• Media type: E-Article
  • Title: Adaptive large neighborhood search for a production planning problem arising in pig farming
  • Contributor: Nat Praseeratasang [Author]; Rapeepan Pitakaso [Author]; Kanchana Sethanan [Author]; Sasitorn Kaewman [Author]; Golinska-Dawson, Paulina [Author]
  • Published: 2019
  • Published in: Journal of open innovation ; 5(2019), 2/26 vom: Juni, Seite 1-21
  • Language: English
  • DOI: 10.3390/joitmc5020026
  • Identifier:
  • Keywords: Aufsatz in Zeitschrift
  • Origination:
  • Footnote:
  • Description: This article aims to resolve a particular production planning and workforce assignment problem. Many production lines may have different production capacities while producing the same product. Each production line is composed of three production stages, and each stage requires different periods of times and numbers of workers. Moreover, the workers will have different skill levels which can affect the number of workers required for production line. The number of workers required in each farm also depends on the amount of pigs that it is producing. Production planning must fulfill all the demands and can only make use of the workers available. A production plan aims to generate maximal profit for the company. A mathematical model has been developed to solve the proposed problem, when the size of problem increases, the model is unable to resolve large issues within a reasonable timeframe. A metaheuristic method called adaptive large-scale neighborhood search (ALNS) has been developed to solve the case study. Eight destroy and four repair operators (including ant colony optimization based destroy and repair methods) have been presented. Moreover, three formulas which are used to make decisions for acceptance of the newly generated solution have been proposed. The present study tested 16 data sets, including the case study. From the computational results of the small size of test instances, ALNS should be able to find optimal solutions for all the random data sets in much less computational time compared to commercial optimization software. For medium and larger test instance sizes, the findings of the heuristics were 0.48% to 0.92% away from the upper bound and generated within 480-620 h, in comparison to the 1 h required for the proposed method. The Ant Colony Optimization-based destroy and repair method found solutions that were 0.98 to 1.03% better than the original ALNS.
  • Access State: Open Access