This paper is the first one of the two papers entitled "modeling and solving mixed-model assembly line balancing problem with setups", which has the aim of developing the mathematical programming formulation of the problem and solving it with a hybrid meta-heuristic approach. In this current part, a mixed-integer linear mathematical programming (MILP) model for mixed-model assembly line balancing problem with setups is developed. The proposed MILP model considers some particular features of the real world problems such as parallel workstations, zoning constraints, and sequence dependent setup times between tasks, which is an actual framework in assembly line balancing problems. The main endeavor of Part-I is to formulate the sequence depend...
<span>This paper presents a new constraint programming model for mixed-model assembly line balancing...
This study is motivated by a real-world assembly line in an automotive manufacturing company and it ...
This paper is the second one of the two papers entitled "Modeling and Solving Mixed-Model Assembly L...
This paper is the first one of the two papers entitled "modeling and solving mixed-model assembly li...
Modern manufacturing industries nowadays encounter with the challenges to provide a product variety ...
In mixed-model line balancing, we usually have overload after having optimally balanced the line. To...
Purpose – This paper aims to study a generalized type of mixed-model assembly line with multi-manned...
Balancing and sequencing of assembly lines is the process of partitioning the assembly work in terms...
AbstractAssembly line is a sequential work flow production systems which are still typical in the ma...
This research explores two interrelated problems in Mixed-Model Two-Sided Assembly Line (MMTSAL), wh...
The classical assembly line balancing problem consists of assigning assembly work to workstations. I...
The assembly line balancing problem has been a focus of interest to the academicians of production/o...
<div><p>In this study, a mixed integer programming model for the parallel two-sided assembly line ba...
The classical assembly line balancing problem consists of assigning assembly work to workstations. I...
In this paper, we propose a hybrid genetic algorithm to solve mixed model assembly line balancing pr...
<span>This paper presents a new constraint programming model for mixed-model assembly line balancing...
This study is motivated by a real-world assembly line in an automotive manufacturing company and it ...
This paper is the second one of the two papers entitled "Modeling and Solving Mixed-Model Assembly L...
This paper is the first one of the two papers entitled "modeling and solving mixed-model assembly li...
Modern manufacturing industries nowadays encounter with the challenges to provide a product variety ...
In mixed-model line balancing, we usually have overload after having optimally balanced the line. To...
Purpose – This paper aims to study a generalized type of mixed-model assembly line with multi-manned...
Balancing and sequencing of assembly lines is the process of partitioning the assembly work in terms...
AbstractAssembly line is a sequential work flow production systems which are still typical in the ma...
This research explores two interrelated problems in Mixed-Model Two-Sided Assembly Line (MMTSAL), wh...
The classical assembly line balancing problem consists of assigning assembly work to workstations. I...
The assembly line balancing problem has been a focus of interest to the academicians of production/o...
<div><p>In this study, a mixed integer programming model for the parallel two-sided assembly line ba...
The classical assembly line balancing problem consists of assigning assembly work to workstations. I...
In this paper, we propose a hybrid genetic algorithm to solve mixed model assembly line balancing pr...
<span>This paper presents a new constraint programming model for mixed-model assembly line balancing...
This study is motivated by a real-world assembly line in an automotive manufacturing company and it ...
This paper is the second one of the two papers entitled "Modeling and Solving Mixed-Model Assembly L...