工作群組式重複性專案排程與最佳化模式之研究

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孫國勛(Kuo-Shun Sun) 查詢紙本館藏

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土木工程學系

論文名稱

工作群組式重複性專案排程與最佳化模式之研究
(Scheduling and optimization of workgroup-based repetitive projects)

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摘要(中)

重複性專案係表示該專案中之作業具有高度相似之特性，作業資源之使用可以因應作業重複之特性作連續性之安排而更有效率。
傳統重複性專案之定義為：『一組單元網圖的重複施作』，此一定義對於重複性專案的形式有所限制，使其應用範圍受限。本研究將重複性專案由工作群組之觀點加以定義，可以有效擴展重複性專案之適用範圍。本研究並根據所定義之工作群組式重複性專案，考慮作業使用多樣性資源時耗時及成本之差異、作業邏輯關係之非序列性、資源移動效應(進場、出場及作業間移動)等內涵，以"資源指派”及”作業優先順序”為決策變數，建立符合資源連續性之排程規劃模式，並以基因演算方法之概念為基礎，設計工作群組式重複性專案排程規劃之最佳解尋優模式，以有效改善其排程規劃績效。本研究結果擴展了重複性專案應用之範圍，增加了順序指派及多樣性資源使用的能力，維持了資源使用連續性的要求，使重複性專案之排程規劃更能符合實務應用之需求。

摘要(英)

Repetitive activities are commonly found in construction projects. It is stated in many literatures that repetitive scheduling methods are more effective than traditional CPM methods in the planning and scheduling of repetitive construction projects. Nevertheless, almost all the repetitive scheduling methods developed so far have been based on the premise that a repetitive project is comprised of many identical production units. In this research a workgroup based algorithm and a prototype system are developed for the planning and scheduling of repetitive projects. Instead of repetitive production units, repetitive or similar activity groups are identified and employed for scheduling. The developed system takes into consideration (1) the logical relationship of activity groups in a repetitive project, (2) the usage of various resource crews in an activity group, (3) the maintaining of resource continuity, and (4) the time and cost for the routing of resource crews. An optimization model for workgroup-based repetitive scheduling developed. The genetic algorithm (GA) is employed in model formation for finding the optimal solution. A chromosome representation, as well as specification of other parameters for GA analysis, are described. Many case studies are conducted for system validation, as well as for demonstration. Application of repetitive scheduling methods can be facilitated with the developed system.

關鍵字(中)

★ 排程
★ 工作群組式重複性專案
★ 最佳化

關鍵字(英)

★ Scheduling
★ optimization
★ workgroup-based repetitive projects

論文目次

摘要 ............................................................................................................................ I
ABSTRACT.................................................................................................................. II
謝誌 ..........................................................................................................................III
目錄 ..........................................................................................................................VI
圖目錄..........................................................................................................................IX
表目錄.......................................................................................................................XXI
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 研究範圍與內容 4
1-4 研究方法 5
1-5 研究步驟與流程 6
1-6 論文架構說明 8
第二章文獻回顧 10
2-1 單元網圖式重複性專案之定義與排程方法 10
2-1.1 單元網圖式重複性專案之定義與特徵 10
2-1.2 單元網圖式重複性專案之排程方法 13
2-1.3 線性平衡法 15
2-1.4 線性排程法 18
2-1.5 單元網圖式重複性專案排程方法假設及特徵之比較 20
2-2 重複性專案排程最佳解尋優 22
2-2.1 解析法於單鏈式單元網圖重複性專案排程最佳化之應用 22
2-2.2 解析法於非單鏈式單元網圖重複性專案排程最佳化之應用 23
2-2.3 基因演算法於單元網圖式重複性專案排程最佳化之應用 24
第三章工作群組式重複性專案之排程模式 28
3-1 工作群組式重複性專案之定義 28
3-2 排程規劃特性分析 30
3-3 「工作群組式重複性專案」排程模式建立 33
3-3.1 工作群組排程順序 34
3-3.2 資源鏈之組成 34
3-3.3 資源鏈在整體專案排程中之定位 35
3-4 重複性專案淨現值之計算 38
3-5 排程規劃模式之流程 40
第四章工作群組式重複性專案排程模式之案例分析 43
4-1 三群組專案排程基本資料說明與排程結果 43
4-2 三群組專案排程之情境分析 47
4-3 「工作群組式重複性專案」排程演算法與「單元網圖式重複性專案」排程演算法之比較 52
4-3.1 Ammar and Elbeltagi(2001)第一個重複性專案範例 53
4-3.2 Ammar and Elbeltagi(2001)第一個重複性專案之情境分析 58
4-3.3 Ammar and Elbeltagi(2001)第二個重複性專案範例 64
第五章工作群組式重複性專案排程最佳解尋優模式 68
5-1 演算法架構設計 68
5-2 染色體表示法 69
5-3 基因運算子之設計 70
5-4 適存值計算 73
5-5 選取及取代策略 74
5-6 尋優程式設計 75
第六章工作群組式重複性專案排程最佳解尋優案例分析 87
6-1 三群組專案排程最佳解尋優 87
6-2 三群組專案排程最佳解尋優之情境分析 88
6-3 六群組專案排程最佳解尋優 92
6-3.1 基因演算法相關參數之敏感度分析 96
6-3.2 淨現值參數之敏感度分析 103
第七章工作群組式重複性專案實例分析 106
7-1 基本資料 106
7-1.1 公部門(業主)所提供資料之整理與說明 110
7-1.2 主承包商所提供資料之整理與說明 114
7-1.3 專業分包商所提供資料之整理與說明 116
7-2 規劃情境分析 123
7-3 實際案例最佳尋優排程演算結果及與常用規劃情境分析排程成果之比較 132
第八章結論與建議 138
8-1 結論 138
8-2 研究限制 140
8-3 未來研究之建議 141
參考文獻 144
附錄一重複性專案成本及淨現值計算模式 157
A1-1 重複性專案成本內涵組成形式 157
A1-2 專案之會計總成本計算 158
A1-3 專案之淨現值計算 159
附錄二六群組測試案例各作業項目之施作耗時與成本 163
附錄三六群組測試案例各資源項目之移動耗時 177
附錄四六群組測試案例各資源項目之移動成本 223
附錄五「工作群組式重複性專案」排程演算法與要徑法之比較 269
附錄六「工作群組式重複性專案」排程演算法與要徑法之結合策略與自動化 278

參考文獻

姚乃嘉、楊智斌、郭文達(2001)，“投標決策因素之分析與應用”，建築學報，第36 期，第21-37頁
姚乃嘉、楊智斌、郭文達(1998)，“營造公司工程現金流量之預測模式”，中國土木水利工程學刊，第10 卷，第3 期，第397-406頁
孫國勛、黃榮堯(2004)1，“泛用型重複性專案之排程最佳化”，第八屆營建工程與管理研究成果聯合發表會摘要集，台灣台北，第79-80頁(全文採用光碟片型式發行)。
孫國勛、黃榮堯(2004)2，“泛用型重複性專案之成本模式”，清雲科技大學2004土木工程研討會，台灣桃園，第D27-32頁。
黃榮堯、孫國勛(2003)1，“物件導向技術於非單元式多資源重複性排程之應用”，92年電子計算機於土木水利工程應用研討會摘要集，台灣台北(全文採用光碟片型式發行)。
孫國勛、黃榮堯(2003)2，“非單元式多資源之重複性專案排程演算法”，第七屆營建工程與管理研究成果聯合發表會，台灣高雄，第400-407頁。
孫國勛、黃榮堯(2000)，“重覆施工單元之電腦排程規劃”，第四屆建築生產及管理技術研討會論文集，台灣雲林，第271-280頁。
孫國勛、曾清枝(2002)，『具重複性施工單元之工程專案排程模擬』，現代營建雜誌，第23卷，第6期，第55-64頁。
廖國禎(1998)，營建管理，科技圖書出版社出版。
劉昱江、馮重偉、鄭道明(2000)，“基因演算法在重複性工程時間成本分析之應用”，第四屆營建工程與管理研究成果聯合發表會論文集，台灣，台中，第73-84頁。
蔣維夏(1982)， “線平衡法施工計劃簡介”，中國土木水利工程學會會刊，，第9卷，第1期，第23-29頁。
謝劍平(2004)，財務管理-新觀念與本土化，智勝文化事業有限公司出版，台北市，台灣。
Abbasi, Ghaleb Y., and Arabiat, Yasser A. (2001), “A heuristic to maximize the net present value for resource-constrained project-scheduling problems,” Project Management Journal, 32(2), 17-24.
Adeli, Hojjat, and Karim, Asim (1997), “Scheduling/cost optimization and neural dynamics model for construction”, J. of Constr. Engrg. and Mgmt., ASCE, 123(4), 450-458.
Adeli, Hojjat, and Park, H. S. (1995), “A neural dynamics model for structural optimization - Theory”, Comp. and Struct., 57(1), 383-390.
Aebestyen, Gyula (1993), “Planning construction of repetitive: comment”, Construction Management and Economics, 11, 487-488.
Al-Harbi, Kamal Al-Subhi, Selim, Shokri Z., and Al-Sinan, Maazen (1996), “A multiobjective linear program for scheduling repetitive projects”, Cost Engrg., 38(12), 41-45.
Ammar, Mohammad A., and Elbeltagi, Emad (2001), “Algorithm for determining controlling path considering resource continuity”, J. Comp. in Civ. Engrg., ASCE, 15(4), 292-298.
Ammar, Mohammad A., and Elbeltagi, Emad (2003), Closure of “Algorithm for determining controlling path considering resource continuity”, J. Comp. in Civ. Engrg., ASCE, 17(1), 72-73.
Arditi, David, and Albulak, M. Zeki (1986), “Line-of-balance scheduling of pavement construction, J. of Constr. Engrg. and Mgmt., ASCE, 112(3), 411-424.
Arditi, David, Sikangwan, Pirasak, and Tokdemir, Ounr B. (2002), “Scheduling system for high rise building construction”, Construction Management and Economics, 20, 353-364.
Arditi, David, Tokdemir, Onur B., and Sch, Kangsuk (2002), “Challenges in line-of-balance scheduling”, J. of Constr. Engrg. and Mgmt., ASCE, 128(6), 545-556.
Ashley, D.B. (1980), “Simulation of repetitive-unit construction”, J. of the Construction Division, ASCE, 106(CO2), 185-194.
Barrie, Donald S., and Paulson, Boyd C.(1992), Professional construction management, 3rd ed., McGraw-Hill.
Bartusch, M., Mo¨hring, R. H., and Radermacher, F. J. (1988). “Scheduling project networks with resource constraints and time windows,” Ann. of Operations Res., Basel, Switzerland, 16, 201–240.
Bean, J. C. (1994), “Genetic algorithms and random keys for sequencing and optimization.” ORSA J. on Comp., 6(2), 154–160.
Birrell, G. S. (1980), “Construction planning-Beyond the critical path”, J. of the Construction Division, ASCE, 106(CO3), 389-407.
Brealey, Richard A., Myers, Stewart C., and Marcus, Alan J. (2003), Fundamentals of Corporate Finance, 4th ed., McGraw-Hill Inc.
Booch, Goody, Rumbaugh, James, and Jacobson, Ivar (1999), The unified Modeling Language User Guide, Addison-Wesley, Longman.
Carr, Robert I., and Mayer, Walter L. (1974), “Planning construction of repetitive building units”, J. of the Construction Division, ASCE, 100(CO3), 403-412.
Chakroborty, Partha (2003), “Genetic Algorithms for Optimal Urban Transit Network Design”, Computer Aided Civil and Infrastructure Engineering, 18(3), 184-200.
Chan, Weng-Tat, Chua, David K.H., and Kannan, Govindan (1996), “Construction Resource Scheduling with Genetic Algorithms”, J. of Constr. Engrg. and Mgmt., ASCE, 122(2), 125-132.
Chan, W. T., and Hu, Hao (2002), “Production Scheduling for Precast Plants using a Flow Shop Sequencing Model”, J. Comp. in Civ. Engrg., ASCE, 16(3), 165-174.
Chen, C. L., Vempati, V. S., and Aljaber, N. (1995), “An application of genetic algorithms for flow shop problems.” Eur. J. Operational Res., Amsterdam, 80, 389–396.
Cheng, Tao-Ming, and Feng, Chung-wei (2003), “An effective simulation mechanism for construction operations”, Automation in Construction, 12(3), 227-244.
Cheung, Sai-On, Tong, Thomas Kin-Lun, and Tam, Chi-Ming (2002), “Site pre-cast yard layout arrangement through genetic algorithms”, Automation in Construction, 11(1), 217-226.
Chrzanowski, Edmund N., and Johnston, David W. (1986), “Application of linear scheduling”, J. of Constr. Engrg., ASCE, 112(4), 476-491.
Cole, L. J. R. (1991), “Construction scheduling: Principles, Practices, and six case studies”, J. of Constr. Engrg. and Mgmt., ASCE, 117(4), 579-588.
Chua, D. K. H., Can, W. T., and Govinan, K. (1997), “A time-cost tradeoff model with resource consideration using genetic algorithm.” Civ. Engrg. Sys., Surrey, England, 14, 291–311.
Degarmo, E. Paul, Sullivan, William G., Bontadelli, James A.,and Wicks, Elin M. (2000), Engineering economy, Prentice-Hall International Inc., Upper Saddle River, New Jersey.
Dressler, Joachim (1980), “Construction management in West Germany.” J. of the Construction Division, ASCE, 106(CO4), 477-487.
Dzeng, R. J., Tserng, H. P., and Wang, W. C.(2005), “Automating Schedule Review for Expressway Construction.” J. of Constr. Engrg. and Mgmt., ASCE, 131(1), 127-136.
Dzeng, R. J., Wang, W. C., and Tserng, H. P. (2004), “Module-Based Construction Schedule Administration for Public Infrastructure Agencies.” J. of Constr. Engrg. and Mgmt., ASCE, 130(1), 5-14.
Elmaghraby S. E. (1977), Activity networks: project planning and control by network models, Wiley, New York.
El-Rayes, Khaled, and Moselhi, Osama (1998), “Resource-driven scheduling of repetitive activities”, Construction Management and Economics, 16, 433-446.
El-Rayes, Khaled, and Moselhi, Osama (2001), “Optimizing resource utilization for repetitive construction projects”, J. of Constr. Engrg. and Mgmt., ASCE, 127(1), 18-27.
El-Rayes, Khaled (2001)1, “Object-oriented model for repetitive Construction scheduling”, J. of Constr. Engrg. and Mgmt., ASCE, 127(3), 199-205.
El-Rayes, Khaled (2001)2, “Optimum planning of highway construction under A + B bidding method”, J. of Constr. Engrg. and Mgmt., ASCE, 127(4), 261-269.
El-Rayes, Khaled, Ramanathan, Ramaneetharan, and Moselhi, Osama (2002), “An object-oriented model for planning of housing construction”, Construction Management and Economics, 20, 201-210.
Eldin, Neil N., and Senouci, Ahmed B. (1994), “Scheduling and control of linear projects”, Can. J. Civ. Engrg., 21, 219-230.
Etgar, Ran, Shtub, Avraham, and LeBlanc, Larry J. (1996), “Scheduling projects to maximize net present value - the case of time-dependent, contingent cash flows,” European Journal of Operational Research, 96(1), 90-96.
Feng, Chung-Wei, Cheng, Tao-Ming, and Wu, Hsien-Tang (2004), “Optimizing the schedule of dispatching RMC trucks through genetic algorithms.” Automation in Construction, 13(3), 327–340.
Feng, Chung-Wei, Liu,Liang, and Burns, Scott A. (1997), “Using Genetic Algorithms to Solve Construction Time-Cost Trade-Off Problems”, J. Comp. in Civ. Engrg., ASCE, 11(3), 184-189.
Gaither, N. (1992), Production and Operations Management, Harcount Brace Jovanovich, Fort Worth, TX.
Goldberg, David E. (1989), Genetic algorithms in search, optimization, and machine learning, Addison-Wesley, Reading, Mass.
Haidar, A., Naoum, S., Howes, R. and Tah, J. (1999), “Genetic Algorithms Application and Testing for Equipment Selection”, J. of Constr. Engrg. and Mgmt., ASCE, 125(1), 32-38.
Hamelink, David J., and Rowings, James E. (1998), “Linear scheduling model development of controlling activity path”, J. of Constr. Engrg. and Mgmt., ASCE, 124(4), 263-268.
Hamelink, David J. (2001), “Linear scheduling model: float characteristics”, J. of Constr. Engrg. and Mgmt., ASCE, 127(4), 255-260.
Handa,V. K., and Barcia, R. M. (1986), “Linear scheduling using optimal control theory”, J. of Constr. Engrg. and Mgmt., ASCE, 112(3), 387-393.
Harris,Robert B., and Ioannou, Photios G. (1998), “Scheduling projects with repeating activities”, J. of Constr. Engrg . and Mgmt., ASCE, 124(4), 269-278.
Hegazy, Tarek (1999), “Optimization of Resource Allocation and Leveling Using Genetic Algorithms”, J. of Constr. Engrg. and Mgmt., ASCE, 125(3), 167-175.
Hegazy, Tarek, and Wassef, Nagib (2001), “Cost optimization in projects with repetitive nonserial activities”, J. of Constr. Engrg. and Mgmt., ASCE, 127(3), 183-191.
Hegazy, Tarek, and Petzold, Kevin (2003), “Genetic Optimization for Dynamic Project Control”, J. of Constr. Engrg. and Mgmt., ASCE, 129(4), 396-404.
Holland, J. (1975), Adaptation in natural and artificial systems, Ann Arbor: The University of Michigan Press.
Huang, Rong-Yau (2002), “Demand-supply model for resource planning of repetitive construction projects”, J. of Chinese institute of civil and hydraulic engineering, 14(3), 551-559.
Huang, Rong-Yau, and Sun, Kuo-Shun (2005), “System development for non-unit based repetitive project scheduling”，Automation in Construction, Accepted
Ioannou, Photies G., and Harris, Robert B. (2003), Discussion of “Algorithm for determining controlling path considering resource continuity”, J. Comp. in Civ. Engrg., ASCE, 17(1), 68-70,.
Jha, Manoj K., McCall, Cyrus, and Schonfeld, Paul (2001), “Using GIS, Genetic Algorithms, and Visualization in Highway Development”, Computer Aided Civil and Infrastructure Engineering, 16(6), 399-414.
Johnston, David W. (1981), “Linear scheduling method for highway construction”, J. of the Construction Division, ASCE, l07(CO2), 247-261.
Jong, Jyh-Cherng, Jha, Manoj K., and Schonfeld, Paul (2000), “Preliminary Highway Design with Genetic Algorithms and Geographic Information Systems”, Computer Aided Civil and Infrastructure Engineering, 15(4), 261-271.
Khisty, C. J. (1970), “The application of the “Line-of-balance” technique to the construction industry”, Indian Concrete Journal, 44(7), 297-300 and 319-320.
Krishnamoorthy, C. S., Venkatesh, P. Prasanna, and Sudarshan R. (2002), “Object-Oriented Framework for Genetic Algorithms with Application to Space Truss Optimization”, J. of Comp. in Civ. Engrg., ASCE, 16(1), 66-75.
Leu, Sou-Sen, Chen, An-Ting, and Yang, Chung-Huei (2001), “A GA-based fuzzy optimal model for construction time–cost trade-off”, International J. of Project Management, 19(1), 47-58.
Leu, Sou-Sen, and Hwang, Shao-Ting (2001), “Optimal repetitive scheduling model with shareable resource constraint”, J. of Constr. Engrg. and Mgmt., ASCE, 127(4), 270-280.
Leu, Sou-Sen, and Hwang, Shao-Ting (2002), “GA-based resource-constrained flow-shop scheduling model for mixed precast production”, Automation in Construction, 11(4), 439-452.
Leu, Sou-Sen, and Hung, Tzung-Heng (2002), “A genetic algorithm-based optimal resource-constrained scheduling simulation model”, Construction Management and Economics, 20(2), 131-141.
Leu, Sou-Sen, and Jeng, Yn-Mei (2000), “An integrated technology information system-an example on precasting building construction”, J. of Chinese institute of civil and hydraulic engineering, 12(3), 611-620.
Leu, Sou-Sen, and Yang, Chung-Huei (1999), “GA-Based Multicriteria Optimal Model for Construction Scheduling”, J. of Constr. Engrg. and Mgmt., ASCE, 125(6), 420-427.
Leu, Sou-Sen, Yang, Chung-Huei, and Huang, Jiun-Ching (2000), “Resource leveling in construction by genetic algorithm-based optimization and its decision support system application”, Automation in Construction, 10(1), 27-14.
Li, Heng, and Love, Peter E. D. (1997), “Using Improved Genetic Algorithms to Facilitate Time-Cost Optimization”, J. of Constr. Engrg. and Mgmt., ASCE, 123(3), 233-237.
Li, Heng, and Love, Peter E. D. (1998), “Site-Level Facilities Layout Using Genetic Algorithms”, J. of Comp. in Civ. Engrg., ASCE, 12(4), 227-231.
Li, Heng, Cao, J.-N., and Love P. E. D. (1999), “Using Machine Learning and GA to Solve Time-Cost Trade-Off Problems”, J. of Constr. Engrg. and Mgmt., ASCE, 125(5), 347-353.
Li, Heng, and Love, Peter E. D. (2000), “Genetic search for solving construction site-level unequal-area facility layout problems”, Automation in Construction, 9(2), 217-226.
Lu, Ming, and Li, Heng (2003), “Resource-activity critical-path method for construction planning,” J. of Constr. Engrg. and Mgmt., ASCE, 129(4), 412-420.
Mattila, Kris G, and Abraham, M. (1998), “Resource leveling of linear schedules using integer linear programming”, J. of Constr. Engrg. and Mgmt., ASCE, 124(3), 232-244.
Mawdesley, Michael J., Al-jibouri, Saad H., and Yang, Hongbo (2002), “Genetic Algorithms for Construction Site Layout in Project Planning”, J. of Constr. Engrg. and Mgmt., ASCE, 128(5), 418-426.
Moselhi, Osama, and El-Rayes, Khaled (19931), “Scheduling of repetitive projects with cost optimization”, J. of Constr. Engrg. and Mgmt., ASCE, 119(4), 681-697.
Moselhi, Osama, and El-Rayes, Khaled (19932), “Least cost scheduling for repetitive projects”, Canandian J. of Civil Engrg., 20(4), 834-843.
Navon, Ronie, and McCrea, Anna M. (1997), “Selection of Optimal Construction Robot Using Genetic Algorithm”, J. of Comp. in Civ. Engrg., ASCE, 11(3), 175-183.
Navy Office Naval Material (1962), Line of Balance Technology, NAVEXOS.
O’Brien James J. (1975), “VPM Scheduling for high-rise buildings”, J. of the Construction Division, ASCE, 101(CO4), 895-905.
O’Brien, J. J., Kreitzberg, F. C., and Mikes, W. F. (1985), “Network scheduling variations for repetitive work.” J. of Constr. Engrg. and Mgmt., ASCE, 111(2), 105–116.
Peer, Shlomo (1974), “Network analysis and construction planning”, J. of the Construction Division, ASCE, 100(CO3), 203-210.
Perera, Srilal (1983) , “Resource sharing in linear construction”, J. of Constr. Engrg. and Mgmt., ASCE, 109(1), 102-111.
Que, Bryan Christopher (2002), “Incorporating Practicability into Genetic Algorithm-Based Time-Cost Optimization”, J. of Constr. Engrg. and Mgmt., ASCE, 128(2), 139-143.
Reda, Rehab M. (1990), “RPM: repetitive project modeling”, J. of Constr. Engrg. and Mgmt., ASCE, 116(2), 316-330.
Reeves, C. R. (1995), “A genetic algorithm for flowshop sequencing.” Comp. and Operations Res., Oxford, U.K., 22(1), 5–13.
PMI (2000), A Guide to the Project Management Body of Knowledge, 2000 Ed., Project Management Institute, Pennsylvania, U.S.A.
Rumbaugh, J., Blaha, M., Premerlani, W., Eddy, F., and Lorensen, W. (1991), Object- oriented modeling and design, Prentice-Hall, Englewood, Cliffs, N. J.
Russell, Alan D., and Caselton, William F. (1988), “Extensions to linear scheduling optimization”, J. of Constr. Engrg. and Mgmt., ASCE, 114(1), 36-52.
Sarma, Kamal C., and Adeli, Hojjat (2001), “Bilevel Parallel Genetic Algorithms for Optimization of Large Steel Structures”, Computer Aided Civil and Infrastructure Engineering, 16(5), 295-304.
Sarraj, Zohair M. Al (1990), “Formal development of line-of-balance technique, J. of Constr. Engrg. and Mgmt., ASCE, 116(4), 689-704.
Schoderbek, Peter P., and Digman, Lester A (1967), “Third generation: PERT/LOB”, Haward Business Review, 45(5), 100-110.
Selinger, Shlomo (1980), “Construction planning for linear projects”, J. of the Construction Division, ASCE, 106(CO2), 195-205.
Senouci, Ahmed B., and Eldin, Neil N. (1996)1, “Dynamic programming approach to scheduling of non-serial linear project”, J. of Comp. in Civ. Engrg., ASCE, 10(2), 106-114.
Senouci, Ahmed B., and Eldin, Neil N. (1996) 2, “A time-cost trade-off algorithm for nonserial linear projects”, Can. J. Civ. Engrg., 23, 134-149.
Soh, Chee Kiong, and Yang, Jiaping (1996), “Fuzzy Controlled Genetic Algorithm Search for Shape Optimization”, J. of Comp. in Civ. Engrg., ASCE, 10(2), 143-150.
Stradal, Oldrich, and Cacha, Jisef (1982), “Time space scheduling method”, J. of the Construction Division, ASCE, 108(CO3), 269-278.
Suhail, S. A., and Neale, R. H. (1995), “CPM/LOB: New methodology to integrate CPM and line of balance.” J. Constr. Engrg. and Mgmt., ASCE, 120(3), 667–684.
Sunde, L., and Lichtenberg, S. (1995), “Net-present-value cost-time tradeoff,” International Journal of Project Management, 13(1), 45-49.
Tam, C. M., Leung, W. T., and Liu, D. K. (2002), “Nonlinear Models for predicting hoisting times of tower cranes”, J. of Comp. in Civ. Engrg., ASCE, 16(1), 76-81.
Tam, C. M., Tong, Thomas K. L., and Chan, Wilson K. W. (2002), “Genetic Algorithm for Optimizing Supply Locations around Tower Crane”, J. of Constr. Engrg. and Mgmt., ASCE, 127(4), 315-321.
Thabet, Walid Y., and Beliveau, Yvan J. (1994), “HVLS: horizontal and vertical logic scheduling for multistory projects”, J. of Constr. Engrg. and Mgmt., ASCE, 120(4), 875-892.
Vairavamoorthy, Kalanithy, and Ali, Mohammed (2000), “Optimal Design of Water Distribution Systems Using Genetic Algorithms”, Computer Aided Civil and Infrastructure Engineering, 15(5), 374-382.
Wang, Ching-Hwang, and Huang, Yu-Chun (1998), “Controlling activity interval times in LOB scheduling”, Construction Management and Economics, 16(1), 5-16.
Wang, Ching-Hwang, and Wu, Min-Chien (1998), “A multistage recursive algorithm for scheduling repetitive construction projects”, J. of Chinese institute of civil and hydraulic engineering, 10(1), 17-30.
Xu, Lei, and Gong, Yanglin (2001), “Preliminary Design of Long-Span King-Post Truss Systems with a Genetic Algorithm”, Computer Aided Civil and Infrastructure Engineering, 16(2), 94-105.
Yang, Jiaping, and Soh, Chee Kiong (1997), “Structural Optimization by Genetic Algorithms with Tournament Selection”, J. of Comp. in Civ. Engrg., ASCE, 11(3), 195-200.
Zouein, P. P., Harmanani, H., and Hajar, A. (2002), “Genetic Algorithm for Solving Site Layout Problem with Unequal-Size and Constrained Facilities”, J. of Comp. in Civ. Engrg., ASCE, 16(2), 143-151.

指導教授

黃榮堯(Rong-yau Huang)

審核日期

2005-7-21

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