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The local–global conjecture for scheduling with non-linear cost

Author

Listed:
  • Nikhil Bansal

    (Eindhoven University of Technology)

  • Christoph Dürr

    (Sorbonne Universités, UPMC Univ Paris 06, LIP6, CNRS, UMR 7606)

  • Nguyen Kim Thang

    (University Evry Val d’Essonne)

  • Óscar C. Vásquez

    (Universidad de Santiago)

Abstract

We consider the classical scheduling problem on a single machine, on which we need to schedule sequentially n given jobs. Every job j has a processing time $$p_j$$ p j and a priority weight $$w_j$$ w j , and for a given schedule a completion time $$C_j$$ C j . In this paper, we consider the problem of minimizing the objective value $$\sum _j w_j C_j^\beta $$ ∑ j w j C j β for some fixed constant $$\beta >0$$ β > 0 . This non-linearity is motivated for example by the learning effect of a machine improving its efficiency over time, or by the speed scaling model. For $$\beta =1$$ β = 1 , the well-known Smith’s rule that orders job in the non-increasing order of $$w_j/p_j$$ w j / p j gives the optimum schedule. However, for $$\beta \ne 1$$ β ≠ 1 , the complexity status of this problem is open. Among other things, a key issue here is that the ordering between a pair of jobs is not well defined, and might depend on where the jobs lie in the schedule and also on the jobs between them. We investigate this question systematically and substantially generalize the previously known results in this direction. These results lead to interesting new dominance properties among schedules which lead to huge speed up in exact algorithms for the problem. An experimental study evaluates the impact of these properties on the exact algorithm A*.

Suggested Citation

  • Nikhil Bansal & Christoph Dürr & Nguyen Kim Thang & Óscar C. Vásquez, 2017. "The local–global conjecture for scheduling with non-linear cost," Journal of Scheduling, Springer, vol. 20(3), pages 239-254, June.
  • Handle: RePEc:spr:jsched:v:20:y:2017:i:3:d:10.1007_s10951-015-0466-5
    DOI: 10.1007/s10951-015-0466-5
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    References listed on IDEAS

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    1. Mondal, Sakib A. & Sen, Anup K., 2000. "An improved precedence rule for single machine sequencing problems with quadratic penalty," European Journal of Operational Research, Elsevier, vol. 125(2), pages 425-428, September.
    2. Wlodzimierz Szwarc, 1998. "Decomposition in single-machine scheduling," Annals of Operations Research, Springer, vol. 83(0), pages 271-287, October.
    3. P. C. Bagga & K. R. Kalra, 1980. "Note---A Node Elimination Procedure for Townsend's Algorithm for Solving the Single Machine Quadratic Penalty Function Scheduling Problem," Management Science, INFORMS, vol. 26(6), pages 633-636, June.
    4. W. Townsend, 1978. "The Single Machine Problem with Quadratic Penalty Function of Completion Times: A Branch-and-Bound Solution," Management Science, INFORMS, vol. 24(5), pages 530-534, January.
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    Cited by:

    1. Araya-Córdova, P.J. & Vásquez, Óscar C., 2018. "The disaster emergency unit scheduling problem to control wildfires," International Journal of Production Economics, Elsevier, vol. 200(C), pages 311-317.
    2. Natalia Jorquera-Bravo & Óscar C. Vásquez, 2024. "On the local dominance properties in single machine scheduling problems," Annals of Operations Research, Springer, vol. 338(1), pages 335-345, July.

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