For a specific paper, enter the identifier into the top right search box.
Covers all areas of AI except Vision, Robotics, Machine Learning, Multiagent Systems, and Computation and Language (Natural Language Processing), which have separate subject areas. In particular, includes Expert Systems, Theorem Proving (although this may overlap with Logic in Computer Science), Knowledge Representation, Planning, and Uncertainty in AI. Roughly includes material in ACM Subject Classes I.2.0, I.2.1, I.2.3, I.2.4, I.2.8, and I.2.11.
Covers natural language processing. Roughly includes material in ACM Subject Class I.2.7. Note that work on artificial languages (programming languages, logics, formal systems) that does not explicitly address natural-language issues broadly construed (natural-language processing, computational linguistics, speech, text retrieval, etc.) is not appropriate for this area.
Covers models of computation, complexity classes, structural complexity, complexity tradeoffs, upper and lower bounds. Roughly includes material in ACM Subject Classes F.1 (computation by abstract devices), F.2.3 (tradeoffs among complexity measures), and F.4.3 (formal languages), although some material in formal languages may be more appropriate for Logic in Computer Science. Some material in F.2.1 and F.2.2, may also be appropriate here, but is more likely to have Data Structures and Algorithms as the primary subject area.
Covers applications of computer science to the mathematical modeling of complex systems in the fields of science, engineering, and finance. Papers here are interdisciplinary and applications-oriented, focusing on techniques and tools that enable challenging computational simulations to be performed, for which the use of supercomputers or distributed computing platforms is often required. Includes material in ACM Subject Classes J.2, J.3, and J.4 (economics).
Roughly includes material in ACM Subject Classes I.3.5 and F.2.2.
Covers all theoretical and applied aspects at the intersection of computer science and game theory, including work in mechanism design, learning in games (which may overlap with Learning), foundations of agent modeling in games (which may overlap with Multiagent systems), coordination, specification and formal methods for non-cooperative computational environments. The area also deals with applications of game theory to areas such as electronic commerce.
Covers image processing, computer vision, pattern recognition, and scene understanding. Roughly includes material in ACM Subject Classes I.2.10, I.4, and I.5.
Covers impact of computers on society, computer ethics, information technology and public policy, legal aspects of computing, computers and education. Roughly includes material in ACM Subject Classes K.0, K.2, K.3, K.4, K.5, and K.7.
Covers all areas of cryptography and security including authentication, public key cryptosytems, proof-carrying code, etc. Roughly includes material in ACM Subject Classes D.4.6 and E.3.
Covers data structures and analysis of algorithms. Roughly includes material in ACM Subject Classes E.1, E.2, F.2.1, and F.2.2.
Covers database management, datamining, and data processing. Roughly includes material in ACM Subject Classes E.2, E.5, H.0, H.2, and J.1.
Covers all aspects of the digital library design and document and text creation. Note that there will be some overlap with Information Retrieval (which is a separate subject area). Roughly includes material in ACM Subject Classes H.3.5, H.3.6, H.3.7, I.7.
Covers combinatorics, graph theory, applications of probability. Roughly includes material in ACM Subject Classes G.2 and G.3.
Covers fault-tolerance, distributed algorithms, stabilility, parallel computation, and cluster computing. Roughly includes material in ACM Subject Classes C.1.2, C.1.4, C.2.4, D.1.3, D.4.5, D.4.7, E.1.
Covers approaches to information processing (computing, communication, sensing) and bio-chemical analysis based on alternatives to silicon CMOS-based technologies, such as nanoscale electronic, photonic, spin-based, superconducting, mechanical, bio-chemical and quantum technologies (this list is not exclusive). Topics of interest include (1) building blocks for emerging technologies, their scalability and adoption in larger systems, including integration with traditional technologies, (2) modeling, design and optimization of novel devices and systems, (3) models of computation, algorithm design and programming for emerging technologies.
Covers automata theory, formal language theory, grammars, and combinatorics on words. This roughly corresponds to ACM Subject Classes F.1.1, and F.4.3. Papers dealing with computational complexity should go to cs.CC; papers dealing with logic should go to cs.LO.
Covers introductory material, survey material, predictions of future trends, biographies, and miscellaneous computer-science related material. Roughly includes all of ACM Subject Class A, except it does not include conference proceedings (which will be listed in the appropriate subject area).
Covers all aspects of computer graphics. Roughly includes material in all of ACM Subject Class I.3, except that I.3.5 is is likely to have Computational Geometry as the primary subject area.
Covers systems organization and hardware architecture. Roughly includes material in ACM Subject Classes C.0, C.1, and C.5.
Covers human factors, user interfaces, and collaborative computing. Roughly includes material in ACM Subject Classes H.1.2 and all of H.5, except for H.5.1, which is more likely to have Multimedia as the primary subject area.
Covers indexing, dictionaries, retrieval, content and analysis. Roughly includes material in ACM Subject Classes H.3.0, H.3.1, H.3.2, H.3.3, and H.3.4.
Covers theoretical and experimental aspects of information theory and coding. Includes material in ACM Subject Class E.4 and intersects with H.1.1.
Covers machine learning and computational (PAC) learning. Roughly includes material in ACM Subject Class I.2.6.
Covers all aspects of logic in computer science, including finite model theory, logics of programs, modal logic, and program verification. Programming language semantics should have Programming Languages as the primary subject area. Roughly includes material in ACM Subject Classes D.2.4, F.3.1, F.4.0, F.4.1, and F.4.2; some material in F.4.3 (formal languages) may also be appropriate here, although Computational Complexity is typically the more appropriate subject area.
Roughly includes material in ACM Subject Class G.4.
Covers multiagent systems, distributed artificial intelligence, intelligent agents, coordinated interactions. and practical applications. Roughly covers ACM Subject Class I.2.11.
Roughly includes material in ACM Subject Class H.5.1.
Covers all aspects of computer communication networks, including network architecture and design, network protocols, and internetwork standards (like TCP/IP). Also includes topics, such as web caching, that are directly relevant to Internet architecture and performance. Roughly includes all of ACM Subject Class C.2 except C.2.4, which is more likely to have Distributed, Parallel, and Cluster Computing as the primary subject area.
Covers neural networks, connectionism, genetic algorithms, artificial life, adaptive behavior. Roughly includes some material in ACM Subject Class C.1.3, I.2.6, I.5.
Roughly includes material in ACM Subject Class G.1.
Roughly includes material in ACM Subject Classes D.4.1, D.4.2., D.4.3, D.4.4, D.4.5, D.4.7, and D.4.9.
This is the classification to use for documents that do not fit anywhere else.
Covers performance measurement and evaluation, queueing, and simulation. Roughly includes material in ACM Subject Classes D.4.8 and K.6.2.
Covers programming language semantics, language features, programming approaches (such as object-oriented programming, functional programming, logic programming). Also includes material on compilers oriented towards programming languages; other material on compilers may be more appropriate in Architecture (AR). Roughly includes material in ACM Subject Classes D.1 and D.3.
Roughly includes material in ACM Subject Class I.2.9.
Covers the design, analysis, and modeling of social and information networks, including their applications for on-line information access, communication, and interaction, and their roles as datasets in the exploration of questions in these and other domains, including connections to the social and biological sciences. Analysis and modeling of such networks includes topics in ACM Subject classes F.2, G.2, G.3, H.2, and I.2; applications in computing include topics in H.3, H.4, and H.5; and applications at the interface of computing and other disciplines include topics in J.1--J.7. Papers on computer communication systems and network protocols (e.g. TCP/IP) are generally a closer fit to the Networking and Internet Architecture (cs.NI) category.
Covers design tools, software metrics, testing and debugging, programming environments, etc. Roughly includes material in all of ACM Subject Classes D.2, except that D.2.4 (program verification) should probably have Logics in Computer Science as the primary subject area.
Covers all aspects of computing with sound, and sound as an information channel. Includes models of sound, analysis and synthesis, audio user interfaces, sonification of data, computer music, and sound signal processing. Includes ACM Subject Class H.5.5, and intersects with H.1.2, H.5.1, H.5.2, I.2.7, I.5.4, I.6.3, J.5, K.4.2.
Roughly includes material in ACM Subject Class I.1.
This section includes theoretical and experimental research covering all facets of automatic control systems, having as focal point analysis and design methods using tools of modeling, simulation and optimization. Specific areas of research include nonlinear, distributed, adaptive, stochastic and robust control, hybrid and discrete event systems. Application areas include automotive, aerospace, process control, network control, biological systems, multiagent and cooperative control, sensor networks, control of cyberphysical and energy-related systems, control of computing systems.
An ADD-Oriented Software Architecture for Structuring Information to Open Government Data
Andreiwid Sheffer Correa, P. L.P. Correa, F. S.C. Silva and T. Carvalho
Published On : March 10, 2018
A Reformed K-Nearest Neighbors Algorithm for Big Data Sets
Vo Ngoc Phu and Vo Thi Ngoc Tran
Published On : March 8, 2018
Empirical Investigation of TCP Incast Congestion in Wireless Cloud Computing Networks
Hamid Sadeq Mahdi Alsultani, Qusay Kanaan and Inteasar Yaseen Khudhair
Published On : March 3, 2018
Model for Automated and Improved Utilization of Existing Computer Resources on an Example of Web Servers
Dino Alagić and Ivan Magdalenić
Volume : 14, Issue : 2 Pages : 286-303
Published On : March 2, 2018
Predicting Students’ Academic Performance in the University Using Meta Decision Tree Classifiers
Shanthini A., G. Vinodhini and R.M. Chandrasekaran
Published On : February 28, 2018
An Empirical Analysis of Android Permission System Based on User Activities
Ankur Rameshbhai Khunt and P. Prabu
Downloads : 32927
Accurate Wavelet Neural Network for Efficient Controlling of an Active Magnetic Bearing System
Youssef Harkouss, Souhad Mcheik and Roger Achkar
Volume : 6, Issue : 12 Pages : 1457-1464
Downloads : 29409
Position and Obstacle Avoidance Algorithm in Robot Soccer
Awang Hendrianto Pratomo, Anton Satria Prabuwono, Mohd Shanudin Zakaria, Khairuddin Omar, Md Jan Nordin, Shahnorbanun Sahran, Siti Norul Huda Sheikh Abdullah and Anton Heryanto
Volume : 6, Issue : 2 Pages : 173-179
Downloads : 17278
A System for Payroll Management
Pavitra Rani Gautam, Sugadev Ragumani and Y. K. Sharma
Volume : 6, Issue : 12 Pages : 1531-1534
Downloads : 13696
Back Propagation Neural Network Arabic Characters Classification Module Utilizing Microsoft Word
A. A. Hamza
Volume : 4, Issue : 9 Pages : 744-751
Downloads : 12233
A New Approach for 3D Range Image Segmentation using Gradient Method
Dina A. Hafiz, Walaa M. Sheta, Sahar Bayoumi and Bayumy A.B. Youssef
Volume : 7, Issue : 4 Pages : 475-487
Views : 11411
Constructing Fuzzy Time Series Model Based on Fuzzy Clustering for a Forecasting
Ashraf K. Abd Elaal, Hesham A. Hefny and Ashraf H. Abd Elwahab
Volume : 6, Issue : 7 Pages : 735-739
Views : 2555
On the Relationship between Classes P and NP
Anatoly D. Plotnikov
Volume : 8, Issue : 7 Pages : 1036-1040
Views : 1884
A Survey of Content-Based Video Retrieval
P. Geetha and Vasumathi Narayanan
Volume : 4, Issue : 6 Pages : 474-486
Views : 1261
A Bit-Serial Multiplier Architecture for Finite Fields Over Galois Fields
Hero Modares, Yasser Salem, Rosli Salleh and Majid Talebi Shahgoli
Volume : 6, Issue : 11 Pages : 1237-1246
Views : 1238