Article ID: | iaor201527060 |
Volume: | 62 |
Issue: | 6 |
Start Page Number: | 177 |
End Page Number: | 183 |
Publication Date: | Oct 2015 |
Journal: | Computers and Operations Research |
Authors: | Sral Haldun, Iyigun Cem, Saleh Farham Mohammad |
Keywords: | combinatorial optimization, heuristics |
The Weber problem is about finding a facility location on a plane such that the total weighted distance to a set of given demand points is minimized. The facility location and access routes to the facility can be restricted if the Weber problem contains congested regions, some arbitrary shaped polygonal areas on the plane, where location of a facility is forbidden and traveling is allowed at an additional fixed cost. Traveling through congested regions may also be limited to certain entry and exit points (or gates). It is shown that the restricted Weber problem is non‐convex and nonlinear under Euclidean distance metric which justifies using heuristic approaches. We develop an evolutionary algorithm modified with variable neighborhood search to solve the problem. The algorithm is applied on test instances derived from the literature and the computational results are presented.