Junwoo's Homepage (Research) CFD (computaional Fluid Dynamics) aka Cool Fluid Dynamics or Colorful Fluid Immersedboundary method for complex geometry flows; Simulation and control of flow http://www.seas.ucla.edu/~junwoo/SUB/research.html
An Overview Of The CSE. What are the requirements for a computaional steering environment ? and bind thegraphics objects to variables by parameterizing geometry and attributes with http://www.cwi.nl/projects/cse/anrep.html
Extractions: The standard cycle in simulation is to prepare input, execute a simulation, and to visualize the results. However, more insight and a higher productivity can be achieved if these activities are done simultaneously. This is the underlying idea of Computational Steering : researchers change simulation parameters on the fly and immediately receive feedback on the effect. The development of a dedicated user-interface for a simulation is a time-consuming process, which requires the expertise of specialists on user-interfacing and computer graphics. The aim of the Computational Steering project is to develop an environment in which researchers themselves can develop and use interfaces to their simulations. Scientific Visualization has become a separate research area since 1987, when the influential report of the US National Science Foundation was published. In recent years many new methods, techniques, and packages have been developed. Most of these developments are limited to post-processing of data-sets. Usually the assumption is made that all data is generated first and that next the researcher iterates through the remaining steps of the visualization pipeline (selection, filtering, mapping, and rendering) to achieve insight in the generated data. Hence, the interaction with the simulation is limited. The first step to more interaction is with tracking . After each time-step of the simulation the resulting data for that time-step is sent into the visualization pipeline and can be inspected. If the researcher considers the results invalid, then the simulation can be stopped at an early stage, and restarted with a different set of input parameters. The next step
MegaCads Hilfe: MegaCads Ueberblick plane concept allows the user to define whether the resulting geometry of a NumericalGrid Generation in computaional Fluid Dynamics and Related Fields, ed. NP http://www.megacads.dlr.de/docus/Overview.html
Extractions: During the last decade, advances in the field of numerical aerodynamics lead the way to very powerful codes capable of handling problems in two and three dimensions [ ]. The solution of the Navier-Stokes equations for a complex configuration, including the wall boundary layers, requires structured grids of high resolution. Even today the creation of such grids of high quality is very costly in time and thus in manpower. On the one hand, the long development times can be the result of using batch generators which usually can handle variations in parameters (like a flap deflection angle) easily, but are tailored to specific topologies which cannot be changed quickly. On the other hand, interactive methods, often integrated into existing CAD systems, are time consuming if modifications in geometry or parameters force the user to do a redesign of large parts of a grid. Over the last years, the DLR Institute of Design Aerodynamics has used commercial products and has developed batch generators for grids around complex transport configurations [ ]. Special interactive tools were developed for the smoothing and refining of algebraic grids [
Pubblicazioni Degli Aderenti Al Gruppo of Turbulence (T. Kambe ed, IUTAM 99 symposium on geometry and Statistics Proceedingsof European Conference on computaional Mechanics, CDrom, ECCM '99 , 1999 http://indam.ciram.unibo.it/gnfm/pubblicazioni-2001.shtml
Extractions: Antonella Abba', Stefano Arioli, Carlo Cercignani, Lorenzo Valdettaro. ANALYSIS OF SUBGRID SCALE MODELS IN HOMOGENEOUS ISOTROPIC TURBULENCE. , 1999. [C] Antonella Abba', Carlo Cercignani, Gianluca Picarella, Lorenzo Valdettaro. A 3D Turbulent Boundary Layer Test for LES Models. 2000. [P] Antonella Abba', Carlo Cercignani, Lorenzo Valdettaro. Analysis of Subgrid Scale Models. . [P] Simonetta Abenda. Time singularities for polynomial Hamiltonians with analytic time depndence. Hamiltonian systems with three or more degrees of freedom, ed. C. Simo, Kluwer, Nato Asi series C: Mathematical and Physical Sciences, Sagaro' 1993 , 533:285-289 , 1999. [C] Simonetta Abenda. Comparison results and a priori estimates for weak solutions of the Signorini problem. Ricerche di Matematica , 48(2):323-352 , 1999. [R] Simonetta Abenda, Tasos Bountis, Vagelis Marinakis. On the Connection between Hyperelliptic Separability and the Painleve property. (Universita' di Patrasso) 2000. [P] Simonetta Abenda, Yuri Fedorov. A geometric approach to the Kowalewskaya-painleve test for a class of integrable systems. (Universita' di Bologna) 2000. [P]
Literature: Level Of Detail Bieri, H.; Noltemeier, H. (Eds.), Computational geometry Methods, Algorithms and Vicky;Humphreys, Glyn W. Visual Cognition computaional, experimental and http://wsvst25.site.uni-wuppertal.de/dirk/ds-lod2.html
Extractions: Abel, D. J. A B+ Structure for Large Quadtrees Computer Vision, Graphics and Image Processing, Vol. 27 Abramowski; Stephan Geometrisches Modellieren BI Wissenschaftsverlag Aggarwal, A.; Baldwin, M.; Maddila, S.; O'Rourke, J. An optimal algorithm for finding minimal enclosing triangles Journal of the Algorithms, 7 Ahuja, N.; Schachter, B. J. Pattern Models Wiley-Interscience New York Airey, J.; Brooks, F. jr.; Rohlf, J. Towards Image Realism with Interactive Update Rates in Complex Virtual Building Environments aus Computer Graphics, ACM, Vol. 24, No. 2, pp. 41-50 Airey, John M. Increasing Update Rates in the Building Walkthrough System with Automatic Model-Space Subdivision and Potentially Visible Set Calc ulations Ph.D.thesis, University of North Carolina Chapel Hill Ein Verfahren zur Darstellung von Geodaten in Echtzeit aus Tagungsband 5. Workshop Sichtsysteme - Visualisierung in der Simualtionstechnik, W.-tal, 20./21.Nov 97, Shaker V erlag Aachen Aliaga, D.G.; Lastra, A. A.
International Symposium Of Computer Aided Geometric Design Previous message Alpine computaional Workshop deadline extention; Abstraction andModeling=20 f.. Intelligent CAD Systems=20 g.. Computational geometry=20 h http://mail.cs.uiuc.edu/pipermail/colt/2000-December/000265.html
Extractions: Sat, 30 Dec 2000 13:37:25 +0300 ****************************************************************************** COLT MAILING LIST ( colt@cs.uiuc.edu sarfraz@ccse.kfupm.edu.sa U: www.graphicslink.demon.co.uk/IV2001/CAGD.htm =20 =20 All other enquiries should be addressed to=20 Anita D'Pour Conference Co-ordinator P.O. BOX 29, HATFIELED, AL9 7ZL, United Kingdom. T: (Int. +44) 1707 - 652 224 F: (Int. +44) 1707 - 652 247 E: IV2001@graphicslink.demon.co.uk http://www.graphicslink.demon.co.uk/IV2001/CAGD.htm" sarfraz@ccse.kfupm.edu.sa "> sarfraz@ccse.kfupm.edu.sa </A></= SPAN></ADDRESS> <ADDRESS><SPAN style=3D"mso-bidi-font-size: 10.0pt"></SPAN><SPAN=20 style=3D"mso-bidi-font-size: 10.0pt">U: </SPAN><A=20 href=3D" http://www.graphicslink.demon.co.uk/IV2001/CAGD.htm"
Back To Homepage About Us Programmes News About Us Programmes Wojciech, Nicholas Copernicus University, Poland Field of research geometry HostProf. F. Uhlík, Z. Slanina, A. Hinchliffe A computaional evaluation of the http://www.avh.de/automat_db/pub_humboldtiana2.humboldtiana_index_pub?p_year=199
Astrophysics Authors/titles Feb 2002 (500 Skipped) recombination lines as diagnostic tool for hot star wind geometry Authors A 16pages, 4 figures, accepted for publication Journal of computaional Physics http://arxiv.org/list/astro-ph/0202?500
CTU - FME - K231 - List Of Courses of Mechanics computaional methods for dynamical systems (discrete, linear, non ofMechanics geometry of translation coordinate systems, position of mechanical http://www.fsid.cvut.cz/cp1250/en/U2053/educ.html
CREN ListProc-WWW: Archives For COLT Intelligent CAD Systems; Computational geometry; CAD Standards; Industrial Applications; Prevby Date Alpine computaional Workshop deadline extention; Prev by http://listproc.cs.uiuc.edu/guest/archives/COLT/colt.dec2000/msg00030.html
Extractions: For help, please send e-mail to listmgr@cs.uiuc.edu Archives for COLT Date Prev ][Date Next][ Thread Prev ][Thread Next][ Date Index Thread Index International Symposium of Computer Aided Geometric Design IV2001-CAGD www.graphicslink.demon.co.uk/IV2001/CAGD.htm IN The 5 th International Conference INFORMATION VISUALISATION LONDON ENGLAND 25 - 26 - 27 July 2001 Call for Paper, Video and Digital Art Work Computer Aided techniques for geometric design are extremely useful tools in a number of industrial settings. Specifically, Computer Aided Geometric Design (CAGD) plays a significant role in the construction of designing and manufacturing of various objects. In addition to its critical importance in the traditional fields of automobile and aircraft manufacturing, shipbuilding, and general product design, more recently, the CAGD methods have also proven to be indispensable in a variety of modern industries, including computer vision, robotics, medical imaging, visualisation, and even media. The purpose of the CAGD symposium within this conference is to focus on interdisciplinary methods and affiliate research done among various disciplines with the goal of stimulating views and providing a forum where researchers and practitioners can discuss the latest developments linked to information visualisation.
Www2.cse.dl.ac.uk/ReferPersonPublications/186 The input required is the device geometry, mesh, doping and solution variables onNumerical Grid Generation in computaional Field Simulations, %S University of http://www2.cse.dl.ac.uk/ReferPersonPublications/186
Www2.cse.dl.ac.uk/ReferPersonPublications/6021 nonuniform doping relating to windows found in the geometry neutral file and on NumericalGrid Generation in computaional Field Simulations, %S University of http://www2.cse.dl.ac.uk/ReferPersonPublications/6021
V }Äà (Developments in sedimentology ; 55). Lectures on discrete geometry / JiriMatousek. computaional methods for protein folding / Richard A. Friesner. http://lxweb.lib.fukuoka-u.ac.jp/newbook/CSO/06/new.html
Extractions: Extensions and relaxations / by A.G. Chentsov and S.I. Morina . - Dordrecht : Kluwer Academic Pub. , c2002. - ( Mathematics and its applications ; v. 542). Essays in the history of Lie groups and algebraic groups / Armand Borel . - [Providence, R.I.] : American Mathematical Society , c2001. - ( History of mathematics ; v. 21).
EJGE Paper 1999-09 Typical shaft geometry and soil profile (Lorain project, Lorain county, Ohio). J.,1992, Potential applications of neurobiological computaional modls in http://www.ejge.com/1999/Ppr9909/Ppr9909.htm
Extractions: Design and Analysis of Deep Foundations N. O. Nawari, R. Liang , and J. Nusairat Department of Civil Engineering, University of Akron, Akron, OH, USA Email the first author ABSTRACT Artificial intelligence paradigms are implemented to simulate the behavior of axially and laterally loaded piles, using data from full-scale drilled shaft and driven pile tests as well as from published data. The main objective is to develop optimal neural network models using only simple input data. These data include SPT-N values and the geometrical properties. Neural network models are developed for steel H-piles, steel pipe piles, and pre-stressed and reinforced concrete piles. The models involved are Backpropagation, and Generalized Regression Neural Networks. Prediction results and comparison with the commonly used design methods are presented. Advantages and limitations of using neural networks in the design of pile foundations have been addressed. Keywords: Artificial intelligence, piles, axial load, lateral load, analysis INTRODUCTION General Presently, there are numerous approaches for the prediction of the axial load-bearing capacity of driven piles as well as for laterally loaded drilled shafts. Most of these methods either oversimplify the nature of the problem or improperly consider the effect of certain governing factors. The problem is extremely complex owing to the large number of uncertain parameters that affect the behaviour of piles. Neural Network approach is one alternative that is capable of incorporating the uncertainties associated with the controlling parameters.
Graduate Program - Degree Programs Master of Science in Applied Mathematics (MSAM)(computaional Math Option and algebra,linear algebra, advanced calculus, differential equations, or geometry. http://www.math.uh.edu/UH_NEW/graduate/Degrees/degrees.html
NA Digest Tuesday, November 25, 1992 Volume 92 : Issue 44 geometry and Algebraic Topology (Sergeraert) 11. Gannon gannon@moose.cs.indiana.edu Date Sun, 15 Nov 1992 215453 0500 Subject computaional Sciences at http://www.netlib.org/na-digest-html/92/v92n44.html
NA Digest, V. 98, # 04 requirements, using elements appropriate for the geometry and physics Robert G. VoigtDirector, computaional Science Cluster From http://www.netlib.org/netlib/na-digest-html/98/v98n04.html
No Title of the particles and the parameters defining the geometry of the P. Swiler, SandiaNational Laboratories, Dept of Theoretical computaional Matls Modeling http://www.mrs.org/meetings/spring97/abstract_book/t/t6/
Extractions: Hashin-Shtrikman-type variational pricniples have been formulated in order to obtain rigorous bounds on the shear modulus of two-phase viscoelastic composites. The simplest class of bounding regions is composed of circles in the complex plane containing four points related to the viscoelastic moduli of the constitutents, and depending on a scalar parameter. A method of generating the convex hull of all such bounding regions has been developed. Several examples of bounds computed using the method will be presented, including one for suspensions of solid particles in a viscous fluid. In the important limiting case when all the constituent moduli are real, the new shear bounds are shown to reduce precisely to the well-known Hashin-Shtrikman-Walpole bounds.
Bookmarks For David M. Hansen of Numerical Analysis, Symbolic Computing Computational geometry and Artificial ArmyResearch Laboratory Web Server Advanced computaional Information http://www.cse.ogi.edu/~dhansen/html/bookmarks.html