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Some polynomial solvable single-machine scheduling problems with a truncation sum-of-processing-times-based learning effect

Author

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  • Chin-Chia Wu
  • Yunqiang Yin
  • Wen-Hsiang Wu
  • Shuenn-Ren Cheng

Abstract

Recently, scheduling with learning effects has received growing attention. A well-known learning model is called 'sum-of processing-times-based learning' where the actual processing time of a job is a non-increasing function of the jobs already processed. However, the actual processing time of a given job drops to zero precipitously when the normal job processing times are large. Motivated by this observation, this paper develops a truncated learning model in which the actual job processing time not only depends on the processing times of the jobs already processed but also depends on a control parameter. The use of the truncated function is to model the phenomenon that the learning of a human activity is limited. In this paper, some single-machine scheduling problems can be solved in polynomial time. Besides, the error bounds are also provided for the problems to minimise the maximum lateness and the total weighted completion time. [Received 20 September 2010; Revised 11 November 2010, 22 January 2011; Accepted 5 February 2011]

Suggested Citation

  • Chin-Chia Wu & Yunqiang Yin & Wen-Hsiang Wu & Shuenn-Ren Cheng, 2012. "Some polynomial solvable single-machine scheduling problems with a truncation sum-of-processing-times-based learning effect," European Journal of Industrial Engineering, Inderscience Enterprises Ltd, vol. 6(4), pages 441-453.
    • Handle: RePEc:ids:eujine:v:6:y:2012:i:4:p:441-453
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    Cited by:

    1. Lin-Hui Sun & Kai Cui & Ju-Hong Chen & Jun Wang & Xian-Chen He, 2013. "Research on permutation flow shop scheduling problems with general position-dependent learning effects," Annals of Operations Research, Springer, vol. 211(1), pages 473-480, December.
    2. Zhongyi Jiang & Fangfang Chen & Xiandong Zhang, 2022. "Single-machine scheduling problems with general truncated sum-of-actual-processing-time-based learning effect," Journal of Combinatorial Optimization, Springer, vol. 43(1), pages 116-139, January.
    3. Cheng, Bayi & Zhu, Huijun & Li, Kai & Li, Yongjun, 2019. "Optimization of batch operations with a truncated batch-position-based learning effect," Omega, Elsevier, vol. 85(C), pages 134-143.

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