Multi-agent scheduling on a single machine with a fixed number of competing agents to minimize the weighted sum of number of tardy jobs and makespans

Multi-agent scheduling on a single machine with a fixed number of competing agents to minimize the weighted sum of number of tardy jobs and makespans

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Article ID: iaor20172778
Volume: 34
Issue: 2
Start Page Number: 433
End Page Number: 440
Publication Date: Aug 2017
Journal: Journal of Combinatorial Optimization
Authors:
Keywords: manufacturing industries, scheduling, combinatorial optimization, optimization, game theory, simulation, programming: dynamic
Abstract:

We study the multi‐agent scheduling on a single machine with a fixed number of competing agents, in which, the objective function of each agent is either the number of tardy jobs or the makespan, and the goal of the problem is to minimize the weighted sum of agents’ objective functions. In the literature, the computational complexity of this problem was posed as open. By using enumerating, dynamic programming, and schedule‐configuration, we show in this paper that the problem is solvable in polynomial time.

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