The m-machine, n-job, permutation flowshop problem with the total tardiness objective is a common scheduling problem, known to be NP-hard. Branch and bound, the usual approach to finding an optimal solution, experiences difficulty when n exceeds 20. Here, we develop a genetic algorithm, GA, which can handle problems with larger n. We also undertake a numerical study comparing GA with an optimal branch and bound algorithm, and various heuristic algorithms including the well known NEH algorithm and a local search heuristic LH. Extensive computational experiments indicate that LH is an effective heuristic and GA can produce noticeable improvements over LH
This paper presents a new heuristic for solving the flowshop scheduling problem that aims to minimiz...
Genetic algorithms simulate the survival of the fittest among individuals over consecutive generatio...
The permutation flowshop scheduling problem under a position-based learning effect is addressed in t...
The m-machine, n-job, permutation flowshop problem with the total tardiness objective is a common s...
WOS: 000275524100013In this research, a detailed study of the permutation flowshop scheduling proble...
The general flowshop scheduling problem is a production problem where a set of n jobs have to be pro...
In this paper, permutation flow shop scheduling problems (PFSS) are investigated with a genetic algo...
In this work the m-machine permutation flow-shop problem has been considered. The permutation flow-s...
The m-machine permutation flowshop problem with the total tardiness objective is a common scheduling...
Colloque avec actes et comité de lecture. internationale.International audienceGenetic algorithms ar...
In a previous paper (Reeves, 1995), a simple genetic algorithm (GA) was developed for finding (appro...
Hard combinatorial problems in sequencing and scheduling led recently into further research of genet...
In this paper, a HGA (hybrid genetic algorithm) is proposed for permutation flowshop scheduling prob...
This paper addresses flowshop scheduling problems with multiple performance criteria in such a way a...
This paper considers the problem of scheduling in a flowshop to minimize total tardiness when family...
This paper presents a new heuristic for solving the flowshop scheduling problem that aims to minimiz...
Genetic algorithms simulate the survival of the fittest among individuals over consecutive generatio...
The permutation flowshop scheduling problem under a position-based learning effect is addressed in t...
The m-machine, n-job, permutation flowshop problem with the total tardiness objective is a common s...
WOS: 000275524100013In this research, a detailed study of the permutation flowshop scheduling proble...
The general flowshop scheduling problem is a production problem where a set of n jobs have to be pro...
In this paper, permutation flow shop scheduling problems (PFSS) are investigated with a genetic algo...
In this work the m-machine permutation flow-shop problem has been considered. The permutation flow-s...
The m-machine permutation flowshop problem with the total tardiness objective is a common scheduling...
Colloque avec actes et comité de lecture. internationale.International audienceGenetic algorithms ar...
In a previous paper (Reeves, 1995), a simple genetic algorithm (GA) was developed for finding (appro...
Hard combinatorial problems in sequencing and scheduling led recently into further research of genet...
In this paper, a HGA (hybrid genetic algorithm) is proposed for permutation flowshop scheduling prob...
This paper addresses flowshop scheduling problems with multiple performance criteria in such a way a...
This paper considers the problem of scheduling in a flowshop to minimize total tardiness when family...
This paper presents a new heuristic for solving the flowshop scheduling problem that aims to minimiz...
Genetic algorithms simulate the survival of the fittest among individuals over consecutive generatio...
The permutation flowshop scheduling problem under a position-based learning effect is addressed in t...