| Article ID: | iaor2008189 |
| Country: | United Kingdom |
| Volume: | 7 |
| Issue: | 6 |
| Start Page Number: | 405 |
| End Page Number: | 420 |
| Publication Date: | Nov 2004 |
| Journal: | Journal of Scheduling |
| Authors: | Dauzre-Prs Stphane, Sevaux Marc |
| Keywords: | programming: branch and bound |
This paper considers the problem of scheduling n jobs on a single machine to minimize the number of tardy (or late) jobs. Each job has a release date, a processing time and a due date. The general case with non-equal release dates and different due dates is considered. Using new and efficient lower bounds and several dominance rules, a branch and bound scheme is proposed based on the definition of a master sequence, i.e. a sequence containing at least one optimal sequence. With this procedure, 95% of 140-job instances are optimally solved in a maximum of one-hour CPU time.