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Computational Support for Discrete Mathematics
Edited by: Nathaniel Dean and Gregory E. Shannon
A co-publication of the AMS and DIMACS.
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DIMACS: Series in Discrete Mathematics and Theoretical Computer Science
1994; 399 pp; hardcover
Volume: 15
ISBN-10: 0-8218-6605-2
ISBN-13: 978-0-8218-6605-4
List Price: US$93
Member Price: US$74.40
Order Code: DIMACS/15
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See also:

African Americans in Mathematics II - Nathaniel Dean, Cassandra M McZeal and Pamela J Williams

With recent technological advances in workstations, graphics, graphical user interfaces, and object oriented programming languages, a significant number of researchers are developing general-purpose software and integrated software systems for domains in discrete mathematics, including graph theory, combinatorics, combinatorial optimization, and sets. This software aims to provide effective computational tools for research, applications prototyping, and teaching. In March 1992, DIMACS sponsored a workshop on Computational Support for Discrete Mathematics in order to facilitate interactions between the researchers, developers, and educators who work in these areas. Containing refereed papers based on talks presented at the workshop, this volume documents current and past research in these areas and should provide impetus for new interactions.

Co-published with the Center for Discrete Mathematics and Theoretical Computer Science beginning with Volume 8. Volumes 1-7 were co-published with the Association for Computer Machinery (ACM).

Readership

Mathematicians and computer scientists.

Table of Contents

  • A. Bhansali and S. S. Skiena -- Analyzing integer sequences
  • M. Stallmann, R. Cleaveland, and P. Hebbar -- GDR: A visualization tool for graph algorithms
  • G. Havas and E. F. Robertson -- Application of computational tools for finitely presented groups
  • P. A. Gloor, I. Lee, and A. Velez-Sosa -- Animated algorithms: Computer science education with algorithm animation
  • J. Abello, S. Sudarsky, T. Veatch, and J. Waller -- AGE: An animated graph environment
  • D. S. Dillon and F. R. Smietana -- An interactive, graphical, educationally oriented graph analysis package
  • G. H. Bradley and H. F. Oliveira -- Network assistant: To construct, test, and analyze graph network algorithms
  • K.-W. Lih, N. Dean, and M. Mihail -- Computing spanning trees in NETPAD
  • B. M. E. Moret and H. D. Shapiro -- An empirical assessment of algorithms for constructing a minimum spanning tree
  • C. Thomborson, B. Alpern, and L. Carter -- Rectilinear Steiner tree minimization on a workstation
  • P. Schorn -- The XYZ GeoBench for the experimental evaluation of geometric algorithms
  • D. A. Berque and M. K. Goldberg -- Monitoring an algorithm's execution
  • T.-S. Hsu, V. Ramachandran, and N. Dean -- Implementation of parallel graph algorithms on the MasPar
  • A. L. Buchsbaum and M. Mihail -- Monte Carlo and Markov chain techniques for network reliability and sampling
  • D. D. Harms, J. S. Devitt, and C. J. Colbourn -- Networks and reliability in MAPLE
  • G. Zimmerman, A. H. Esfahanian, and D. Vasquez -- GMP/X, An X-windows based graph manipulation package
  • C. Gomez and M. Goursat -- METANET: A system for network analysis
  • V. J. Leung, M. B. Dillencourt, and A. L. Bliss -- GraphTool: A tool for interactive design and manipulation of graphs and graph algorithms
  • M. Krishnamoorthy, A. Suess, M. Onghena, F. Oxaal, and T. Spencer -- Improvements to GraphPack: A system to manipulate graphs and digraphs
  • J. I. Helfman and J. L. Gross -- Extending a graph browser for topological graph theory
  • L. A. Sanchis -- Test case construction for the vertex cover problem
  • M. Delest and N. Rouillon -- CalICo: Software for combinatorics
  • M. Delest -- Formal calculus and enumerative combinatorics
  • K. Sutner -- Implementing finite state machines
  • D. Caugherty and S. H. Rodger -- NPDA: A tool for visualizing and simulating nondeterministic pushdown automata
  • I. J. Dejter -- Recognizing the hidden structure of Cayley graphs
  • D. Möller and R. Müller -- A concept for the representation of data and algorithms
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