Utilitarian Approach to Privacy in Distributed Constraint Optimization Problems
Savaux, Julien (University of Valenciennes) | Vion, Julien (University of Valenciennes) | Piechowiak, Sylvain (University of Valenciennes) | Mandiau, René (University of Valenciennes) | Matsui, Toshihiro (Nagoya Institute of Technology) | Hirayama, Katsutoshi (Kobe University) | Yokoo, Makoto (Kyushu University) | Elmane, Shakre (Florida Institute of Technology) | Silaghi, Marius (Florida Institute of Technology)
Privacy has been a major motivation for distributed problem optimization. However, even though several methods have been proposed to evaluate it, none of them is widely used. The Distributed Constraint Optimization Problem (DCOP) is a fundamental model used to approach various families of distributed problems. Here we approach the problem by letting both the optimized costs found in DCOPs and the privacy requirements guide the agents' exploration of the search space. We introduce Utilitarian Distributed Constraint Optimization Problem (UDCOP) where the costs and the privacy requirements are used as parameters to a heuristic modifying the search process. Common stochastic algorithms for decentralized constraint optimization problems are evaluated here according to how well they preserve privacy.
May-16-2017
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