An iterated local search algorithm for water distribution network design optimization

Abstract

The optimal design of water distribution networks is a complex non‐linear combinatorial optimization problem. It consists in finding the least‐cost pipe configuration that satisfies hydraulic laws and customer requirements, using a limited set of available pipe types. In a previous paper (De Corte and Sörensen, Eur J Oper Res 228 (2013), 1–10), we have argued that state‐of‐the‐art optimization algorithms proposed in this domain are unduly complicated and poorly tested. The main contribution of this article is a straightforward, fast, transparent, and effective iterated local search (ILS) algorithm that has at least equivalent performance when compared to the best approaches in the literature, but has a much simpler algorithmic structure. A full‐factorial experiment is conducted to obtain the heuristic's best parameter settings. Contrary to existing algorithms, the ILS algorithm is additionally shown to perform well on a broad set of much more challenging HydroGen (De Corte and Sörensen, Water Resour Manage 28 (2014), 333–350) test instances. © 2015 Wiley Periodicals, Inc. NETWORKS, Vol. 67(3), 187–198 2016