CoCoA

A Non-Iterative Approach to a Local Search (A) DCOP Solver

Conference paper (2017)

Authors

C.J. van Leeuwen Embedded Systems - , TNO

Przemysław Pawełczak Embedded Systems -

Research Group

Embedded Systems () (TU Delft)

DCOP Constraint Satisfaction Incomplete Non-iterative

To reference this document use:

http://resolver.tudelft.nl/uuid:108d8560-e41d-4543-9862-d028ff431da1

More Info

expand_more

Published Date

04-02-2017

Language

English

Reuse Rights

Other than for strictly personal use, it is not permitted to download, forward or distribute the text or part of it, without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license such as Creative Commons.

Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Software Technology

Research Group

Embedded Systems

Abstract

We propose a novel incomplete cooperative algorithm for distributed
constraint optimization problems (DCOPs) denoted as Cooperative Constraint Approximation (CoCoA). The key strategy of the algorithm is to use a semi-greedy approach in which knowledge is distributed amongst neighboring agents,
and assigning a value only once instead of an iterative approach. Furthermore, CoCoA uses a unique-first approach to improve the solution quality. It is designed such that it can solve DCOPs as well as Asymmetric DCOPS, with only few messages being communicated between neighboring agents. Experimentally, through evaluating graph coloring problems, randomized (A)DCOPs, and a sensor network communication problem, we show that CoCoA is able to very quickly find solutions of high quality with a smaller communication
overhead than state-of-the-art DCOP solvers such as DSA, MGM-2, ACLS, MCS-MGM and Max-Sum. In our asymmetric use case problem of a sensor network, we show that CoCoA not only finds the best solution, but also finds this
solution faster than any other algorithm.

Files

14191_66605_1_PB.pdf

(pdf | 0.751 Mb)

Unknown license

Download not available