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Efficient and Safe Global Constraints for Handling Numerical Constraint Systems

Yahia Lebbah, Claude Michel, Michel Rueher, David Daney, Jean‐Pierre Merlet

Year
2005
Citations
56

Abstract

Abstract. Numerical constraint systems are often handled by branch and prune algorithms that combine splitting techniques, local consistencies, and interval methods. This paper first recalls the principles of Quad, a global constraint that works on a tight and safe linear relaxation of quadratic subsystems of constraints. Then, it introduces a generalization of Quad to polynomial constraint systems. It also introduces a method to get safe linear relaxations and shows how to compute safe bounds of the variables of the linear constraint system. Different linearization techniques are investigated to limit the number of generated constraints. QuadSolver, a new branch and prune algorithm that combines Quad, local consistencies, and interval methods, is introduced. QuadSolver has been evaluated on a variety of benchmarks from kinematics, mechanics, and robotics. On these benchmarks, it outperforms classical interval methods as well as constraint satisfaction problem solvers and it compares well with state-of-the-art optimization solvers.

Keywords

LinearizationConstraint satisfactionConstraint (computer-aided design)Constraint satisfaction problemMathematical optimizationInterval (graph theory)Local consistencyRelaxation (psychology)Interval arithmeticComputer science

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