跳到主要內容

臺灣博碩士論文加值系統

(44.192.52.167) 您好!臺灣時間:2022/11/28 20:01
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果 :::

詳目顯示

我願授權國圖
: 
twitterline
研究生:蔡孟涵
研究生(外文):Meng-Han Tsai
論文名稱:導入BIM於營建團隊之策略
論文名稱(外文):Strategies of Adopting BIM Tools to a Construction Firm
指導教授:康仕仲康仕仲引用關係
口試委員:謝尚賢曾惠斌陳正剛王明德林祐正
口試日期:2011-05-26
學位類別:博士
校院名稱:國立臺灣大學
系所名稱:土木工程學研究所
學門:工程學門
學類:土木工程學類
論文種類:學術論文
論文出版年:2011
畢業學年度:99
語文別:中文
論文頁數:88
中文關鍵詞:四維(4D) 技術建築資訊模型(BIM)使用性測試流程
外文關鍵詞:4D technologyBIM toolusability testworkflow
相關次數:
  • 被引用被引用:12
  • 點閱點閱:1033
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:3
建築資訊模型(Building Information Model, BIM)在營建管理之學術研究發展多年,衍生發展的一些商用軟體之功能也近齊備,在營建工程中已成為一個重要的工具。但要成功的應用BIM工具於實際的營建工程中仍是一大挑戰。為了協助及解決導入BIM工具時的過程及問題,我提出了一個導入BIM的策略:SUM Framework。SUM Framework可分為三個連續的階段性策略,分別為:系統評估(System Evaluation)、使用性測試(Usability Study)及管理計畫(Management Plan)。依循SUM Framework之策略,本研究進行以下三個連續的階段研究:(1)系統評估:透過電腦效能測試評估,提出導入BIM工具之電腦設備建議。(2)使用性測試:以實際工程的應用測試與使用性測試之方式,提出建置BIM模型之建議流程,並找出軟體程式的使用性問題,並予以改善。(3)管理計畫:透過訪談了解組織運作與BIM工具之運用狀況,提出在實際專案中使用BIM工具之建議流程。經由實際案例的驗證,驗證結果顯示SUM策略除了可提供有效的建議去解決在導入BIM工具過程中所遇到的問題外,並在不影響過多既有作業模式下,以循序漸進的方式來改善作業模式。希望透過本研究的成果分享,可使營建產業在導入BIM工具時,降低導入風險及不確定性,也可因此而成功地提升競爭力。

Due to the increasing support available in commercial software packages and a greater demand for efficient construction management, the Building Information Model (BIM) is becoming a necessary tool in construction processes. However, successfully adopting BIM tools to a construction firm for use in actual projects remains a challenging task. To address these challenges, I proposed three sequential strategies organized into the System Evaluation, Usability Study and Management Plan (SUM) framework. The objectives of the strategies are: (1) System Evaluation: requirement analysis and performance evaluation of both hardware and software components of the BIM tool; (2) Usability Study: usability tests and improvement of the BIM tool; and (3) Management Plan: workflow re-engineering for the firm to be able to successfully implement and apply the BIM tool in real projects. I tested the SUM framework in an actual project and found that it was able to effectively identify the major problems when adopting a BIM tool to a construction firm and also minimized its own impact on the firm''s business processes. This research may benefit construction firms planning to adopt BIM into their existing work processes. Adoption of the SUM framework can help to reduce overall investment risk and ensure a smooth transition from a traditional workflow to a BIM-enhanced workflow.

口委審定書 i
Acknowledgements iii
Abstract v
摘要 vii
Table of contents ix
List of Figures xi
List of Tables xiii
1. Introduction 1
1.1 Related works 1
1.2 Concerns of Implementing BIM Tools 6
1.3 Need for a Consulting Framework 11
2. Research Method 13
2.1 The SUM Framework 13
2.2 Background of Case Study 17
2.3 Research Procedure 21
3. System Evaluation 23
3.1 System Performance Analysis 23
3.2 Capacity Test 25
3.3 Performance Test 27
3.4 Findings from System Evaluation 29
4. Usability Study 31
4.1 Field Study 31
4.2 Lab Test 38
5. Management Plan 47
5.1 Interviews 47
5.2 Symbols Used in the Workflow 49
5.3 Mapping the Existing Workflow 51
5.4 Proposed Workflow for Implementing the BIM Tool 55
5.5 Comparison of the Existing Workflow with the Proposed Workflow 60
5.6 Major Advantages of the Proposed Workflow 63
6. User’s Feedback and Discussion 67
6.1 Feedback from the Case Company’s Self-evaluation 67
6.2 Research Contributions 70
6.3 Limitations of this Research 71
7. Conclusions and Future Works 75
7.1 Conclusions 75
7.2 Future Works 76
References 79
Biography 87


[1]Hsieh, S. H., Chen, C. S., Liao, Y. F., Yang, C. T. and Wu, I. C., "Construction Director: 4D Simulation System for Plant Construction," in Eleventh East Asia-Pacific Conference on Structural Engineering & Construction-10, Bangkok, Thailand, 2006.
[2]Chang, H. S., Kang, S. C. and Chen, P. H., (2009). "Systematic Procedure of Determining an Ideal Color Scheme on 4D Models," Advanced Engineering Informatics, 23(4), 463-473.
[3]Tsai, M. H., Kang, S. C. and Hsieh, S. H., (2010). "A Three-Stage Framework for Introducing a 4D Tool in a Large Consulting Firms," Advanced Engineering Informatics, 24(4), 476-489.
[4]Dawood, N., Scott, D., Sriprasert, E. and Mallasi, Z., (2005). "The Virtual Vonstruction site (VIRCON) Tools: An Industrial Evaluation," Journal of Information Technology in Construction, 10, 43-54.
[5]Kam, C., Fischer, M., Hanninen, R., Karjalainen, A. and J., L., (2003). "The Product Model and Fourth Dimension Project," Journal of Information Technology in Construction, 8, 137-166.
[6]Koo, B. and Fischer, M., (2000). "Feasibility Study of 4D CAD in Commercial Construction," Journal of Construction Engineering and Management-Asce, 126(4), 251-260.
[7]McKinney, K. and Fischer, M., (1998). "Generating, Evaluating and Visualizing Construction Schedules with CAD Tools," Automation in Construction, 7(6), 433-447
[8]Korman, T. M., Fischer, M. and Tatum, C. B., (2003). "Knowledge and Reasoning for MEP Coordination," Journal of Construction Engineering and Management, 129(6), 627-634.
[9]Songer, A. D., Diekmann, J. E., Rasheed, K. and Hays, B., (2001). "Construction Scheduling Using 3-D CAD Walk-Thru," Construction Innovation, 1(3), 191-207.
[10]Akinci, B., (2002). "Automated Generation of Work Spaces Required by Construction Activities," Journal of Construction Engineering and Management-Asce, 128(4), 306-315.
[11]Wang, H. J., Zhang, J. P., Chau, K. W. and Anson, M., (2004). "4D Dynamic Management for Construction Planning and Resource Utilization," Automation in Construction, 13(5), 575-589.
[12]Dawood, N. and Mallasi, Z., (2006). "Construction Workspace Planning: Assignment and Analysis Utilizing 4D Visualization Technologies," Computer-Aided Civil and Infrastructure Engineering, 21(7), 498-513.
[13]Ma, Z. Y., Shen, Q. P. and Zhang, J. P., (2005). "Application of 4D for Dynamic Site Layout and Management of Construction Projects," Automation in Construction, 14(3), 369-381.
[14]Ganah, A. A., Bouchlaghem, N. B. and Anumba, C. J., (2005). "VISCON: Computer Visualization Support for Constructability," Journal of Information Technology in Construction, 10, 69-83.
[15]Kang, J. H., Anderson, S. D. and Clayton, M. J., (2007). "Empirical Study on the Merit of Web-Based 4D Visualization in Collaborative Construction Planning and Scheduling," Journal of Construction Engineering and Management, 133(6), 447-461.
[16]Johnsonl-Laird, P. N., Legrenzi, P. and Legrenzi, M. S., (1972). "Reasoning and a Sense of Reality," British Journal of Psychology, 63(3), 395-400.
[17]Staub-French, S., Russel, A. and Tran, N., (2008). "Linear Scheduling and 4D Visualization," Journal of Computing in Civil Engineering, 22(3), 192-205.
[18]Chau, K. W., Anson, M. and Zhang, J. P., (2004). "Four-Dimensional Visualization of Construction Scheduling and Site Utilization," Journal of Construction Engineering and Management, 130(4), 598-606.
[19]Sheppard, L. M., (2004). "Virtual Building for Construction Projects," IEEE Computer Graphics and Applications, 24(1), 6-12.
[20]Chau, K. W., Anson, M. and Zhang, J. P., (2005). "4D Dynamic Construction Management and Visualization Software: 1. Development," Automation in Construction, 14(4), 512-524.
[21]Dawood, N. and Sikka, S., (2008). "Measuring the Effectiveness of 4D Planning as a Valuable Communication Tool," Journal of Information Technology in Construction, 13, 630-636.
[22]Dawood, N. and Sikka, S., (2006). "The Value of Visual 4D Planning in the UK Construction Industry," Lecture Notes in Computer Science, 4200(2006), 127-135.
[23]Staub-French, S. and Khanzode, A., (2007). "3D and 4D Modeling for Design and Construction Coordination: Issues and Lessons Learned," Journal of Information Technology in Construction, 12, 381-407.
[24]Hartmann, T., Gao, J. and Fischer, M., (2008). "Areas of Application for 3D and 4D Models on Construction Projects," Journal of Construction Engineering and Management, 134(10), 776-785.
[25]Russell, A., Staub-French, S., Tran, N. and Wong, W., (2009). "Visualizing High-Rise Building Construction Strategies using Linear Scheduling and 4D CAD," Automation in Construction, 18(2), 219-236.
[26]Zhou, W., Heesom, D., Georgakis, P., Nwagboso, C. and Feng, A., (2009). "An Interactive Approach to Collaborative 4D Construction Planning," Journal of Information Technology in Construction, 14, 30-47.
[27]Collier, E. and Fischer, M., "Visual-Based Scheduling: 4D Modeling on the San Mateo County Health Center," in Third Congress on Computing in Civil Engineering, Anaheim, CA, 1996.
[28]Hsieh, S. H., Chen, C. S., Liao, Y. F., Yang, C. T. and Wu, I. C., "Experiences on Development of a 4D Plant Construction Simulation System," in The 11th The International Conference on Computing in Civil and Building Engineering, Montreal, Canada, 2006.
[29]Bouchlaghem, D., Shang, H. P., Whyte, J. and Ganah, A., (2005). "Visualisation in Architecture, Engineering and Construction (AEC)," Automation in Construction, 14(3), 287-295.
[30]Popov, V., Mikalauskas, S., Migilinskas, D. and Vaininas, P., (2006). "Complex usage of 4D information modelling concept for building design, estimation, sheduling and determination of effective variant," Technological and Economic Development of Economy, 12(2), 91-98.
[31]Eastman, C., Teicholz, P., Sacks, R. and Liston, K., BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors. Hoboken, USA: John Wiley and Sons, 2008.
[32]Jernigan, F. E., BIG BIM little bim, 2nd ed. USA: 4Site Press, Salisbury, Maryland, 2008.
[33]Sacks, R., Kaner, I., Eastman, C. M. and Jeong, Y. S., (2010). "The Rosewood Experiment - Building Information Modeling and Interoperability for Architectural Precast Facades," Automation in Construction, 19(4), 419-432.
[34]Dossick, C. S. and Neff, G., (2010). "Organizational Divisions in BIM-Enabled Commercial Construction," Journal of Construction Engineering and Management-Asce, 136(4), 459-467.
[35]Manning, R. and Messner, J. I., (2008). "Case Studies in BIM Implementation for Programming of Healthcare Facilities," Journal of Information Technology in Construction, 13, 246-257.
[36]Akinci, B., Fischen, M., Levitt, R. and Carlson, R., (2002). "Formalization and Automation of Time-Space Conflict Analysis," Journal of Computing in Civil Engineering, 16(2), 124-134.
[37]Whyte, J., Bouchlaghem, N., Thorpe, A. and McCaffer, R., (2000). "From CAD to Virtual Reality: Modelling Approaches, Data Exchange and Interactive 3D Building Design Tools," Automation in Construction, 10(1), 43-55.
[38]Goedert, J. D. and Meadati, P., (2008). "Integrating Construction Process Documentation into Building Information Modeling," Journal of Construction Engineering and Management-Asce, 134(7), 509-516.
[39]Eastman, C., Lee, J. M., Jeong, Y. S. and Lee, J. K., (2009). "Automatic rule-based checking of building designs," Automation in Construction, 18(8), 1011-1033.
[40]Jang, W. S. and Skibniewski, M. J., (2008). "A Wireless Network System for Automated Tracking of Construction Materials on Project Sites," Journal of Civil Engineering and Management, 14(1), 11-19.
[41]Jeong, Y. S., Eastman, C. M., Sacks, R. and Kaner, I., (2009). "Benchmark tests for BIM data exchanges of precast concrete," Automation in Construction, 18(4), 469-484.
[42]Popov, V., Juocevicius, V., Migilinskas, D., Ustinovichius, L. and Mikalauskas, S., (2010). "The Use of a Virtual Building Design and Construction Model for Developing an Effective Project Concept in 5D Environment," Automation in Construction, 19(3), 357-367.
[43]Davis, D., (2007). "LEAN, Green and Seen," Journal of Building Information Modeling, Fall(2007), 16-18.
[44]Shen, W. M., Hao, Q., Mak, H., Neelamkavil, J., Xie, H., Dickinson, J., Thomas, R., Pardasani, A. and Xue, H., (2010). "Systems Integration and Collaboration in Architecture, Engineering, Construction, and Facilities Management: A Review," Advanced Engineering Informatics, 24(2), 196-207.
[45]Reichardt, M., (2007). "Convergence and Standards," Journal of Building Information Modeling, Fall, 36-38.
[46]Howard, R. and Bjork, B. C., (2008). "Building Information Modelling - Experts'' Views on Standardisation and Industry Deployment," Advanced Engineering Informatics, 22(2), 271-280.
[47]Hoekstra, J., (2003). "Big Buzz for BIM - Is the Latest Approach to A/E/C Software a Revolutionary One or Just Repackaged Technology at a Higher Price," Architecture, 92(7), 79-81.
[48]Chapman, C. and Ward, S., (2003). "Constructively Simple Estimating: A Project Management Example," Journal of the Operational Research Society, 54(10), 1050-1058.
[49]Donath, D., Loemker, T. M. and Richter, K., (2004). "Plausibility in the Planning Process - Reason and Confidence in the Computer-Aided Design and Planning of Buildings," Automation in Construction, 13(2), 159-166.
[50]Zavadskas, E. K., Kaklauskas, A., Turskis, Z. and Tamosaitiene, J., (2008). "Selection of the Effective Dwelling House Walls by Applying Attributes Values Determined at Intervals," Journal of Civil Engineering and Management, 14(2), 85-93.
[51]Migilinskas, D. and Ustinovichius, L., (2006). "Computer-Aided Modelling, Evaluation and Management of Construction Projects According to PLM Concept," Cooperative Design, Visualization, and Engineering, Proceedings, 4101, 242-250.
[52]Khanzode, A., Fischer, M. and Reed, D., (2008). "Benefits and Lessons Learned of Implementing Building Virtual Design and Construction (VDC) Technologies for Coordination of Mechanical, Electrical, and Plumbing (MEP) Systems on a Large Healthcare Project," Journal of Information Technology in Construction, 13, 324-342.
[53]Kaner, I., Sacks, R., Kassian, W. and Quitt, T., (2008). "Case Studies of BIM Adoption for Precast Concrete Design by Mid-Sized Structural Engineering Firms," Journal of Information Technology in Construction, 13, 303-323.
[54]Becerik-Gerber, B. and Rice, S., (2010). "The Perceived Value of Building Information Modeling in the U.S. Building Industry," Journal of Information Technology in Construction, 15, 185-201.
[55]Jordani, D., (2008). "BIM: A Healthy Disruption to a Fragmented and Broken Process," Journal of Building Information Modeling, Spring(2008), 24-26.
[56]Ku, K., Pollalis, S. N., Fischer, M. A. and Shelden, D. R., (2008). "3D Model-Based Collaboration in Design Development and Construction of Complex Shaped Buildings," Journal of Information Technology in Construction, 13, 258-285.
[57]Kuo, C. H., Tsai, M. H., Kang, S. C. and Hsieh, S. H., (2011). "Visual Management Tool for Multi-System Construction Project," Automation in Construction, 20(3), 247-262.
[58]Ducq, Y., Chen, D. and Vallespir, B., (2004). "Interoperability in Enterprise Modelling: Requirements and Roadmap," Advanced Engineering Informatics, 18(4), 193-203.
[59]Kang, L. S., Jee, S. B. and Kim, C. H., "4D System for Visualizing Schedule Progress of Horizontal Construction Project Including Earthwork," in The 6th International Conference on Construction Applications of Virtual Reality, Orlando, Florida, USA, 2006.
[60]Boloix, G., (1997). "System evaluation and quality improvement," Journal of Systems and Software, 36(3), 297-311.
[61]Caldas, C. H. and Soibelman, L., (2003). "Automating Hierarchical Document Classification for Construction Management Information Systems," Automation in Construction, 12(4), 395-406.
[62]Susman, G., "Action Research: A Sociotechnical Systems Perspective," in Beyond Method: Strategies for Social Research, G. Morgan, Ed., 1 ed London: Sage Publications, 1983, pp. 95-113.
[63]Ahuja, H. N., Dozzi, S. P. and AbouRizk, S. M., Project Management: Techniques in Planning and Controlling Construction Projects. New York: Wiley, 1994.
[64]Lu, C. C., Kang, S. C., Hsieh, S. H. and Shiu, R. S., (2009). "Improvement of a Computer-Based Surveyor-Training Tool using a User-Centered Approach," Advanced Engineering Informatics, 23(1), 81-92.
[65]Chen, C. H., Sato, K. and Lee, K. P., (2009). "Human-Centered Product Design and Development," Advanced Engineering Informatics, 23(2), 140-141.
[66]Casera, S. and Kropf, P., (2010). "Collaboration in Scientific Visualization," Advanced Engineering Informatics, 24(2), 188-195.
[67]Adriaanse, A., Dewulf, G. and Voordijk, H., "The Introduction of Building Information Modeling in Construction Project: An IT Innovation Perspective," in The 9th International Conference on Construction Applications of Virtual Reality, Sydney, Australia, 2009.
[68]Schmelter, S. and Cory, C., "Creation of a Building Information Modelling Course for Commercial Construction at Purdue University," in The 9th International Conference on Construction Applications of Virtual Reality, Sydney, Australia, 2009.
[69]Chau, K. W., Anson, M. and De Saram, D. D., (2005). "4D dynamic construction management and visualization software: 2. Site trial," Automation in Construction, 14(4), 525-536.
[70]Richter, K. F., Weber, B., Bojduj, B. and Bertel, S., (2010). "Supporting the Sesigner''s and the User''s Perspectives in Computer-Aided Architectural Design," Advanced Engineering Informatics, 24(2), 180-187.
[71]Chong, Y. T. and Chen, C. H., (2010). "Management and Forecast of Dynamic Customer Needs: An Artificial Immune and Neural System Approach," Advanced Engineering Informatics, 24(1), 96-106.
[72]Berwald, S., "From CAD to BIM: The Experience of Architectural Education with Building Information Modeling," in The Architectural Engineering Institute (AEI) 2008 conference, Denver, Colorado, 2008.
[73]Denzer, A. S. and Hedges, K. E., "From CAD to BIM: Educational Strategies for the Coming Paradigm Shift," in The Architectural Engineering Institute 2008 conference, Denver, Colorado, 2008.
[74]Borenstein, D., (1998). "Towards a Practical Method to Validate Decision Support Systems," Decision Support Systems, 23(3), 227-239.
[75]Chong, Y. T., Chen, C. H. and Leong, K. F., (2009). "Human-Centric Product Conceptualization using a Design Space Framework," Advanced Engineering Informatics, 23(2), 149-156.
[76]Stappers, P. J., van Rijn, H., Kistemaker, S. C., Hennink, A. E. and Visser, F. S., (2009). "Designing for Other People''s Strengths and Motivations: Three Cases using Context, Visions, and Experiential Prototypes," Advanced Engineering Informatics, 23(2), 174-183.
[77]Smith, D., (2007). "An Introduction to Building Information Modeling (BIM)," Journal of Building Information Modeling, Fall, 12-14.
[78]Smith, D. K. and Tardif, M., Building information modeling: a strategic implementation guide for architects, engineers, constructors, and real estate asset managers. USA: John Wiley, 2009.
[79]Senkul, P. and Toroslu, I. H., (2005). "An Architecture for Workflow Scheduling under Resource Allocation Constraints," Information Systems, 30(5), 399-422.
[80]Ford, J. D., Ford, L. W. and D''Amelio, A., (2008). "Resistance to Change: The Rest of the Story," Academy of Management Review, 33(2), 362-377.
[81]Hartmann, T. and M.Fischer, (2009). "A Process View on End-User Resistance During Construction IT Implementations," Journal of Information Technology in Construction, 14, 353-365.
[82]Cooper, R. B. and Zmud, R. W., (1990). "Information Technology Implementation Research: A Rechnological Diffusion Approach," Management Science, 36(2), 123-139.
[83]Swanson, E. B. and Ramiller, N. C., (2004). "Innovating Mindfully with Information Technology," Mis Quarterly, 28(4), 553-583.
[84]Klein, K. J. and Sorra, J. S., (1996). "The Challenge of Innovation Implementation," Academy of Management Review, 21(4), 1055-1080.
[85]Hickey, A. M. and Davis, A. M., (2004). "A Unified Model of Requirements Elicitation," Journal of Management Information Systems, 20(4), 65-84.
[86]Santoro, F. M., Borges, M. R. S. and Pino, J. A., (2010). "Acquiring Knowledge on Business Processes from Stakeholders'' Stories," Advanced Engineering Informatics, 24(2), 138-148.
[87]Hartmann, T. and Fischer, M., (2007). "Supporting the Constructability Review with 3D/4D Models," Building Research and Information, 35(1), 70-80.
[88]Hu, W., He, X. and Kang, J. H., "From 3D to 4D Visualization in Building Construction," in The Computing in Civil Engineering, Cancun, Mexico, 2005.
[89]Succar, B., (2009). "Building Information Modelling Framework: A Research and Delivery Foundation for Industry Stakeholders," Automation in Construction, 18(3), 357-375.
[90]Krantz, J. and Maltz, M., (1997). "A framework for consulting to organizational role," Consulting Psychology Journal: Practice and Research, 49(2), 137-151.
[91]Liao, Y. F., Hsieh, S. H., Kang, S. C., Chen, C. S., Yang, C. T., Chi, H. L., Chi, W. C. and Yu, C. H., "Development and Application of 4D Construction Simulation Tools," in The 4th International Civil Engineering Conference (CECAR4), Taipei, Taiwan, 2007.
[92]Gamma, E., Helm, R., Johnson, R. and Vlissides, J., Design Patterns: Elements of Reusable Object-Oriented Software. Canada: Addison-Wesley Professional, 1998.
[93]Tsai, M. H., Kang, S. C., Hsieh, S. H., Kuo, C. H., Pei, T. J. and Yeh, K. C., "Experiences on Study of Setting-up a 4D Construction Management Tool in a High-rise Construction Project," in The International Conference on Computing in Civil and Building Engineering- XII, Beijing, China, 2008.
[94]Leite, F., Akcamete, A., Akinci, B., Atasoy, G. and Kiziltas, S., (2011). "Analysis of modeling effort and impact of different levels of detail in building information models " Automation in Construction, 20(5), 601-609.
[95]Fischer, M. and Kunz, J., (2003). "Impact of information technology on facility engineering," Leadership and Management in Engineering, 3, 100-103.
[96]Kanagasabapathi, B. and Ananthanarayanan, K., (2004). "Implementation of 4D Visualization as a Planning Tool in the Indian AEC Industry," Journal of Institution of Engineers, Architectural Engineering Division, 85(2), 35-40.




QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top
無相關期刊