Add to ORKGWe propose a new dominance rule that provides a sufficient condition for local optimality for the 1∥Σw1Ti problem. We prove that if any sequence violates the proposed dominance rule, then switching the violating jobs either lowers the total weighted tardiness or leaves it unchanged. Therefore, it can be used in reducing the number of alternatives for finding the optimal solution in any exact approach. We introduce an algorithm based on the dominance rule, which is compared to a number of competing approaches for a set of randomly generated problems. We also test the impact of the dominance rule on different lower bounding schemes. Our computational results over 30,000 problems indicate that the amount of improvement is statistically signifi...
This study generates heuristic algorithms to minimize the total weighted tardiness on the single mac...
This study considers the problem of minimizing total tardiness on a single machine. A simple and ef...
We address the parallel machine total weighted tardiness scheduling problem with release dates. We d...
We present a new dominance rule for the single machine total weighted tardiness problem with job dep...
"This is the author's version of the work. It is posted here by permission of Elsevier for personal ...
Cataloged from PDF version of article.We present a new dominance rule by considering the time-depend...
This paper presents an exact algorithm for the single machine total tardiness problem (1//∑ T1). We ...
AbstractThis paper surveys algorithms for the problem of scheduling jobs on a single machine to mini...
Virtually all algorithmic studies on the single machine total tardiness problem use Emmons' theorems...
We propose a problem space genetic algorithm to solve single machine total weighted tardiness schedu...
We present a neuro-dominance rule for single machine total weighted tardiness problem. To obtain the...
In an earlier paper by Emmons [Emmons, H. 1969. One-machine sequencing to minimize certain functions...
Earlier research by Kanet [11] has provided a number of new theorems for deciding precedence between...
We address the problem of determining schedules for static, single-machine scheduling problems where...
Schrage and Baker (1978) proposed a generic dynamic programming (DP) algorithm to tackle precedencec...
This study generates heuristic algorithms to minimize the total weighted tardiness on the single mac...
This study considers the problem of minimizing total tardiness on a single machine. A simple and ef...
We address the parallel machine total weighted tardiness scheduling problem with release dates. We d...
We present a new dominance rule for the single machine total weighted tardiness problem with job dep...
"This is the author's version of the work. It is posted here by permission of Elsevier for personal ...
Cataloged from PDF version of article.We present a new dominance rule by considering the time-depend...
This paper presents an exact algorithm for the single machine total tardiness problem (1//∑ T1). We ...
AbstractThis paper surveys algorithms for the problem of scheduling jobs on a single machine to mini...
Virtually all algorithmic studies on the single machine total tardiness problem use Emmons' theorems...
We propose a problem space genetic algorithm to solve single machine total weighted tardiness schedu...
We present a neuro-dominance rule for single machine total weighted tardiness problem. To obtain the...
In an earlier paper by Emmons [Emmons, H. 1969. One-machine sequencing to minimize certain functions...
Earlier research by Kanet [11] has provided a number of new theorems for deciding precedence between...
We address the problem of determining schedules for static, single-machine scheduling problems where...
Schrage and Baker (1978) proposed a generic dynamic programming (DP) algorithm to tackle precedencec...
This study generates heuristic algorithms to minimize the total weighted tardiness on the single mac...
This study considers the problem of minimizing total tardiness on a single machine. A simple and ef...
We address the parallel machine total weighted tardiness scheduling problem with release dates. We d...