Reformulating Dynamic Linear Constraint Satisfaction Problems as Weighted CSPs for Searching Robust Solutions

Constraint programming is a successful technology for solving combinatorial problems modeled as constraint satisfaction problems (CSPs). Many real life problems come from uncertain and dynamic environments, which means that the initial description of the problem may change during its execution. In these cases, the solution found for a problem may become invalid. The search of robust solutions for dynamic CSPs (DynCSPs) has become an important issue in the field of constraint programming. In this paper we reformulate DynCSPs withlinear constraints as weighted CSPs (WCSPs), and we present an approach that searches for robust solutions in problems without associated information about possible future changes. Thus, the best solution for a modeled WCSP will be a robust solution for the original DynCSP.