-scale biological data sets (genomics, gene expression, proteomics, biological networks); algorithms for integration of data from multiple data sources; visualization of biological data; machine learning methods in bioinformatics.
Implement and evaluate one or more gene expression analysis algorithm.
Develop algorithms for assessment of performance of genomic analysis methods.
Develop, implement, and evaluate visualization tools for heterogeneous biological data.

David Walker, Room 211

Research Areas: Programming languages, type systems, compilers, domain-specific languages, software-defined networking and security
Independent Research Topics: Any other interesting project that involves humanitarian hacking, functional programming, domain-specific programming languages, type systems, compilers, software-defined networking, fault tolerance, language-based security, theorem proving, logic or logical frameworks.

Shengyi Wang, Postdoctoral Research Associate, Room 216

Available for Fall 2024 single-semester IW, only

Independent Research topics: Explore Escher-style tilings using (introductory) group theory and automata theory to produce beautiful pictures.

Kevin Wayne, Corwin Hall, Room 040

Research Areas: design, analysis, and implementation of algorithms; data structures; combinatorial optimization; graphs and networks.
Design and implement computer visualizations of algorithms or data structures.
Develop pedagogical tools or programming assignments for the computer science curriculum at Princeton and beyond.
Develop assessment infrastructure and assessments for MOOCs.

Matt Weinberg, 194 Nassau St., Room 222

Research Areas: algorithms, algorithmic game theory, mechanism design, game theoretical problems in {Bitcoin, networking, healthcare}.
Theoretical questions related to COS 445 topics such as matching theory, voting theory, auction design, etc.
Theoretical questions related to incentives in applications like Bitcoin, the Internet, health care, etc. In a little bit more detail: protocols for these systems are often designed assuming that users will follow them. But often, users will actually be strictly happier to deviate from the intended protocol. How should we reason about user behavior in these protocols? How should we design protocols in these settings?

Huacheng Yu, Room 310

data structures
streaming algorithms
design and analyze data structures / streaming algorithms
prove impossibility results (lower bounds)
implement and evaluate data structures / streaming algorithms

Ellen Zhong, Room 314

Opportunities outside the department.

We encourage students to look in to doing interdisciplinary computer science research and to work with professors in departments other than computer science. However, every CS independent work project must have a strong computer science element (even if it has other scientific or artistic elements as well.) To do a project with an adviser outside of computer science you must have permission of the department. This can be accomplished by having a second co-adviser within the computer science department or by contacting the independent work supervisor about the project and having he or she sign the independent work proposal form.

Here is a list of professors outside the computer science department who are eager to work with computer science undergraduates.

Maria Apostolaki, Engineering Quadrangle, C330

Research areas: Computing & Networking, Data & Information Science, Security & Privacy

Branko Glisic, Engineering Quadrangle, Room E330

Documentation of historic structures
Cyber physical systems for structural health monitoring
Developing virtual and augmented reality applications for documenting structures
Applying machine learning techniques to generate 3D models from 2D plans of buildings
Contact : Rebecca Napolitano, rkn2 (@princeton.edu)

Mihir Kshirsagar, Sherrerd Hall, Room 315

Center for Information Technology Policy.

Consumer protection
Content regulation
Competition law
Economic development
Surveillance and discrimination

Sharad Malik, Engineering Quadrangle, Room B224

Select a Senior Thesis Adviser for the 2020-21 Academic Year.

Design of reliable hardware systems
Verifying complex software and hardware systems

Prateek Mittal, Engineering Quadrangle, Room B236

Internet security and privacy
Social Networks
Privacy technologies, anonymous communication
Network Science
Internet security and privacy: The insecurity of Internet protocols and services threatens the safety of our critical network infrastructure and billions of end users. How can we defend end users as well as our critical network infrastructure from attacks?
Trustworthy social systems: Online social networks (OSNs) such as Facebook, Google+, and Twitter have revolutionized the way our society communicates. How can we leverage social connections between users to design the next generation of communication systems?
Privacy Technologies: Privacy on the Internet is eroding rapidly, with businesses and governments mining sensitive user information. How can we protect the privacy of our online communications? The Tor project (https://www.torproject.org/) is a potential application of interest.

Ken Norman, Psychology Dept, PNI 137

Research Areas: Memory, the brain and computation
Lab: Princeton Computational Memory Lab

Potential research topics

Methods for decoding cognitive state information from neuroimaging data (fMRI and EEG)
Neural network simulations of learning and memory

Caroline Savage

Office of Sustainability, Phone:(609)258-7513, Email: cs35 (@princeton.edu)

The Campus as Lab program supports students using the Princeton campus as a living laboratory to solve sustainability challenges. The Office of Sustainability has created a list of campus as lab research questions, filterable by discipline and topic, on its website .

An example from Computer Science could include using TigerEnergy , a platform which provides real-time data on campus energy generation and consumption, to study one of the many energy systems or buildings on campus. Three CS students used TigerEnergy to create a live energy heatmap of campus .

Other potential projects include:

Apply game theory to sustainability challenges
Develop a tool to help visualize interactions between complex campus systems, e.g. energy and water use, transportation and storm water runoff, purchasing and waste, etc.
How can we learn (in aggregate) about individuals’ waste, energy, transportation, and other behaviors without impinging on privacy?

Janet Vertesi, Sociology Dept, Wallace Hall, Room 122

Research areas: Sociology of technology; Human-computer interaction; Ubiquitous computing.
Possible projects: At the intersection of computer science and social science, my students have built mixed reality games, produced artistic and interactive installations, and studied mixed human-robot teams, among other projects.

David Wentzlaff, Engineering Quadrangle, Room 228

Computing, Operating Systems, Sustainable Computing.

Instrument Princeton's Green (HPCRC) data center
Investigate power utilization on an processor core implemented in an FPGA
Dismantle and document all of the components in modern electronics. Invent new ways to build computers that can be recycled easier.
Other topics in parallel computer architecture or operating systems

Suggestions or feedback?

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Despite the pandemic’s disruptions, MIT’s research community still found a way to generate a number of impressive research breakthroughs in 2021. In the spirit of reflection that comes with every new orbit around the sun, below we count down 10 of the most-viewed research stories on MIT News from the past year.

We’ve also rounded up the year’s top MIT community-related stories .

10. Giving cancer treatment a recharge . In October, researchers discovered a way to jump-start the immune system to attack tumors. The method combines chemotherapy and immunotherapy to spur immune cells into action. The researchers hope it could allow immunotherapy to be used against more types of cancer.

9. Generating 3D holograms in real-time . Computer scientists developed a deep-learning-based system that allows computers to create holograms almost instantly. The system could be used to create holograms for virtual reality, 3D printing, medical imaging, and more — and it’s efficient enough to run on a smartphone.

8. Creating inhalable vaccines . Scientists at the Koch Institute developed a method for delivering vaccines directly to the lungs through inhalation. The new strategy induced a strong immune response in the lungs of mice and could offer a quicker response to viruses that infect hosts through mucosal surfaces.

7. Assessing Covid-19 transmission risk . Two MIT professors proposed a new approach to estimating the risks of exposure to Covid-19 in different indoor settings. The guidelines suggest a limit for exposure based on factors such as the size of the space, the number of people, the kinds of activity, whether masks are worn, and ventilation and filtration rates.

6. Teaching machine learning models to adapt . Researchers in CSAIL developed a new type of neural network that can change its underlying equations to continuously adapt to new data. The advance could improve models’ decision-making based on data that changes over time, such as in medical diagnosis and autonomous driving.

5. Programming fibers . In June, a team created the first fabric fiber with digital capabilities. The fibers can sense, store, analyze, and infer data and activity after being sewn into a shirt. The researchers say the fibers could be used to monitor physical performance, to detect diseases, and for a variety of medical purposes.

4. Examining the limitations of data visualizations . A collaboration between anthropologists and computer scientists found that coronavirus skeptics have used sophisticated data visualizations to argue against public health orthodoxy like wearing a mask. The researchers concluded that data visualizations aren’t sufficient to convey the urgency of the Covid-19 pandemic because even the clearest graphs can be interpreted through a variety of belief systems.

3. Developing a Covid-detecting face mask . Engineers at MIT and Harvard University designed a prototype face mask that can diagnose the person wearing the mask with Covid-19 in about 90 minutes. The masks are embedded with tiny, disposable sensors that can be fitted into other face masks and could also be adapted to detect other viruses.

2. Confirming Hawking’s black hole theorem . Using observations of gravitational waves, physicists from MIT and elsewhere confirmed a major theorem created by Stephen Hawking in 1971. The theorem states that the area of a black hole’s event horizon — the boundary beyond which nothing can ever escape — will never shrink.

1. Advancing toward fusion energy . In September, researchers at MIT and the MIT spinout Commonwealth Fusion Systems ramped up a high-temperature superconducting electromagnet to a field strength of 20 tesla, the most powerful magnetic field of its kind ever created on Earth. The demonstration was three years in the making and is believed to resolve one of greatest remaining points of uncertainty in the quest to build the world’s first fusion power plant that produces more energy than it consumes.

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MIT community in 2021: A year in review

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MIT community in 2020: A year in review

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Seven from MIT elected to American Academy of Arts and Sciences for 2024

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Latest Computer Science Research Topics for 2024

Home Blog Programming Latest Computer Science Research Topics for 2024

Everybody sees a dream—aspiring to become a doctor, astronaut, or anything that fits your imagination. If you were someone who had a keen interest in looking for answers and knowing the “why” behind things, you might be a good fit for research. Further, if this interest revolved around computers and tech, you would be an excellent computer researcher!

As a tech enthusiast, you must know how technology is making our life easy and comfortable. With a single click, Google can get you answers to your silliest query or let you know the best restaurants around you. Do you know what generates that answer? Want to learn about the science going on behind these gadgets and the internet?

For this, you will have to do a bit of research. Here we will learn about top computer science thesis topics and computer science thesis ideas.

Why is Research in Computer Science Important?

Computers and technology are becoming an integral part of our lives. We are dependent on them for most of our work. With the changing lifestyle and needs of the people, continuous research in this sector is required to ease human work. However, you need to be a certified researcher to contribute to the field of computers. You can check out Advance Computer Programming certification to learn and advance in the versatile language and get hands-on experience with all the topics of C# application development.

1. Innovation in Technology

Research in computer science contributes to technological advancement and innovations. We end up discovering new things and introducing them to the world. Through research, scientists and engineers can create new hardware, software, and algorithms that improve the functionality, performance, and usability of computers and other digital devices.

2. Problem-Solving Capabilities

From disease outbreaks to climate change, solving complex problems requires the use of advanced computer models and algorithms. Computer science research enables scholars to create methods and tools that can help in resolving these challenging issues in a blink of an eye.

3. Enhancing Human Life

Computer science research has the potential to significantly enhance human life in a variety of ways. For instance, researchers can produce educational software that enhances student learning or new healthcare technology that improves clinical results. If you wish to do Ph.D., these can become interesting computer science research topics for a PhD.

4. Security Assurance

As more sensitive data is being transmitted and kept online, security is our main concern. Computer science research is crucial for creating new security systems and tactics that defend against online threats.

1. Integrated Blockchain and Edge Computing Systems: A Survey, Some Research Issues, and Challenges

Welcome to the era of seamless connectivity and unparalleled efficiency! Blockchain and edge computing are two cutting-edge technologies that have the potential to revolutionize numerous sectors. Blockchain is a distributed ledger technology that is decentralized and offers a safe and transparent method of storing and transferring data.

As a young researcher, you can pave the way for a more secure, efficient, and scalable architecture that integrates blockchain and edge computing systems. So, let's roll up our sleeves and get ready to push the boundaries of technology with this exciting innovation!

Blockchain helps to reduce latency and boost speed. Edge computing, on the other hand, entails processing data close to the generation source, such as sensors and IoT devices. Integrating edge computing with blockchain technologies can help to achieve safer, more effective, and scalable architecture.

Moreover, this research title for computer science might open doors of opportunities for you in the financial sector.

2. A Survey on Edge Computing Systems and Tools

With the rise in population, the data is multiplying by manifolds each day. It's high time we find efficient technology to store it. However, more research is required for the same.

Say hello to the future of computing with edge computing! The edge computing system can store vast amounts of data to retrieve in the future. It also provides fast access to information in need. It maintains computing resources from the cloud and data centers while processing.

Edge computing systems bring processing power closer to the data source, resulting in faster and more efficient computing. But what tools are available to help us harness the power of edge computing?

As a part of this research, you will look at the newest edge computing tools and technologies to see how they can improve your computing experience. Here are some of the tools you might get familiar with upon completion of this research:

Apache NiFi: A framework for data processing that enables users to gather, transform, and transfer data from edge devices to cloud computing infrastructure.
Microsoft Azure IoT Edge: A platform in the cloud that enables the creation and deployment of cutting-edge intelligent applications.
OpenFog Consortium: An organization that supports the advancement of fog computing technologies and architectures is the OpenFog Consortium.

3. Machine Learning: Algorithms, Real-world Applications, and Research Directions

Machine learning is the superset of Artificial Intelligence; a ground-breaking technology used to train machines to mimic human action and work. ML is used in everything from virtual assistants to self-driving cars and is revolutionizing the way we interact with computers. But what is machine learning exactly, and what are some of its practical uses and future research directions?

To find answers to such questions, it can be a wonderful choice to pick from the pool of various computer science dissertation ideas.

You will discover how computers learn several actions without explicit programming and see how they perform beyond their current capabilities. However, to understand better, having some basic programming knowledge always helps. KnowledgeHut’s Programming course for beginners will help you learn the most in-demand programming languages and technologies with hands-on projects.

During the research, you will work on and study

Algorithm: Machine learning includes many algorithms, from decision trees to neural networks.
Applications in the Real-world: You can see the usage of ML in many places. It can early detect and diagnose diseases like cancer. It can detect fraud when you are making payments. You can also use it for personalized advertising.
Research Trend: The most recent developments in machine learning research, include explainable AI, reinforcement learning, and federated learning.

While a single research paper is not enough to bring the light on an entire domain as vast as machine learning; it can help you witness how applicable it is in numerous fields, like engineering, data science & analysis, business intelligence, and many more.

Whether you are a data scientist with years of experience or a curious tech enthusiast, machine learning is an intriguing and vital field that's influencing the direction of technology. So why not dig deeper?

4. Evolutionary Algorithms and their Applications to Engineering Problems

Imagine a system that can solve most of your complex queries. Are you interested to know how these systems work? It is because of some algorithms. But what are they, and how do they work? Evolutionary algorithms use genetic operators like mutation and crossover to build new generations of solutions rather than starting from scratch.

This research topic can be a choice of interest for someone who wants to learn more about algorithms and their vitality in engineering.

Evolutionary algorithms are transforming the way we approach engineering challenges by allowing us to explore enormous solution areas and optimize complex systems.

The possibilities are infinite as long as this technology is developed further. Get ready to explore the fascinating world of evolutionary algorithms and their applications in addressing engineering issues.

5. The Role of Big Data Analytics in the Industrial Internet of Things

Datasets can have answers to most of your questions. With good research and approach, analyzing this data can bring magical results. Welcome to the world of data-driven insights! Big Data Analytics is the transformative process of extracting valuable knowledge and patterns from vast and complex datasets, boosting innovation and informed decision-making.

This field allows you to transform the enormous amounts of data produced by IoT devices into insightful knowledge that has the potential to change how large-scale industries work. It's like having a crystal ball that can foretell.

Big data analytics is being utilized to address some of the most critical issues, from supply chain optimization to predictive maintenance. Using it, you can find patterns, spot abnormalities, and make data-driven decisions that increase effectiveness and lower costs for several industrial operations by analyzing data from sensors and other IoT devices.

The area is so vast that you'll need proper research to use and interpret all this information. Choose this as your computer research topic to discover big data analytics' most compelling applications and benefits. You will see that a significant portion of industrial IoT technology demands the study of interconnected systems, and there's nothing more suitable than extensive data analysis.

6. An Efficient Lightweight Integrated Blockchain (ELIB) Model for IoT Security and Privacy

Are you concerned about the security and privacy of your Internet of Things (IoT) devices? As more and more devices become connected, it is more important than ever to protect the security and privacy of data. If you are interested in cyber security and want to find new ways of strengthening it, this is the field for you.

ELIB is a cutting-edge solution that offers private and secure communication between IoT devices by fusing the strength of blockchain with lightweight cryptography. This architecture stores encrypted data on a distributed ledger so only parties with permission can access it.

But why is ELIB so practical and portable? ELIB uses lightweight cryptography to provide quick and effective communication between devices, unlike conventional blockchain models that need complicated and resource-intensive computations.

Due to its increasing vitality, it is gaining popularity as a research topic as someone aware that this framework works and helps reinstate data security is highly demanded in financial and banking.

7. Natural Language Processing Techniques to Reveal Human-Computer Interaction for Development Research Topics

Welcome to the world where machines decode the beauty of the human language. With natural language processing (NLP) techniques, we can analyze the interactions between humans and computers to reveal valuable insights for development research topics. It is also one of the most crucial PhD topics in computer science as NLP-based applications are gaining more and more traction.

Etymologically, natural language processing (NLP) is a potential technique that enables us to examine and comprehend natural language data, such as discussions between people and machines. Insights on user behaviour, preferences, and pain areas can be gleaned from these encounters utilizing NLP approaches.

But which specific areas should we leverage on using NLP methods? This is precisely what you’ll discover while doing this computer science research.

Gear up to learn more about the fascinating field of NLP and how it can change how we design and interact with technology, whether you are a UX designer, a data scientist, or just a curious tech lover and linguist.

8. All One Needs to Know About Fog Computing and Related Edge Computing Paradigms: A Complete Survey

If you are an IoT expert or a keen lover of the Internet of Things, you should leap and move forward to discovering Fog Computing. With the rise of connected devices and the Internet of Things (IoT), traditional cloud computing models are no longer enough. That's where fog computing and related edge computing paradigms come in.

Fog computing is a distributed approach that brings processing and data storage closer to the devices that generate and consume data by extending cloud computing to the network's edge.

As computing technologies are significantly used today, the area has become a hub for researchers to delve deeper into the underlying concepts and devise more and more fog computing frameworks. You can also contribute to and master this architecture by opting for this stand-out topic for your research.

Tips and Tricks to Write Computer Research Topics

Before starting to explore these hot research topics in computer science you may have to know about some tips and tricks that can easily help you.

Know your interest.
Choose the topic wisely.
Make proper research about the demand of the topic.
Get proper references.
Discuss with experts.

By following these tips and tricks, you can write a compelling and impactful computer research topic that contributes to the field's advancement and addresses important research gaps.

From machine learning and artificial intelligence to blockchain, edge computing, and big data analytics, numerous trending computer research topics exist to explore.

One of the most important trends is using cutting-edge technology to address current issues. For instance, new IIoT security and privacy opportunities are emerging by integrating blockchain and edge computing. Similarly, the application of natural language processing methods is assisting in revealing human-computer interaction and guiding the creation of new technologies.

Another trend is the growing emphasis on sustainability and moral considerations in technological development. Researchers are looking into how computer science might help in innovation.

With the latest developments and leveraging cutting-edge tools and techniques, researchers can make meaningful contributions to the field and help shape the future of technology. Going for Full-stack Developer online training will help you master the latest tools and technologies.

Frequently Asked Questions (FAQs)

Research in computer science is mainly focused on different niches. It can be theoretical or technical as well. It completely depends upon the candidate and his focused area. They may do research for inventing new algorithms or many more to get advanced responses in that field.

Yes, moreover it would be a very good opportunity for the candidate. Because computer science students may have a piece of knowledge about the topic previously. They may find Easy thesis topics for computer science to fulfill their research through KnowledgeHut.

There are several scopes available for computer science. A candidate can choose different subjects such as AI, database management, software design, graphics, and many more.

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The future of our society is interwoven with the future of data-driven thinking—most prominently, artificial intelligence is set to reshape every aspect of our lives. Research in this area studies the interface between AI-driven systems and human actors, exploring both the impact of data-driven decision-making on human behavior and experience, and how AI technologies can be used to improve access to opportunities. This research combines a variety of areas including AI, machine learning, economics, social psychology, and law.

Our goal is to develop AI technologies that will change the landscape of healthcare. This includes early diagnostics, drug discovery, care personalization and management. Building on MIT’s pioneering history in artificial intelligence and life sciences, we are working on algorithms suitable for modeling biological and clinical data across a range of modalities including imaging, text and genomics.

Our research covers a wide range of topics of this fast-evolving field, advancing how machines learn, predict, and control, while also making them secure, robust and trustworthy. Research covers both the theory and applications of ML. This broad area studies ML theory (algorithms, optimization, …), statistical learning (inference, graphical models, causal analysis, …), deep learning, reinforcement learning, symbolic reasoning ML systems, as well as diverse hardware implementations of ML.

We develop the technology and systems that will transform the future of biology and healthcare. Specific areas include biomedical sensors and electronics, nano- and micro-technologies, imaging, and computational modeling of disease.

We develop the next generation of wired and wireless communications systems, from new physical principles (e.g., light, terahertz waves) to coding and information theory, and everything in between.

We bring some of the most powerful tools in computation to bear on design problems, including modeling, simulation, processing and fabrication.

We design the next generation of computer systems. Working at the intersection of hardware and software, our research studies how to best implement computation in the physical world. We design processors that are faster, more efficient, easier to program, and secure. Our research covers systems of all scales, from tiny Internet-of-Things devices with ultra-low-power consumption to high-performance servers and datacenters that power planet-scale online services. We design both general-purpose processors and accelerators that are specialized to particular application domains, like machine learning and storage. We also design Electronic Design Automation (EDA) tools to facilitate the development of such systems.

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Our research focuses on solving challenges related to the transduction, transmission, and control of energy and energy systems. We develop new materials for energy storage, devices and power electronics for harvesting, generation and processing of energy, and control of large-scale energy systems.

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12 Most Emerging Research Areas in Computer Science in 2021

By: P. Chaudhary, B. Gupta

Artificial Intelligence and Robotics

Artificial Intelligence and Robotics [1, 2] field aims at developing computational system that are intelligent in decision making, planning, object recognition, and other complex computational tasks that require minimum human intervention. This field emphasizes upon the development of cognitive algorithms for a variety of domains including e-commerce, healthcare, transport, manufacturing, gaming, defense industry, logistics, to name a few. It includes the application of popular emerging technologies such as Deep leaning, machine learning, Natural language processing (NLP), robotics, evolutionary algorithms, statistical inference, probabilistic methods, and computer vision. Some of the eminent research areas includes the following:

Knowledge representation and reasoning
Estimation theory
Mobility mechanisms
Multi-agent negotiation
Intelligent agents
Semantic segmentation
Assistive robotics in medical diagnosis
Robot perception and learning
Motion planning and control
Autonomous vehicles
Personal assistive robots
Search and information retrieval
Speech and language recognition
Fuzzy and neural system
Intelligent embedded system in industries
Object detection and capturing
Intelligent information systems

2. Big Data Analytics

Big data analytics [3, 4] research field involves design and development of techniques/algorithms/frameworks to explore the large amount of data to fulfill organization’s objectives. This area includes mathematical, statistical and graphical approaches to mine useful knowledge patterns from heterogeneous raw data. It is one of the potential and emerging research domains as almost every organization is attempting to utilize available data to enhance their productivity and services to their customers. Some of the distinguished research areas are following:

Predictive analysis
Data capturing and transmission
Parallel Data processing
Uncertainty in data
Data anonymization methods
Data processing in distributed environment
Privacy protecting techniques
Semantic analysis on social media
Intelligent traffic surveillance
Topological data analysis

3. Biometrics and Computational Biology

This field embraces enormous potential for researchers as it amalgamates multiple research areas including big data, image processing, biological science, data mining, and machine learning. This field emphasizes on the designing and development of computational techniques for processing biological data [5, 6]. Some of the potential research areas includes:

Structure and sequence analysis algorithms
Protein structure anticipation
Data modeling of scientific applications
Virtual screening
Brain image analysis using data mining approaches
Design predictive models for severe disease analysis
Molecular structure modeling and analysis
Brain-machine interfaces
Computational neuroscience

4. Data Mining and Databases

This field motivates research on designing vital methods, prototype schemes and applications in data mining and databases. This field ensembles all methods, techniques, and algorithms used for extracting knowledgeable information from the available heterogenous raw data [7, 8]. It enables classification, characterization, searching and clustering different datasets from wide range of domains including e-commerce, social media, healthcare, to name a few. This field demands parallel and distributed processing of data as it operates on massive quantity of data. It integrates various research domains including artificial intelligence, big data analytics, data mining, database management system, and bioinformatics. Some of the eminent research areas comprises as follows:

Distributed data mining
Multimedia storage and retrieval
Data clustering
Pattern matching and analysis
High-dimensional data modeling
Spatial and scientific data mining for sensor data
Query interface for text/image processing
Scalable data analysis and query processing
Metadata management
Graph database management and analysis system for social media
Interactive data exploration and visualization
Secure data processing

5. Internet of Things (IoTs)

Internet of Things has transformed the lives of people through exploring new horizons of networking. It connects physical objects with the internet as per the application to serve the user. This field carries enormous potential in different research areas related to the IoT and its interrelated research domains [9, 10]. These areas include as follows:

IoT network infrastructure design
Security issues in IoT
Architectural issues in Embedded system
Adaptive networks for IoT
Service provisioning and management in IoT
Middleware management in IoT
Handling Device Interoperability in IoT
Scalability issues in IoT
Privacy and trust issues in IoT
Data storage and analysis in IoT networks
Integration of IoT with other emerging technologies such as fog computing, SDN, Blockchain, etc.
Context and location awareness in IoT networks
Modeling and management of IoT applications
Task scheduling in IoT networks
Resource allotment among smart devices in IoT networks.

6. High-Performance Computing

This field encourage the research in designing and development of parallel algorithms/techniques for multiprocessor and distributed systems. These techniques are efficient for data and computationally exhaustive programs like data mining, optimization, super computer application, graph portioning, to name a few [11, 12]. Some of the eminent research challenges includes the following:

Information retrieval methods in cloud storage
Graph mining in social media networks
Distributed and parallel computing methods
Development of architecture aware algorithms
Big data analytics methods on GPU system
Designing of parallel algorithms
Designing of algorithms for Quantum computing

7. Blockchain and Decentralized Systems

This field [13, 14] revolutionize the digital world through processing network information without any central authority. This field is an emerging computing paradigm and motivates the design and development of algorithms that operate in decentralized environment. These techniques provide security, robustness and scalability in the network. Some of the eminent research areas includes the following:

Enhancing IoT security using blockchain
Precision agriculture and blockchain
Social blockchain networks
Blockchain based solutions for intelligent transportation system
Security and privacy issues in blockchain networks
Digital currencies and blockchain
Blockchain and 5G/6G communication networks
Integration of cloud/fog computing with blockchain
Legislation rules and policies for blockchain
Artificial Intelligence for blockchain system

8. Cybersecurity

With the development of new technology such as IoT, attackers have wider attack surface to halt the normal functioning of any network. Attackers may have several intentions to trigger cyber-attacks either against an individual person, organization, and/or a country. Now-a-days, we are living in a digital world where everything is connected is to the internet, so we are prone to some form of security attacks [15, 16]. This field carries massive potential for research on different techniques/methods to defend against these attacks. Some of the emerging research areas comprise the following:

Intrusion detection system
Applied cryptography
Privacy issues in RFID system
Security challenges in IoT system
Malware detection in cloud computing
Security and privacy issues in social media
Wireless sensor network security
Mobile device security
Lawa and ethics in cybersecurity
Cyber physical system security
Software defined network security
Security implications of the quantum computing
Blockchain and its security
AI and IoT security
Privacy issues in big data analytics
Phishing detection in finance sector

9. AI and Cyber Physical System

Specifically, Cyber physical system integrates computation and physical methods whose functionalities is determined by both physical and cyber component of the system. Research in this area motivates the development of tools, techniques, algorithms and theories for the CPS and other interrelated research domains [17, 18]. Research topics includes the following:

Human computer interaction
Digital design of CPS interfaces
Embedded system and its security
Industrial Interne to things
Automation in manufacturing industries
Robotics in healthcare sector
Medical informatics
AI, robotics and cyber physical system
Robot networks
Cognitive computing and CPS

10. Networking and Embedded Systems

This field [19, 20] encourages research on the designing of contemporary theories and approaches, effective and scalable methods and protocols, and innovative network design structure and services. These mechanisms improve the reliability, availability, security, privacy, manageability of current and future network and embedded systems. Research in this domain comprises of following topics:

Cyber physical system
Design of novel network protocols
Cognitive radio networks
Network security for lightweight and enterprise networks
Resource allocation schemes in resource-constrained networks
Network coding
Energy efficient protocols for wireless sensor networks
AI and embedded system
Embedded system for precision agriculture

11. Computer Vision and Augmented Reality

Computer vision [21, 22] is a multidisciplinary field that make computer system to understand and extract useful information from digital images and videos. This field motivates the research in designing the tools and techniques for understanding, processing, extracting, and storing, analyzing the digital images and videos. It embraces multiple domains such as image processing, artificial intelligence, pattern recognition, virtual reality, augmented reality, semantic structuring, statistics, and probability. Some of the eminent research topics includes the following:

Computer vision for autonomous robots
Object detection in autonomous vehicles
Object detection and delineation in UAVs network.
Biomedical image analysis
Augmented reality in gaming
Shape analysis in digital images
Computer vision for forensics
Robotics navigation
Deep learning techniques for computer vision
Automation in manufacturing sector
3D object recognition and tracking

12. Wireless Networks and Distributed Systems

The research in this field emphasizes on the developments of techniques that facilitate communication and maintain coordination among distributed nodes in a network [23, 24]. It is a broad area that embraces numerous domains including cloud computing, wireless networks, mobile computing, big data, and edge computing. Some of the eminent research topics includes the following:

Message passing models in distributed system
Parallel distributed computing
Fault tolerance and load balancing
Dynamic resource allocation in distributed system
Resource discovery and naming
Low-latency consistency protocols
Designing of consensus protocols
Efficient communication protocols in distributed system
Security issues in distributed networks
Privacy and trust models
Optimization of distributed storage
Distributed and federated machine learning

[1] Wisskirchen, G., Biacabe, B. T., Bormann, U., Muntz, A., Niehaus, G., Soler, G. J., & von Brauchitsch, B. (2017). Artificial intelligence and robotics and their impact on the workplace . IBA Global Employment Institute, 11(5), 49-67. [2] Kortenkamp, D., Bonasso, R. P., & Murphy, R. (Eds.). (1998). Artificial intelligence and mobile robots: case studies of successful robot systems. MIT Press. [3] Dai, H. N., Wang, H., Xu, G., Wan, J., & Imran, M. (2020). Big data analytics for manufacturing internet of things: opportunities, challenges and enabling technologies . Enterprise Information Systems, 14(9-10), 1279-1303. [4] Müller, O., Junglas, I., Vom Brocke, J., & Debortoli, S. (2016). Utilizing big data analytics for information systems research: challenges, promises and guidelines . European Journal of Information Systems, 25(4), 289-302. [5] Waterman, M. S. (2018). Introduction to computational biology: maps, sequences and genomes. Chapman and Hall/CRC. [6] Imaoka, H., Hashimoto, H., Takahashi, K., Ebihara, A. F., Liu, J., Hayasaka, A., … & Sakurai, K. (2021). The future of biometrics technology: from face recognition to related applications. APSIPA Transactions on Signal and Information Processing, 10. [7] Zhu, X., & Davidson, I. (Eds.). (2007). Knowledge Discovery and Data Mining: Challenges and Realities: Challenges and Realities . Igi Global. [8] Tseng, L., Yao, X., Otoum, S., Aloqaily, M., & Jararweh, Y. (2020). Blockchain-based database in an IoT environment: challenges, opportunities, and analysis. Cluster Computing, 23(3), 2151-2165. [9] Stoyanova, M., Nikoloudakis, Y., Panagiotakis, S., Pallis, E., & Markakis, E. K. (2020). A survey on the internet of things (IoT) forensics: challenges, approaches, and open issues. IEEE Communications Surveys & Tutorials, 22(2), 1191-1221. [10] Nižetić, S., Šolić, P., González-de, D. L. D. I., & Patrono, L. (2020). Internet of Things (IoT): Opportunities, issues and challenges towards a smart and sustainable future. Journal of Cleaner Production, 274, 122877. [11] Hager, G., & Wellein, G. (2010). Introduction to high performance computing for scientists and engineers. CRC Press. [12] Wang, G. G., Cai, X., Cui, Z., Min, G., & Chen, J. (2017). High performance computing for cyber physical social systems by using evolutionary multi-objective optimization algorithm . IEEE Transactions on Emerging Topics in Computing, 8(1), 20-30. [13] Zheng, Z., Xie, S., Dai, H. N., Chen, X., & Wang, H. (2018). Blockchain challenges and opportunities: A survey. International Journal of Web and Grid Services, 14(4), 352-375. [14] Nguyen, D. C., Ding, M., Pham, Q. V., Pathirana, P. N., Le, L. B., Seneviratne, A., … & Poor, H. V. (2021). Federated learning meets blockchain in edge computing: Opportunities and challenges . IEEE Internet of Things Journal. [15] Tawalbeh, L. A., Muheidat, F., Tawalbeh, M., & Quwaider, M. (2020). IoT Privacy and security: Challenges and solutions. Applied Sciences, 10(12), 4102. [16] Boubiche, D. E., Athmani, S., Boubiche, S., & Toral-Cruz, H. (2021). Cybersecurity Issues in Wireless Sensor Networks: Current Challenges and Solutions. Wireless Personal Communications, 117(1). [17] Gupta, R., Tanwar, S., Al-Turjman, F., Italiya, P., Nauman, A., & Kim, S. W. (2020). Smart contract privacy protection using ai in cyber-physical systems: Tools, techniques and challenges. IEEE Access, 8, 24746-24772. [18] Kravets, A. G., Bolshakov, A. A., & Shcherbakov, M. V. (2020). Cyber-physical Systems: Industry 4.0 Challenges . Springer. [19] Duan, Q., Wang, S., & Ansari, N. (2020). Convergence of networking and cloud/edge computing: Status, challenges, and opportunities. IEEE Network, 34(6), 148-155. [20] Wang, C. X., Di Renzo, M., Stanczak, S., Wang, S., & Larsson, E. G. (2020). Artificial intelligence enabled wireless networking for 5G and beyond: Recent advances and future challenges. IEEE Wireless Communications, 27(1), 16-23. [21] Chen, C. H. (Ed.). (2015). Handbook of pattern recognition and computer vision . World Scientific. [22] Esteva, A., Chou, K., Yeung, S., Naik, N., Madani, A., Mottaghi, A., … & Socher, R. (2021). Deep learning-enabled medical computer vision. NPJ digital medicine, 4(1), 1-9. [23] Farahani, B., Firouzi, F., & Luecking, M. (2021). The convergence of IoT and distributed ledger technologies (DLT): Opportunities, challenges, and solutions. Journal of Network and Computer Applications, 177, 102936. [24] Alfandi, O., Otoum, S., & Jararweh, Y. (2020, April). Blockchain solution for iot-based critical infrastructures: Byzantine fault tolerance. In NOMS 2020-2020 IEEE/IFIP Network Operations and Management Symposium (pp. 1-4). IEEE.

Cite this article:

P. Chaudhary, B. Gupta (2021) 12 Most Emerging Research Areas in Computer Science in 2021 , Insights2Techinfo, pp. 1

FAQ on this topic

Artificial Intelligence and Robotics, Big Data Analytics, Biometrics and Computational Biology, Data Mining and Databases, Internet of Things (IoTs), High-Performance Computing, Blockchain and Decentralized Systems,Cybersecurity

Big data research field involves design and development of techniques/algorithms/frameworks to explore the large amount of data to fulfill organization’s objectives. Some of the distinguished research areas are following: Data capturing and transmission, Parallel Data processing,Data anonymization methods,Data processing in distributed environment

Artificial Intelligence field aims at developing computational systems that are intelligent in decision making, planning, object recognition, and other complex computational tasks that require minimum human intervention. Some of the eminent research areas includes the following: Knowledge representation and reasoning Autonomous vehicles, Fuzzy and neural system, Intelligent information systems

Some of the eminent research areas comprises as follows:Distributed data mining, Multimedia storage and retrieval, Data clustering, Pattern matching and analysis, High-dimensional data modeling, Spatial and scientific data mining for sensor data.

The research areas in IoT include as follows: IoT network infrastructure design, Security issues in IoT,Architectural issues in Embedded system, Service provisioning and management in IoT, Middleware management in IoT

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Computer Science Trends

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Updated September 12, 2022

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Computer science offers a sought-after, lucrative career path for tech-savvy people interested in the latest computer advancements. The U.S. Bureau of Labor Statistics projects 11% growth for computer and information technology (IT) occupations from 2019 to 2029, a faster-than-average growth rate. Computer science trends like cloud computing, information security, and big data collection and storage contribute to this field's promising outlook.

IT professionals who understand computer science trends remain competitive for the best career opportunities. This guide explores recent computing developments and trends in IT, including artificial intelligence, cybersecurity, and robotics.

Top Computer Science Trends

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Artificial Intelligence

Artificial intelligence (AI) centers on machine coding that mimics human and animal intelligence. AI professionals develop algorithms and program machines to perform humanlike tasks. Already ubiquitous, AI helps detect credit card fraud, identify disease outbreaks, and optimize satellite navigation.

In their annual technology prediction report, the Institute of Electrical and Electronics Engineers Computer Society predicts several AI concepts will be widely adopted in 2021. Computing developments in AI purportedly include reliability and safety for intelligent autonomous systems, AI for digital manufacturing, and trustworthy and explainable AI and machine learning.

A master's or Ph.D. leads to the best work opportunities in artificial intelligence.

Computer and information research scientists, one potential AI career, earned a median annual salary of $126,830 as of 2020 , with the BLS projecting much-faster-than-average growth for the profession from 2019 to 2029.

According to PayScale , as of June 2021, machine learning engineers earn an average annual salary of $112,840, with late-career professionals making an average annual salary of $162,000.

Entry-level AI jobs require at least a bachelor's degree, but a master's or Ph.D. leads to the best work opportunities in artificial intelligence.

Potential Jobs:

Machine Learning Engineer
Senior Data Scientist
Artificial Intelligence/Machine Learning Research Scientist
Deep Learning Engineer
Algorithm Engineer

Edge Computing

In contrast to cloud computing, where data is processed and stored far away from the end user in large data centers, edge computing puts computer data at "the edge," close to the end user. Experts do not expect the cloud to disappear completely, but rather work in tandem with edge computing as it brings processing to users, streamlining anything from factory production to self-driving car response.

Technology like autonomous cars, video conferencing, and augmented reality all benefit from edge computing. For example, when an autonomous car makes a split-second decision to brake and avoid a collision, an on-board computer system — edge computing — eliminates the delay of waiting for a server in the cloud to respond.

The BLS projects a 22% job growth rate from 2019 to 2029 for software developers , including edge computing software developers, and reports a median annual salary of $110,140 as of 2020.

Industries like telecommunications, security, and oil and gas employ workers with edge computing expertise. Entry-level positions such as software developer or computer network architect usually require a bachelor's. Managerial, administrative, and research positions often require at least a master's degree.

Edge Computing Specialist
Software Developer
Application Developer
Computer Network Architect
Computer Systems Analyst

Quantum Computing

Quantum computing uses powerful computers to solve problems at the atomic and subatomic levels. Unlike classic computers, which perform calculations and store data in binary code, quantum computers use quantum bits, also known as qubits. This allows quantum computers to crunch numbers and solve problems much more quickly than previously possible.

While large tech companies like Google and IBM make strides towards quantum computing advances, the field remains in its infancy. Other fields that can benefit from quantum computing include banking, transportation, and agriculture.

Researchers may use quantum computing to find the best truck delivery routes, determine the most efficient flight schedule for an airport, or develop new medicines quickly and cheaply. Scientists see promise in quantum computing to develop sustainable technologies and solve environmental problems.

Quantum computing careers usually require a master's or doctoral degree. ZipRecruiter reports salaries as high as $160,000 for quantum computing professionals, with an average annual salary of $96,900 as of May 2021. As an emerging computer science specialization, many future quantum computing careers may not yet exist.

Quantum Computer Architect
Quantum Software Developer
Quantum Algorithm Researcher
Quantum Computer Research Scientist

The robotics field studies and develops robots in the pursuit of make life easier. A multidisciplinary field, robotics incorporates computer science and electrical and mechanical engineering. Robotics uses artificial intelligence, machine learning, and other computer science technologies.

Robots aim to increase safety and efficiency in industries like manufacturing, farming, and food preparation. People use robotics technologies to manufacture cars, complete dangerous tasks like bomb diffusion, and conduct complex surgeries.

Students need a bachelor's degree at minimum to work in robotics. Many employers prefer robotics professionals with a master's or a Ph.D. for managerial or advanced research positions.

The BLS reports mechanical engineers — including robotics engineers — earned a median annual salary of $90,160 as of 2020. Robotics research scientists , which the BLS categorizes as a type of computer and information research scientist, earned a median annual salary of $126,830 as of 2020. The field is projected to grow much faster than average from 2019 to 2029.

Robots.jobs lists occupations and other resources for robotics professionals.

Robotics Engineer
Data Scientist
Software Engineer
Robotics Research Scientist

Cybersecurity

Cybersecurity focuses on protecting computer systems and networks from cyberthreats and attacks. As companies continue storing information on the cloud and conduct operations online, the need for improved cybersecurity also grows.

Individuals, businesses, and governments experience significant financial losses due to cyberattacks. For example, the ransomware attack in the eastern U.S. in May 2021 cost the Colonial Pipeline about $5 million and inflated gas prices for consumers.

Most industries, including healthcare, financial institutions, and insurance, need better cybersecurity technologies to protect their proprietary and customer data. Because of this demand, the BLS projects a 31% job growth rate for information security analysts from 2019 to 2029. Information security analysts earned a median annual salary of $103,590 as of 2020 .

Cybersecurity specialists work at consulting firms, computer companies, and business and financial organizations. Major employers include Apple, Lockheed Martin, and Capital One. The best cybersecurity jobs require at least a bachelor's, though some employers prefer a master's degree.

Information Security Analyst
Chief Information Security Officer
Information Security Consultant
IT Security Manager

Bioinformatics

Bioinformatics professionals study, store, and analyze biological information. A multidisciplinary subfield combining computer science and biology, bioinformatics looks for patterns in sequences of genetic material like DNA, genes, RNA, and protein. Bioinformatics workers develop the methods and software applications that accomplish these tasks.

The medical and pharmaceutical, industrial, environmental/government, and information technology fields benefit significantly from bioinformatics computer science technologies. Bioinformatics helps doctors in preventative and precision medicine detect diseases earlier to offer efficient targeted treatment.

PayScale reports that, as of June 2021, bioinformatics scientists earn an average annual salary of $96,230. The BLS projects faster-than-average job growth for bioengineers and biomedical engineers from 2019 to 2029.

Major employers for bioinformatics professionals include the Bureau of Land Management, the Department of Defense, hospitals, and research laboratories. Bioinformatics jobs require at least a bachelor's degree. Administrative, teaching, and supervisory positions may require a master's or Ph.D.

Bioinformatics Research Scientist
Bioinformatics Engineer
Biomedical Researcher
Bioengineer/Biomedical Engineer
Biostatistician
Computational Biologist
Agriculturalist
Software Programmer

Emerging Trends in IT

In addition to the computer science trends described above, IT professionals should keep an eye on other computing developments. Emerging trends in IT include big data analytics, virtual and augmented reality, 5G, and the internet of things.

Computer science workers can learn about computer science current events and new technologies by joining a professional organization. These groups offer online discussion groups, conferences, and industry journals. Staying current on trends in computer science can help computing professionals remain competitive in job interviews and promotion tracks.

Computer Science Topics to Study

Students can improve their career prospects by studying IT trends like those included on this page. They can pursue concentrations or elective classes in information security, machine learning, and bioinformatics. Some schools even offer entire degrees in artificial intelligence, cybersecurity, and robotics for learners seeking a specialized subfield education.

Check out the links below for more about computer science degrees.

Associate in Computer Science

Bachelor's in Computer Science

Master's in Computer Science

Ph.D. in Computer Science

Frequently asked questions about trends in computer science, what is the latest trend in technology.

The latest computer science trends include artificial intelligence, edge computing, and quantum computing. IT professionals are also knowledgeable about developments in robotics and cybersecurity.

What new technologies in computer science should I learn?

Study new computer science technologies like artificial intelligence, data analytics, and machine learning. Other emerging areas of technology include virtual and augmented reality, UI/UX design, and quantum computing.

Which fields of computer science are in most demand?

Cybersecurity is one of the most in-demand fields in computer science. The BLS projects 31% job growth for information security analysts from 2019 to 2029.

What is the highest-paid job in IT?

The BLS reports that computer and information systems managers earned a median annual salary of $151,150 as of 2020, making it one of the highest-paid IT jobs.

How do I start a career in computer science?

Launch a computer science career by pursuing a degree that explores the latest technologies. Graduates with an associate degree qualify for entry-level IT jobs, but most computer science careers require at least a bachelor's in the field.

College of Engineering and Computing Sciences Ph.D. Programs Are Making Great Strides

Related Topics

April 22, 2024

Pictured: Michael Kohler is working on integrating SAW sensor technology into wearable devices aimed at capturing and analyzing biomechanical data from the human body.

What if wearable devices could capture and analyze biomechanical data from the human body? What if game theory could be used to foresee how proposed changes in traffic rules could affect people’s attitudes toward commuting? These are just two examples of the open-ended questions being researched through nascent Ph.D. programs within the College of Engineering and Computing Sciences .

Launched between 2020 and 2022, the Ph.D. programs augment New York Tech’s offerings in engineering and computer science, provide faculty with greater opportunities to conduct research, and place doctoral candidates on the cutting edge of science and technology as they prepare for roles in industry or academia.

Impetus for Creating Programs

Ph.D. programs help expand knowledge creation. The impetus for creating the programs began with the evolution of faculty members. “We experienced a new generation of faculty about 15 years ago. They were very active in research,” explains Babak D. Beheshti, Ph.D. , dean of the College of Engineering and Computing Sciences. “They are working in labs and asking open-ended questions.”

They are also professors, which limits the amount of time they can spend in the lab. Student researchers certainly help, but they are limited to the time they have available in their bachelor’s or master’s programs. “Master’s students would only be available for one and a half years and would then move on to the job market,” Beheshti notes.

In addition to this push for greater research opportunities, New York Tech recognized the importance of greater representation of the university in the field of research. “Strong research exists in the world’s best universities,” Beheshti says. “We arrived at this stage where we had to present that strength of the university to the world.”

The efforts to support and increase cutting-edge research that has grown organically over the last 15 years gained momentum under the leadership of President Hank Foley, Ph.D. , who announced in 2022 a goal for the university to achieve Research 2 (R2) university status—a doctoral university with high research activity—by 2028. To achieve this designation, a university must conduct a high level of research, spend at least $5 million on research and development, and produce at least 20 research doctorates. “We prioritized Ph.D. programs in computer science and engineering as the most promising to launch,” Beheshti says.

Thanks to a significant financial investment from New York Tech, the Ph.D. programs launched with four tracks: computer science , bioengineering, electrical and computer engineering, and mechanical engineering . The program’s advisory board consists of professors and research experts from Arizona State University; University of Maine, Orono; Stony Brook University; Texas State University; and Tufts University.

A Growing Program with High Expectations

The 20 Ph.D. students currently enrolled “have a passion for research,” says Helen Gu, Ph.D. , associate dean and director of the computer science Ph.D. program. Thanks to student interest and faculty support, the computer science and engineering programs are growing at a steady pace. About 20 New York Tech faculty members are involved, according to Xun Yu, Ph.D. , professor and chair of mechanical engineering, engineering management, and construction engineering, and director of the engineering Ph.D. program .

Based on these promising numbers, Beheshti says the goal is to recruit 25 more students for the next academic year. “After two years, we want 80 fully financially supported Ph.D. students,” he adds. While it would be a natural process for current New York Tech students to rise toward Ph.D. programs, the university relies on its international reputation to draw candidates from around the United States and the world.

StudentsMariaVictoriaVladucuAndHelenWuPhDProgram

Maria-Victoria Vladucu (right) is looking at ways to adopt blockchain principles typically used in the financial sector for the food supply chain, which would simplify the process of tracking food, ensuring safety and quality. Helen Wu’s research uses game theory to model travelers’ behavior when congestion pricing is implemented in New York City this summer.

The New York Tech Difference

As the Ph.D. programs continue to grow, the university seeks to maintain the personalized approach for which New York Tech is known. Ph.D. candidates have one-on-one access to experts in their subject matter. They do research with their mentors. In some cases, their research is New York-focused, meaning they have direct access to the areas where their research might have the highest impact.

New York Tech is also part of a doctorate consortium with other area research universities. This means that if a particular course is not available at New York Tech, doctoral candidates can take it at CUNY, Columbia, Cornell, Princeton, Rutgers, Stevens Institute of Technology, or Stony Brook and receive full credit. Students at these schools can also take advantage of courses available at New York Tech.

Doctoral candidates receive full scholarship towards their tuition and receive an annual cost of living compensation of $25,000 with a percentage increase as they progress. Beheshti points out that the compensation ensures they can focus on their studies and research and not have to worry about income.

The program also accepts doctoral candidates who are employed in the computer science or engineering industries. Currently, two Ph.D. candidates are fully funded by their companies. “We make it as flexible as possible for those students. They have the same interactions with faculty and the experts in their subject matter,” Beheshti says.

Pursuing an Advanced Degree Brings Added Opportunities

Soon after beginning his master’s program at New York Tech, Michael Kohler , a candidate in the Class of 2026, connected with his professor Fang Li, Ph.D. , who asked him to do research. “I’m aggressive in looking for opportunities,” Kohler said.

When the Ph.D. program was announced, it was a natural choice for Kohler to continue researching. He is now on the bioengineering track.

Kohler is working with Surface Acoustic Wave (SAW) sensors. “The core of my work involves the intricate design and fabrication of these SAW sensors in highly controlled clean room environments,” he explains. “I am actively working on integrating SAW sensor technology into wearable devices aimed at capturing and analyzing biomechanical data from the human body.”

The outcomes of this research could have a profound effect on rehabilitation, human augmentation, and the study of human motion in sports sciences. “In physical therapy, for instance, wearable devices equipped with SAW sensors could provide real-time, precise measurements of joint movement and muscle activity, enabling therapists to tailor rehabilitation programs to the specific needs of their patients,” Kohler explains.

Kohler appreciates the challenges of his research and the support he has from Lee. “Dr. Lee and I exchange knowledge and mutual respect,” Kohler says. “I wouldn’t trade this for a bigger program. It’s a learning experience. These successes will help me with the next step in my career.” That might involve academia, he notes. “I could see myself teaching the next engineers.”

Nicholas Cariello (B.S. ’18, M.S. ’19) , a candidate in the Class of 2026, who is on the computer science track for his Ph.D., agrees that advisor and faculty relationships are a crucial component of his doctoral pursuit. “My advisors are always there to answer questions, offer guidance, and have been instrumental in reigniting the academic half of my brain after spending a good amount of time in industry,” he says. “The people really make the difference, especially in a program like this where so much of the work comes from social engagement.”

Cariello’s research focuses on biometrics for use in continuous authentication. “In today’s technology-centered world, knowing that your devices are secure is incredibly important,” he notes. “The question for enabling continuous authentication becomes doing this without impacting the user. For instance, asking a user to scan their thumbprint or enter a passcode every 30 seconds is not practical. Instead, we propose behavioral biometrics, things that you do, knowingly or unknowingly, that can be used to identify you as a genuine user.”

The challenge, Cariello notes, is determining what is meaningful enough to capture. “I am currently working on a paper that centers around the use of motion capture data as a biometric to determine the efficacy of body posture and movement.” Cariello is doing research on his own and with his advisors, Associate Professor Kiran Balgani, Ph.D. , and Associate Professor Paolo Gasti, Ph.D.

Cariello received his bachelor’s and master’s degrees from New York Tech. He currently works as a technical lead with IBM while he pursues his Ph.D.

Nicholas Cariello’s work proposes behavioral biometrics that can be used to identify a person as a genuine user.

Maria-Victoria Vladucu , a candidate in the Class of 2027, also on the computer science track, says that working with her advisor, Cecilia Dong, Ph.D. , has made an incredible impact on her research.

Vladucu’s study is focused on adopting blockchain principles typically used in the financial sector for the food supply chain. “We’re looking at how to minimize waste and find ways to make the process available and fair,” she says.

Dong recommended that Vladucu acquire certification in blockchain, bitcoin, and cryptocurrencies to better understand the concepts, which could lead to a clearer path toward applying them to the food supply chain. Using blockchain would simplify the process of tracking food, ensuring safety and quality. In addition, Vladucu notes it would be impossible to hack into the system. After completing her Ph.D., Vladucu hopes to share her knowledge in academia.

For Helen Wu , a candidate in the Class of 2025, who is focusing on electrical and computer engineering, the chance to apply her research to effect change in the New York area is a huge benefit. Her research uses game theory to model travelers’ behavior when congestion pricing is implemented in New York City this summer. Vehicles entering Manhattan’s Central Business District (anywhere below 60th Street) will incur a toll. The hope is to reduce traffic and travel time and reduce emissions.

By employing game theory, which is a theoretical framework for strategizing social situations, this research can gauge the possible effects on travel behaviors. “We also want to see what factors will affect implementation of congestion pricing the most,” Wu adds. “The challenging part of the research is to model human behavior.” The exciting part for Wu is that the “research results could help the community guide their decision-making process.” This work is especially exciting for Wu, who hopes to stay in the New York City area after receiving her Ph.D. “We want to make an impact,” she says.

Impacts Can Already Be Seen

In the short time the Ph.D. programs have been offered, benefits for the university, faculty, and candidates can already be seen. The programs promise to enhance New York Tech’s impressive reputation within the areas of computer science and engineering. For faculty, conducting long-term research while mentoring the next generation of researchers brings incredible satisfaction. “Faculty receive research grants and support the students in their research to create a growing cycle,” Yu says.

After receiving their doctoral degrees, candidates have a wealth of opportunities available to them. Some will remain in academia; others will enter or reenter the workforce in high-tech industries such as cybersecurity. Whatever path they choose, they will be carrying with them the intimate academic and research experiences afforded by New York Tech’s Ph.D. programs.

“For me, the faculty and staff make New York Tech the special place that it is,” Cariello concludes. “I feel that my success is genuinely invested in. The staff is compassionate, supportive, and will do whatever they can to help you along.”

By Diane DiPiero

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Research Topics

New communities in tech-driven science you'll want to be a part of.

This year, the scientific community is preparing to embark on a transformative journey as technologies like artificial intelligence (AI) propel humanity into new territories of innovation and knowledge.

In this context, we have compiled a list of 10 Research Topics that embrace the potential of technology to advance scientific breakthroughs and change the world for the better.

Researchers are exploring the possibilities of nanomedicine, deep learning, and genome-editing technologies to address genetic disorders, infectious diseases, and cancer.

These Research Topics are currently accepting contributions. Submit your research and help find solutions for healthy lives on a healthy planet.

Artificial intelligence

1 | artificial intelligence applications for cancer diagnosis in radiology.

Radiological images are common sources for cancer detection, but early signs are subtle, and treatable cancer is easy to miss in the early stages. Artificial intelligence has enormous prospects as an assistive tool to aid radiologists in cancer detection.

This Research Topic investigates the impact of novel AI applications using recent developments in computer vision, machine learning, and deep learning models for cancer detection, identification, and healthcare outcome improvements.

Manuscript submission deadline 28 April 2024

2 | The Applications of Artificial Intelligence for Innovation in Dentistry

The applications of AI in dentistry may open a new gate against challenging issues faced by clinicians and scientists in dental research.

All these opportunities have motivated the scientists leading this Research Topic to explore AI's opportunities in supporting dental medicine, including predicting the properties of dental materials and the optimum features of new dental materials.

Manuscript submission deadline 31 March 2024

Nanomedicine

3 | editor's challenge: dr. qingxin mu - how can nanomedicine approaches advance multi-targeting strategy in combination cancer therapy.

This Research Topic, led by Dr. Qingxin Mu and in collaboration with Dr. Marina Pinheiro, investigates the role of nanomedicine and nanotechnology in promoting multi-targeting strategies in combination cancer therapy.

Submissions closed

4 | Nanoparticles for Cancer Immunotherapy: from Basics to Clinics

Nanoparticles have been engineered to improve the delivery of a wide range of immunotherapies –including small drugs, nucleic acids, peptides, or antibodies– after intravenous administration towards tumor sites, but also for other routes of administration to improve their efficacy and safety.

Against this backdrop, we introduce a Research Topic covering how nanotechnology is used in cancer immunotherapy, investigations developing and evaluating new diagnostics, and therapeutic nanoparticles with the potential to improve the outcomes of patients with cancer.

Manuscript submission deadline 30 April 2024

Deep learning

5 | deep learning in molecular recognition.

Molecular recognition —the non-covalent interaction between multiple molecules— plays critical roles in many natural biological systems, such as DNA-protein, RNA-ribosome, enzyme-substrate, receptor-ligand, and antigen-antibody.

This Research Topic combines the latest developments and challenges in molecular recognition, employing deep learning techniques. It also focuses on applications such as drug discovery, protein-protein interaction prediction, and structural biology.

Manuscript submission deadline 26 April 2024

6 | Machine Learning and Deep Learning Applications in Pathogenic Microbiome Research

Machine learning and deep learning are powerful tools in advancing microbiome research.

For this Research Topic, scientists seek to advance machine learning studies – deep learning, in particular – to explore new techniques in pathogenic microbiome research. Their goal is to find relationships between microbiome, human health, and the environment by studying high-throughput sequencing data of microbes.

Manuscript submission deadline 07 March 2024

Genome-editing technologies

7 | crispr: the game changer in gene and cell therapy.

The advances in genome engineering technology have substantially accelerated the development of gene and cell therapy.

Notably, this Research Topic encourages novel CRISPR-based gene and cell therapy designs to improve treatment efficacy and safety for patients with genetic disorders, infectious diseases, and cancer.

8 | Precision Oncology in the Era of Crispr-Cas9 Technology

Precision medicine has been directly linked to advances in molecular biology techniques, mainly DNA sequencing. Oncology has benefited from these technologies to advance in early diagnosis and stratification of patients for personalized treatment.

All this potential has influenced this Research Topic, which focuses on CRISPR-Cas9 technology in preclinical settings, concentrating on precision medicine in oncology. The intention is to fill the gaps in correcting the defect and expanding knowledge in tumor suppression, metastasis, and mosaicism using mouse models.

Manuscript submission deadline 29 February 2024

Brain-inspired technologies

9 | neuromorphic computing: from emerging materials and devices to algorithms and implementation of neural networks inspired by brain neural mechanism.

Neuromorphic computing, inspired by brain neural and cognitive mechanisms, models information processing and is emerging with the promise of transforming information processing technology.

This untapped value has stirred up a Research Topic that focuses on providing different aspects of brain-inspired neuromorphic computing, from training algorithms for spiking neuron networks to hardware implementation of neuromorphic computing and the application of neuromorphic computing.

3D printing

10 | state-of-art of 3d printing and bioprinting technology in various domains of biomedicine, tissue engineering and regenerative medicine.

3D printing technology is an additive manufacturing process where biomaterials are used for various tissue engineering applications. Various materials are used to develop implants and constructs depending on the tissue engineering applications.

This Research Topic introduces the concept of 3D printing technology in biomedical applications for the scientific and technological communities. The team in charge of the research aims to enhance 3D printing technology studies for the benefit of biomedical engineers and scientists.

Manuscript submission deadline 06 March 2024

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February 07, 2024

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Frontiers institutional partnerships update – winter 2024

Frontiers' Research Topic publishing program: pioneering the future of scientific publishing

What is a Frontiers Research Topic, and why should I participate in one?

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UKSG 2024: open access and the evolving scholarly landscape for libraries

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Mobile phone ownership over time, who owns cellphones and smartphones, smartphone dependency over time, who is smartphone dependent, find out more, mobile fact sheet.

Large shares of Americans are connected to the world of digital information while “on the go” via smartphones and other mobile devices. Explore the patterns and trends that have shaped the mobile revolution below.

To better understand Americans’ smartphone and broadband adoption, Pew Research Center surveyed 5,733 U.S. adults from May 19 to Sept. 5, 2023. Ipsos conducted this National Public Opinion Reference Survey (NPORS) for the Center using address-based sampling and a multimode protocol that included both web and mail. This way nearly all U.S. adults have a chance of selection. The survey is weighted to be representative of the U.S. adult population by gender, race and ethnicity, education and other categories.

Polls from 2000 to 2021 were conducted via phone. For more on this mode shift, please read our Q&A .

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The vast majority of Americans – 97% – now own a cellphone of some kind. Nine-in-ten own a smartphone, up from just 35% in Pew Research Center’s first survey of smartphone ownership conducted in 2011.

Substantial majorities of Americans across a wide range of demographic groups are cellphone owners. The same is true for smartphone ownership – though some differences do emerge, particularly by age, household income and level of formal education.

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Today, 15% of U.S. adults are “smartphone-only” internet users – meaning they own a smartphone, but do not have home broadband service.

Source: Surveys of U.S. adults conducted 2013-2023. Data for each year is based on a pooled analysis of all surveys containing broadband and smartphone questions fielded during that year.

Reliance on smartphones for online access is especially common among Americans with lower household incomes and those with lower levels of formal education.

This fact sheet was compiled by Research Assistant Olivia Sidoti , with help from Research Analyst Risa Gelles-Watnick , Research Analyst Michelle Faverio , Digital Producer Sara Atske , Associate Information Graphics Designer Kaitlyn Radde and Temporary Researcher Eugenie Park .

Follow these links for more in-depth analysis of the impact of mobile technology on American life.

Americans’ Social Media Use Jan. 31, 2024
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Q&A: How and why we’re changing the way we study tech adoption Jan. 31, 2024

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Computer Science Research Topics
Computer science research topics can be divided into several categories, such as artificial intelligence, big data and data science, human-computer interaction, security and privacy, and software engineering. If you are a student or researcher looking for computer research paper topics. In that case, this article provides some suggestions on ...
Undergraduate Research Topics
Research areas: Interpretability of AI systems, Fairness in AI systems, Computer vision. Independen Work Topics: Constructing a new method to explain a model / create an interpretable by design model. Analyzing a current model / dataset to understand bias within the model/dataset.
MIT's top research stories of 2021
The year's popular research stories include a promising new approach to cancer immunotherapy, the confirmation of a 50-year-old theorem, and a major fusion breakthrough. In 2021, MIT researchers made advances toward fusion energy, confirmed Stephen Hawking's black hole theorem, developed a Covid-detecting face mask, and created a ...
Latest Computer Science Research Topics for 2024
If you wish to do Ph.D., these can become interesting computer science research topics for a PhD. 4. Security Assurance. As more sensitive data is being transmitted and kept online, security is our main concern. Computer science research is crucial for creating new security systems and tactics that defend against online threats.
The Year in Computer Science
Watch on. Video: In 2023, computer scientists made progress on a new vector-driven approach to AI, fundamentally improved Shor's algorithm for factoring large numbers, and examined the surprising and powerful behaviors that can emerge from large language models. Myriam Wares for Quanta Magazine (cover); Emily Buder/ Quanta Magazine and Taylor ...
Explore all research areas
Artificial Intelligence and Machine Learning. Our research covers a wide range of topics of this fast-evolving field, advancing how machines learn, predict, and control, while also making them secure, robust and trustworthy. Research covers both the theory and applications of ML. This broad area studies ML theory (algorithms, optimization ...
12 Most Emerging Research Areas in Computer Science in 2021
Some of the eminent research areas comprises as follows: Distributed data mining. Multimedia storage and retrieval. Data clustering. Pattern matching and analysis. High-dimensional data modeling. Spatial and scientific data mining for sensor data. Query interface for text/image processing.
Computer Science Trends
The U.S. Bureau of Labor Statistics projects 11% growth for computer and information technology (IT) occupations from 2019 to 2029, a faster-than-average growth rate. Computer science trends like cloud computing, information security, and big data collection and storage contribute to this field's promising outlook.
5 Trends in Computer Science Research
There's certainly no shortage of opportunities to develop real-world applications of the technology, and there's immense scope for break-through moments in this field. 2. Big data analytics. Back in 2012, the Harvard Business Review branded data science the 'sexiest job' of the 21 century. Yes, you read that correctly.
College of Engineering and Computing Sciences Ph.D. Programs Are Making
The 20 Ph.D. students currently enrolled "have a passion for research," says Helen Gu, Ph.D., associate dean and director of the computer science Ph.D. program. Thanks to student interest and faculty support, the computer science and engineering programs are growing at a steady pace.
New communities in tech-driven science you'll want to be a part of
This Research Topic introduces the concept of 3D printing technology in biomedical applications for the scientific and technological communities. The team in charge of the research aims to enhance 3D printing technology studies for the benefit of biomedical engineers and scientists. Manuscript submission deadline 06 March 2024. February 06, 2024.
Perfecting the view on a crystal's imperfection
Now, a new study reveals significant insights into the properties of hBN, offering a solution to discrepancies in previous research on the proposed origins of SPEs within the material.
Latest science news, discoveries and analysis
Find breaking science news and analysis from the world's leading research journal.
Ziarek, Lukasz (Luke)
of New York. University at Buffalo (UB) School of Engineering and Applied Sciences ... Computer Science, University of Chicago, 2003; Awards . IEEE Region One Technological Innovation (Academic) Award, 2023 ... SEAS Early Career Teacher of the Year, 2016; Halstead Award for Outstanding Research in Software Engineering, 2009; Intel Fellowship ...
Mobile Fact Sheet
ABOUT PEW RESEARCH CENTER Pew Research Center is a nonpartisan fact tank that informs the public about the issues, attitudes and trends shaping the world. It conducts public opinion polling, demographic research, media content analysis and other empirical social science research. Pew Research Center does not take policy positions.

Research Topics & Ideas: CompSci & IT

Overview: CompSci Research Topics

Topics/Ideas: Algorithms & Data Structures

Topics & Ideas: Artificial Intelligence (AI)

Topics & Ideas: Networking

Topics & Ideas: Database Systems

Topics & Ideas: Human-Computer Interaction

Topics & Ideas: Information Security

Topics & Ideas: Software Engineering

CompSci & IT Dissertations/Theses

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Empowering Robotics with Large Language Models: osmAG Map Comprehension with LLMs

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The Top 10 Most Interesting Computer Science Research Topics

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Top 10 Computer Science Research Paper Topics

2. The Influence of Extraction Methods on Big Data Mining

3. Integration of 5G with Analytics and Artificial Intelligence

4. Leveraging Asynchronous FPGAs for Crypto Acceleration

5. Cyber Security Future Technologies

6. Exploring the Boundaries Between Art, Media, and Information Technology

7. Evolution of Future Wireless Networks Using Cognitive Radio Networks

8. The Role of Quantum Computing and Machine Learning in Advancing Medical Predictive Systems

9. Implementing Privacy and Security in Wireless Networks

10. Exploring the Challenges and Potentials of Biometric Systems Using Computational Techniques

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Undergraduate Research Topics

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