:::

詳目顯示

回上一頁
題名:結合模糊、DCOR與紮根理論於新產品開發流程重新設計之研究
作者:尹以修
作者(外文):I-HSIU YIN
校院名稱:國立臺灣科技大學
系所名稱:管理研究所
指導教授:歐陽超
學位類別:博士
出版日期:2019
主題關鍵詞:模糊理論設計鏈運作參考模式紮根理論設計架構矩陣Fuzzy TheoryDesign Chain Operational ReferenceGrounded TheoryDesign Structure Matrix
原始連結:連回原系統網址new window
相關次數:
  • 被引用次數被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0)
  • 排除自我引用排除自我引用:0
  • 共同引用共同引用:0
  • 點閱點閱:1
目前大多數企業的研發單位皆擁有屬於自有產業新產品研發流程,然其研究效能與預期結果須待新產品上市後,方可知曉,往往無法在研發初期即可防微杜撰,以避免事後產生嚴重的損失與傷害。本研究係提供一個參考模式可讓研發單位重新設計其新產品研發流程,在不影響組織研發特性情況下,進行流程重新設計工程,讓所設計的產品在所設定的期限與預算內勉力符合原始需求。
本模式係以DCOR(Design Chain Operations Reference-model)為設計參考基礎,初始利用語意和原研發流程(As-Is)作一比對,並為求得更精確的數據,將模糊理論的模糊集合(Fuzzy Sets)表達方式納入方法內,並研究一套合理的公式運算兩者語意比對的結果,透過Design Structure Matrix(DSM)之特性將研發流程做順序、平行與相容之排列處理,進而產生所建議的研發流程(To-Be),再透過實際的研發UAV(Unmanned Aerial Vehicle)的案例,針對原研發流程(As-Is)與所建議的研發流程(To-Be)作一比較。
最後,本研究利用紮根理論(Grounded Theory)之資料收集及分析的方法,以驗證本研究的相關結果,確實可提供未來研發過程之標竿學習的參考模式。
This research proposes a benchmarking-based process redesign approach for a new product design chain. The proposed method compares the semantic similarities of the design activities in the As-Is process with the activities in the Design Chain Operations Reference-model (DCOR).
Fuzzy set theory is implemented in comparing semantic similarities to avoid subjective views. Then a Design Structure Matrix (DSM) is employed to streamline the redesign process and form a To-Be process.
Finally, Grounded Theory (GT) is used to evaluate the To-Be process according to five Key Performance Indicators (KPI) and to identify the pros and cons of the practice. The proposed approach has been implemented in the re-engineering of an Unmanned Aerial Vehicle (UAV) design process. The results show that the To-Be process is more effective than the As-Is process.
Arturo, M., Eugenio, M., Teresa, M. and Alfonso, L., (2014). Ranked WordNet graph for sentiment polarity classification in Twitter. Computer Speech & Language, 28(1), 93-107.

Aydin, M. and Ulutas, B.H., (2016). A new methodology to cluster derivative product modules: an application. International Journal of Production Research, 54(23), 7091-7099.

Baker, J., Levy, M. and Grewal, D., (1992). An experimental approach to making retail store environmental decisions, Journal of Retailing, 68(4), 445-460.

Bitch, V., (2005). Qualitative research: A grounded theory example and evaluation criteria, Journal of Agribusiness, 23(1), 75-91.

Chen, S.J. and Hwang, C.M., (1992). Fuzzy multiple attribute decision making: Methods and applications, Lecture notes in economics and mathematical system, New York: Springer.

Chen, T.C. (2000). Extension of the TOPSIS for group decision-making under fuzzy environment. Fuzzy Sets and Systems, 114(1), 1-9.

Cochran, A., Neumayer, L.A. and Elder, W.B. (2019). Barriers to careers identified by women in academic surgery A grounded theory model. The American Journal of Surgery, 218, 780-785.

Corbin, J. and Strauss, A., (1990). Grounded Theory Research: Procedures, Canons, and Evaluative Criteria., Qualitative Sociology, 13(1), 1-21.

Egan, T.M., (2002). Grounded theory research and theory building. Advances in Developing Human Resources, 4(3), 277-295.

Fellbaum, C., (1998). WordNet: An electronic lexical database: Language, speech, and communication. Cambridge: MIT Press. USA.

Gao, J.-B., Zhang, B.-W., and Chen, X.-H., (2015). A WordNet-based semantic similarity measurement combining edge-counting and information content theory. Engineering Applications of Artificial Intelligence, 39(1), 80-88.

Gibson, B.J., Kettle, J.E., Robinson, P.G., Walls, A. and Warren, L. (2019). Oral care as a life course project: A qualitative grounded theory study. Gerodontology, 36, 8–17.

Glasser, B. and Strauss, A., (1967). The Discovery of Grounded Theory-Strategy for Qualitative Research, Aldine Transaction.

Grun, E. (2016). An Application of Design Structure Matrix Methods to Explore Process Improvements in Aircraft Flight Line Operations. Thesis master of Science in Engineering and Management at the Massachusetts Institute of Technology.

Harry, B., Sturges, K.M. and Klingner, J.K., (2005). Mapping the process: An exemplar of process and challenge in grounded theory analysis. Educational Researcher, 34(2), 3–13.

Herrera, F. & Herrera-Viedma, E., (2000). Linguistic decision analysis: Steps for solving decision problems under linguistic information. Fuzzy Sets and Systems, 115(1), 67-82.

Hussein, M.E., Hirst, S., Salyers, V., and Osuji, J., (2014). Using grounded theory as a method of inquiry: Advantages and disadvantages. The Qualitative Report, 19(27), pp. 1-15.

Jarmasz, M. and Szpakowicz, S., (2001). Roget’s Thesaurus: a Lexical Resource to Treasure, Proceedings of the NAACL WordNet and Other Lexical Resources workshop. Pittsburgh, 186–188.

Juan, Y.C. and Ou-Yang, C., (2004). Systematic approach for the gap analysis of business process. International Journal of Production Research, 42(7), 1325-1364.

Juan, Y.C., Ou-Yang, C. and Lin, J.S., (2009). A process-oriented multi-agent system development approach to support the cooperation-activities of concurrent new product development. Computers & Industrial Engineering,57(4), 1363-1376.

Kival, C.W., Cristina, F.M., Renato, F.M., Ana, L.M., Ana, M.D.D., Maria, T.V., Cristiano, S., Rosane, M., and José, A.A., (2017). A Process Reference Model and A Process Assessment Model to Foster R&D&I Management in Organizations: MGPDI. 17th International Conference on software process improvement and capability determination, 351-368.

Lambe, A.B. and Martins, Joaquim, R.R.A., (2012). Extensions to the design structure matrix for the description of multidisciplinary design, analysis, and optimization processes. Struct. Multidisc. Optim., 46(2), 273–284.

Lin, J.S., Ou-Yang, C. and Juan, Y.C., (2009). Towards a standardised framework for a multi-agent system approach for cooperation in an original design manufacturing company. International Journal of Computer Integrated Manufacturing, 22(6), 494-514.

Liu, Y. and Li, H. (2009). Research on DCOR-Based Integrated Information Resource Management Platform of Supply Chain System. International Forum on Information Technology and Application. 513-516.

Lyu, J. and Chang, L.Y., (2010). A reference model for collaborative design in mould industry. Production Planning & Control, 21(5), pp. 428–436.

Maher, C., Hadfield, M., Hutchings, M. and Eyto, A.de (2018). Ensuring Rigor in Qualitative Data Analysis: A Design Research Approach to Coding Combining NVivo With Traditional Material Methods. International Journal of Qualitative Method, 17, 1-13.

Meng, L., Huang, R. and Gu, J., (2013). A review of semantic similarity measures in WordNet. International Journal of Hybrid Information Technology, 6(1), 1-12.

Miller, G.A., (1956). The magical number seven, plus or minus two. Psychological Review, 63, 81-97.

Nagoor Gani, A. and Mohamed Assarudeen, S. N., (2012). A New Operation on Triangular Fuzzy Number for Solving Fuzzy Linear Programming Problem. Applied Mathematical Sciences, 6(11), 525-532.

Novotnyo, O., (2015). A reference model for information systems. Business and Management Journal. 3(2), 13-18.

Pan, W., Wang, F., Guo, Y. and Liu, S., (2015). A fuzzy multi objective model for supplier selection under considering stochastic demand in a supply chain. Mathematical Problems in Engineering, 2015, 1-8.

Patwardhan, S., Banerjee, S. and Pedersen, T., (2003). Using measures of semantic relatedness for word sense disambiguation. Proceedings of 4th International Conference on Computational Linguistics and Intelligent Text Processing and Computational Linguistics, 1-17.

Qiao, L., Efatmaneshnik, M. and Ryan, M. (2018). SMACOF hierarchical clustering to manage complex design problems with the design structure matrix. In International Conference on Complex Systems Design & Management, Springer, 50-61.

Ramalho, R., Adams, P., Huggard, P. and Hoare, K., (2015). Literature Review and Constructivist Grounded Theory Methodology. FORUM: Qualitative Social Research, 16(3), Art. 19

Raul, Z.A. and Klaus, D.T. (2013). Modeling the early supply chain processes in the mineral raw material industry. Proceedings of the 8. International Copper Conference.

Raul, Z.A., (2015). Modeling the Processes of the Mining Industry Using SCOR and DCOR models. Dynamics in Logistics, 69-74.


Reijers, H.A., Limam, S. and van der Aalst, W.M.P., (2003). Product-based workflow design. Journal of Management Information Systems, 20(1), 229-262.

Reijers, H.A. and Mansar, S.L., (2005). Best practices in business process redesign: an overview and qualitative evaluation of successful redesign heuristics. The International Journal of Management Science, 33(2005), 283-306.

Sajedinejad, A. and Chaharsooghi, S. K., (2018). Multi-criteria supplier selection decisions in supply chain networks: a multi-objective optimization approach. Industrial Engineering & Management Systems, 17(3), 392-406.

Simie, D., Kovacevie, I., Svircevic, V. and Simie, S., (2016). 50 years fuzzy set theory and models for supplier assessment and selection: A literature review. Journal of Applied Logic, 1-12.

Singh, N. and Krishnan, V.R., (2005). Towards understanding transformational leadership in India: A grounded theory approach. The Journal of Business Perspective, 24(6), 559-575.

Singh, P., Raffin-Bouchal, S., McClement, S., Hack, T.F., Stajduhar, K., Hagen, N.A., Sinnarajah, A., Chochinov, H.M. and Sinclair, S., (2018). Healthcare providers’ perspectives on perceived barriers and facilitators of compassion: Results from a grounded theory study. Journal Clinical Nursing, 27, 2083– 2097.

Sivadas Aniyan, T.S. and Pramod, V.R., (2016). Quality function deployment in the design of custom made furnaces. International Journal of Engineering Sciences & Research Technology, 5(7), 190-195.

Son, S., Kim, J. and Ahn, J., (2017). Design Structure Matrix Modeling of a Supply Chain Management System Using Biperspective Group Decision. IEEE Transaction on Engineering Management, 64(2), 220-233.

Supply-Chain Council., (2006). Design chain operations reference-model (DCOR), version 1.0. Pennsylvania: Supply-Chain Council.

Talon, A. and Curt, C. (2017). Selection of appropriate defuzzification methods: Application to the assessment of dam performance. Expert Systems with Applications, 70(2017), 160-174.

Urquhart, C. and Fernandez, W., (2006). Grounded Theory Method: The Researcher as Blank Slate and Other Myths. Twenty-Seventh International Conference on Information Systems, 456-464.

Weske, M., (2012). Business process management architectures. Business Process Management, Springer, Berlin, Heidelberg.

Wiesche, M., Jurisch, M.C., Yetton, P.W. and Krcmar, H., (2017). Grounded theory methodology in information systems research. MIS quarterly, 41(3), 685-701.

Wu, W.H., Yeh, S.C. and Fang, L.C., (2007). The development of a collaborative design chain reference model for the motorcycle industry. The International Journal of Advanced Manufacture Technology, 35(3), 211–225.

Yassine, A.A., (2004). An introduction to modeling and analyzing complex product development processes using the design structure matrix (DSM) method. Italian Management Review, 51(9), 1–17.

Zadeh, L.A., (1965). Fuzzy Sets. Information and Control, 8, 338-353.

Zhou, Z., Wang, Y. and Gu, J., (2008). New model of semantic similarity measuring in WordNet. 3rd International Conference on Intelligent System and Knowledge Engineering, 1, 256-261.
 
 
 
 
第一頁 上一頁 下一頁 最後一頁 top
:::
無相關博士論文
 
無相關書籍
 
無相關著作
 
無相關點閱
 
QR Code
QRCODE