Justification and Classification of Issues for the Selection and Implementation of Advanced Manufacturing Technologies

It has often been said that the strength of any country resides in the strength of its industrial sector, and Progress in industrial society has been accomplished by the creation of new technologies. Developments have been facilitated by the increasing availability of advanced manufacturing technology (AMT), in addition the implementation of advanced manufacturing technology (AMT) requires careful planning at all levels of the organization to ensure that the implementation will achieve the intended goals. Justification and implementation of advanced manufacturing technology (AMT) involves decisions that are crucial for the practitioners regarding the survival of business in the present days of uncertain manufacturing world. This paper assists the industrial managers to consider all the important criteria for success AMT implementation, when purchasing new technology. Concurrently, this paper classifies the tangible benefits of a technology that are evaluated by addressing both cost and time dimensions, and the intangible benefits are evaluated by addressing technological, strategic, social and human issues to identify and create awareness of the essential elements in the AMT implementation process and identify the necessary actions before implementing AMT.




References:
[1] Abdel-Kader, M. and Dugdale, D. (2001). Evaluating Investments in
Advanced Manufacturing Technology: A Fuzzy Set Theory Approach,
British Accounting Review, Vol. 33, No. 4, pp. 455-489.
[2] Attaran, M. (1989). The automated factory: justification and
implementation, Business Horizons, Vol. 32 No. 3, pp. 80-5.
[3] Afzulpurkar, S., Huq, F. and Kurpad, M. (1993). An alternative
framework for design and implementation of cellular manufacturing,
International Journal of Operations & Production Management, Vol. 13
No. 9, pp. 4-17.
[4] Amrik S. Sohal, Peter G. Burcher, Robert Millen and Gloria Lee. (1999).
Comparing American and British practices in AMT adoption,
Benchmarking: An International Journal, Vol. 6, No. 4, pp. 310-324.
[5] Amrik S. Sohal, Richard Schroder, Enrico O. Uliana, William
Maguire.(2001) Adoption of AMT by South African manufacturers,
Integrated Manufacturing Systems, Vol. 12,No 1, pp. 15-34.
[6] Bruce D. DeRuntz and Roger M. Turner. (2003). Organizational
Considerations for Advanced Manufacturing Technology, The Journal of
Technology Studies, Vol.1, No. 1.
[7] Carlo A. Mora Monge, S. Subba Rao, Marvin E. Gonzalez, Amrik S.
Sohal. (2006) Performance measurement of AMT: a cross-regional
study, benchmarking: An International Journal, Vol. 13 No. 1/2, pp. 135-
146.
[8] Chakravarty, A.K. and Naik, B. (1992). Strategic Acquisition of New
Manufacturing Technology: a Review and Research Framework,
International Journal o Production Research, Vol. 30, No. 7, pp. 1575-
1601.
[9] Chan F.T.S., Chan M.H., Lau H. and R.W.L. IP. (2001). Investment
appraisal techniques for advanced manufacturing technology (AMT): a
literature review, Integrated Manufacturing Systems, Vol.12, No.1, pp.
35-47.
[10] Chang, D.S. and Tsou, C.S. (1993). A chance-constraints linear
programming model on the economic evaluation of flexible
manufacturing systems, Production Planning and Control, Vol. 4, No. 2,
pp. 159-65.
[11] Chiadamrong, N. and O-Brien, C. (1999). Decision support tools for
justifying alternative manufacturing and production control systems,
International Journal of Production Economics, Vol. 60/61, pp. 177-86.
[12] Crookall, J.R. (1986). Computer integration of advanced manufacture,
Proceedings of Mechanical Engineers, Vol. 200 No. B4, pp. 257-64.
[13] Datta, V., Sambasivarao, K.V., Kodali, R. and Deshmukh, S.G.(1992).
Multi-attribute decision model using the analytic hierarchy process for
the justification of manufacturing systems, International Journal of
Production Economics, Vol. 28 No. 2, pp. 227-34.
[14] Demmel, J.G. and Askin, R.G. (1992). A multiple-objective decision
model for the evaluation of advanced manufacturing system
technologies, Journal of Manufacturing Systems, Vol. 11 No. 3, pp. 179-
94.
[15] Denis Borenstein, João Luiz Becker and Eduardo Ribas Santos. (1999).
A systemic and integrated approach to flexible manufacturing systems
design, Integrated Manufacturing Systems, Vol. 10, No. 1 ,pp. 6-14.
[16] Dessureault.S. (2004). Justification techniques for computer integrated
mining, The Journal of The South African Institute of Mining and
Metallurgy, March 2004.
[17] Ferdows, K., Miller, J.G., Nakane, J. and Vollmann, T. (1986). Evolving
global manufacturing strategies: projections into the 1990s,
International Journal of Operations & Production Management, Vol. 6
No. 7, pp. 6-16.
[18] Fotsch, R. (1984). Machine tool justification policies: their effect on
productivity and profitability, International Journal of Production
Research, Vol. 20 No. 2, pp. 169-95.
[19] Frazelle, E. (1985). Suggested techniques enable multi-criteria
evaluation of material handling alternatives, Industrial Engineering,
Vol. 17 No. 2, pp. 42-9.
[20] Fry, T.D. and Smith, A.E. (1989). FMS implementation procedure: a
case study, IIE Transactions on Industrial Engineering, Vol. 21 No. 3,
pp. 288-93.
[21] Ghosh, B.K. and Wabalickis, R.N. (1991). A comparative analysis for
the justification of future manufacturing systems, International Journal of
Operations & Production Management, Vol. 11 No. 9, pp. 4-23.
[22] Godwin J. Udo and Ike C. Ehie. (1996). Advanced manufacturing
technologies: Determinants of implementation success, International
Journal of Operations & Production Management, Vol. 16 No. 12, pp. 6-
26.
[23] Hin, L.K., Leong, A.C. and Gay, R.K.L. (1993). Selection and
justification of advanced manufacturing technologies, in Sen, A.,
Winsor, J. and Gay, R., (Eds), Proceedings of the 2nd International
Conference on Computer Integrated Manufacturing, World Scientific
and Global Publications Services, Singapore, pp. 136-43.
[24] Hodder, J.E. and Riggs, H.E. (1985). Pitfalls in evaluating risky projects,
Harvard Business Review, Vol. 63 No. 1, pp. 128-35.
[25] Huang, P.Y. and Sakurai, M. (1990). Factory automation: the Japanese
experience, IEEE Transactions on Engineering Management, Vol. 37
No. 2, pp. 102-8.
[26] Hulya Julie Yazici. (2005). Influence of flexibilities on manufacturing
cells for faster delivery using simulation, Journal of Manufacturing
Technology Management, Vol. 16 No. 8, pp. 825-841.
[27] Kakati, M. and Dhar, U.R. (1991). Investment justification in flexible
manufacturing systems, Engineering Costs and Production Economics,
Vol. 21, pp. 203-9.
[28] Kaplan, R.S. (1986). Must CIM be justified by faith alone?, Harvard
Business Review, Vol. 64 No. 2, pp. 87-95.
[29] Karsak, E. and Tolga, E. (2001). Fuzzy Multi-Criteria Decision-Making
Procedure for Evaluating Advanced Manufacturing System Investments,
International Journal of Production Economics, Vol. 69, pp. 49-64.
[30] Lefley, F., Wharton, F., Hajek, L., Hynek, J. and Janecek, V. (2004).
Manufacturing investments in the Czech Republic: an international
comparison, International Journal of Production Economics, Vol. 88, pp.
1-14.
[31] Luong, L.H.S. (1999). Decision support systems for the selection of
computer integrated manufacturing technologies, Robotics & Computer-
Integrated Manufacturing, Vol. 14 No. 4, pp. 45-53.
[32] Macarena Sacrista'n D─▒'az, Mar─▒'a Jose' A ' lvarez Gil and Jose' A.
Dominguez Machuca. (2005). Performance measurement systems,
competitive priorities, and advanced manufacturing technology: Some
evidence from the aeronautical sector, International Journal of
Operations & Production Management, Vol. 25 No. 8, pp. 781-799.
[33] Meredith, J.R. and Suresh, N.C. (1986). Justification Techniques for
Advanced Manufacturing Technologies, International Journal of
Production Research, Vol. 24, No. 5, pp. 1043-1057.
[34] Michael H. Small. (2006). Justifying investment in advanced
manufacturing technology: a portfolio analysis, Industrial Management
& Data Systems, Vol. 106 No. 4, pp. 485-508
[35] Mohanty, R.P. (1993). Analysis of justification problems in CIMS:
review and projections, International Journal of Production Planning and
Control, Vol. 4 No. 3, pp. 260-71.
[36] Mohanty, R.P. (1992). Project selection by a multiple-criteria decisionmaking
method: an example from a developing country, International
Journal of Project Management, Vol. 10, No. 1, pp. 31-8.
[37] Mohanty, R.P. and Deshmukh, S.G. (1999). Evaluating manufacturing
strategy for a learning organization: a case, International Journal of
Operations & Production Management, Vol. 19 No. 3, pp. 308-327.
[38] Oliver Houseman, Ashutosh Tiwari and Rajkumar Roy. (2004). A
methodology for the selection of new technologies in the aviation
industry, Cranfield University.
[39] Orlando Dura'n and Jose' Aguilo. (2008). Computer-aided machine-tool
selection based on a Fuzzy-AHP approach, Expert Systems with
Applications 34, pp. 1787-1794.
[40] Park, C. and Son, Y. (1988). An economic evaluation model for
advanced manufacturing systems, The Engineering Economist, Vol. 34
No. 1, pp 1-26.
[41] Primrose, P.L. (1991). Investment in Manufacturing Technology,
Chapman & Hall, London.
[42] Proctor, M.D. and Canada, J.R. (1992). Past and Present Methods of
Manufacturing Investment Evaluation: A Review of the Empirical and
Theoretical Liturature, The Engineering Economist, Vol. 38, No. 1, pp.
45-59.
[43] Raafat, F. (2002). A comprehensive bibliography on justification of
advanced manufacturing systems, International Journal of Production
Economics, Vol. 79, pp. 197-208.
[44] Richard Bolden, Patrick Waterson, Peter Warr, Chris Clegg and Toby
Wall. (1997). A new taxonomy of modern manufacturing practices,
International Journal of Operations & Production Management, Vol. 17
No. 11, pp. 1112-1130.
[45] Rosnah, M.Y., Megat Ahmad, M.M.H. and Osman, M. R. (2004).
Barriers to advanced manufacturing technologies implementation in the
small and medium scales industries of a developing country,
International Journal of Engineering and Technology, Vol. 1, No. 1, pp.
39 - 46.
[46] Rosnah Mohd. Yusuff, Lo Woon Chek and M. S. J. Hashmi. (2005).
Advanced Manufacturing Technologies in SMEs, CACCI Journal, Vol.
1.
[47] Roth, A.V., Gaimon, C. and Krajewski, L. (1991). Optimal acquisition
of FMS technology subject to technological progress, Decision Sciences,
Vol. 22 No. 2, pp. 308-34.
[48] Saaty, T. (1980). The Analytical Hierarchy Process. N.Y. McGraw-Hill.
[49] Saaty, T. (1990). How to make a decision- The analytic hierarchy
process. European Journal of Operational Research 48: 9-26.
[50] Salaheldin Ismail Salaheldin. (2007). The impact of organizational
characteristics on AMT adoption: A study of Egyptian manufacturers,
Journal of Manufacturing Technology Management, Vol. 18 No. 4, pp.
443-460.
[51] Sambasivarao, K.V. and Deshmukh, S.G. (1995). Selection and
implementation of advanced manufacturing technologies Classification
and literature review of issues, International Journal of Operations &
Production Management, Vol. 15 No. 10, pp. 43-62.
[52] Sambasivarao, K.V. and Deshmukh, S.G. (1994). Strategic framework
for implementing the flexible manufacturing systems in India,
International Journal of Operations & Production Management, Vol. 14
No. 4, pp. 52-65.
[53] Shang, J. and Sueyoshi, T. (1995). A Unified Framework for the
Selection of a Flexible Manufacturing System, European Journal of
Operational Research, Vol. 85, No. 2, pp. 297-316.
[54] Slagmulder, R. and Bruggeman, W. (1992). Investment justification of
flexible manufacturing technologies: inferences from field research,
International Journal of Operations & Production Management, Vol. 12
Nos 7/8, pp. 168-86.
[55] Small, M.H. and Chen, I.J. (1997). Economic and Strategic Justification
of AMT - Inferences From Industiral Practices, International Journal of
Production Economics, Vol. 49, No. 1, pp. 65-76.
[56] Soni, R.G., Parsaei, H.R. and Liles, D.H. (1990). A methodology for
evaluating computer integrated manufacturing technologies, Computers
& Industrial Engineering, Vol. 19 Nos 1/4, pp. 210-4.
[57] Suresh, N. and Meredith, J. (1985). Justifying multimachine systems: an
integrated strategic approach, Journal of Manufacturing Systems, Vol. 4
No. 2, pp. 117-34.
[58] Swamidass, P.M. and Waller, M.A. (1991). A classification of
approaches to planning and justifying new manufacturing technologies,
Journal of Manufacturing Systems, Vol. 9 No. 3, pp. 181-93.
[59] Swann, K. and O-Keefe, W.D. (1990). Advanced manufacturing
technology: investment decision process. Part I, Management Decision,
Vol. 28 No. 1, pp. 20-31.
[60] Teng, Kevin Low Lock, Seetharaman and Arumugam. (2009). Selection
and Management of Cost Justification Techniques among Advanced
Manufacturing Technology Companies in Malaysia, International
Journal of Management. FindArticles.com. 01 Jun.
[61] Thomas J. Crowe and James S. Noble and Jeevan S. Machimada. (1998).
Multi-attribute analysis of ISO 9000 registration using AHP,
International Journal of Quality & Reliability Management, Vol. 15 No.
2, pp. 205-222.
[62] Tilak Raj, Ravi Shankar, Mohammed Suhaib, Suresh Garg and Yashvir
Singh. (2008). An AHP approach for the selection of Advanced
Manufacturing System: a case study, International Journal of
Manufacturing Research, Volume 3, Number 4 , pp. 471 - 498
[63] Troxler, J.W. and Blank, L. (1990). Decision support system for value
analysis of integrated manufacturing technology, in Parsaei, H., Ward,
T. and Karwoski, W. (Eds), Justification Methods for Integrated
Manufacturing Systems, Elsevier, New York, NY, pp. 193-202.
[64] Voss, C.A. (1986). Managing advanced manufacturing technology,
International Journal of Operations & Production Management, Vol. 6
No. 5, pp. 4-7.
[65] Vrakking, W.J. (1989). Consultants- role in technological process
innovation, Journal of Management Consulting, Vol. 5 No. 3, pp. 17-24.
[66] Wabalickis, R.N. (1988). Justification of FMS with analytic hierarchy
process, Journal of Manufacturing Systems, Vol. 7 No. 3, 1988, pp. 175-
182.
[67] Weatherall, A. (1988). Computer Integrated Manufacturing, Affiliated
East-West Press Pvt., New Delhi.
[68] Young, A.R. and Murray, J. (1986). Performance evaluation of FMS,
International Journal of Operations & Production Management, Vol. 6
No. 5, pp. 57-62.