Deniz Özdemir scite author profile

Cataloged from PDF version of article.We present a new dominance rule by considering the time-dependent orderings between each pair of jobs for the single machine total weighted tardiness problem with release dates. The proposed dominance rule provides a sufficient condition for local optimality. Therefore, if any sequence violates the dominance rule then switching the violating jobs either lowers the total weighted tardiness or leaves it unchanged. We introduce an algorithm based on the dominance rule, which is compared to a number of competing heuristics for a set of randomly generated problems. Our computational results indicate that the proposed algorithm dominates the competing algorithms in all runs, therefore it can improve the upper bounding scheme in any enumerative algorithm. The proposed time-dependent local dominance rule is also implemented in two local search algorithms to guide these algorithms to the areas that will most likely contain the good solutions. (C) 2001 Elsevier Science B.V. All rights reserved

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Multi-location transshipment problem with capacitated transportation

Özdemir

Yücesan

Herer

2006

European Journal of Operational Research

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Multi-location transshipment problem with capacitated production

Özdemir

Yücesan

Herer

2013

European Journal of Operational Research

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Multiperiod and stochastic formulations for a closed loop supply chain with incentives

Litvinchev

Rios

Özdemir

et al. 2014

J. Comput. Syst. Sci. Int.

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Deniz Özdemir

A bi-objective supply chain design problem with uncertainty

A new dominance rule to minimize total weighted tardiness with unequal release dates

Multi-location transshipment problem with capacitated transportation

Multi-location transshipment problem with capacitated production

Multiperiod and stochastic formulations for a closed loop supply chain with incentives

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