A Generalized Machine Requirements Planning Algorithm for Serial Flow Machining Systems.

Abstract

The machine requirements planning problem is one which is applicable throughout the manufacturing industry. The use of automation and computer technology makes the use of machine requirements modelling particularly attractive, and the vast capital investment in machining equipment offers significant opportunity for savings through optimization. The machine requirements problem must be modelled as a mixed integer linear program. However, a dynamic programming solution procedure with linear programming postoptimality techniques at each stage of the machining process utilized to provide an efficient, flexible algorithm. The machine requirements model is capable of optimizing any type of machining system, whether or a discrete or continuous operating mode. Through discretizing the machine parameters problem, by limiting tool changes to between passes of a tool, any continuous mode system is approximated as discrete for optimization purposes and a direct interface with the machine requirements planning model is provided. The dynamic programming solution procedure is compared with a mixed integer procedure. The DP formulation is not only more efficient in both time and core but provides sensitivity information and offers a broad spectrum of further application into more complex aspects of manufacturing systems. A survey of machine parameter and machine requirements literature is included in the thesis. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 1978

Accession Number

ADA084062

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