Journal of Computing and Information Technology
Some Precedence Relations in Single Machine Sequencing
Abstract
A model for real-time control of flexible manufacturing systems is considered. In this model, a machine can process a finite number of part types at specified rates, but only one part type can be processed at any given time. Each switch from one type to another requires different setup times.
A better upper bound on the total work backlog than those available in literature is derived by introducing the clear-the-largest-work-after- setup (CLWS) heuristic policy which stabilizes the system in the sense that, in the long run, the required demand is met.
Studying whether the CLWS scheduling policy induces convergence to a stationary state, some precedence relations between part types are reported with the computational results.
A better upper bound on the total work backlog than those available in literature is derived by introducing the clear-the-largest-work-after- setup (CLWS) heuristic policy which stabilizes the system in the sense that, in the long run, the required demand is met.
Studying whether the CLWS scheduling policy induces convergence to a stationary state, some precedence relations between part types are reported with the computational results.
Keywords
single machine sequencing, CLWS heuristic, upper bound, precedence relations
Full Text:
PDF
This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.
|  |  |
|  |  |
