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The Multi-Period Workforce Scheduling and Routing Problem

Author

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  • Guastaroba, G.
  • Côté, J.-F.
  • Coelho, L.C.

Abstract

Motivated by the problem faced by a company that provides installation and maintenance services of electrical infrastructures, we study the Multi-Period Workforce Scheduling and Routing Problem (MPWSRP). A set of jobs requiring a service is given. A given set of workers, each proficient in a number of skills, is available to serve the jobs. Each job requires a team of workers providing the required skills, and is associated with a given priority level. A service time, which might span over multiple time periods, is associated with each job, and depends on the number of workers that have been assigned. The MPWSRP calls for determining an optimal dispatch plan to serve the given set of jobs by routing a number of teams over a finite planning horizon. The MPWSRP is a highly complex combinatorial optimization problem where routing, scheduling, and assignment decisions have to be taken simultaneously. We cast the MPWSRP as a Mixed-Integer Linear Program (MILP). As an off-the-shelf solver can solve only small-size instances of the proposed MILP in reasonable computing times, we devise an Adaptive Large Neighborhood Search (ALNS) heuristic and a three-phase Decomposition Algorithm (DA) to solve large-size instances. Extensive computational experiments are conducted on a large set of instances comprising up to 100 jobs, 20 workers, and 20 time periods. The results show that ALNS is competitive with the solver on the small-size instances, producing solutions of similar average quality in considerably shorter computing times. In addition, they point out that ALNS consistently outperforms the DA in terms of solution quality. Further computational experiments are conducted applying our ALNS and DA on a set of large-size instances. Finally, a case study using real data sets is provided.

Suggested Citation

  • Guastaroba, G. & Côté, J.-F. & Coelho, L.C., 2021. "The Multi-Period Workforce Scheduling and Routing Problem," Omega, Elsevier, vol. 102(C).
    • Handle: RePEc:eee:jomega:v:102:y:2021:i:c:s0305048320306563
    DOI: 10.1016/j.omega.2020.102302
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    References listed on IDEAS

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    2. Si, Guojin & Xia, Tangbin & Li, Yaping & Wang, Dong & Chen, Zhen & Pan, Ershun & Xi, Lifeng, 2023. "Resource allocation and maintenance scheduling for distributed multi-center renewable energy systems considering dynamic scope division," Renewable Energy, Elsevier, vol. 217(C).
    3. Si, Guojin & Xia, Tangbin & Gebraeel, Nagi & Wang, Dong & Pan, Ershun & Xi, Lifeng, 2022. "A reliability-and-cost-based framework to optimize maintenance planning and diverse-skilled technician routing for geographically distributed systems," Reliability Engineering and System Safety, Elsevier, vol. 226(C).
    4. Nowak, Maciek & Szufel, Przemysław, 2024. "Technician routing and scheduling for the sharing economy," European Journal of Operational Research, Elsevier, vol. 314(1), pages 15-31.
    5. Chen, Xi & Li, Kaiwen & Lin, Sidian & Ding, Xiaosong, 2024. "Technician routing and scheduling with employees’ learning through implicit cross-training strategy," International Journal of Production Economics, Elsevier, vol. 271(C).

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