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An Evaluation of Best Compromise Search in Graphs

Machuca, Enrique; Mandow, Lawrence; Galand, Lucie (2013), An Evaluation of Best Compromise Search in Graphs, in Bielza, Concha; Salmeron, Antonio; Alonso-Betanzos, Amparo; Hidalgo, J. Ignacio; Martinez, Luis; Troncoso, Alicia; Corchado, Emilio; Corchado, Juan M., Advances in Artificial Intelligence. 15th Conference of the Spanish Association for Artificial Intelligence, CAEPIA 2013, Madrid, Spain, September 17-20, 2013. Proceedings, Springer : Berlin Heidelberg, p. 1-11. 10.1007/978-3-642-40643-0_1

Type
Communication / Conférence
Date
2013
Conference title
15th Conference of the Spanish Association for Artificial Intelligence, CAEPIA 2013
Conference date
2013-09
Conference city
Madrid
Conference country
Spain
Book title
Advances in Artificial Intelligence. 15th Conference of the Spanish Association for Artificial Intelligence, CAEPIA 2013, Madrid, Spain, September 17-20, 2013. Proceedings
Book author
Bielza, Concha; Salmeron, Antonio; Alonso-Betanzos, Amparo; Hidalgo, J. Ignacio; Martinez, Luis; Troncoso, Alicia; Corchado, Emilio; Corchado, Juan M.
Publisher
Springer
Published in
Berlin Heidelberg
ISBN
978-3-642-40642-3
Pages
1-11
Publication identifier
Metadata
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Author(s)
Machuca, Enrique
Universidad Malaga
Mandow, Lawrence
Universidad Malaga
Galand, Lucie
Laboratoire d'analyse et modélisation de systèmes pour l'aide à la décision [LAMSADE]
Abstract (EN)
This work evaluates two different approaches for multicriteria graph search problems using compromise preferences. This approach focuses search on a single solution that represents a balanced tradeoff between objectives, rather than on the whole set of Pareto optimal solutions. We review the main concepts underlying compromise preferences, and two main approaches proposed for their solution in heuristic graph problems: naive Pareto search (NAMOA*), and a k-shortest-path approach (kA*). The performance of both approaches is evaluated on sets of standard bicriterion road map problems. The experiments reveal that the k-shortest-path approach looses effectiveness in favor of naive Pareto search as graph size increases. The reasons for this behavior are analyzed and discussed.
Subjects / Keywords
Multiobjective search; best compromise