BibTex RIS Cite

YÖRE ESNAFININ HER ŞEY DAHİL SİSTEMİNE YÖNELİK TUTUMLARI

Year 2009, Volume: 9 Issue: 2, 623 - 635, 01.05.2009

Abstract

Amaç: Yapılan bu çalışma, üretim işletmelerinde kullanılan üretim teknolojilerinin seçimi ve bu teknolojinin süreçlere simülasyon metoduyla uygulanması ile ilgilidir. Çalışmanın amacı, işletmelerin amaçlarına uygun teknoloji seçimine katkıda bulunmak ve teknolojinin süreçlere ne gibi katkı sağlayacağının öngörümünü sağlamaktır. Araştırmada üretim teknolojileri ile ilgili işletmenin teknolojiyi kullanırken öngördükleri performans kriterlerinden faydalanılarak uygun teknolojinin seçimi için öncelikler oluşturulmuştur.Araştırmanın Yöntemi: Çalışmada, literatürde kabul gören, teknoloji seçimi için
anahtar performans kriterlerinin AHY ile öncelikleri belirlenmiş ve daha sonra bu
önceliklerle birlikte teknolojinin sunduğu özelliklere göre üretim teknolojilerinin
simülasyon yöntemi ile süreçlere uygulanması sağlanmıştır. Yüksek maliyet
gerektiren üretim teknolojilerinin işletmenin amacına ve ihtiyacına uygun olarak
seçilmesi ve başarılı bir şekilde uygulanması gerekmektedir. Kullanılan
simülasyon yöntemi, karşılaşılabilecek olası olumsuzlukların önceden tespit
edilerek gerekli düzenlemelerin yapılmasına olanak sağlamaktadır.

References

  • BURGELMAN, R. A., MAIDIQUE, M. A., & WHEELWRIGHT, S. C. (2001): Strategic Management of Technology and Innovation, 3rd Edition., McGraw-Hill Irwin, Boston. CAKIR, O.,
  • CANBOLAT, M.S. (2007): “A Web – Based Decision Support System for Multi – Criteria Inventory Classification Using Fuzzy AHP Methodology”, Expert Systems with Applications, doi: 10.1016/j.eswa.2007.08.041
  • CHRISTENSEN, C. M., BOWER, J. L. (1996): “Customer Power, Strategic Investment, and The Failure of Leading Firms”, Strategic Management Journal, : 197 - 218. DOĞAN İPEKGİL Ö (2007): Teknoloji, Yenilik ve Kalite Yönetimi, Altın Nokta Basımevi, İzmir.
  • GÜLER M. E., GÜRLER İ. (2007): "Bilgi Teknolojilerinin Kullanımında Sağlanacak Fayda – Verimlilik İlişkisi", 4. KOBİ'ler ve Verimlilik Kongresi, 117 – HARRISON M. (1990): Advanced Manufacturing Technology Management, Pitman Publishing, London. KOTHA S., SWAMIDASS P. M. (2000): “Strategy, Advanced Manufacturing Technology and Performance: Empirical Evidence from U.S. Manufacturing Firms”, Journal Of Operations Management, 18: 257 – 277. LOWE A., RIDGWAY K., ATKINSON H. (2000): “QFD in New Production Technology Evaluation”, International Journal of Production Economics, 67: 103 – 112. MOHANTY R. P.,
  • DESHMUKH S. G. (1998): “Advanced Manufacturing Technology Selection: A Strategic Model for Learning and Evaluation”, International Journal of Production Economics, 55: 295 – 307. OZDEMIR M. S. (2005): “Validity and Inconsistency in the Analytic Hierarchy Process”, Applied Mathematics and Computation, 161 – 3: 707-720
  • OZDEMIR M. S., SAATY T. L. (2006): “The Unknown in Decision Making: What to Do about It”, European Journal of Operational Research, 174: 349-359
  • PARKAN C., WU M. (1999): “Decision – Making and Performance measurement Models with Applications to Robot Selection”, Computers & Industrial Engineering, 36: 503 – 523. SWINK M., NAIR A. (2007): “Capturing the Competitive Advantages of AMT: Design – Manufacturing Integration as a Complementary Asses”, Journal of Operations Management, 25: 736 – 754.
  • TORKKELI M., TUOMINEN M. (2002): “The Contribution of Technology Selection to Core Competencies”, International Journal of Production Economics, 77: 271 – 284. YARALIOĞLU K. (2004): Uygulamada Karar Destek Yöntemleri, İlkem Ofset, İzmir.

THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE

Year 2009, Volume: 9 Issue: 2, 623 - 635, 01.05.2009

Abstract

Purpose: This paper presents a selection of manufacturing technology using in company and implementing this technology to processes by simulation techniques. Aim of this study is making a contribution to select appropriate technology for companies and to provide foresight about technology conformity to processes. We also investigate what priorities about technology selection have been determined Design/methodology/approach: It has been searched most widely accepted
technology selection criteria in literature; we employed Analytic Hierarchy
Process analysis and provided with a prioritization of the selection criteria.
These criteria are taken into consideration for technology selection among
alternative technologies. Selected technology alternative is implemented to
process by simulation tool. This simulation tool provides to ascertain possibly
problem and complication in advance

References

  • BURGELMAN, R. A., MAIDIQUE, M. A., & WHEELWRIGHT, S. C. (2001): Strategic Management of Technology and Innovation, 3rd Edition., McGraw-Hill Irwin, Boston. CAKIR, O.,
  • CANBOLAT, M.S. (2007): “A Web – Based Decision Support System for Multi – Criteria Inventory Classification Using Fuzzy AHP Methodology”, Expert Systems with Applications, doi: 10.1016/j.eswa.2007.08.041
  • CHRISTENSEN, C. M., BOWER, J. L. (1996): “Customer Power, Strategic Investment, and The Failure of Leading Firms”, Strategic Management Journal, : 197 - 218. DOĞAN İPEKGİL Ö (2007): Teknoloji, Yenilik ve Kalite Yönetimi, Altın Nokta Basımevi, İzmir.
  • GÜLER M. E., GÜRLER İ. (2007): "Bilgi Teknolojilerinin Kullanımında Sağlanacak Fayda – Verimlilik İlişkisi", 4. KOBİ'ler ve Verimlilik Kongresi, 117 – HARRISON M. (1990): Advanced Manufacturing Technology Management, Pitman Publishing, London. KOTHA S., SWAMIDASS P. M. (2000): “Strategy, Advanced Manufacturing Technology and Performance: Empirical Evidence from U.S. Manufacturing Firms”, Journal Of Operations Management, 18: 257 – 277. LOWE A., RIDGWAY K., ATKINSON H. (2000): “QFD in New Production Technology Evaluation”, International Journal of Production Economics, 67: 103 – 112. MOHANTY R. P.,
  • DESHMUKH S. G. (1998): “Advanced Manufacturing Technology Selection: A Strategic Model for Learning and Evaluation”, International Journal of Production Economics, 55: 295 – 307. OZDEMIR M. S. (2005): “Validity and Inconsistency in the Analytic Hierarchy Process”, Applied Mathematics and Computation, 161 – 3: 707-720
  • OZDEMIR M. S., SAATY T. L. (2006): “The Unknown in Decision Making: What to Do about It”, European Journal of Operational Research, 174: 349-359
  • PARKAN C., WU M. (1999): “Decision – Making and Performance measurement Models with Applications to Robot Selection”, Computers & Industrial Engineering, 36: 503 – 523. SWINK M., NAIR A. (2007): “Capturing the Competitive Advantages of AMT: Design – Manufacturing Integration as a Complementary Asses”, Journal of Operations Management, 25: 736 – 754.
  • TORKKELI M., TUOMINEN M. (2002): “The Contribution of Technology Selection to Core Competencies”, International Journal of Production Economics, 77: 271 – 284. YARALIOĞLU K. (2004): Uygulamada Karar Destek Yöntemleri, İlkem Ofset, İzmir.
There are 8 citations in total.

Details

Other ID JA86RB47CZ
Journal Section Research Article
Authors

İbrahim Gürler

Mehmet Emre Güler

Publication Date May 1, 2009
Published in Issue Year 2009 Volume: 9 Issue: 2

Cite

APA Gürler, İ., & Güler, M. E. (2009). THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE. Ege Academic Review, 9(2), 623-635.
AMA Gürler İ, Güler ME. THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE. ear. May 2009;9(2):623-635.
Chicago Gürler, İbrahim, and Mehmet Emre Güler. “THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE”. Ege Academic Review 9, no. 2 (May 2009): 623-35.
EndNote Gürler İ, Güler ME (May 1, 2009) THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE. Ege Academic Review 9 2 623–635.
IEEE İ. Gürler and M. E. Güler, “THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE”, ear, vol. 9, no. 2, pp. 623–635, 2009.
ISNAD Gürler, İbrahim - Güler, Mehmet Emre. “THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE”. Ege Academic Review 9/2 (May 2009), 623-635.
JAMA Gürler İ, Güler ME. THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE. ear. 2009;9:623–635.
MLA Gürler, İbrahim and Mehmet Emre Güler. “THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE”. Ege Academic Review, vol. 9, no. 2, 2009, pp. 623-35.
Vancouver Gürler İ, Güler ME. THE SELECTION CRITERIA FOR TECHNOLOGY USING IN MANUFACTURING PROCESS THROUGH REENGINEERING SIMULATION PRACTICE. ear. 2009;9(2):623-35.