設計流程品質與強韌性之量化評估

Hsin-Chan Huang; 黃新展

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/31502

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	傅增棣(Tseng-Ti Fu)
dc.contributor.author	Hsin-Chan Huang	en
dc.contributor.author	黃新展	zh_TW
dc.date.accessioned	2021-06-13T03:13:53Z	-
dc.date.available	2007-07-24
dc.date.copyright	2006-08-09
dc.date.issued	2006
dc.date.submitted	2006-08-07
dc.identifier.citation	[1] 林則孟，系統模擬理論與應用，滄海書局，2001。 [2] 林惠玲及陳正倉，統計學－方法與應用，雙葉書廊，2001。 [3] 林照雄，作業研究，三民書局，1977。 [4] 李炯毅，機械設計程序之量化評估，碩士論文，國立台灣大學機械工程學研究所，2002。 [5] 高孔廉及張緯良，作業研究，五南圖書，1993。 [6] 莊承哲，輔具設計方法之研究，碩士論文，國立台灣大學機械工程學研究所，2005。 [7] 楊超然，作業研究，三民書局，1977。 [8] Andersson, J., Pohl, J. and Eppinger, S.D., A Design Process Modeling Approach Incorporating Non-linear Elements, Proceedings of 1998 ASMS DETC: Design Theory and Methodology Conference, 1998. [9] Archer, L.B., Developments in Design Methodology, John Wiley & Sons, 1984. [10] Badiru, A.B., Scheduling of Concurrent Manufacturing Projects, In: Parsaei, H.R. and Sullivan, W.G., Concurrent Engineering, pp. 93-109, Chapman & Hall, 1993. [11] Boothroyd, G., American Machinist, Vol. 132, 1988. [12] Browning, T.R. and Eppinger, S.D., Modeling Impacts of Process Architecture on Cost and Schedule Risk in Product Development, IEEE transactions on engineering management, Vol. 49, No. 4, pp. 428-442, 2002. [13] Cho, S.-H. and Eppinger, S.D., A Simulation-Based Process Model for Managing Complex Design Projects, IEEE transactions on engineering management, Vol. 52, No. 3, pp. 316-328, 2005. [14] Cross, N., Engineering Design Methods, John Wiley & Sons, 1994. [15] eM-Plant, Ver. 4.6, copyright 1991-2000, Tecnomatix Technologies, Ltd. [16] Eppinger, S.D., Whitney, D.E., Smith, R.P. and Gebala, D.A., A Model-Based Method for Organizing Tasks in Product Development, Research in Engineering Design, Vol. 6, pp. 1-13, 1994. [17] Eppinger, S.D., Nukala, M.V. and Whitney, D.E., Generalized Models of Design Iteration Using Signal Flow Graphs, Research in Engineering Design, Vol. 9, pp. 112-123, 1997. [18] French, M.J., Conceptual Design for Engineers, Design Council, London, 1985. [19] Gatenby, D.A. and Foo, G., Design for X (DFX): Key to Competitive, Profitable Markets, AT&T technical Journal, Vol. 69, pp. 2-13, 1990. [20] Gil, N., Tommelein, I.D. and Beckman, S., Postponing Design Processes in Unpredictable Environments, Research in Engineering Design, Vol. 15, pp. 139-154, 2004. [21] Howard, R.A., Dynamic Probabilistic Systems, John Wiley & Sons, 1971. [22] Isaksson, O., Keski-Seppala, S. and Eppinger, S.D., Evaluation of Design Process Alternatives Using Signal Flow Graphs, Journal of Engineering Design, Vol. 11, pp. 211-224, 2000. [23] Jo, H.H., Parsaei, H.R. and Sullivan, W.G., Principles of Concurrent Engineering, In: Parsaei, H.R. and Sullivan, W.G., Concurrent Engineering, pp. 3-21, Chapman & Hall, 1993. [24] Jones, J. C., A Method of Systematic Design, In: Cross, N., Developments in Design Methodology, Wiley, Chichester, 1984. [25] Krishnan, V., Eppinger, S.D. and Whitney, D.E., A Model-Based Framework to Overlap Product Development Activities, Management Science, Vol. 43, pp. 437-451, 1997. [26] Kuo, B.C., Linear Networks and Systems, McGraw-Hill, 1967. [27] Kuo, B.C., Automatic Control Systems, Prentice-Hall, 1982. [28] Mason, S.J., Feedback Theory - Some Properties of Signal Flow Graphs, Proceedings of the Institute of Radio Engineers, Vol. 41, No. 9, pp. 1144-1156, 1953. [29] Mason, S.J., Feedback Theory - Further Properties of Signal Flow Graphs, Proceedings of the Institute of Radio Engineers, Vol. 44, No. 7, pp. 920-926, 1956. [30] Osborne, S.M., Product Development Cycle Time Characterization through Modeling of Process Iteration, Masters Thesis, MIT, 1993. [31] Pahl, G. and Beitz, W., Engineering Design: A Systematic Approach, Springer, 1996. [32] Pawar, K.S., Unny, M. and Riedel, J.C.K.H, Time to Market, Integrated Manufacturing Systems, Vol. 5, No. 1, pp. 14-22, 1994. [33] Smith, R.P. and Eppinger, S.D., A Predictive Model of Sequential Iteration in Engineering Design, Management Science, Vol. 43, pp. 1104-1121, 1997. [34] Smith, R.P. and Eppinger, S.D., Identifying Controlling Features of Engineering Design Iteration, Management Science, Vol. 43, pp. 276-294, 1997. [35] Starkey, C.V., Engineering Design Decisions, Edward Arnold, 1992. [36] Whitney, D.E., Designing the Design Process, Research in Engineering Design, Vol. 2, pp. 3-13, 1990. [37] Yassine, A.A., Whitney, D.E. and Zambito, T., Assessment of Rework Probabilities for Simulating Product Development Processes Using the Design Structure Matrix (DSM), Proceedings of 2001 ASMS DETC: Computer and Information in Engineering Conference, 2001.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/31502	-
dc.description.abstract	一個產品的成功與否不僅取決於本身的性能與價格，產品的設計與開發過程中所花費的時間、成本、以及流程的品質與穩定等，更是提升產品在市場上競爭力的重要因素。由於產品設計過程的複雜性與不易量化之特質，使得客觀地評估整個設計流程變成相當困難。本研究以訊號流程圖法為基礎，旨在建立一個設計流程的量化評估架構，嘗試從四個不同的角度來進行評估：亦即時間、成本、品質與強韌性，並建立相關的量化評估指標，再經由電腦模擬程式的輔助，以及業界實際設計程序之應用分析，以驗證此架構的實用性。此種評估方式除了可以提供管理者對於設計流程風險與參數敏感度的相關資訊之外，並可藉此尋求設計程序之改良與最佳化，以為專案工程師在安排或變更設計流程時的依據及參考。	zh_TW
dc.description.abstract	The success of a commercial product depends not only on the fulfillment of design targets but also on the efficiency of its development process. An efficient process generally implies short time, low cost and high quality, etc. However, owing to the complicated nature, it is generally difficult to quantitatively evaluate a design process. Using the theory of signal flow graphs, this research is aimed to establish a framework for the quantitative evaluation of design processes. The process will be assessed from the aspects of time, cost, quality and robustness. This methodology provides a foundation for analytical and numerical simulation of a process and quantitative evaluation indices for comparison. A case study from the industry is simulated to investigate utility and insights that can be acquired from this approach. With the structure and evaluation indices developed herein, it is hoped to provide project engineers with a better tool for further sensitivity analyses and optimization of design processes.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T03:13:53Z (GMT). No. of bitstreams: 1 ntu-95-R93522606-1.pdf: 1699109 bytes, checksum: 7bd1b73f419e013abc3ed7fe2a6ef89a (MD5) Previous issue date: 2006	en
dc.description.tableofcontents	目錄誌謝 i 中文摘要 ii 英文摘要 iii 目錄 iv 第一章序論 1 1.1 研究背景與動機 1 1.2 文獻回顧 2 1.2.1 定性方法之設計程序研究 2 1.2.2 定量方法之設計程序研究 5 1.2.2.1 甘梯圖 5 1.2.2.2 要徑法與計劃評核術 6 1.2.3 反覆設計程序之研究 7 1.3 研究方法與流程 8 1.4 論文架構 9 表格 11 圖例 12 第二章研究方法 16 2.1 訊號流程圖法 16 2.1.1 理論基礎 16 2.1.2 演算法則 18 2.2 訊號流程圖在設計程序上之應用 21 2.2.1 基本假設 21 2.2.2 流程時間之評估 22 2.2.3 流程成本之分析 23 2.2.4 於同步工程上之應用 24 2.2.5 與其他定量方法之比較 25 2.3 設計程序之電腦模型 27 2.3.1 電腦模擬之種類 28 2.3.2 模擬軟體特性簡介 29 2.3.3 模型的建立與驗證 30 2.3.4 模擬輸出分析 31 表格 35 圖例 36 第三章流程評估架構與指標 42 3.1 設計程序之內涵 42 3.2 設計流程之評估指標 43 3.2.1 時間指標 43 3.2.2 成本指標 44 3.2.3 品質指標 44 3.2.4 強韌指標 46 3.3 流程數例分析 49 3.3.1 數據機之設計流程 49 3.3.2 訊號流程圖法與解析解 50 3.3.3 電腦模擬模型的建構與數值解 52 3.3.4 流程分析與討論 53 表格 55 圖例 59 第四章實務設計程序之應用 62 4.1 流程之選擇與執行步驟 62 4.2 流程資料收集 62 4.3 實例設計流程 63 4.4 訊號流程圖之建構與檢驗 66 4.5 電腦模擬模型之建構與驗證 67 4.6 模擬結果之分析與討論 68 4.7 設計流程規劃之改善建議 76 表格 79 圖例 87 第五章結論與建議 94 5.1 結論 94 5.2 未來展望與建議 95 參考文獻 97 附錄A訪談紀錄表 101
dc.language.iso	zh-TW
dc.subject	品質	zh_TW
dc.subject	強韌性	zh_TW
dc.subject	設計程序	zh_TW
dc.subject	評估	zh_TW
dc.subject	訊號流程圖	zh_TW
dc.subject	signal flow graphs	en
dc.subject	robustness	en
dc.subject	design process	en
dc.subject	evaluation	en
dc.subject	quality	en
dc.title	設計流程品質與強韌性之量化評估	zh_TW
dc.title	Quantifying Quality and Robustness for the Evaluation of Design Processes	en
dc.type	Thesis
dc.date.schoolyear	94-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	李維楨(Wei-Chen Lee),蔡錫錚(Shyi-Jeng Tsai)
dc.subject.keyword	設計程序,評估,訊號流程圖,品質,強韌性,	zh_TW
dc.subject.keyword	design process,evaluation,signal flow graphs,quality,robustness,	en
dc.relation.page	105
dc.rights.note	有償授權
dc.date.accepted	2006-08-08
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	機械工程學研究所	zh_TW
顯示於系所單位：	機械工程學系

文件中的檔案：

檔案	大小	格式
ntu-95-1.pdf 未授權公開取用	1.66 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。