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FMS in CIM (Flexible Manufacturing Systems in Computer Integrated Manufacturing)

Published online by Cambridge University Press:  09 March 2009

Paul G. Ranky
Affiliation:
Industrial Technology Institute, College of Engineering, University of Michigan, P.O. Box 1485, Ann Arbor, Michigan 48106 (USA.) (Previously with Trent Polytechnic, Nottingham, UK)

Extract

Computer Integrated Manufacture (CIM) is concerned with providing computer assistance, control and high level integrated automation at all levels of the manufacturing industries, including the business data processing system, CAD, CAM and FMS, by linking islands of automation into a distributed processing system. The technology applied in CIM makes intensive use of distributed computer networks and data processing techniques, Artificial Intelligence and Database Management Systems. FMS in this aspect plays the role of a highly efficient and “ready to react to random requests” manufacturing facility (e.g. machining, test, assembly, welding, etc.) in this “total concept”. (Figure 1)

Type
Articles
Copyright
Copyright © Cambridge University Press 1985

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References

1.Paul, G. Ranky, Computer Integrated Manufacturing, an Introduction with Case Studies, (Prentice-Hall International, New York, Autumn 1985).Google Scholar
2.Paul, G. Ranky, The Design and Operation of Flexible Manufacturing Systems (IFS Publications, and North Holland Publishing Co., 1983).Google Scholar
3.Yaghmai, N. Shahla, “Expert Systems: A tutorial” American Soc. Information Sciences 297305 (09 5, 1984).CrossRefGoogle Scholar
4.Cercone, Nick, “Artificial Intelligence: underlyning assumptions and basic objectives” American Soc. Information Sciences 143151 (09 5, 1984).CrossRefGoogle Scholar
5.“Technology, a comprehensive survey of the different components of CIM” Tooling and Production 24204 (03, 1984).Google Scholar
6.Bunce, P., “Planning for CIMThe Production Engineer 64, No. 2, 21 (02, 1985).CrossRefGoogle Scholar
7.Harrington, J., Computer Integrated Manufacturing (Krieger, 1979).Google Scholar
8.Annborn, M. “The Factory of the Future” 3rd International Conference on Flexible Manufacturing Systems, 1984, Boeblingen, W-Germany (IFS Publications, Bedford, 1984). pp. 5973.Google Scholar
9.Mollo, M. “A distributed control architecture for a Flexible Manufacturing System”, 3rd International Conference on Flexible Manufacturing Systems, 1984, Boeblingen, W-Germany (IFS Publications, Bedford, 1984), pp. 227241.Google Scholar
10.Accomazzo, C. “The integration of an inspection cell in FMS” 3rd International Conference on Flexible Manufacturing Systems, 1984, Boeblingen, W-Germany (IFS Publications Ltd., Bedford, 1984) pp. 285297.Google Scholar
11.Van Zeeland, D. “System software” 3rd International Conference on Flexible Manufacturing Systems, 1984, Boeblingen, W-Germany (IFS Publications, Bedford, 1984). pp. 307311.Google Scholar
12.Paul, G. Ranky, “Integrated software for designing and analysing FMS,” 3rd International Conference on Flexible Manufacturing Systems, 1984, Boeblingen, W-Germany (IFS Publications, Bedford, 1984) pp. 347361.Google Scholar