New Lagrangian Relaxation Approach for the Discrete Cost Multicommodity Network Design Problem
We aim to derive effective lower bounds for the Discrete Cost Multicommodity Network Design Problem (DCMNDP). Given an undirected graph, the problem requires installing at most one facility on each edge such that a set of point-to-point commodity flows can be routed and costs are minimized. In the l...
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Zusammenfassung: | We aim to derive effective lower bounds for the Discrete Cost Multicommodity
Network Design Problem (DCMNDP). Given an undirected graph, the problem
requires installing at most one facility on each edge such that a set of
point-to-point commodity flows can be routed and costs are minimized. In the
literature, the Lagrangian relaxation is usually applied to an arc-based
formulation to derive lower bounds. In this work, we investigate a path-based
formulation and we solve its Lagrangian relaxation using several
non-differentiable optimization techniques. More precisely, we devised six
variants of the deflected subgradient procedures, using various
direction-search and step-length strategies. The computational performance of
these Lagrangian-based approaches are evaluated and compared on a set of
randomly generated instances, and real-world problems. |
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DOI: | 10.48550/arxiv.1709.02731 |