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      An uncertain model for RCPSP with solution robustness focusing on logistics project schedule

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      https://www.riss.kr/link?id=A107397229

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      다국어 초록 (Multilingual Abstract)

      Logistics project scheduling problem in indeterminate environment is gaining more and more attention in recent years. One effective way to cope with indeterminacy is to develop robust baseline schedule. There exist many related researches on building ...

      Logistics project scheduling problem in indeterminate environment is gaining more and more attention in recent years. One effective way to cope with indeterminacy is to develop robust baseline schedule. There exist many related researches on building robust schedule in stochastic environment, where historical data is sufficient to learn probability distributions. However, when historical data is not enough, precise estimation on variables may be impossible. This kind of indeterminate environment can be described by uncertainty according to uncertainty theory. Related researches in uncertain environment are sparse. In this paper, our aim is to solve robust project scheduling in uncertain environment. The specific problem is to develop robust schedule with uncertain activity durations for logistics project. To solve the problem, an uncertain model is built and an intelligent algorithm based on simulated annealing is designed. Moreover, we consider a logistics project as a numerical example and illustrate the effectiveness of the proposed model and algorithm.

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      목차 (Table of Contents)

      • Abstract
      • I. Introduction
      • II. Preliminary
      • III. Problem description
      • IV. Uncertain model for robust project scheduling
      • Abstract
      • I. Introduction
      • II. Preliminary
      • III. Problem description
      • IV. Uncertain model for robust project scheduling
      • V. Intelligent algorithm
      • 5.1 Solution representation
      • 5.2 Uncertain simulations
      • 5.3 Algorithm based on SA
      • VI. Numerical experiment
      • VII. Conclusions
      • References
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