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Sequence-dependent time- and cost-oriented assembly line balancing problems: a combinatorial Benders’ decomposition approach

Ahad Furugi

2021Engineering Optimization13 citationsDOI

Abstract

This article deals with the cost-oriented assembly line balancing problem with sequence-dependent set-up times. To this end, a mixed-integer linear programming (MILP) model is proposed for time- and cost-oriented assembly line balancing problems with sequence-dependent set-up times between tasks. The problem is computationally intractable; therefore, a Benders’ decomposition algorithm is developed to solve it. The proposed decomposition yields a master problem that addresses the issue of assigning assembly tasks to workstations, as well as a set of subproblems that deal with sequencing tasks within each workstation owing to sequence-dependent set-up times. The algorithm is tested on a set of randomly generated test problems and numerically compared with a MILP formulation of the problem solved using a commercial optimizer. The computational results demonstrate that the proposed Benders’ decomposition approach outperforms the MILP model. The contribution of this article lies in the new models proposed and the decomposition-based exact algorithm developed.

Topics & Concepts

Benders' decompositionMathematical optimizationSequence (biology)DecompositionSet (abstract data type)WorkstationInteger programmingComputer scienceLinear programmingAssembly lineDecomposition method (queueing theory)AlgorithmLine (geometry)Integer (computer science)MathematicsEngineeringOperating systemProgramming languageDiscrete mathematicsEcologyGeometryGeneticsMechanical engineeringBiologyAssembly Line Balancing OptimizationManufacturing Process and OptimizationScheduling and Optimization Algorithms
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