Single-machine serial-batch delivery scheduling with two competing agents and due date assignment

We consider a set of single-machine batch delivery scheduling problems involving two competing agents under two due date assignment models. Belonging to one of the two agents, each job is processed and delivered in a batch to its agent, where the jobs in each batch come from the same agent. The jobs...

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Bibliographic Details
Published in:Annals of operations research 2021-03, Vol.298 (1-2), p.497-523
Main Authors: Yin, Yunqiang, Li, Doudou, Wang, Dujuan, Cheng, T. C. E.
Format: Article
Language:English
Subjects:
Agent based models
Batch processing
Business and Management
Combinatorial optimization
Combinatorics
Completion time
Computer-integrated manufacturing
Criteria
Decision making
Delivery of goods
Delivery scheduling
Dynamic programming
Economic lot size
Management
Methods
Operations research
Operations Research/Decision Theory
Polynomials
Production scheduling
S.I.: CoDIT2017-Combinatorial Optimization
Scheduling
Scheduling (Management)
Sequential scheduling
Technology application
Theory of Computation
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Summary:We consider a set of single-machine batch delivery scheduling problems involving two competing agents under two due date assignment models. Belonging to one of the two agents, each job is processed and delivered in a batch to its agent, where the jobs in each batch come from the same agent. The jobs in a batch are processed sequentially and the processing time of a batch is equal to the sum of the processing times of the jobs in it. A setup time is required at the start of each batch. The dispatch date of a job equals the delivery date of the batch it is in, i.e., the completion time of the last job in the batch. There is no capacity limit on each delivery batch, and the cost per batch delivery is fixed and independent of the number of jobs in the batch. The due date of each job is a decision variable, which is to be assigned by the decision maker using one of two due date models, namely the common and unrestricted due date models. Given the due date assignment model, the overall objective is to minimize one agent’s scheduling criterion, while keeping the other agent’s criterion value from exceeding a threshold given in advance. Two kinds of scheduling criteria are involved: (i) the total cost comprising the earliness, tardiness, job holding, due date assignment, and batch delivery costs; and (ii) the total cost comprising the earliness, weighted number of tardy jobs, job holding, due date assignment, and batch delivery costs. For each of the problems considered, we show that it is NP -hard in the ordinary sense and admits a fully polynomial-time approximation scheme.
ISSN:0254-5330
1572-9338
DOI:10.1007/s10479-018-2839-6