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AAAI
2008
2008
Hybrid Constraint Tightening for Solving Hybrid Scheduling Problems
Hybrid Scheduling Problems (HSPs) contain both temporal and finite-domain variables, as well as constraints between them. A hybrid constraint over temporal and finite-domain variables often models situations where different assignments to a subset of finite-domain variables result in different bounds on temporal constraints. The insight we examine in this paper is that some temporal constraint propagation is possible even before finite-domain variables are assigned, by giving the temporal constraint the tightest bound consistent with all (remaining) feasible finite-domain variable values. We describe a hybrid constraint-tightening algorithm that can proactively prune the search space of HSPs and is run as a preprocessing step independently of the search algorithm used. We examine the efficiency of this algorithm analytically, and give preliminary results showing that it reduces the expected runtime of search by a significant margin in the kinds of HSPs we are studying.
Real-time TrafficAAAI 2008 | Finite-domain Variable | Intelligent Agents | Temporal Constraint | Temporal Constraint Propagation |
Related Content
| Added | 02 Oct 2010 |
| Updated | 02 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | AAAI |
| Authors | James C. Boerkoel Jr., Edmund H. Durfee |
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