A neuro-dominance rule (NDR) for single machine total weighted tardiness problem with unequal release date is presented by the author. To obtain the NDR, backpropagation artificial neural network (BPANN) has been trained using 10,000 data and also tested using 10,000 another data. Inputs of the trained BPANN are starting date of the first job (t), processing times (p(i) and p(j)), due dates (d(i) and d(j)), weights of the jobs (w(i) and w(j)) and r(i) and r(j) release dates of the jobs. Output of the BPANN is a decision of which job should precede. Training set and test set have been obtained using Adjusted Pairwise Interchange method. The proposed NDR provides a sufficient condition for local optimality. It has been proved that if any sequ...
This paper presents an approach for scheduling under a common due date on parallel unrelated machine...
Cataloged from PDF version of article.Artificial neural networks (ANNs) have been successfully appli...
Abstract The dominance test is a bounding operation in branch-and-bound algorithms, where each sub-p...
We present a neuro-dommance rule for single machine total weighted tardiness problem with unequal re...
In this study, the single-machine total weighted tardiness scheduling problem with double due date h...
We present a new dominance rule by considering the time-dependent orderings between each pair of job...
We address the parallel machine total weighted tardiness scheduling problem with release dates. We d...
A particle swarm optimization algorithm (PSO) has been used to solve the single machine total weight...
In this paper, we investigate the problem of scheduling jobs on identical parallel machines. The job...
This paper addresses the problem of scheduling a set of independent jobs with sequence-dependent set...
WOS: 000262979600005In this study, single machine scheduling problem with unequal release dates and ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
This paper deals with the parallel-machine scheduling problem with the aim of minimizing t...
This paper considers the problem of scheduling n jobs on a single machine to minimize the number of ...
This paper presents an approach for scheduling under a common due date on static single machine prob...
This paper presents an approach for scheduling under a common due date on parallel unrelated machine...
Cataloged from PDF version of article.Artificial neural networks (ANNs) have been successfully appli...
Abstract The dominance test is a bounding operation in branch-and-bound algorithms, where each sub-p...
We present a neuro-dommance rule for single machine total weighted tardiness problem with unequal re...
In this study, the single-machine total weighted tardiness scheduling problem with double due date h...
We present a new dominance rule by considering the time-dependent orderings between each pair of job...
We address the parallel machine total weighted tardiness scheduling problem with release dates. We d...
A particle swarm optimization algorithm (PSO) has been used to solve the single machine total weight...
In this paper, we investigate the problem of scheduling jobs on identical parallel machines. The job...
This paper addresses the problem of scheduling a set of independent jobs with sequence-dependent set...
WOS: 000262979600005In this study, single machine scheduling problem with unequal release dates and ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
This paper deals with the parallel-machine scheduling problem with the aim of minimizing t...
This paper considers the problem of scheduling n jobs on a single machine to minimize the number of ...
This paper presents an approach for scheduling under a common due date on static single machine prob...
This paper presents an approach for scheduling under a common due date on parallel unrelated machine...
Cataloged from PDF version of article.Artificial neural networks (ANNs) have been successfully appli...
Abstract The dominance test is a bounding operation in branch-and-bound algorithms, where each sub-p...