Due-Date assignment with acceptable lead-times on parallel machines

Baruch Mor; Gur Mosheiov

doi:https://doi.org/10.1016/j.cor.2024.106617

Due-Date assignment with acceptable lead-times on parallel machines

Baruch Mor, Gur Mosheiov

Ariel University, The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

The paper studies scheduling and due-date assignment problems on parallel machines. We consider the DIF (different due date) model, which assumes job-dependent acceptable lead-times. Thus, in addition to the classical job-earliness and job-tardiness costs, the scheduler is penalized if an assigned due-date exceeds its lead-time. First, the case of a common lead-time is studied. Then we focus on the setting of job-dependent lead-times and identical (earliness, tardiness, and lead-time) costs. Both models are examined for parallel identical, uniform, and unrelated machines. The case in which the option of job-rejection is allowed is also considered. For all these NP-hard problems, efficient pseudo-polynomial dynamic programming algorithms are introduced and tested. Our numerical tests indicate that problems containing 500 jobs are solved in less than 0.3 s.

Original language	English
Article number	106617
Journal	Computers and Operations Research
Volume	166
DOIs	https://doi.org/10.1016/j.cor.2024.106617
State	Published - Jun 2024

Keywords

Due-Date Assignment
Dynamic Programming Algorithm
Lead-Time
Parallel Machines
Scheduling

All Science Journal Classification (ASJC) codes

General Computer Science
Modelling and Simulation
Management Science and Operations Research

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https://doi.org/10.1016/j.cor.2024.106617

Cite this

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title = "Due-Date assignment with acceptable lead-times on parallel machines",

abstract = "The paper studies scheduling and due-date assignment problems on parallel machines. We consider the DIF (different due date) model, which assumes job-dependent acceptable lead-times. Thus, in addition to the classical job-earliness and job-tardiness costs, the scheduler is penalized if an assigned due-date exceeds its lead-time. First, the case of a common lead-time is studied. Then we focus on the setting of job-dependent lead-times and identical (earliness, tardiness, and lead-time) costs. Both models are examined for parallel identical, uniform, and unrelated machines. The case in which the option of job-rejection is allowed is also considered. For all these NP-hard problems, efficient pseudo-polynomial dynamic programming algorithms are introduced and tested. Our numerical tests indicate that problems containing 500 jobs are solved in less than 0.3 s.",

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T1 - Due-Date assignment with acceptable lead-times on parallel machines

AU - Mor, Baruch

AU - Mosheiov, Gur

PY - 2024/6

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N2 - The paper studies scheduling and due-date assignment problems on parallel machines. We consider the DIF (different due date) model, which assumes job-dependent acceptable lead-times. Thus, in addition to the classical job-earliness and job-tardiness costs, the scheduler is penalized if an assigned due-date exceeds its lead-time. First, the case of a common lead-time is studied. Then we focus on the setting of job-dependent lead-times and identical (earliness, tardiness, and lead-time) costs. Both models are examined for parallel identical, uniform, and unrelated machines. The case in which the option of job-rejection is allowed is also considered. For all these NP-hard problems, efficient pseudo-polynomial dynamic programming algorithms are introduced and tested. Our numerical tests indicate that problems containing 500 jobs are solved in less than 0.3 s.

AB - The paper studies scheduling and due-date assignment problems on parallel machines. We consider the DIF (different due date) model, which assumes job-dependent acceptable lead-times. Thus, in addition to the classical job-earliness and job-tardiness costs, the scheduler is penalized if an assigned due-date exceeds its lead-time. First, the case of a common lead-time is studied. Then we focus on the setting of job-dependent lead-times and identical (earliness, tardiness, and lead-time) costs. Both models are examined for parallel identical, uniform, and unrelated machines. The case in which the option of job-rejection is allowed is also considered. For all these NP-hard problems, efficient pseudo-polynomial dynamic programming algorithms are introduced and tested. Our numerical tests indicate that problems containing 500 jobs are solved in less than 0.3 s.

KW - Due-Date Assignment

KW - Dynamic Programming Algorithm

KW - Lead-Time

KW - Parallel Machines

KW - Scheduling

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U2 - https://doi.org/10.1016/j.cor.2024.106617

DO - https://doi.org/10.1016/j.cor.2024.106617

M3 - مقالة

SN - 0305-0548

VL - 166

JO - Computers and Operations Research

JF - Computers and Operations Research

M1 - 106617

ER -

Due-Date assignment with acceptable lead-times on parallel machines

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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