Monitoring and control of anytime algorithms: A dynamic programming approach

作者:

摘要

Anytime algorithms offer a tradeoff between solution quality and computation time that has proved useful in solving time-critical problems such as planning and scheduling, belief network evaluation, and information gathering. To exploit this tradeoff, a system must be able to decide when to stop deliberation and act on the currently available solution. This paper analyzes the characteristics of existing techniques for meta-level control of anytime algorithms and develops a new framework for monitoring and control. The new framework handles effectively the uncertainty associated with the algorithm's performance profile, the uncertainty associated with the domain of operation, and the cost of monitoring progress. The result is an efficient non-myopic solution to the meta-level control problem for anytime algorithms.

论文关键词:Anytime algorithms,Flexible computation,Meta-level control,Monitoring,Resource-bounded reasoning,Real-time deliberation

论文评审过程:Available online 16 March 2001.

论文官网地址:https://doi.org/10.1016/S0004-3702(00)00068-0