CITE Elsevier Science Online access to Elsevier science publications in computational intelligence, and related resources. http://www.elsevier.com/cite
Extractions: Home Site map picswapper("picswap", [/authored_framework/ + "images/topbar_1.jpg", /authored_framework/ + "images/topbar_2.jpg", /authored_framework/ + "images/topbar_3.jpg", /authored_framework/ + "images/topbar_4.jpg", /authored_framework/ + "images/topbar_5.jpg", /authored_framework/ + "images/topbar_6.jpg"], 5000) Advanced Product Search Products Browse by subject All subjects Physical sciences Health sciences Social sciences ... Life sciences Browse by product type Books Journals Electronic products Bibliographic databases ... Advanced product search Catalogs Books price list Subscription price list New and forthcoming publications Product news Product support Help and FAQ About Elsevier Select your view
Gene Boggess Mississippi State University Cognitive science, neural networks, computational linguistics, genetic algorithms. http://www.cs.msstate.edu/~gboggess
Extractions: Gene Boggess Associate Professor of Computer Science Dr. Gene Boggess Computer Science Department Mississippi State University P. O. Box 9637 Mississippi State, MS 39762 Phone: (662) 325-2079 Main office phone: (662) 325-2758 Fax: (662) 325-8997 email: gboggess@cs.msstate.edu web site: www.cse.msstate.edu/~gboggess Identification of roads in satellite imagery using artificial neural networks: A contextual approach (PostScript) The Application of Genetic Algorithms to the Scheduling of Engineering Units (MS Word) Evolving Engineering Mission Schedules: A Machine-Learning Approach to Scheduling (Naecon '97 paper (PostScript)) Scheduling Engineering Missions: A Genetic Algorithm Approach (AI Exchange [1996] paper (PostScript)) ... Using a Neural Network for Syntactic Classification of Words in Technical Text (ACM-SE '93) (PostScript) Brief description of my research interests Artificial Intelligence Web Resources: Courses in Artificial Intelligence and Related Areas Artificial Intelligence Related Links Around the World Artificial Intelligence at the University of Washington Artificial Neural Networks Web Resources: NevProp (Backprop Simulator) FTP Site UIUC AI WWW Library Centre for Neural Systems IEEE Neural Network Council ... Neural Nets FAQ, HTML version [5/98] (or see below for local copy)
WSEAS Conferences Promotes the development of new mathematical methods and computational techniques as well as their applications in science and engineering. http://www.worldses.org/announcement.htm
MS In Bioinformatics And Computational Biology, USF - Start Interdisciplinary program part of the College of Medicine. In cooperation with the math, biomedical engineering, and computer science departments. http://hsc.usf.edu/medicine/biochemistry/msbioinfocompbiol.html
Extractions: Medicine ... Search HSC Biochemistry and Molecular Biology Bioinformatics and Computational Biology Print Friendly USF Home HSC Home College of Medicine ... Biochemistry and Molecular Biology Master's of Science in Bioinformatics and Computational Biology The Masters Program in "Bioinformatics and Computational Biology" represents a multi-college partnership and a truly interdisciplinary collaboration. Participating departments include the Departments of in the College of Medicine, Mathematics in the College of Arts and Sciences, Computer Sciences and Engineering and the Division of Biomedical Engineering in the College of Engineering, in the College of Public Health and in the College of Business Administration. The Masters Program in Bioinformatics and Computational Biology was initiated and will be administered by the Department of Biochemistry and Molecular Biology in the College of Medicine. The program development has been supported by a grant from the Alfred P. Sloan Foundation. The goal of the Masters Program in Bioinformatics and Computational Biology is to provide students enrolled in the program with high quality training and education that will prepare them for careers in science, industry, health care and education. The curriculum has been designed accordingly and provides the theoretical background, the practical training and, with the internships, the "real life" experience, which will equip students with the essential tools for a successful career in the field of Bioinformatics and Computational Biology.
The Computational Historical Linguistics Project A joint research project of the Computer and Information science Department and the Linguistics Department at the University of Pennsylvania. http://www.cis.upenn.edu/~histling/
Extractions: Principal investigators are Dr. Don Ringe Dr. Tandy Warnow , and Dr. Ann Taylor Ever wonder where Old English fell in the Indo-European tree? Our latest results suggest that it falls somewhere within the Satem core! And, despite a character set of 349 characters, we still can't definitively place Albanian. We know it occurs "below" Tocharian B, and "above" the Satem core (Lithuanian, Old Church Slavic, Vedic and Avestan). Nor can it appear within the Greek-Armenian and Italo-Celtic sister groups. But beyond that ... The Computational Historical Linguistics Project is developing new methodologies for determining the evolutionary history of sets of related languages. Our methodology combines a careful implementation of the comparative method of Historical Linguistics with recent advances in tree-construction algorithms. The combination allows us to preserve the advantages of tradional subgrouping methods while transcending their limitations.
Pagina Nueva 1 Held in Alicante, Spain. http://www.ua.es/cmmse2002/
CVC Home Page Includes faculty from Computer science, Electrical Engineering, Psychology, Neuroscience and the Yale Medical School. http://cvc.yale.edu/
Department Of Computer Science Department of Computer science. Research Groups computational Biology; Model Based Systems; Intelligent Robotics; Software Engineering; Centre for Intelligent Systems. http://www.aber.ac.uk/compsci/
UNM Computer Science have made a good finish, by taking top prize in the group project category for their computational origami project at the Northwestern Regional science Fair of http://www.cs.unm.edu/
Extractions: System Status and News With a mentor like CS Dept. Chairman Deepak Kapur, John Reid and James Colovos were off to a good start,and now have made a good finish, by taking top prize in the group project category for their computational origami project at the Northwestern Regional Science Fair of NM . Their project was also recommended to be sent straight to the Intel International Science Fair March 26, 2004 UNM graduate student Haixia Jia has been selected to receive a prestigious National Science Foundation Graduate Research Fellowship . Congratulations, Haixia! March 26, 2004 Available Monday through Thursday from 6 to 9 pm, undergraduate advisors (UAs) will be available in the CS Computer Lab, Farris 309. See the Tutoring page for details on which classes and languages each UA covers. March 12, 2004
UC Berkeley Cognitive Science This baccalaureate program was established in 1999. Students may concentrate on cognitive neuroscience, cognitive psychology, computational modeling, linguistics, or philosophy. http://ls.berkeley.edu/ugis/cogsci/index.html
Extractions: Work in theoretical computer science seeks to uncover and to explain the structures underlying computational processes. Theoretical work can inspire new approaches to the design of hardware and software, or it can try to model the difficulties encountered in existing designs in an attempt to understand them. The gap between theory and practice is narrowed when theoreticians apply their insights to real-world problems, or when they work with practitioners on experimental and/or practical projects; these activities are encouraged at Waterloo. Topics in theoretical computer science being studied at Waterloo within the Algorithms and Complexity group (formerly the Theory group) can be loosely categorized into two major areas: The design and analysis of algorithms on general-purpose models of computation draws inspiration from basic building-block problems (data structures, graph theory and graph-theoretic algorithms), problems in other areas of computer science (theory of programming languages, program methodology, theory of databases, learning theory, VLSI theory), and from computational problems arising in other disciplines (computational biology, algorithmic number theory, computational geometry). Defining special models of computation and using mathematical tools to demonstrate the consequences of those definitions (as is done in formal languages, theory of automata, structural and computational complexity, parameterized complexity, theory of asynchronous circuits and hardware testing, parallel computation, Kolmogorov complexity) can lead to new insights into particular problems, or into the structure of a whole class of problems.
IWR - University Of Heidelberg Interdisciplinary Center for Scientific Computing. Objectives mathematical modelling and computational simulation of complex systems in science and technology; development and use of computer methods and software for applications in industry and economy; visualization, computer graphics, image processing; education in scientific computing. http://www.iwr.uni-heidelberg.de/groups/
Extractions: University IWR Contact Research Groups Sort in alphabetical order by: subjects names Algorithmic Algebra Prof. B. H. Matzat Applied Analysis Applied Physical Chemistry Prof. M. Grunze Dr. U. Kummer* Biophotonics and Information Processing Prof. C. Cremer Biophysics of Macromolecules Prof. J. Langowski Computational Molecular Biophysics Prof. J. Smith Computer Architecture / Computer Engineering Prof. V. Lindenstruth Computational Physics Prof. D. W. Heermann Discrete and Combinatorial Optimization Prof. G. Reinelt Environmental Physics Prof. U. Platt Image Processing Inorganic Chemistry Prof. G. Huttner Intelligent Bioinformatics Systems Dr. R. Eils Massively Parallel Computer Systems Prof. J. Warnatz Multidimensional Image Processing Prof. F. Hamprecht Multiphase Flows and Combustion Prof. E. Gutheil Numerical Methods Prof. R. Rannacher Parallel and Distributed Systems Prof. T. Ludwig Parallel Computing Prof. P. Bastian Physical Chemistry Prof. J. Wolfrum Phytosphere Prof. U. Schurr* Simulation and Optimization Prof. H. G. Bock Statistical Physics Prof. H. Horner Statistics Prof. R. Dahlhaus
Alan W. Biermann Duke University. Chair, Department of Computer science. AAAI Fellow. computational linguistics, automatic programming and inference, Author of Great Ideas in Computer science. http://www.cs.duke.edu/~awb
FSU Jena:Department Of Mathematics And Computer Science Faculty of Mathematics and Computer science. Research areas include algorithms and data structures, computational complexity, database and information systems, software engineering, programming languages, practical and technical computer science, digital image processing, and computer architecture. http://www.minet.uni-jena.de/english/
SNePS Research Group Home Page Describes the Semantic Network Processing System and its associated Research Group at SUNY Buffalo. Research in cognitive science, knowledge representation and reasoning, and computational linguistics. http://www.cse.Buffalo.EDU/sneps/
Extractions: The long-term goal of The SNePS Research Group is the design and construction of a natural-language-using computerized cognitive agent, and carrying out the research in artificial intelligence, computational linguistics, and cognitive science necessary for that endeavor. The three-part focus of the group is on knowledge representation, reasoning, and natural-language understanding and generation. The group is widely known for its development of the SNePS knowledge representation/reasoning system, and Cassie, its computerized cognitive agent. SNeRG LINKS Current Research Projects Personnel Bibliography SNeRG Meeting Schedule ... Some Relevant Conferences SNePS LINKS Instructions for Running SNePS SNePS Downloads SNePS Manuals SNePS Tutorial Web version DVI version SNePS Demonstrations Screen Shot of the SNePS graphical interface, XGinseng, showing a possible SNePS representation of "Everything is either an animal, a vegetable, or a mineral, and John believes that Rover is an animal."
Extractions: Computational Epistemology Laboratory Notice: As of March 10, 2004, this site has been moved from an old Imac to watarts.uwaterloo.ca. Some errors may have been introduced as a result. If you are having trouble finding files from the old cogsci site, go to http://129.97.178.205/ and inform Paul Thagard. The Computational Epistemology Lab CEL ), headed by Professor Paul Thagard of the Department of Philo sophy , the University of Waterloo , is a facility for research into Cognitive Science and related areas of Philosophy. Recent articles by Paul Thagard and collaborators COHERE (LISP code in HTML format), including ACME, DECO, ECHO, IMP, and HOTCO. PI (LISP code from 1987, in HTML).
Department Of Computer And Information Science (IDA) from computer systems and core computer scienceincluding theory cognitive systems, economic information systems, computational linguistics, information systems http://www.ida.liu.se/
Extractions: Portal Webmail Intranät Studentsidor ... Akut The Department of Computer and Information Science was founded in 1983, but the roots go back to the early seventies. It is one of the largest departments for computer and information science in northern Europe, with more than 270 employees of which over 70 Ph.Ds on the faculty, including 18 full professors. Approximately 180 postgraduate students are enrolled in the department's Ph.D. programmes, including more than 90 doctoral students holding salaried positions. The department's research covers a broad spectrum, from computer systems and core computer science-including theory, programming languages and programming environments, real-time systems, artificial intelligence, information security, intelligent systems, logic and databases-to applications such as embedded systems, cognitive systems, economic information systems, computational linguistics, information systems and autonomous systems. The department offers more than 35 Ph.D. courses annually, and roughly 180 undergraduate courses for 1000 full time computer science and information systems students enrolled at the Institute of Technology and the Faculty of Arts and Sciences.
Molecular And Electronic Nanostructures The Beckman Institute for Advanced science and Technology molecular and electronic nanostructures; computational electronics; scanning tunneling microscopy, including lithography and fabrication; semiconductor nanostructures and photonics; synthesizing and characterizing new materials. http://www.beckman.uiuc.edu/research/menhome.html
Extractions: Molecular and Electronic Nanostructures The general goal of the molecular and electronic nanostructures theme is to develop new approaches leading to electronic devices. Within this area, programs range from computational electronics; scanning tunneling microscopy, including lithography and fabrication; to semiconductor nanostructures and photonics; to efforts to synthesize and characterize new materials, including self-organized syntheses of inorganic, organic, and biochemical systems. Here is the link to additional information about the molecular and electronic nanostructures area Goals and Resources Research in molecular and electronic nanostructures has been fostered in the Beckman Institute as an important element in the chain of interdisciplinary themes ranging from "physics to function" and from "molecules to mind." The group includes around twenty-five faculty members from several disciplines including chemistry, biophysics, physics, electrical engineering, and computer science. One goal of this main research theme is to develop a fundamental understanding of chemical and physical processes in molecular nanostructures, mesoscopic semiconductor-based systems, and macromolecular assemblies, with emphasis on future electronic or optoelectronic applications such as tera-byte memory function and in general on Feynman's dream of the "bottomless" opportunities of developing smaller and smaller structures.
Extractions: Download Your Order publishes original research articles on numerical methods and their applications to science and engineering. Subject areas include initial and boundary value problems for ordinary and partial differential equations, and integral equations appearing in applied mathematics and mathematical physics. Theoretical contributions, numerical algorithms and computer simulations will be also within the scope of the journal. The journal will also concentrate on the interaction between different fields of applied mathematics. In this connection the journal will appreciate survey papers for publication. Abstracted / Indexed
Information And Computation Covers all areas of theoretical computer science and computational aspects of information theory. http://theory.lcs.mit.edu/~iandc/
Extractions: Editor-in-Chief Professor Albert R. Meyer Publisher Elsevier Editorial Assistants Maria T. Sensale Becky Shephardson Publisher's site Information and Computation welcomes original papers in all areas of theoretical Computer Science and computational applications of Information Theory. Survey articles of exceptional quality will also be considered. Particularly welcome are papers contributing new results in active theoretical areas such as Information for Referees Comments and questions to: iandc@theory.lcs.mit.edu