維護管理階段;建議二為拓展結合 BIM 與離散事件模擬(Discrete-Event Simulation, DES)技術應 用於建築工程施工階段資源分配及時程規劃之研究;建議三為拓展結合 BIM 與 ERP 應用於建
高科技廠建置會搭配基本 BIM 模型資料管理,故建議加強 BIM 於本國工程施工階段與維護管 理階段之深層應用研究,並將研究成果於國內業界推廣。
建議二
拓展結合 BIM 與離散事件模擬(Discrete-Event Simulation, DES)技術應用於建築工程施工階 段資源分配及時程規劃之研究:立即可行建議
應用離散事件模擬(Discrete-Event Simulation, DES)技術於電腦數值模擬分析為協助使用者 於施工管理過程中迅速做出決策分析的利器之一。精確建立施工過程模型後,可利用電腦數值 模擬分析出較佳的替代方案及優化相關資源的動態空間規劃。然而,在建築業中應用電腦數值 模擬分析技術於施工管理的案例幾乎很難找到,主要原因為電腦數值模擬分析技術的複雜性和 建築業人員缺乏該技術的相關知識,另一個可能的原因為需要針對不同的營建管理目標開發不 同的電腦數值模擬模型。由於通常不同的工程會有不同的工項及工項間網絡關係,導致不同的 工程需要使用不同的電腦數值模擬模型。另外,目前工程管理一般皆使用要徑法( Critical Path Method ,CPM)技術做排程、時程控制,然而應用要徑法技術的電腦軟體與應用電腦數值模 擬技術的電腦軟體間並不相容,因此想同時應用這兩種技術仍存在一個很大的技術門檻,也導 致幾乎很難找到應用電腦數值模擬分析技術於建築業施工管理做排程、時程控制的案例。
綜上,建議研究開發一可匯入及應用 BIM 工程基本資訊,並與實際建築工程施工管理系統
參考書目
[1] 陳士明 (2017). 應用 BIM 於建築工程之資源分配及時程規劃策略研究, 內政部建築研究所.
[2] 陳士明 (2018). 應用 BIM 及 AI 之建築工程資源分配及時程規劃系統研發, 內政部建築研究所.
[3] Li, H., and Love, P. (1997). ‘‘Using improved genetic algorithms to facilitate time-cost optimization.’’
J. Constr. Eng. Manage., 123(3), 233–237.
[4] Hegazy, T. (2002). “Computer-based construction project management,” Prentice-Hall, Upper Saddle River, N.J.
[5] Hegazy, T. and El-Zamzamy, H., (1998) "Project Management Software that Meet the Challenge,"
Cost Engineering, AACE International, Vol. 4, No. 5, pp.25-33.
[6] Sawhney, A., Abudayyeh, O., and Chaitavatputtiporn, T. (1999) Modeling and Analysis of a Concrete Production Plant using Colored Petri Nets. Journal of Computing in Civil Engineering, American Society of Civil Engineers (ASCE), To Appear in July 1999 Issue.
[7] Azhar, S., Justin Brown and Farooqui, R. (2008) : BIM-based Sustainability Analysis: An Evaluation of Building Performance Analysis Software: College of Architecture, Design and Construction at Auburn University, Auburn, Alabama - White paper.
[8] O'Conner, J.T., and Dodd, S.C. (1999). "Capital Facility Delivery with Enterprise Resource Planning Systems" Rep. No. 8, Center for Construction Industry Studies, University of Texas, Austin, Tex.
[9] O’Conner, J. T., and Dodd, S. C. (1999). ‘‘Capital facility delivery with enterprise resource planning systems.’’ Rep. No. 8, Center for Construction Industry Studies, University of Texas, Austin, Tex.
[10] Jacobs, F. R., and Whybark, D. C. ~2000!. Why ERP? A primer on SAP implementation, McGraw-Hill, New York.
[11] Hare, D. (1999). ‘‘Succeeding with ERP.’’ Manuf. Eng., 78(2), 65–67.
[12] Kwak, Y.; Park, J.; Chung, B.; Ghosh, S.;(2011) Understanding End-Users' Acceptance of Enterprise Resource Planning (ERP) System in Project-Based Sectors: , IEEE Transactions on Engineering Management Vol: PP Issue:99, pp 1 - 12
[13] Willcocks, L.P., and Sykes, R. (2000). "The Role of the CIO and IT Function in ERP"
Communications of the ACM, Vol. 43 (4), p. 32-38.
[14] TATARI, O., CASTRO-LACOUTURE, D. and SKIBNIEWSKI, M. 2007. Current state of construction enterprise information systems: survey research. Construction Innovation, 7, 310-319.
[15] TATARI, O., CASTRO-LACOUTURE, D. and SKIBNIEWSKI, M. J. 2008. Performance evaluation of construction enterprise resource planning systems. Journal of Management in Engineering, 24, 198-206.
[16] Chung, B. Y., Skibniewski, M. J. and Kwak Y. H. (2009). Developing ERP Systems Success Model for the Construction Industry. Journal of Construction Engineering and Management, 135, 207-216.
[17] Chung, B. Y., Skibniewski, M. J., Lucas JR, H. C. and Kwak, Y. H. (2008) Analyzing Enterprise Resource Planning System Implementation Success Factors in the Engineering--Construction Industry.
Journal of Computing in Civil Engineering, 22, 373-382.
[18] 陳建忠, 施宣光(2015). 臺灣 COBie-TW 標準與使用指南規劃與雛型建置, 內政部建築研究 所.
[19] Koo, Bonsang and M. Fischer, Feasibility Study of 4D CAD in Commercial Construction, ”, Journal of Construction Engineering and Management, ASCE, 126(4), July/August, 2000, pp. 251-260.