Title :
Multi-bottleneck permutation flow-shop scheduling driven by bottleneck
Author :
Wang, J.Q. ; Yang, J.B. ; Chen, J. ; Zhang, S.F. ; Sun, S.D.
Author_Institution :
Key Lab. of Contemporary Design & Integrated Manuf. Technol., Northwestern Polytech. Univ., Xi´´an, China
Abstract :
According to the theory of constraints (TOC), bottleneck should be made full use while non-bottleneck should be subordinate to the bottleneck. However, for the multi-bottleneck permutation flow-shop scheduling problem (PFSP), different bottleneck causes different driving force resulting in different even conflicted scheduling solution. Aiming at this problem, the multi-objective mathematical model is given. Then TOC-based bottleneck-driven approach is proposed. For the bottleneck machine, the ant colony algorithm (ACA) is introduced to optimize the bottleneck scheduling. While the backward-forward approach is used to deduce the non-bottleneck´s scheduling. Finally an example with 5 machines and 15 jobs was presented to illustrate the proposed approach and its validity.
Keywords :
constraint theory; flow shop scheduling; optimisation; ant colony algorithm; backward-forward approach; bottleneck machine; constraint theory; multibottleneck permutation flow-shop scheduling; multiobjective mathematical model; Convergence; Delay; Job shop scheduling; Mathematical model; Optimal scheduling; Theory of constraints; ant colony algorithm; bottleneck-driven approach; multi-bottleneck; permutation flow-shop scheduling problem (PFSP);
Conference_Titel :
Industrial Engineering and Engineering Management (IEEM), 2010 IEEE International Conference on
Conference_Location :
Macao
Print_ISBN :
978-1-4244-8501-7
Electronic_ISBN :
2157-3611
DOI :
10.1109/IEEM.2010.5674355
