ArXiv Categories
Showing 55 in-scope categories
Computer Science
Artificial Intelligence
Building smart systems that reason, plan, and make decisions like humans.
Computational Complexity
Understanding limits of what computers can efficiently solve; optimizing algorithms for speed.
Computational Engineering, Finance, and Science
Simulates complex systems for engineering, finance, and science; powers advanced modeling and predictions.
Computational Geometry
Optimizing shapes and spaces for efficient design and problem-solving.
Computation and Language
Making computers understand and speak human languages for better communication and automation.
Computers and Society
Understanding tech's impact on people, policy, and business.
Cryptography and Security
Securing digital assets and communications; protecting data from cyber threats.
CS and Game Theory
Designing fair systems and smart agents for competitive digital environments and markets.
CV and Pattern Recognition
Enables machines to see and understand the world, powering automation and insights.
Databases
Organizing, finding, and using large amounts of information for business insights.
Data Structures and Algorithms
Optimizes how data is organized and processed for faster, more efficient systems.
Digital Libraries
Organizing and accessing vast amounts of digital information efficiently.
Discrete Mathematics
Optimizing networks, logistics, and resource allocation for better decisions.
Distributed, Parallel, and Cluster Computing
Building robust, scalable systems for complex tasks.
Emerging Technologies
New tech beyond silicon: faster computing, better sensors, and bio-analysis breakthroughs.
Formal Languages and Automata Theory
Building the rules and systems for how computers process information and language.
General Literature
Understand tech trends, future predictions, and foundational computer science for strategic insights.
Graphics
Visualizing data and creating realistic virtual experiences for business and entertainment.
Hardware Architecture
Designing better computer brains and systems for faster, more efficient tech.
Human-Computer Interaction
Designing intuitive tech for better user experiences and teamwork.
Information Retrieval
Finds and organizes information efficiently for better decisions and insights.
Information Theory
Optimizing data transmission and storage for efficiency and security.
Logic in Computer Science
Building reliable, bug-free software and systems; ensuring programs do what they're supposed to.
Machine Learning (CS)
AI that learns and adapts, solving complex problems and creating new opportunities.
Mathematical Software
Tools to build and run complex calculations, powering advanced tech.
Multiagent Systems
AI teams working together to solve complex problems and automate tasks.
Multimedia
Creating engaging digital experiences; improving how we interact with media.
Networking and Internet Architecture
Building faster, more reliable internet and communication systems for business.
Neural and Evolutionary Computing
Builds AI that learns like brains and evolves solutions to complex problems.
Numerical Analysis (CS)
Optimizing calculations for better simulations, AI, and data analysis.
Operating Systems
Building the core software that makes all computers and devices run smoothly.
Other Computer Science
Catch-all for tech innovations not fitting standard categories. Explore hidden opportunities.
Performance
Optimize systems, predict bottlenecks, and improve efficiency for better business outcomes.
Programming Languages
Tools and methods to build better software, faster and more reliably.
Robotics
Building smart machines that automate tasks and interact with the world.
Social and Information Networks
Understanding how people and data connect; building better online communities and tools.
Software Engineering
Builds better software, faster, with fewer bugs.
Sound
Innovating with sound: creating, analyzing, and using audio for new applications and interfaces.
Symbolic Computation
Automates complex math for better software, AI, and scientific tools.
Systems and Control
Automating and optimizing complex systems for better performance and efficiency.
Quantitative Finance
Computational Finance
Predicting market trends and valuing complex investments with advanced algorithms.
Economics
Understanding markets, policy, and business strategy for better decisions.
General Finance
Better financial models for smarter investment decisions.
Mathematical Finance
Predicting market movements, optimizing investments, and managing financial risk.
Portfolio Management
Optimizing investments, managing risk, and maximizing returns for smarter capital allocation.
Pricing of Securities
Predicting asset values and managing financial risks for better investments.
Risk Management
Protecting investments and businesses from financial shocks and uncertainties.
Statistical Finance
Predicting market trends and economic shifts for smarter investments.
Trading & Market Microstructure
Optimizing trading, market design, and automated systems for better financial outcomes.
Statistics
Applications
Solving real-world problems across diverse industries, from health to environment.
Computation
Optimizing processes, modeling scenarios, and presenting complex data clearly.
Machine Learning (Stat)
AI that learns from data to solve problems and make predictions.
Methodology
Better data analysis for smarter decisions and predicting future trends.
Other Statistics
New ways to analyze data, find hidden patterns, and make better decisions.
Statistics Theory
Predicting outcomes and making better decisions with data.