The Due Date Assignment Scheduling Problem with Delivery Times and Truncated Sum-of-Processing-Times-Based Learning Effect
Jin Qian, Yu Zhan
Abstract
This paper considers a single-machine scheduling problem with past-sequence-dependent delivery times and the truncated sum-of-processing-times-based learning effect. The goal is to minimize the total costs that comprise the number of early jobs, the number of tardy jobs and due date. The due date is a decision variable. There will be corresponding penalties for jobs that are not completed on time. Under the common due date, slack due date and different due date, we prove that these problems are polynomial time solvable. Three polynomial time algorithms are proposed to obtain the optimal sequence.
Topics & Concepts
Due dateLearning effectScheduling (production processes)Single-machine schedulingTime complexityComputer scienceSequence (biology)Mathematical optimizationJob shop schedulingMathematicsAlgorithmScheduleEconomicsBiologyOperating systemMicroeconomicsGeneticsScheduling and Optimization AlgorithmsOptimization and Search ProblemsAdvanced Manufacturing and Logistics Optimization