122

REFERENCES

1. Al-Hussein, M. (1995). “A Computer integrated system for crane selection for

high-rise building construction.” M.A.Sc. thesis, Centre For Building Studies,

Concordia University.

2. Al-Hussein, M., Athar Niaz, M., Yu, H., and Kim, H. (2005). “Integrating 3D

visualization and simulation for tower crane operations on construction

sites.” Automation in Construction, 15(5), 554-562.

3. Al-Hussein, M., Alkass, S., and Moselhi, O. (2005). “Optimization Algorithm for

Selection and on Site Location of Mobile Cranes.” Journal of Construction

Engineering and Management, 131(5), 579-590.

4. Alkass, S., Alhussein, M., and Moselhi. (1997). “Computerized crane selection

for construction projects.” In: Stephenson, P (Ed.), Proceedings 13th Annual

ARCOM Conference, 15-17, Cambridge, UK. Association of Researchers in

Construction Management, Vol. 2, 427–36.

5. Al-Tabtabai, H.M., Kartam, N.I., Flood, I., and Alex, P., Alex. (1997).

“Construction Project Control Using Artificial Neural Networks.” Journal of

Artificial Intelligence for Engineering Design, Analysis and Manufacturing.

6. Albert, Chan, P.C., Daniel, Chan, W.M., and John Yeung, F.Y. (2008). Overview

of the Application of “Fuzzy Techniques in Construction Management

Research.” Journal of Construction Engineering And Management, ASCE.

7. Aviad Shapira, And Marat Goldenberg. (2007). “Soft Considerations in

Equipment Selection for Building Construction Projects.” Journal Of

Construction And Management.” ASCE.

8. André, M., and Sawhney, A. (2001). “IntelliCranes: an integrated crane type and

model selection system.” Construction Management & Economics, 19(2), 227-

237.

9. Ayyub, B.M., and Haldar, A. (1985). “Decision in Construction Operations.”

Journal of Construction Engineering and Management, ASCE, 111(4), 343-357.

10. Bansal, V. K., and Pal, M. (2007). “Potential of geographic information systems

in building cost estimation and visualization.” Automation in Construction, 16(3),

311-322.

123

11. Bansal, V. K., and Pal, M. (2009). “Construction schedule review in GIS with a

navigable 3D animation of project activities.” International Journal of Project

Management, 27(5), 532-542.

12. Bhaskar, V., Prakash, D., Eswar, K., and Kumar ,V.S.S. (2001). “An Effective

Safety Program in Construction Industry.’’ Proc. Of National Conference on

Disaster Prevention Mitigation and Management, Hyderabad, India.

13. Belton, V. and Gear, T. (1983). “On a Short-coming of Saaty's Method of

Analytic Hierarchies”. Omega, 228-230.

14. Beavers, J. E., Moore, J. R., Rinehart, R., and Schriver, W. R. (2006) “Crane-

Related Fatalities in the Construction Industry.”

15. Bellman, R.E., and Zadeh, L.A. (1970). “Decision making in a fuzzy

environment.” Management Science, 17, 141 – 164.

16. Blockly, D. I. (1979). "The Role of Fuzzy Sets in Civil Engineering." Fuzzy Sets

and Systems, 2, North Holland Publishing Co., Amsterdam, The Netherlands, 267

- 278.

17. Bortolan, G., and Degani, R. (1985). “A review of some methods for ranking

fuzzy subsets.” Fuzzy Sets and Systems, 15:1–20.

18. Choobineh, F., and Li, H. (1993). “Ranking fuzzy multi criteria alternatives with

respect to a decision maker’s fuzzy goal.” Information Science, 72, 143 – 155

19. Chen, S.H. (1986). “Ranking fuzzy numbers with maximizing set and minimizing

set.” Fuzzy Sets and Systems, 17:113–130.

20. Change, P.T., and Lee, E.S. (1999).“Fuzzy decision networks and deconvolution.”

Computers and Mathematics with Applications, 37, 53-63.

21. Chen, S.J., and Hwang, C.I. (1992). “Fuzzy multiple attribute decision making

methods and applications.” Springer, Berlin.

22. Choi, C. W., and Harris, F. C. (1991). “A model for determining optimum crane

position.” ICE Proc., 90(3), 627–634.

23. Chalabi, A, F. and Yandow, C. (1989). “An expert system for optimal tower

crane selection and placement.” Proceedings of the 6th

Conference on Computing

in Civil Engineering. P. 290 - 297.

124

24. Dombi, J. (1990). “Membership function as an evaluation.” Fuzzy sets and

Systems, Vol. 35 (1), pp. 1-21. Dong, W., and Shah, H. (1987). “Vertex Method

for computing functions of fuzzy variables.” Fuzzy Sets Sys., vol. 24, PP. 65-78.

25. Dong, W., Shah, H. and Wong, F. (1985). “Fuzzy computations in risk and

decision analysis.” Fuzzy Sets Sys., vol. 2, PP. 201-208.

26. Dubois, D., and Prade, H. (2000). “Fundamentals of fuzzy sets, in: The

Handbooks of Fuzzy Sets.” vol. 7, Kluwer Academic

27. Dickie, D. E. (1990). "Crane Handbook." Construction Safety association of

Ontario, 1-304.

28. Dicleman, B. ( 2002). “Selecting a tower crane.” Cranes Today, 327, 31. Dun &

Bradstreet D&B, (2003). “Dun’s 100. Construction, Development and

infrastructure companies.” Israel.

29. Dubois, D., and Prade, H. (1985). “Possibility theory: an approach to

computerized processing of uncertainty.” Plenum Press: New York.

30. Dubois, D., Gargier, H., and Prade, H. (1996). “Refinements of the maximum

approach to decision making in a fuzzy environment.” Fuzzy Sets and Systems,

81, 103 – 122.

31. Dombi, J. (1982). “A general class of fuzzy operators, the DeMorgan class of

fuzzy operators and fuzziness measures induced by fuzzy operators.” Fuzzy Sets

and Systems, 8:149–163.

32. Dombi, J. (1982). “Basic concepts for a theory of evaluation: The aggregative

operator.” EJOR, 10:282–293.

33. Dombi, J. (1990). “Membership function as an evaluation.” Fuzzy sets and

Systems, Vol. 35 (1), pp. 1-21.

34. Dubois, D., and Prade, H. (1980). “Fuzzy sets and systems, theory and

applications, Academic.” New York.

35. Eshwar, K., Rao, L.S., and Kumar, V.S.S. (2003). “Intelligent Planning for Bridge

Construction using Fuzzy Set Theory.” Proc. of International Conference on

Innovations in Planning, Design, and Techniques in Bridge

Engineering, Hyderabad, India, 655-667.

125

36. Evangelos Triantaphyllou., And Alfonso Sanchez.(1997). “A Sensitivity Analysis

approach For Some Deterministic Multi-Critiria Decision Making Methods.”

Decision Sciences Vol 28.

37. Excon, (2007). “Proceedings of the 4th Construction Equipment and Construction

Technology Trade Fair.”

38. Emsley, M. W. (1992), “Discussion on a model for the selection of the optimum

crane for construction sites.” Proc., Instn. Civ. Engrs., Struct. and Buildings, 94,

503–504.

39. Fattah Chalabi, A. (1989). "Crane, An Expert System for Optional Tower Crane

Selection and Placement." Sixth Conference on Computing in Civil Engineering.

40. Furusaka, S. and Gray, C., (1984). “A module for the selection of the optimum

crane for construction sites, Construction Management and Economics.” 2, 157-

176.

41. Farrell, C. W., and Hover, K. C. (1989). ‘‘Computerized crane selection and

placement for the construction site.’’ Proc., 4th Int. Conf. on Civil and Structural

Engineering Computing: Microcomputers to Supercomputers, ASCE, City

University, London, U.K., Vol. 1, 91–94.

42. Gray, C., and Little, J. (1985). "A Systematic Approach to the Selection of an

Appropriate Crane for a Construction Site." Construction Management and

Economics, 3, 121-144.

43. Givens, J., and Tahani, H. (1987). “An improved method of performing fuzzy

arithmetic for computer vision.” Proceedings of north American information

processing society (NAFIPS), Purdue University, West Lafayette, IN, PP. 275-

280.

44. Hanna, A. S. (1992). "Knowledge -Based System for Crane Selection." A

technical report submitted to National Research Council of Canada, Ottawa,

Canada.

45. Hersh, H. M., Caramazza, A., and Brownell, H.H. (1979). “Effects of Context on

Fuzzy Membership Functions.” in: M. M. Gupta, R. K. Ragade, R. R. Yager:

Advances in Fuzzy Set Theory and Applications. North-Holland.

46. Hanna, A.S. (1994). "Selectcrane: An Expert System for Optimum Crane

Selection." Proc., 1st Congress on Computing in Civil Engineering., Washington

DC, 958-963.

126

47. Hakkinen, K. (1993). “Crane accidents and their prevention revisited.” Safety

Science, 16(2), 267-277.

48. Hwang, C. L., and Yoon, K. (1981). “Multiple Attribute Decision Making

Methods and Applications.” A State of the Art Survey, Springer-Verlag, Berlin,

Heidelberg, New York.

49. Hwang. (1981). “An Intelligent Multi-Criteria Decision Support System for

Systems Design.” American institute of aeronautics and astronutics.

50. Hwang, C.-L., Masud, A. S. (1979). “Multiple Objective. Decision Making -

Methods and Applications.” Lecture Notes in Economics and Mathemetical.

Systems 164.

51. Han, S., Al-Hussein, M., Al-Jibouri, S., and Yu, H. (2012). “Automated post-

simulation visualization of modular building production assembly line.”

Automation in Construction, 21, 229-236.

52. Hung-Lin Chi.and Shih-Chung Kang.(2010).” A physics-based simulation

approach for cooperative erection activities” Dept. of Civil Engineering,

National Taiwan University, Taipei City 10617, Taiwan

53. Javier Irizarry., And Ebrahim, Karan, P. (2012). “Optimization Location Of

Tower Cranes On Construction Sites Through Gis and Bim Integration.” Journal

of information technology in construction. (ITcon).

54. Kandel, A. (1986). “Fuzzy Mathematical Techniques with Applications.”

Adisson-Wesley: Reading, M.A.

55. Kaufmann, A., and Gupta, M.M. (1988). “Fuzzy mathematical models in

engineering and management science.” North – Holland: Amsterdam.

56. Klir, G., and Yuan, B. (1995). “Fuzzy set and fuzzy logic: theory and

applications.” Prentice Hall PTR, Upper Saddle River, NJ.

57. Kumar, V.S.S., Eshwar, K., and Rao, A.R.M. (2002). “Risk management in

Construction Industry.” Proceedings of Fifth National Conference on

Construction – The way Ahead, New Delhi, India, 43-47.

58. Kumar, V.S.S., Eshwar, K., Prakash, D., and Ravi Kumar, K. (2006). “Decision

Making for Contractor Prequalification using Information Technology.”

Proceedings of the World Conference on IT.

127

59. Kumar, V.S.S., Mukesh Sharma.,Vikram, B., And Prakash, D. (2010) “Current

Safety Practices In Construction Industry.” ASCE.

60. Karl A. Raynar, and Gary R. Smith, (1993) “Intelligent positioning of mobile

crane for steel erection.” Microcomputers in Civil Engineering, 8, 67-74.

61. Kondel, A., (1986). “Fuzzy mathematical techniques with applications.” Addison

Wesley: Reading, MA.

62. Kang, S., and Miranda, E. (2008). “Computational Methods for Coordinating

Multiple Construction Cranes.” Journal of Computing in Civil Engineering, 22(4),

252-263.

63. Lai, Y.J., and Hwang, C.L. (1994). “Fuzzy multiple objective decision making

methods and applications.” 404, Springer – Verlag: Berlin.

64. Lootsma, F.A. (1997). “Fuzzy Logic for Planning and Decision Making.” Kluwer

Academic Publishers: Dordrecht/Boston/London.

65. Leung, W.T., And Tam, C.M. (1999). “Models For Assessing Hoisting Times Of

Tower Crane.” Journal of construction and management. ASCE.

66. Lawrence, K., Shapiro., And Jay, P., Shapiro.(2010). “Cranes And Derricks.”

Fourth Edition.

67. Liberling, H. (1981). “On finding compromise solutions in multi criteria problems

using the fuzzy min – operator.” Fuzzy Sets and Systems, 6, 105 – 118.

68. Li, H., and Love, P. E. D. (1998). “Site-level facilities layout using genetic

algorithms.” Journal of Computing in Civil Engineering. 12(4), 227-231.

69. Lee, C.C. (1990). “Fuzzy logic in control Systems: fuzzy logic controller.” part

(I), IEEE Trans, Systems Man Cybernet, 20: 404-418.

70. Meehan, J. (2005). “Computerize to organic.” Cranes Today, 369, 50, North

Cascade Industrial NCI, 2006. “Compu-Crane CSPS/LPS: Crane selection and

lift planning software.” Seattle.

71. Maiers, J. and Sherif, Y.S. (1985). “Applications of fuzzy set theory.” IEEE

Transactions on Systems, Man and Cybernetics, 15(1), 175-189.

72. Mac Crimmon. (1973). “Multi criteria decision analysis.” university of south

Carolina pres.

128

73. Peurifoy, R.L., and Schexnayder, C.J. (2002). “Construction Planning,

Equipment, and Methods.” Sixth Edition, Tata McGraw-Hill Publishing Co. Ltd.

74. Philip, M., Mahadevan, N., and Varghese, K. (1997). “Optimization of

Construction Site Layout - A Genetic Algorithm Approach.” Proc., 4th

Congress

Held in Conjunction with A/E/C Systems, ASCE, 710-717.

75. Peurifoy, R. L., Schexnayder, C. J., and Shapira, A. (2006). “Construction

planning, equipment, and methods”, 7th Ed., McGraw-Hill, Boston.

76. Rodriguez-Ramos, W. E., and Francis, R. L. (1983). “Single crane location

optimization”, Journal of Construction Engineering and Management, 109(4),

387-397.

77. Ross, J.T. (1997). “Fuzzy Logic with Engineering Applications.” McGraw Hill

International Edition, New Delhi, India.

78. Ringen, K., and Stafford, E. J. (1996). “Intervention research in occupational

safety and health: examples from construction.” American Journal of Industrial

Medicine April 29, (4):314-20.

79. Roman. (2004). “Quantum computation of fuzzy numbers.” International Journal

of Theoretical Physics, issue 12, vol.50, pp.3635 - 3645.

80. Sabah Alkass., Mohamed Alhussein., And Osama Moselhi. (1997). “13 th annual

ERCOM conference.” Cambridge.

81. Sawhney, and Andre Mund. (2001). “Abstract: The importance of the utilization

of cranes in Construction Management & Economics.”

82. Shapiro, H. I., Shapiro, J. P., and Shapiro, L. K.(1991). “Cranes and derricks”.

2nd Ed., McGraw-Hill, New York.

83. Shapira, A., And Glascock, J.D. (1996). “Culture of using Mobile Cranes for

Building Construction.” Journal of Constr. Engg. and Mgmt., ASCE, 122(4)

298-307.

84. Shapira A, Luncko and Schexnayder. C. (2007). “Crane for Building Construction

Project.”

85. Sabah Alkass, Mohamed Alhussein, and Osama Moselhi. (1997). “Computerized

Crane Selection For Construction Projects.” School For Building, Concordia

University, Montreal Canada.

129

86. Sang Hyeok Han., Shaful Hasan., Mohd Al-Hussain., Kamil Umut Gokce, And

Ahmed Bouferguene. (2012). “Simulation Of Mobile Crane Operations In 3D

Space.” Winter Simulation conference, Canada.

87. Sebt, M. H., Parvaresh Karan, E., Delavar ,M. R. (2008). “Potential Application

of GIS to Layout of Construction Temporary Facilities.” International journal of

civil engineering, vol 6, no.4.

88. Schriver, W. R., and Cressler, T. E. (1991-2002). “An Analysis of Fatal Events in

the Construction Industry.” Prepared for Office of Statistics, Occupational Safety

and Health Administration, U.S. Department of Labor by Construction Industry

Research and Policy Center, University of Tennessee, 1991 through 2002.

89. Saaty, T.L. (1980). “The Analytic Hierarchy Process”. New York: McGraw Hill.

International, Translated to Russian, Portuguese, and Chinese, Revised editions,

Pittsburgh: RWS Publications.

90. Saaty, T.L. (1994). “How to make a decision: the analytic hierarchy process”,

Interfaces, Vol. 24, No. 6, pp.19–43.

91. Sen, P., Yang, J.-B. (1998). “Multiple Criteria Decision Support in Engineering

Design.” Springer Verlag, Berlin, Heidelberg, New York, London.

92. Sugeno, M. (1985). “An introductory survey of fuzzy control.” Inf Sci 36:59–83.

93. Triantaphyllou, E., Shu, B., Nieto Sanchez., And Ray, T. (1998). “Encyclpedia Of

Electrical and Electronics Engineering.” J.G.Webste, Ed. NY.

94. Tam, C., and Tong, T. (2003). “GA-ANN model for optimizing the locations of

tower crane and supply points for high-rise public housing construction.”

Construction Management and Economics, 21 (3), 257-266.

95. Tantisevi, K. and Akinci, B. (2008). “ Simulation-Based Identification of Possible

locations for Mobile Cranes on Construction Sites.” Journal of Computing in

Civil Engineering, 22 (1), 21-30.

96. Wang, K.H., Chi, J. H., and Wan, E.H. (1993). “Decision making of project under

fuzzy information.” Journal of Chinese Institute of Engineers, 16, 533 – 541.

97. Warszawski, A. (1990). “Expert system for crane selection construction.” Man

and Economics, 8, 179-190.

98. Wang, K.H., Chi, J. H., and Wan, E.H. (1993). “Decision making of project under

fuzzy information.” Journal of Chinese Institute of Engineers, 16, 533 – 541.

130

99. Wu, Di., Lin, Y., Wang, X., and Gao, S. (2011). “Algorithm of Crane Selection

for Heavy Lifts.” Journal of Computing in Civil Engineering.

100. Wijesundera, and Haris. (1986). “Using expert systems in Construction.”

Construction Computing PP 14-17.

101. Yager, R.R., "A Characterization of the Extension Principle." Fuzzy Sets and

Systems 18, 205-217, 1986.

102. Zadeh, L. A. (1965). "Fuzzy Sets." Information and Control, 8, 338-353.

103. Zadeh, L.A. (1972). “A fuzzy set theoretic interpretation of linguistic hedges.”

Journal of Cybernetics, 2:4–34.

104. Zadeh, L. (1975). “The concept of a linguistic variable and its application to

approximate reasoning.” Part I. Inf Sci., 8, 199-249.

105. Zeleny, M. (1982). “Multiple criteria decision making.” McGraw Hill, New York,

U.S.A.

106. Zimmerman, H.J. (1983). “Using fuzzy sets in operational research.” European

Journal of Operational Research, 13(3), 201-216.

107. Zimmerman, H.J. (1987). “Fuzzy set theory – and its applications.” 2nd edition,

Kluwer Academic Publishers, Boston, MA.

108. Zimmermann, H.J. (1991). “Fuzzy Set Theory and Its Applications.” - 2nd edition

Allied Publishers, New Delhi, 1991

109. Zimmerman, H-J. (1996). “Fuzzy set theory.” Kluwer, Academic Publisher,

Boston Mass, Chapter 1, pp. 1-8.

110. Zhang, P., Harris, F.C., Olomollaiye, P.O., And Holt, G.D. (1999). “Location

Optimization For A Group Cranes.” Journal of construction and management.

ASCE.

111. Zhang, P., Harris, F., and Olomolaiye, P. (1996). “A computer‐based model for

optimizing the location of a single tower crane.” Building research and

information, 24(2), 113-123.

112. Zhong, D., Li, J., Zhu, H., and Song, L.(2004). “Geographic information

system-based visual simulation methodology and its application in concrete dam

construction processes.” Journal of Construction Engineering and Management,

130(5), 742-750.