以BIM與代理者技術實現
營建協同設計審查之研究

Sung-Bo Ho; 何松柏

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/10792

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	謝尚賢
dc.contributor.author	Sung-Bo Ho	en
dc.contributor.author	何松柏	zh_TW
dc.date.accessioned	2021-05-20T21:59:14Z	-
dc.date.available	2012-07-26
dc.date.available	2021-05-20T21:59:14Z	-
dc.date.copyright	2010-07-26
dc.date.issued	2010
dc.date.submitted	2010-07-17
dc.identifier.citation	Abdel-Wahab, H.M., Guan, S.U., & Nievergelt, J. (1988), Shared Workspaces For Group Collaboration : An Experiment Using Internet And UNIX Interprocess Communications, IEEE Communications Magazine, 26(11), 10-16. Anumba, C.J., Ugwu, O.O., & Newnham, L. (2002), Collaborative Design Of Structures Using Intelligent Agents, Automation in Construction, 11(1), 89-103. Autodesk (2009), Improving Building Industry Results through Integrated Project Delivery and Building Information Modeling, Autodesk whitepaper. Chen, H.M., & Tien, H.C. (2007), Application of Application of Peer-to-Peer Network For Real-Time Online Collaborative Computer-Aided Design, Computing in Civil Engineering, 21(2), 112-121. Chen, P.H., Cui, L., Wan, C. ,Yang, Q., Ting, S.K., Robert, L., & Tiong, R.L.K. (2005), Implementation of IFC-based Web Server for Collaborative Building Design Between Architects and Structural Engineers, Automation in Construction, 14(1), 115-128. Cohen, P.R., Cheyer, A. Wang, M., & Baeg, S. C. (1994), An Open Agent Architecture. Autonomous Agents and Multi-Agent Systems, 4(1-2), 143-148. Eastman, C., Teicholz, P., Sacks, R., & Liston, D. (2008), BIM Handbook: A Guide To Building information Modeling For Owner、Managers、Designers、Engineer And Contractors, JERRY LAISERIN. Froese, T.M. (2005), Information Management for Construction, Proceedings of the 4th International workshop on Construction Information Technology in Education, 7-17. Fruchter, R. (1996), Conceptual collaborative building design through shared graphics, IEEE Expert, 11(3), 33–41. Fruchter, R. (1999), A/E/C TEAMWORK: A COLLABORATIVE DESIGN AND LEARNING SPACE, Journal of Computing in Civil Engineering, 13(4), 261–269. Gallaher, M. P., O’Connor, A.C., Dettbarn, J.L., Jr., & Gilday, L. T. (2004), Cost Analysis of Inadequate Interoperability in the U.S. Capital Facilities Industry, National Institute of Standards and Technology. Gamma, E., Helm, R., Johnson, R., & Vlissides, J. (1995), Design Patterns Elements Of Reusable Object-Oriented Software, AddisonWesley Professional. Gamma, E., Helm, R., Johnson, R., Vlissides, J.著，葉秉哲譯 (2001)，物件導向設計模式，培生教育出版集團。 Hsieh , S.H., Chen, C.S., Liao, Y.F., Yang, C.T., & Wu, I.C. (2006), Construction Director: 4D Simulation System For Plant Construction, Proceedings of the Tenth East Asia-Pacific Conference on Structural Engineering and Construction , 135-140. Intergraph, http://www.intergraph.com/products/ppm/smartplant/review/default.aspx, 2010.2 Mallon, J. C., Mulligan, D. F. (1993), Quality Function Deployment-A System For Meeting Customer’s Needs, Journal of Construction Engineering and Management, 119(3), 516-530. Martin, D. L., Cheyer, A.J., & Moran, D. B. (1999), The Open Agent Architecture : A framework For Building Distributed Software Systems, Applied Artificial Intelligence, 13(1), 91-128. Nwana, H.S. (1996), Software Agent: An Overview, Knowledge Engineering Review, 11(3), 1-40. Owolabi, A., Anumba, C.J., EI-Hamalawi, A., & Harper, C. (2006), Development Of an Industry Foundation Classes Assembly Viewer, Computing in Civil Engineering, 20(2), 121-131 Shen, W., Han, Q., Mak, H., Nellamkavil, J., Xie, Helen, Dickinson, J., Thomas, R., Pardasani, A., & Xue, H. (2010), Systems Integration and Collaboration in Architecture, Engineering, Construction, and Facilities Management : A Review, Advanced Engineering Informatics, 24, 196-207. The Open Agent Architecture, http://www.ai.sri.com/~oaa/, 2010.4 Kvan, T. (2000), Collaborative design : What Is It?, Automation in construction, 9(4), 409-415. Vanlande, R., Nicolle, C., & Cruz, C. (2008), IFC and Building Life Cycle Management, Automation in Construction, 18(1), 70-78. World Wide Web Consortium, http://www.w3.org/standards/xml/, 2010.4 市田嵩-牧野鐵治(1998)，設計審查，先鋒企業管理發展中心設計審查小組譯。呂英瑞(2004)，J2EE平台與.NET平台工通方法之實作與比較，國立中央大學資訊工程研究所碩士論文。吳崇弘(1997)，工程圖檔關聯建構之物件導向分析與設計，國立台灣大學土木工程學研究所碩士論文。) 吳翌禎(2007)，多維度工程專案資訊整合管理與視覺化之研究，國立台灣大學土木研究所博士論文。李勝朗(1998)，工程設計審查方法¬¬-以程序系統工程設計為例，工程月刊，第七十一卷第3期。) 卓正倫(2005)，設計完成度審查模式之建構-以建築工程為例，國立交通大學土木工程學系碩士論文。康仕仲、蔡孟涵 (2009)，建築資訊模型之技術發展過程，營建知訊，第316期。張清靠(1983)，設計審查的方法與實務，機械工業月刊，第47期。陳瑞鈴等(2001)，台灣建築生命週期使用年限調查之研究，內政部建築研究所報告。裴謄兆(2010)，應用建築資訊空間系統與專案導向企業資源管理技術於建築設施維護管理，國立台灣大學土木研究所碩士論文。蕭樂同(2004)，營區設施維護管理策略之研究，國立中央大學土木研究所碩士論文。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/10792	-
dc.description.abstract	科技隨著時代的改變與進步，現代建築物包含了各式各樣的系統，在機能方面比以往更加複雜。除了基本的機電與給排水系統(Mechanical , Electric , Plumbing 簡稱MEP)、空調、弱電和通訊外，消防保全、節能設備、光纖網路與智慧型建築(Intelligent Building)的各種感應器和控制系統，也逐漸成為現今建築的標準配備。隨著建築物構造複雜度增加與所包含的系統越多，協力廠商在設計與施工階段的整合需求也大幅增加。不同系統(例如：機電與排水系統)的設計模型，必須在施工前進行整合與審查其介面相容性。多樣性的系統整合需倚賴多位專門業者的協調分工。但因各業者多分散異地而增加了見面討論的困難度，所以現今多需要以電話聯絡做為溝通管道。然而，由口語來進行3D空間概念的描述常不易理解；因此，在溝通上常常耗費過多的人力與時間。本研究提出一個介面平台連接網路與3D模型展示的應用程式。引入物件導向程式概念與開放代理者架構(Open Agent Architecture)，實作BIM Review Agent(以下簡稱BIM.RA)。審查者可透過使用BIM.RA經由網路於異地進行協同設計審查。利用3D模型的展示，協助表達圖面與文字描述難以表達的3D資訊也是BIM.RA的重要特色。且針對複雜的建築系統，BIM.RA可以有效率的幫助審查者在BIM模型中找到對應的視覺化物件，以利快速解決系統介面衝突(例如：空間衝突、管線互相干擾…等)方面的工程問題。	zh_TW
dc.description.abstract	As the technology improved with time passing by, the modern building is equipped with more systems. In addition to the basic systems, like MEP (Mechanical, Electric, Plumbing), drainage system, water supply, air-conditioning (AC), electronic and telecommunication system, the building usually possesses more complex systems to be modernized. For example, the fire fighting system, the energy-saving equipment and the security network are frequently equipped today. In the design phase of a project, each team constructs its own 3D model for the specific system. Before executing the design, all team’s built models need to be carefully inspected to be integrated. Because conflicts might exist among different systems’ designs, design teams would spend a lot of time to discuss and resolve them. The project with more complex systems requires more frequent discussions. When teams are distributed in different places, communication via the telephone is conventional. However, 3D concepts are hard to be interpreted by mere words. This makes it difficult for participants to comprehend the discussion issues. Hence, this high degree of the co-ordination causes time and money consuming. Hence, to cause the waste of time and money in communication. In this study, we propose an Internet-accessible interface which integrates 3D display applications. We complied with the open-agent architecture to implement an object-oriented prototype system, call BIM Review Agent (BIM.RA). Inspectors are able to use BIM.RA to coordinate from anywhere with Internet. It is important that BIM.RA applies BIM model to express 3D information of objects which is too complicate to describe by graphics and characters. In this way, BIM.RA allowed users to explore the visualized objects efficiently and to resolve the conflicts faster among different system models (ex interference check and clash check).	en
dc.description.provenance	Made available in DSpace on 2021-05-20T21:59:14Z (GMT). No. of bitstreams: 1 ntu-99-R97521609-1.pdf: 3026277 bytes, checksum: df5fae70dfcca32df7473cacad3b7663 (MD5) Previous issue date: 2010	en
dc.description.tableofcontents	第一章緒論 1 1.1. 研究背景與動機 1 1.2. 研究目的 3 1.3. 研究方法與步驟 4 1.4. 論文架構 6 第二章協同設計審查與BIM 9 2.1. 協同設計審查 9 2.1.1 協同作業簡介 9 2.1.2 協同設計介紹與分類 12 2.1.3 協同設計審查定義 15 2.2. 建築資訊模型(BIM) 20 2.2.1 建築生命週期簡介 20 2.2.2 建築資訊模型定義 23 2.2.3 CAD與BIM技術發展情況 24 2.3. BIM技術之協同設計審查應用 26 第三章代理者機制架構設計 29 3.1. 需求分析 29 3.2. 代理者設計 31 3.2.1 開放代理者架構(Open Agent Architecture)簡介 31 3.2.2 BIM代理人應用 32 3.3. API設計 34 3.3.1 基本API設計 35 3.3.2 高階API設計 35 3.3.3 Server與BIM.CS API設計 37 3.4. 本章小結 38 第四章 BIM.RA與BIM.CS的設計與實作 39 4.1. 設計概念與分析 39 4.1.1 設計難題 39 4.1.2 比較分析 41 4.2. BIM協同操作之種類 42 4.2.1 精簡型用戶端(Thin client)架構定義 42 4.2.2 完整型用戶端(Fat client)架構定義 44 4.2.3 複合式用戶端架構定義 45 4.3. 物件導向設計 48 4.3.1 物件導向技術概念 48 4.3.2 物件導向設計模式 49 4.3.3 擴充性 50 4.3.4 系統使用者 50 4.4. 軟硬體架構 51 4.4.1 程式語言 51 4.4.2 可延伸標示語言(eXtensible Markup Language) 52 4.4.3 繪圖套件SmartPlant Reviews(SPR)介紹 53 4.4.4 程式架構 53 4.4.5 BIM.RA與BIM.CS使用與運作流程 54 第五章電腦輔助設計審查展示案例 57 5.1. 設計審查案例說明 57 5.2. 模型資料 58 5.3. 執行流程與結果展示 61 5.3.1 操作流程概述 61 5.3.2 結果展示設定 63 5.3.3 操作情境 65 第六章結論與建議 69 6.1. 結論 69 6.2. 未來研究建議 72 參考文獻 73 附錄A: BIM.RA基本API 77 附錄B: BIM.RA高階API 79 附錄C:Server與BIM.CS API 83
dc.language.iso	zh-TW
dc.title	以BIM與代理者技術實現營建協同設計審查之研究	zh_TW
dc.title	Collaborative Design Review in Construction Using BIM and Agent technology	en
dc.type	Thesis
dc.date.schoolyear	98-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	康仕仲,廖源輔,周頌安
dc.subject.keyword	代理者,協同審查設計審查,建築資訊模型,	zh_TW
dc.subject.keyword	Agent,Collaborative design review,BIM,	en
dc.relation.page	85
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2010-07-19
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	土木工程學研究所	zh_TW
顯示於系所單位：	土木工程學系

文件中的檔案：

檔案	大小	格式
ntu-99-1.pdf	2.96 MB	Adobe PDF	檢視/開啟

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。