Qualitative reasoning about physical systems
Author(s)
Bibliographic Information
Qualitative reasoning about physical systems
North-Holland , Sole distributors for the U.S.A. and Canada, MIT Press, 1984
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Physical systems
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Note
"Reprinted from the journal Artificial intelligence, volume 24" -- T.p verso
Bibliography: p. 490-491
Includes index
Contents of Works
- Qualitative reasoning about physical systems : an introduction / Daniel G. Bobrow
- A qualitative physics based on confluences / Johan de Kleer and John Seely Brown
- Qualitative process theory / Kenneth D. Forbus
- Commonsense reasoning about causality : deriving behavior from structure / Benjamin Kuipers
- How circuits work / Johan de Kleer
- Qualitative analysis of MOS circuits / Brian C. Williams
- Diagnostic reasoning based on structure and behavior / Randall Davis
- The use of design descriptions in automated diagnosis / Michael R. Genesereth
- VERIFY : a program for proving correctness of digital hardware designs / Harry G. Barrow
Description and Table of Contents
Description
This volume brings together current work on qualitative reasoning. Its publication reflects the maturity of qualitative reasoning as a research area and the growing interest in problems of reasoning about physical systems. The papers present knowledge bases for a number of very different domains, including heat flow, transistors, and digital computation. A common theme of all these papers is explaining how physical systems work. An important shared criterion is that the behavioral description must be compositional, that is the description of a system's behavior must be derivable from the structure of the system. This material should be of interest to anyone concerned with automated reasoning about the real (physical) world.
Table of Contents
Qualitative Reasoning about Physical Systems: An Introduction (D.G. Bobrow). A Qualitative Physics Based on Confluences (J. De Kleer and J.S. Brown). Qualitative Process Theory (K.D. Forbus). Commonsense Reasoning About Causality: Deriving Behavior from Structure (B. Kuipers). How Circuits Work (J. De Kleer). Qualitative Analysis of MOS Circuits (B.C. Williams). Diagnostic Reasoning Based on Structure and Behavior (R. Davis). The Use of Design Descriptions in Automated Diagnosis (M.R. Genesereth). VERIFY: A Program for Proving Correctness of Digital Hardware Designs (H.G. Barrow).
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