81. VersionUS Conference in honour of Michel Raynaud. Orsay, 1822 June 2001. http://www.math.u-psud.fr/~mr2001/confraynaudus.htm

French version ALGEBRAIC GEOMETRY AND APPLICATIONS TO NUMBER THEORY A CONFERENCE IN HONOR OF MICHEL RAYNAUD ORSAY, JUNE 18-22, 2001 Invited speakers Ahmed Abbes, John Coates, Gerd Faltings, David Harbater, Yasutaka Ihara, Johan de Jong, Nicholas M. Katz, Barry Mazur, Vikram. B. Mehta, Laurent Moret-Bailly, Frans Oort, Michael Rapoport, Kenneth A. Ribet, Jean-Pierre Serre, Christopher Skinner, Tetsuji Shioda, Akio Tamagawa, John Tate. Program Organizing Committee Luc Illusie Jean-Marc Fontaine Yves Laszlo Information : mr2001@math.u-psud.fr You have also an hotel list available on the web. Mathematicians who plan to attend the conference are asked to fill the registration form

82. Professor C.T.J. Dodson UMIST, Manchester. Differential geometry, stochastic geometry and applications. http://www.ma.umist.ac.uk/kd/homepage/dodson.html

Next: Research interests Professor C.T.J. Dodson Department of Mathematics UMIST , Manchester M60 1QD, UK Welcome to Kit Dodson's homepage My research interests are in differential geometry and stochastic geometry , and applications; click here for recent books and cv . When I'm not doing mathematics, I enjoy windsurfing, sailing and local history of our Yorkshire Dales village. I moved in 1996 from the University of Toronto, where I had been professor since 1989, before which I was Head of Mathematics at Lancaster University. You can email me at: dodson@umist.ac.uk Geometry Seminar World Mathematical Year 2000 PDF LaTeX Tutorial for scientific wordprocessing ... Postgraduate Homepage Our Klein Bottle Mural UMIST main menu Maps London Mathematical Society ... About this document ... Kit Dodson 2004-05-28

83. Applications Of Non-Euclidean Geometry The applications Of NonEuclidean geometry. Table of Contents. 1.Where Euclidean geometry Is Wrong. Back To Top applications Of Spherical geometry. http://members.tripod.com/~noneuclidean/applications.html

var cm_role = "live" var cm_host = "tripod.lycos.com" var cm_taxid = "/memberembedded" The Applications Of Non-Euclidean Geometry Table of Contents Where Euclidean Geometry Is Wrong The Theory of General Relativity Spherical Geometry Celestial Mechanics Where Euclidean Geometry Is Wrong Since Euclid first published his book Elements in 300 B.C. it has remained remarkably correct and accurate to real world situations faced on Earth. The one problem that some find with it is that it is not accurate enough to represent the three dimensional universe that we live in. It has been argued that Euclidean Geometry, while good for architecture and to survey land, when it is moved into the third dimension, the postulates do not hold up as well as those of hyperbolical and spherical geometry. Both of those geometries hold up to a two dimensional world, as well as the third dimension. Back To Top Cosmology - Cosmology is the study of the origin, constitution, structure, and evolution of the universe. Back To Top The Theory of General Relativity Einstein's Theory Of General Relativity is based on a theory that space is curved. The cause is explained by the theory itself.

84. John Oprea's Home Page This site includes references to the author's papers and books, including Differential geometry and its applications and The Mathematics of Soap Films Explorations with Maple. There are also Maple files available for downloading. http://www.csuohio.edu/math/oprea

Herr Professor Doktor Oprea's Home Page John Oprea, Professor of Mathematics Graduate Program Director Department of Mathematics Cleveland State University Cleveland, Ohio 44115 OFFICE: 1529 Rhodes Tower PHONE: 687-4702 E-MAIL: j.oprea@csuohio.edu Monograph on Lusternik-Schnirelmann Category AMS-IMS-SIAM Summer Research Conference 2001; Lusternik-Schnirelmann Category in the New Millennium ... Graduate Program If you have questions, doubts, comments, suggestions, or desire additional information, send E-mail to: oprea@math.csuohio.edu Return to List of Math Dept. Faculty Return to Math Dept. Home Page

85. Vanderbilt Mathematics, Noncommutative Geometry And Applications NONCOMMUTATIVE geometry AND applications. Alain Connes, IHES College de France, Shanks Lecturer Noncommutative geometry and applications; http://www.math.vanderbilt.edu/~bisch/shanks2003/

Vanderbilt University, Department of Mathematics Nashville, Tennessee, USA The Clay Mathematics Institute international conference and spring school on NONCOMMUTATIVE GEOMETRY AND APPLICATIONS in conjunction with the 18th Annual Shanks Lecture honoring Baylis and Olivia Shanks Friday, May 2 to Tuesday, May 13, 2003 Schedule This conference/school will feature a lecture series by Alain Connes and several mini-courses by leading experts in noncommutative geometry and its applications to physics and geometry. In addition there will be a number of invited research talks and short contributions. Since a major component of the meeting will be the school, we strongly encourage graduate students and postdocs to participate. Talks will start on Friday, May 2 in the morning and end around noon on Tuesday, May 13. We will have a day off on Friday, May 9 (Vanderbilt's commencement takes place on that day). All talks will be held in 103 Wilson Hall unless otherwise noted (click to see pictures of Wilson Hall Click here to see a schedule of talks If you would like to download the schedule of talks as a postscript or a text (ASCII) file, please follow the links: schedule of talks (postscript file, 117k)

86. Institute For Geometry And Its Applications Institute for geometry and its applications. Members, meetings, publications. http://www.maths.adelaide.edu.au/~iga/

"Where there is matter, there is geometry." Johannes Kepler (1571-1630) Aims Members Contact Seminars ... University of Adelaide Geometry lies at the core of modern mathematics with deep and wide implications in all other mathematical disciplines. In the last decade there has been an extraordinary confluence of ideas in mathematics and theoretical physics brought about by pioneering discoveries in geometry and analysis. Geometry pervades modern technology (medical imaging and information security being two well known examples). Part of the School of Pure Mathematics the Institute for Geometry and its Applications (IGA) organises symposia and workshops and provides collaborative opportunities to promote research in geometry. The IGA has expertise in mathematical physics, particularly string theory, geometric analysis, differential geometry, representation theory of Lie groups and finite geometry and its applications to information security. The activities of the Geometric Analysis group for the last five years are here.

87. Geometry: Interactions With Algebra And Analysis New Zealand Institute of Mathematics and its applications (NZIMA) thematic program. University of Auckland; JanuaryJune, 2005. http://www.math.auckland.ac.nz/Conferences/2005/geometry-program/

Geometry: Interactions with Algebra and Analysis University of Auckland , January-June, 2005 Themes Committee Activities Student Scholarships The New Zealand Institute of Mathematics and its Applications ( NZIMA ) is sponsoring a thematic program on Geometry: Interactions with Algebra and Analysis The program will be based at The University of Auckland and will run January-June, 2005. Program themes The program will focus on geometrical themes including (1) Discrete groups; (2) Algebraic groups; (3) Geometric group theory; (4) Low-dimensional topology and hyperbolic geometry; (5) Geometric function theory; (6) Analysis and PDEs. Programme committee The directors of the program are: Gaven Martin (University of Auckland) Eamonn O'Brien (University of Auckland) The other members of the program committee are: John Hudson (Massey University) Chuck Miller (Melbourne) Principal international participants Ben Andrews (Canberra) Craig Evans (Berkeley) Peter Jones (Yale) Bill Kantor (Oregon) Martin Liebeck (Imperial College) Alex Lubotzky (Jerusalem) Peter Sarnak (Princeton) Aner Shalev (Jerusalem) Activities The two central events of the program are: Summer Workshop, Napier, January 8-15, 2005

88. Differential Geometry And Its Applications The journal publishes original research papers and survey papers in differential geometry and in all interdisciplinary areas in mathematics which use http://www.karlin.mff.cuni.cz/jdga/

Editorial Office Editor-in-Chief: O. Kowalski , Faculty of Mathematics and Physics, Charles University, Sokolovska 83, 186 75 Prague 8, Czech Republic, e-mail: kowalski@karlin.mff.cuni.cz (Electronic submission of papers: dga@karlin.mff.cuni.cz Editorial board: D.V. Alekseevsky , University of Hull, Department of Mathematics, Cottingham Road, Hull HU6 7RX, U.K., D.V.Alekseevsky@hull.ac.uk R. Bott , Department of Mathematics, Science Center, 1 Oxford Street, Cambridge, MA 02138, USA, bott@abel.math.harvard.edu J.-P. Bourguignon , Centre de Mathematiques, Ecole Polytechnique, URA du CNRS No. 169, F-91128 Palaiseau CEDEX, France, jpb@ihes.fr R.L. Bryant , Duke Department of Mathematics, P.O. Box 90320, Durham, NC 27708-0320 USA, bryant@math.duke.edu B.A. Dubrovin , Department of Higher Geometry and Topology, Moscow State University, 119899 Moscow, Russia, dubrovin@sissa.it M.G. Eastwood , Department of Pure Mathematics, Adelaide University, SA 5005, Australia, meastwoo@maths.adelaide.edu.au

89. Institute For Mathematics And Its Applications Motivated by these exciting developments, the year in algebraic geometry and its applications aims to bring together mathematicians, computer scientists http://www.ima.umn.edu/AlgGeom/

Search Contact Information Program Registration Postdoc/Membership Application Program Feedback ... Join our Mailing Lists PRELIMINARY PROGRAM IMA Special Thematic Year on Applications of Algebraic Geometry September 2006 - June 2007 Organizing Committee: Name/E-mail Address Present Institution Dimitris Bertsimas dbertsim@mit.edu Sloan School of Management MIT Pablo A. Parrilo parrilo@control.ee.ethz.ch Automatic Control Laboratory Swiss Federal Institute of Technology Michael Stillman mike@math.cornell.edu Department of Mathematics Cornell University Bernd Sturmfels bernd@math.berkeley.edu Department of Mathematics University of California, Berkeley

90. Applications Of Computational Geometry applications of computational geometry. In my work at Mentor Graphics, I have applied computational geometry algorithms and concepts on several occasions. http://www.cs.brown.edu/people/rt/sdcr/hershberger/jeh-node2.html

Next: Geometric tools, teaching, and Up: Geometric Tools Previous: Introduction Applications of computational geometry In my work at Mentor Graphics, I have applied computational geometry algorithms and concepts on several occasions. In each case, the degree of success has been directly proportional to the ease of obtaining reliable, easy-to-use software. Delaunay triangulations have proved useful in two different contexts. In one, thermal data in the plane needed to be interpolated. The computational geometers at Mentor Graphics (Nimish Shah and I) knew that the Delaunay triangulation is a good choice for linear interpolation of sampled data. We obtained Steve Fortune's Delaunay code from the Net and easily plugged it in. In the second case, existing code at Mentor Graphics computed Euclidean minimum spanning trees extremely inefficiently. The biggest part of the inefficiency arose because the original programmer did not realize that there are easily computable, linear-size supergraphs of the MST (the Delaunay triangulation, for one). Plugging in Delaunay code speeds up the computation substantially. I have applied an algorithm for computing a non-crossing matching of red and blue points (Hershberger and Suri

91. DIMACS 2002-2005 Special Focus On Computational Geometry And Applications DIMACS 20022005 Special Focus on Computational geometry and applications. Program descriptions, calendars, etc. Overview/Call for http://dimacs.rutgers.edu/SpecialYears/2002_CompGeom/

DIMACS 2002-2005 Special Focus on Computational Geometry and Applications Program descriptions, calendars, etc. Overview/Call for Participation of the Special Focus on Computational Geometry and Applications describing goals and program summaries. Organizing Committees and Sponsors of the Special Year. Calendar Current and Upcoming DIMACS Visitors Opportunities for Support Housing Options Available During Your Stay at DIMACS Rutgers/Piscatway short term/long term visitors. Rutgers/Piscataway workshop participants. Princeton University visitors and workshop participants. Visitors to DIMACS' industry partners please contact your host for assistance. If you would like to receive updates on the special focus and event announcements by email contact the DIMACS Publicity Coordinator and ask to be placed on the Computational Geometry mailing list. For additional information, contact any one of the organizers. Go to Special Year Topics DIMACS Home Page Contacting the Center Document last modified on May 7, 2001.

92. DIMACS Workshop On Medical Applications In Computational Geometry Stanford University, latombe@cs.stanford.edu Presented under the auspices of the DIMACS Special Focus on Computational geometry and applications and DIMACS http://dimacs.rutgers.edu/Workshops/Medicalapps/

DIMACS Workshop on Medical Applications in Computational Geometry April 2-4, 2003 DIMACS Center, Rutgers University, Piscataway, NJ Organizers: Danny Chen , University of Notre Dame, dchen@cse.nd.edu Jean-Claude Latombe , Stanford University, latombe@cs.stanford.edu Presented under the auspices of the DIMACS Special Focus on Computational Geometry and Applications and DIMACS Special Focus on Computational Molecular Biology Workshop Announcement Call for Participation Program ... Registration Form (Pre-registration deadline: March 26, 2003) DIMACS Workshop Registration Fees Preregister before deadline After preregistration deadline Regular rate $120/day $140/day Academic/nonprofit rate* $60/day $70/day Postdocs $10/day $15/day DIMACS Postdocs $5/day $10/day DIMACS partner institution employees** DIMACS long-term visitors*** Registration fee to be collected on site, cash, check, VISA/Mastercard accepted. Our funding agencies require that we charge a registration fee during the course of the workshop. Registration fees include participation in the workshop, all workshop materials, breakfast, lunch, breaks and any scheduled social events (if applicable) * College/University faculty and employees of non-profit organizations will automatically receive the reduced rate. Other participants may apply for a

93. Math Forum: Corner For Interactive Geometry Software (CIGS) Each Web browser uses a different process for defining helper applications, but they all need the same information. Cabri geometry II Settings. http://mathforum.org/dynamic/classroom.html

The Math Forum Interactive Geometry Classroom Resources Main CIGS Page Teachers' Place K-12 or College Math Software Demo versions of the commercial software programs Geometer's Sketchpad and Cabri Geometry are available for downloading from Key Curriculum Press and the Math Forum site, and you can then set up your Web browser to use them. I. The Geometer's Sketchpad (GSP) - Key Curriculum Press Sketchpad encourages a process of discovery in which students first visualize and analyze a problem, then make conjectures before attempting a proof. Classroom Resources Demo versions: Key's Demo Download Site Sketchpad for Mac, v. 3.06 Sketchpad for Windows, v. 3.10 II. Cabri Geometry II - Texas Instruments French Home Site A tool for Euclidean, transformation, and analytic geometry. Classroom Resources Demo versions: Note: Two versions of the Cabri demo are available. They use different file types, so Cabri II cannot open sketches created with Cabri 1.0. You may want to download both so that you can open both types of sketches. Cabri Geometry II for Mac III.

94. Math Forum - Problems Library - Geometry - Modeling, Applications Related Resources Interactive resources from our Math Tools project geometry Modeling and applications The closest match in our Ask Dr. Math archives High http://mathforum.org/library/problems/sets/geo_model_appl.html

TOPICS This page: modeling, applications About Levels of Difficulty Geometry lines/angles triangles quadrilaterals polygons ... PoW Library Teacher Support Page Available Problem Accepts Submissions Modeling and Applications In this category, each problem includes a real-life application of one or more geometric concepts, or requires students to use a model that they draw, build, or visualize. While many of the Geometry Problems of the Week use the "real world" as a setting, these problems are the most like "real" real-life scenarios. Almost all of these problems are listed in other categories. Related Resources Interactive resources from our Math Tools project: Geometry: Modeling and Applications The closest match in our Ask Dr. Math archives: High School: Practical Geometry High School: Polyhedra NCTM Standards: Geometry Standard for Grades 9-12 Access to these problems requires a Membership Angle Trisection with a Carpenter's Square - Annie Fetter Geometry, difficulty level 3. Prove how a carpenter's square can be used to trisect an angle. ...

95. Applications Of Computational Geometry:Virtual Reality, 3D Graphics, And Route P Ongoing Research Seminar Friday September 29, 1995. Joseph SB Mitchell applications of Computational geometry Virtual Reality, 3D Graphics, and Route Planning. http://www.cs.sunysb.edu/~ors/Fall-1995/mitchell-95.html

Ongoing Research Seminar Friday September 29, 1995 Joseph S.B. Mitchell Applications of Computational Geometry: Virtual Reality, 3D Graphics, and Route Planning Department of Applied Mathematics and Statistics State University of New York, Stony Brook, NY 11794-3600 We describe ongoing work in applied computational geometry in three problem domains: Virtual Reality - Motivated by this need to do collision detection in virtual reality, we address the following problem: Given a description of a geometric environment, E , in three dimensions, preprocess it into a data structure of small size so that queries of the form, ``Does object A intersect any of the obstacles in E ?'' can be answered very rapidly. Further, we study the problem of tracking the motion of A within E , in order to detect dynamically, in real time, when A collides with an obstacle. The environment E is given to us as a boundary representation of a set of polyhedral obstacles, each of which is a component part that has been designed and modeled within a CAD system. 3D Graphics - We have been studying theoretical and practical aspects of the model simplification/approximation problem for some time. We will briefly discuss some current approaches.

96. Vls.icm.edu.pl/cgi-bin/sciserv.pl?collection=elsevier Journal=09262245 Computational geometrydblp.unitrier.de Computational geometry Theory and applications. Computational geometry Home Page Computational geometry @ ScienceDirect http://vls.icm.edu.pl/cgi-bin/sciserv.pl?collection=elsevier&journal=09262245

97. International Journal Of Computational Geometry And Applications dblp.unitrier.de International Journal of Computational geometry and applications. IJCGA Home Page Volume 13, 2003; Volume 12, 2002; http://www.informatik.uni-trier.de/~ley/db/journals/ijcga/

International Journal of Computational Geometry and Applications IJCGA Home Page Volume 13, 2003 Volume 12, 2002 Volume 11, 2001 ... Volume 1, 1991 DBLP: [ Home Author Title Conferences ... Journals Fri Jun 4 20:22:56 2004 by Michael Ley ley@uni-trier.de

98. Differential Geometry And Applications, Brno 1998 7th Interenational Conference Differential geometry and applications. Satellite Conference of ICM98 in Berlin August 10 14, 1998 Brno, Czech Republic. http://www.math.muni.cz/~slovak/DGA98.html

7th Interenational Conference Differential Geometry and Applications Satellite Conference of in Berlin August 10 - 14, 1998 Brno, Czech Republic Masaryk University in Brno , together with further institutions, organized the 7th traditional conference in the series held regularly each three years at some of the Czech universities. Last change: September, 1998 Information on the Conference, and some other data are also available in the previous 2-nd announcement and 3-rd announcement

99. Prof. Jorg-Rudiger Sack Computational geometry theory and applications. CGTA webbase editorial system for authors and editors. General information about CGTA. http://www.scs.carleton.ca/~sack/cgta.html

Research Publications Committees / Boards PC Membership ... Associate Dean Computational Geometry: theory and applications CGTA web-base editorial system for authors and editors General information about CGTA

100. Computational Geometry On The Web Tutorial on the Hausdorff distance and its applications (with interactive and Unimodality Convex Set, convex function; Unimodal distance functions in geometry; http://cgm.cs.mcgill.ca/~godfried/teaching/cg-web.html

"The book of nature is written in the characters of geometry." - Galileo Go to Specific Links Related to 308-507 (Computational Geometry course). General Links - Computational Geometry: Geometryalgorithms.com ( Fantastic Resource Page for Computational Geometry!) Jeff Erickson's Computational Geometry Pages Geometry in Action Geometry Publications by Author ... A Gallery of JAVA Sketchpad Examples in Constructive Geometry Software: JeoEdit - A Java tool for editing polygons and points on the web Directory of Computational Geometry Software CGAL Computational Geometry Library Algorithmic Solutions.Com ... Basic Introduction to Computational Geometry (PostScript file) Godfried's Favourite Computational Geometry Links Computational Geometry on the Web Computational Geometry in Barcelona Computational Geometry Links ... Technology in the Geometry Classroom General Links - More Geometry: Experiencing Geometry (A really nice basic geometry course by David Henderson) Geometry and the Imagination Geometry from Euclid to Today General Geometric References ... Geometric Probability Specific Links Related to the Course Material: Chapter Links: Classical Geometry, Basic Concepts, Theorems and Proofs

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