The paper deals with a parallel approach to job shop scheduling by a branch and bound methodology using the lower bound proposed by Ashour and Hiremath. The optimal solution is achieved by an iterative-reductive strategy. At each iteration the algorithm investigates the conflict intervals and it selects a subset of the possible solutions. The makespan value, achieved by the parallel processes, gives the upper limit for the admissible lower bound of the intermediate solutions. Furthermore the best makespan reached by each iteration is reused as a filter to reduce the complexity of the next iteration. The computation is speeded up by a parallel implementation, giving the possibility of distributing code and data into a network of processor...
We are given a nite set of jobs of equal processing times with readiness times and tails and a set o...
International audienceBranch and bound algorithm (B&B) is a well known technique for solving optimal...
We consider the NP-hard problem of scheduling jobs on identical parallel machines to minimize total ...
The paper deals with a parallel approach to job shop scheduling by a branch and bound methodology us...
In this paper, a parallel multi-path variant of the well-known TSAB algorithm for the job shop sched...
The paper is dealing with parallelized versions of simulated annealing-based heuristics for the clas...
AbstractA fast branch and bound algorithm for the job-shop scheduling problem has been developed. Am...
We apply the global optimization technique called taboo search to the job shop scheduling problem an...
Abstract: This paper presents a branch-and-price algorithm for scheduling n jobs on m nonhomogeneous...
Abstract: This paper deals with scheduling n jobs in an m-machine job-shop environment to minimizes ...
this paper minimizes the makespan, i. e. the maximum completion time required to process all jobs. A...
In practice, parallel-machine job-shop scheduling (PMJSS) is very useful in the development of stand...
In practice, parallel-machine job-shop scheduling (PMJSS) is very useful in the development of stand...
In this doctoral dissertation we construct and improve Branch-and- Price algorithms for parallel mac...
International audienceIn this paper, we propose three approaches to accelerate the B&B execution tim...
We are given a nite set of jobs of equal processing times with readiness times and tails and a set o...
International audienceBranch and bound algorithm (B&B) is a well known technique for solving optimal...
We consider the NP-hard problem of scheduling jobs on identical parallel machines to minimize total ...
The paper deals with a parallel approach to job shop scheduling by a branch and bound methodology us...
In this paper, a parallel multi-path variant of the well-known TSAB algorithm for the job shop sched...
The paper is dealing with parallelized versions of simulated annealing-based heuristics for the clas...
AbstractA fast branch and bound algorithm for the job-shop scheduling problem has been developed. Am...
We apply the global optimization technique called taboo search to the job shop scheduling problem an...
Abstract: This paper presents a branch-and-price algorithm for scheduling n jobs on m nonhomogeneous...
Abstract: This paper deals with scheduling n jobs in an m-machine job-shop environment to minimizes ...
this paper minimizes the makespan, i. e. the maximum completion time required to process all jobs. A...
In practice, parallel-machine job-shop scheduling (PMJSS) is very useful in the development of stand...
In practice, parallel-machine job-shop scheduling (PMJSS) is very useful in the development of stand...
In this doctoral dissertation we construct and improve Branch-and- Price algorithms for parallel mac...
International audienceIn this paper, we propose three approaches to accelerate the B&B execution tim...
We are given a nite set of jobs of equal processing times with readiness times and tails and a set o...
International audienceBranch and bound algorithm (B&B) is a well known technique for solving optimal...
We consider the NP-hard problem of scheduling jobs on identical parallel machines to minimize total ...