Affiliation:
1. School of Mathematics and Statistics Zhengzhou University Zhengzhou People's Republic of China
2. Department of Mathematics Nanjing University Nanjing People's Republic of China
3. Logistics Research Centre, Department of Logistics and Maritime Studies The Hong Kong Polytechnic University Hong Kong People's Republic of China
Abstract
AbstractIn this article, we study bicriterion Pareto‐scheduling on a single machine of equal‐length jobs, where one of the criteria is the total weighted late work. Motivated by two Pareto‐scheduling open problems where one criterion is the total (weighted) late work and the other criterion is the weighted number of tardy jobs, we show that 12 constrained scheduling problems unaddressed in the literature are binary ‐hard, implying that the Pareto‐scheduling versions of these problems are also binary ‐hard. Moreover, we introduce the concept of dummy due dates (DDD) for equal‐length jobs to be scheduled in equal‐length intervals. Intriguingly, we find that a DDD‐based technique outperforms the existing solution methods and improves the known time complexities of the related problems. In addition, we extend our research to the two‐agent scheduling model under the assumption of equal‐length or partially equal‐length jobs by including the total weighted late work as the criterion of one agent. For these problems, our results also improve the known time complexity results.
Funder
National Natural Science Foundation of China
Subject
Management Science and Operations Research,Ocean Engineering,Modeling and Simulation
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