Development of engineering structures for scheduling and control of aircraft maintenance-Reference-Cited by-同舟云学术

Development of engineering structures for scheduling and control of aircraft maintenance

Published:2002-08-01 Issue:8 Volume:22 Page:843-867
ISSN:0144-3577
Container-title:International Journal of Operations & Production Management
language:en
Short-container-title:

Author:

Samaranayake P.,Lewis G.S.,Woxvold E.R.A.,Toncich D.

Abstract

This paper documents research and development that were undertaken as collaboration between the Industrial Research Institute of Swinburne University of Technology (IRIS), Armor Pty Ltd and QANTAS. The objective of the research was to investigate the application of a unitary software structure, composed of the critical path method (CPM), materials requirements planning (MRP) and production activity control (PAC) techniques, to the management of large‐scale maintenance activities (specifically aircraft maintenance). This structure had previously been applied to the manufacturing (i.e. assembly) process but the maintenance problem posed significant new challenges. First, there was the issue of generating a disassembly structure, and second, the reconciliation of demands arising from non‐serviceable components. This paper documents the implementation of the structure and the methods that were used to validate its functionality on a test‐case application (i.e. aircraft maintenance problem).

Publisher

Emerald

Subject

Management of Technology and Innovation,Strategy and Management,General Decision Sciences

Reference22 articles.

1. Bird, C.J. (1976), “A branch and bound approach to an aircraft and maintenance scheduling problem”, PhD thesis, The University of New South Wales, Sydney.

2. Brosh, I., Shlifer, E. and Zeira, Y. (1975), “Optimal maintenance policy for a fleet of vehicles”, Management Science, Vol. 22 No. 4, pp. 401‐10.

3. Elkodwa, A.A. (1996), A Study of Flight and Maintenance Scheduling for the Airline Industry, Texas A&I University, Kingsville, TX.

4. Friend, C.H. (1992), Aircraft Maintenance Management, Longman Scientific & Technical Publisher, Harlow.

5. Gardner, G.A. (1988), “The US Air Force R&M 200: its effects on industry”, Maintenance Management International, Vol. 7, pp. 111‐14.

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