61. Computer Science Department of Computer science. Research areas include Parallel and distributed computing, evolutionary and neural computing, heuristics for combinatorial optimization, computational spectral theory, vision, computational geometry, and federated information systems, objectoriented systems, contraints, data warehousing and data mining. http://www.cs.cf.ac.uk/

RESEARCH Areas of research Seminars TEACHING About Admissions For current students I T society SCHOOL Contact addresses Administration Jobs Staff FOR USERS Systems information Web based applications Search Cardiff School of Computer Science Information about... Undergraduate schemes BSc Computer Science BSc Joint Honours Computing BSc/BEng/MEng Computer Systems Engineering BSc Information Systems is a new degree scheme starting in Sept. 2004 Postgraduate studies MSc in Computing MSc Information Systems Engineering Studying for a PhD Information for students studying... BSc Computer Science BSc Joint Honours Computing BSc/BEng/MEng Computer Systems Engineering MSc in Computing ... for a PhD About our research Overview Distributed Collaborative Computing Evolutionary Computing Geometric Computing and Computer Vision ... Seminars For your Diary About the School Spring Semester ends : Final year project vivas end : MSc visit : Graduation : MSc (full time) dissertations due : Members of staff Jobs For users: Web mail Users' personal home pages Searching this site...

62. Computational Epistemology Lab Home Page A facility for research into Cognitive science and related areas of Philosophy. Headed by Paul Thagard, at the University of Waterloo, Canada. http://cogsci.uwaterloo.ca/Index.html

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. Introduction Research Courses ... Cognitive Science Introduction 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. Areas of current research Recent articles by Paul Thagard and collaborators Coherence articles (including analogy) Science and medicine articles Emotion articles Paul Thagard's Courses Phil 145, Critical Thinking Phil 255, Philosophy of Mind Phil/Psych 256: Introduction to Cognitive Science Phil/Psych 446, Cognitive Modelling ... COGSCI 600: Seminar in Cognitive Science Software COHERE (LISP code in HTML format), including ACME, DECO, ECHO, IMP, and HOTCO. PI (LISP code from 1987, in HTML).

63. Institute For Theoretical Computer Science ETH, Zurich. The members are active in teaching and research in topics including design and analysis of algorithms, in particular in graph theory and computational geometry; data structures, in particular for spatial data; computability and complexity; information security and cryptography; and parallel computation. http://www.inf.ethz.ch/department/TI/

64. (Israel) Weizmann Institute Of Science, Rehovot The Carl F. Gauss Minerva Center for Scientific Computation. New fundamental computational approaches in physics, chemistry, applied mathematics and engineering, introducing, in particular, advanced multiscale (multi-resolution) and parallel-processing methods. http://www.wisdom.weizmann.ac.il/~achi/gaussctr.html

The Carl F. Gauss Minerva Center for Scientific Computation Achi Brandt, Director The Gauss Center was officially inaugurated in the fall of 1993, thanks to a generous endowment from the Ministry for Science and Technology (BMFT) of the Federal Republic of Germany, through the joint committee for German-Israeli cooperation (Minerva). Its objective is to act as a catalyst for the development of new fundamental computational approaches in physics, chemistry, applied mathematics and engineering, introducing, in particular, advanced multi-scale (multi-resolution) and parallel-processing methods. The Gauss Center interacts with many fields of application, contributing to the transfer of algorithmic ideas back and forth among widely varying types of problems. It offers workshops, short courses, temporary supervision and graduate studies for full-time students, guest students, and visiting scientists. The Gauss Minerva Center's technical report series is available for downloading. So is also a detailed survey paper of all the current projects, briefly listed below.

65. Computational Cognitive Science - MIT OpenCourseWare Access to free and open course materials in computational Cognitive science from MIT http://rdre1.inktomi.com/click?u=http://ocw.mit.edu/OcwWeb/Brain-and-Cognitive-S

66. Bernie Active research in applied AI to Information Systems; Cognitive science; Natural Language Processing; Bayesian and Neural Networks; and Artificial and computational Agents. http://www.soc.staffs.ac.uk/research/groups/ai/

ICEIS 2000 ICEIS 2003 The AI Research group Current Research Projects ... Teaching ERASMUS Collaboration with BA Stuttgart CM3231-2:referral Bernadette Sharp BSc MPhil PGCE PhD FBCS MIInfSc MAAAI MACM Reader in Computing Director of Postgraduate Studies BSc in Computer Mathematics (University of the State of New York: Beirut University College), MPhil (Bradford University), PGCE (Leeds University), PhD in Natural Language Processing (Aston University) Research Interests Natural Language Processing (automatic abstracting, information extraction), Applied AI to Information Systems, Agent-based Diagnostic Systems, Knowledge Management, Text Mining, Data Mining and Knowledge Discovery. Staffordshire University Staffordshire University, School of Computing, The Octagon, Beaconside, Stafford ST18 0AD, UK Telephone: Fax: B.Sharp@staffs.ac.uk

67. Rutgers Center For Cognitive Science: RESEARCH DIRECTIONS Research Center pursuing such issues as knowledgeacquisition, learning, representation, formal and computational studies in computational logic and artificial intelligence. http://ruccs.rutgers.edu/researchgeneral.html

Research Directions at RuCCS There are several distinct foci in the current research directions adopted by participants in the Center for Cognitive Science. One focus is on fundamental research concerned with understanding the nature of the cognitive processor of the architecture of the mind. This research, which involves both theoretical and empirical studies, is concerned with such issues as the processor's resource limits, its memory structures, the forms of representation(s) it uses, the basic operations it makes available, the discipline of sequential and/or parallel execution it permits, restrictions on interprocess communication, decomposition of the processors into modular components, and so on. These are all questions that concern the architecture of the cognitive processor, including its perceptual, memory, reasoning, and motor control capacities. A second and complementary focus involves fundamental research into the knowledge and the strategies that people bring to bear in reasoning and in solving problems using the architectural resources provided. This pursuit raises issues of knowledge-acquisition, learning, and representation, and makes close contact with purely formal and computational studies in computational logic and artificial intelligence. A third focus is on relating these research issues to the data of biological science particularly to the mechanisms studied in neuroscience, and the more microscopic mechanisms studied in cellular biology, biochemistry and genetics. It also involves relating cognitive theories to the data of clinical neurology.

68. Fields Institute-Numerical & Computational Challenges In Science & Engineering Thematic Programme at the Fields Institute, Toronto; August 2001 to August 2002. http://www.fields.utoronto.ca/programs/scientific/01-02/numerical/

THEMATIC PROGRAMS June 6, 2004 Home About Us NPCDS/PNSDC Mathematics Education ... Search Thematic Year on Numerical and Computational Challenges in Science and Engineering August 2001 to August 2002 List of Program Attendees Long-term Visitors Activities 2001 Graduate Courses ... R. LeVeque Scientific Program Committee Uri Ascher, University of British Columbia Michel Fortin, Laval University Hermann Brunner, Memorial University Peter Forsyth, University of Waterloo Tony Chan, University of California, Los Angeles Alan George, University of Waterloo Tom Coleman, Cornell University Ken Jackson, University of Toronto Wayne Enright, University of Toronto Bill Langford, University of Guelph Joe Flaherty, Rensselaer Polytechnic Institute Bob Russell, Simon Fraser University Sam Shen, University of Alberta Overview The Thematic Year on Numerical and Computational Challenges in Science and Engineering recognizes the central importance of Numerical Analysis in many areas of Science and Engineering. At the heart of the program will be the development, analysis and testing of new numerical methods for a broad range of mathematical problems arising in linear algebra, optimization, differential equations and dynamical systems. The program features a series of workshops which focus on several key application areas where the fruitful interaction between scientists, engineers and numerical analysts is already taking place and where progress is likely to lead to important practical advances in the next decade. Included among these are Climate Modelling, Computational Biology, Computational Finance and Computer Animation.

69. SpringerLink - Publication At the interface between mathematics and theoretical computer science. Abstracts available, subscription for fulltext articles. http://link.springer.de/link/service/journals/00037/index.htm

Articles Publications Publishers Home Publication Computational Complexity Publisher: Birkh¤user Verlag AG ISSN: 1016-3328 (Paper) 1420-8954 (Online) Subject: Mathematics Issues in bold contain article full text that you are entitled to view. Volume 12 Numbers 1-2 Volume 11 Numbers 3-4 Numbers 1-2 Request a sample Volume 10 Number 4 Number 3 Number 2 Number 1 Volume 9 Numbers 3-4 Number 2 Number 1 Volume 8 Number 4 Number 3 Number 2 Number 1 Volume 7 Number 4 Number 3 Number 2 Number 1 Publication 1 of 1 Previous Publication Next Publication Linking Options About This Journal Editorial Board Manuscript Submission Quick Search Search within this publication... For: Table Of Contents Alerting Click the button below to enable Table Of Contents Alerting for this publication. For assistance inside the Americas: springerlink@springer-ny.com , For assistance outside the Americas: springerlink@springer.de HTTP User Agent: SecretBrowser/007

70. SpringerLink - Publication Discrete computational Geometry is an international journal of mathematics and computer science, covering a broad range of topics in which geometry plays a fundamental role. http://link.springer.de/link/service/journals/00454/

Articles Publications Publishers Home Publication Discrete and Computational Geometry Publisher: Springer-Verlag New York, LLC ISSN: 0179-5376 (Paper) 1432-0444 (Online) Subject: Computer Science Mathematics Issues in bold contain article full text that you are entitled to view. Online First Volume 32 Number 1 Volume 31 Number 4 Number 3 Number 2 Number 1 ... Request a sample Volume 30 Number 4 Number 3 Number 2 Number 1 Volume 29 Number 4 Number 3 Number 2 Number 1 Volume 28 Number 4 Number 3 Number 2 Number 1 Volume 27 Number 4 Number 3 Number 2 Number 1 Volume 26 Number 4 Number 3 Number 2 Number 1 Volume 25 Number 4 Number 3 Number 2 Number 1 Volume 24 Number 4 Numbers 2-3 Number 1 Volume 23 Number 4 Number 3 Number 2 Number 1 Volume 22 Number 4 Number 3 Number 2 Number 1 Volume 21 Number 4 Number 3 Number 2 Number 1 Volume 20 Number 4 Number 3 Number 2 Number 1 Volume 19 Number 4 Number 3 Number 2 Number 1 Volume 18 Number 4 Number 3 Number 2 Number 1 Volume 17 Number 4 Number 3 Number 2 Number 1 Volume 16 Number 4 Number 3 Number 2 Number 1 Volume 15 Number 4 Number 3 Number 2 Number 1 Publication 1 of 1 Previous Publication Next Publication Linking Options About This Journal Editorial Board Manuscript Submission ... Vol. 1 (1986) - 14 (1995)

71. Computer Physics Communications Program Library Contains over 1800 refereed programs in computational physics and physical chemistry which are described in the journal Computer Physics Communications published by Elsevier science. http://cpc.cs.qub.ac.uk/

72. AIChE Computational Molecular Science And Engineering Forum (CoMSEF) A unit of the American Institute of Chemical Engineers. Includes a listing of academic researchers and information on conferences sponsored or cosponsored by the forum. http://www.ecs.umass.edu/che/am3/AIChE.html

CoMSEF Computational Molecular Science and Engineering Forum Prepare now for the 2004 AIChE Annual Meeting in Austin! Participate in the Second Industrial Fluid Properties Simulation Challenge Scope : CoMSEF is a forum for the combined community of engineers and scientists who are developing and applying molecularly based theories, modeling, and simulation. Its scope of technical interests includes chemical, biological, and materials processes and products. A key feature is joining molecularly based modeling with the other computational methodologies that are used in the chemical engineering sciences for research, development, operations, and education. Objectives: Provide a forum for communication and networking among those with an interest in the computational molecular sciences and engineering. Coordinate, sponsor, co-sponsor, and advertise relevant programming, including cross-cutting and special-initiative technical sessions and conferences. Promote interchange of ideas, concepts, know-how, and experiences in the computational molecular sciences and engineering, including their connections with experiment. Encourage educators at all levels, particularly in chemical engineering, to integrate concepts of computational molecular sciences and engineering.

73. CUC3 Home Page Features theoretical research and modelling on a range of topics in theoretical and quantum chemistry, condensed matter physics, surface science and statistical mechanics. http://www-theor.ch.cam.ac.uk/

The Cambridge University Centre for Computational Chemistry groups theoretically-minded members of the Cambridge Department of Chemistry in premises on the recently refurbished third floor of the Department. Around 50 members, comprising staff, research fellows, postdoctoral associates, postgraduate students, and visiting scientists from all over the world, work on many aspects of theoretical and computational chemistry. ab initio MD, as well as global optimization algorithms for the exploration of multi-dimensional energy surfaces. Aqueous CuII ion showing highest occupied molecular orbital. Instantaneous snapshot sampled from a spin polarized Car-Parrinello simulation. Image provided by Michiel Sprik Members Research Condensed Matter Theory Portfolio Partnership ... Information for current staff and students Information provided by webadmin@theor.ch.cam.ac.uk

74. International Society For Mathematical And Computational Aesthetics Detail and analysis on the development of CAD and other influences in contemporary design. A division of the International Society for Group Theory in Cognitive science. Contact information. http://www.rci.rutgers.edu/~mleyton/ISMA.htm

IS-MCA International Society for MATHEMATICAL AND COMPUTATIONAL AESTHETICS Society President: Michael Leyton (USA) The computational analysis of design is now a enormous discipline involving the interaction of high-level mathematics with advanced programming technologies. All design attempts to satisfy two constraints: functionality and aesthetics. Even a discipline as functionally oriented as structural engineering, in fact, involves aesthetic control over systems of non-linear equations. Aesthetics allows for (1) productive unification of perception, reasoning, and action, (2) understandability despite complexity, (3) generalization and re-usability, (4) axiomatic economy and principled prediction. Aesthetics is a major force in each of the following areas: Computer-Aided Design and Manufacturing, Robot Motion Design: There has been considerable convergence in mathematics across the different types of CAD (e.g., in architecture and mechanical design), as well as manufacturing by shape-sculpting technology, and robot motion design. We note that Frank Gehry's Guggenheim museum at Bilbao was possible because James Glymph imported into architecture a major program designed by the French for aerospace engineering. The reason for the converging unity is that each of the several disciplines involves analysis of spatial systems of movement, control, and shape deformation - whose natural description is Lie algebras, tensor geometry with exterior differential calculus, and algebraic geometry.

75. Activity Group On Imaging Science Offers discussion with scientists and engineers of mathematical and computational aspects of imaging, through the Society for Industrial and Applied Mathematics, based in Philadelphia, PA. http://www.siam.org/siags/siagis.htm

Search Activity Group on Imaging Science The SIAM Activity Group on Imaging Science brings together SIAM members and other scientists and engineers with an interest in the mathematical and computational aspects of imaging. The reconstruction, enhancement, segmentation, analysis, registration, compression, representation, and tracking of two and three dimensional images are vital to many areas of science, medicine, and engineering. As a result, increasingly sophisticated mathematical, statistical, and computational methods are being employed in these research areas, which may be referred to as "Imaging Science." These techniques include transform and orthogonal series methods, nonlinear optimization, numerical linear algebra, integral equations, partial differential equations, Bayesian and other statistical inverse estimation methods, operator theory, differential geometry, information theory, interpolation and approximation, inverse problems, computer graphics and vision, stochastic processes, and others. Acting Chair Guillermo Sapiro Program Director Christopher R. Johnson

76. Simulation Science At ORNL Simulation science programs at Oak Ridge National Laboratory. Recent projects include Environmental Systems, Engineering Applications, Physical and Chemical sciences, Experimental Validation, computational Biology and Functional Genomics, and Nanotechnology and Neutron sciences. http://www.csm.ornl.gov/newSS.html

ORNL : Simulation Science Environmental Systems We affect our environment and it affects us. To find out what those effects might be, ORNL researchers are using high-performance computing to study global and regional systems. Engineering Applications Our man-made environment of structures and vehicles is studied in detail at ORNL with physics-based modeling that can predict mechanical performance. Physical and Chemical Sciences Modeling of chemical processes is an important activity at ORNL, from design of new materials such as synthetic lubricants and alloys to the simulation of complex reactions such as bioremediation, combustion, and digestion. Experimental Validation Validation of many simulation models involves experimental testing on a physical model. For biological systems, much of this testing is done at ORNL Mouse House. Computational Biology and Functional Genomics ORNL's Life Sciences research covers all aspects of biology from the building blocks of life, DNA, genes and proteins, to the health and fitness of humans, using a sophisticated mosaic of advanced computing,and laboratory research. Nanotechnology and Neutron Sciences The finest level of detail brings us to neutron sciences and nanotechnology. ORNL models, designs, and builds devices that are used to detect structure at the atomic level and below.

77. Chemistry@SUNY-ESF: Faculty Profile Dr. Dibble Laser spectroscopy and computational chemistry for investigations of atmospheric chemistry site by Ted Dibble. http://web.syr.edu/~tsdibble/dibble.html

Dibble Group Web Page Physical and Atmospheric Chemistry SUNY College of Environmental Science and Forestry Dr. Dibble's Official Web Page Research People Current Projects ... Links to other Sites Research The Dibble group uses lasers and high-end computers as tools to address questions such as: what are the degradation pathways of organic compounds in the polluted atmosphere? To what extent do particular compounds contribute to the formation of ozone, other air toxics, and particulates? (Answers to these questions are missing for most of the key compounds larger than butane!) The experimental work in Dr. Dibble's laboratory employs pulsed, tunable dye lasers to probe for stable and transient species. Both reaction kinetics and the spectroscopy of new species can be studied using two highly sensitive techniques: laser-induced fluorescence (LIF) and (soon) cavity ringdown spectroscopy . The computational work uses commercially available quantum chemistry programs to carry out ab initio and density functional calculations. These methods are used to map out thermochemical kinetics and to explore and interpret the spectroscopy of as-yet uncharacterized species. See the article about our computational work in Access , the magazine of the National Compuational Science Alliance.

78. Materials Science Modeling Project at NIST, Applied and computational Mathematics Division, US gov. institute. http://math.nist.gov/mcsd/Reports/95/yearly/node8.html

Next: Materials Science Modeling Up: ACMD : Yearly Report Previous: Mathematical Software Project Summaries Materials Science Modeling Reactive Spreading of Solder Drops Anisotropy in Properties and Structure of Phase Boundaries Isotropic-Nematic Interfacial Instability ... ACMD Colloquium Series

79. Com2MaC Combinatorial and computational Mathematics Centre (Com2MaC). http://com2mac.postech.ac.kr/

80. Jon Oberlander University of Edinburgh computational linguistics, cognitive science, discourse generation. http://www.cogsci.ed.ac.uk/~jon/

Jon Oberlander My School of Informatics homepage is gradually moving to http://homepages.inf.ed.ac.uk/jon Affiliations I am a Reader in Cognitive Science in the University of Edinburgh 's School of Informatics I'm affiliated to the Institute of Communicating and Collaborative Systems The ESRC Human Communication Research Centre ; and HCRC's Language Technology Group I support Teaching 2003-04 Introduction to Cognitive Science A third-year undergraduate module. Human Communication 1h A first-year undergraduate half course. Duties 2003-04 Convenor of the Informatics Research Advisory Committee. Interests My main interests lie in the intersection of computational linguistics and cognitive science. The primary aim is to develop cognitively-motivated computational and formal models of the ways in which differing people produce fluent discourse. Such models underpin the proper design of systems presenting data and teledata to users, tailoring it to their individual needs and interests. There are three continuing sub-goals-to understand better: (i) the logical and computational properties of media; (ii) the fundamental relations assumed in theories of discourse structure; and (iii) the communicative function of multimodal discourse. There are three main strands to my current research: discourse generation, individual differences, and multimodality.

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