In this study, a workforce scheduling and balancing problem is solved in unpaced sub-assembly lines with buffers feeding the paced body assembly line of a car manufacturer. The goal is to determine the minimum workforce required to process split lots at sub-assembly stations to feed the paced line over a periodic time window. Limited by a given buffer capacity at each station but with flexible start times for each split lot, an efficient workforce scheduling is possible to prevent shortages in downstream stations. Therefore, a stock-continuity equation has been proposed yielding the size of those split lots. Next, a single-objective Mixed Integer Programming (MIP) model is formulated for the problem as a combination of two implicitly weight...
International audienceWe consider a paced production line consisting of several assembly stations, s...
International audienceWe study a paced assembly line intended for manufacturing different products. ...
This paper is the second one of the two papers entitled "Modeling and Solving Mixed-Model Assembly L...
In this study, a workforce scheduling and balancing problem is solved in unpaced sub-assembly lines ...
Benchmark problems for the paper titled as "A novel artificial bee colony algorithm for the workfor...
In today's competitive world, assembly lines are one of the most important industrial manufacturing ...
Designing and operating two-sided assembly lines are crucial for manufacturing companies which assem...
AbstractScheduling is the proper allocation of resources over a period for performing a set of tasks...
Production lines, designed in a serial manner, have attracted the attention of researchers for many ...
Bees Algorithm is a relatively new member of swarm intelligence based meta-heuristics which tries to...
Worker assignment is a relatively new problem in assembly lines that typically is encountered in sit...
AbstractJob shop scheduling is predominantly an Non deterministic polynomial (NP)- complete challeng...
Flow Shop Scheduling (FSS) is scheduled to involve n jobs and m machines in the same process sequenc...
Scheduling Optimization is presented. The adequacy of the proposed approach is validated on the mini...
Bees Algorithm is one of the swarm intelligence based heuristics which tries to model natural behavi...
International audienceWe consider a paced production line consisting of several assembly stations, s...
International audienceWe study a paced assembly line intended for manufacturing different products. ...
This paper is the second one of the two papers entitled "Modeling and Solving Mixed-Model Assembly L...
In this study, a workforce scheduling and balancing problem is solved in unpaced sub-assembly lines ...
Benchmark problems for the paper titled as "A novel artificial bee colony algorithm for the workfor...
In today's competitive world, assembly lines are one of the most important industrial manufacturing ...
Designing and operating two-sided assembly lines are crucial for manufacturing companies which assem...
AbstractScheduling is the proper allocation of resources over a period for performing a set of tasks...
Production lines, designed in a serial manner, have attracted the attention of researchers for many ...
Bees Algorithm is a relatively new member of swarm intelligence based meta-heuristics which tries to...
Worker assignment is a relatively new problem in assembly lines that typically is encountered in sit...
AbstractJob shop scheduling is predominantly an Non deterministic polynomial (NP)- complete challeng...
Flow Shop Scheduling (FSS) is scheduled to involve n jobs and m machines in the same process sequenc...
Scheduling Optimization is presented. The adequacy of the proposed approach is validated on the mini...
Bees Algorithm is one of the swarm intelligence based heuristics which tries to model natural behavi...
International audienceWe consider a paced production line consisting of several assembly stations, s...
International audienceWe study a paced assembly line intended for manufacturing different products. ...
This paper is the second one of the two papers entitled "Modeling and Solving Mixed-Model Assembly L...