Paper Info
Title
A linearized polynomial mixed integer programming model for the integration of process planning and scheduling
Abstract
This paper presents a linearized polynomial mixed-integer programming model (PMIPM) for the integration of process planning and scheduling problem. First, the integration problem is modeled as a PMIPM in which some of the terms are of products of up to three variables, of both binary and continuous in nature. Then, an equivalent linearized model is derived from the polynomial model by applying certain linearization techniques. Although the linearized models have more variables and constraints than their polynomial counterparts, they are potentially solvable to the optimum in comparison to their equivalent polynomial models. Experiments show that the linearized model possesses certain characteristics that are absent from other models in the literature, and provides a fundamental framework for further research in this area.
Year
DOI
Venue
2004
10.1023/B:JIMS.0000037710.80847.b6
J. Intelligent Manufacturing
Keywords
Field
DocType
Process planning,scheduling,integration,mixed integer programming,planning window
Mathematical optimization,Job shop scheduling,Polynomial,Programming paradigm,Scheduling (computing),Integer programming,Mathematics,Linearization,Polynomial and rational function modeling,Binary number
Journal
Volume
Issue
ISSN
15
5
1572-8145
Citations 
PageRank 
References 
14
1.52
10
Authors
2
Name
Order
Citations
PageRank
Wei Tan1141.52
Behrokh Khoshnevis212514.25