Approximate Reasoning Using Anytime Algorithms
Shlomo Zilberstein and Stuart J. Russell. Approximate Reasoning Using Anytime Algorithms. In S. Natarajan (Ed.), Imprecise and Approximate Computation, Kluwer Academic Publishers, 1995.
Abstract
The complexity of reasoning in intelligent systems makes it undesirable, and sometimes infeasible, to find the optimal action in every situation since the deliberation process itself degrades the performance of the system. The problem is then to construct intelligent systems that react to a situation after performing the "right" amount of thinking. It is by now widely accepted that a successful system must trade off decision quality against the computational requirements of decision-making. Anytime algorithms, introduced by Dean, Horvitz and others in the late 1980's, were designed to offer such a trade-off. We have extended their work to the construction of complex systems that are composed of anytime algorithms. This paper describes the compilation and monitoring mechanisms that are required to build intelligent systems that can efficiently control their deliberation time. We present theoretical results showing that the compilation and monitoring problems are tractable in a wide range of cases, and provide two applications to illustrate the ideas.
Bibtex entry:
@incollection{ZRchapter95, author = {Shlomo Zilberstein and Stuart J. Russell}, title = {Approximate Reasoning Using Anytime Algorithms}, booktitle = {Imprecise and Approximate Computation}, editor = {S. Natarajan}, year = {1995}, pages = {}, address = {}, publisher = {Kluwer Academic Publishers}, url = {http://rbr.cs.umass.edu/shlomo/papers/ZRchapter95.html} }shlomo@cs.umass.edu