How to cite this paper
Makui, A., Zadeh, P., Bagherpour, M & Jabbarzadeh, A. (2018). A structural equation modeling approach to examine the relationship between complexity factors of a project and the merits of project manager.Journal of Project Management, 3(1), 1-12.
Refrences
Afshari, A., Yusuff, R., & Derayatifar, A. (2013). Linguistic extension of fuzzy Integral for Group Per-sonnel Selection Problem. Arabian Journal for Science & Engineering (Springer Science & Business Media BV), 38(10).
Afshari, A. (2015). Selection of construction project manager by using Delphi and fuzzy linguistic deci-sion making. Journal of Intelligent & Fuzzy Systems, 28(6), 2827-2838.
Ahadzie, D. K., Proverbs, D. G., & Sarkodie-Poku, I. (2014). Competencies required of project manag-ers at the design phase of mass house building projects. International Journal of Project Manage-ment, 32(6), 958-969.
Ahsan, K., Ho, M., & Khan, S. (2013). Recruiting project managers: A comparative analysis of compe-tencies and recruitment signals from job advertisements. Project Management Journal, 44(5), 36-54.
Awad, A., & Fayek, A. R. (2012). A decision support system for contractor prequalification for surety bonding. Automation in Construction, 21, 89-98.
Bojadziev, G., & Bojadziev, M. (2007). Fuzzy logic for business, finance, and management.
Bosch-Rekveldt, M., Bakker, H., Hertogh, M., & Mooi, H. (2015). Drivers of complexity in engineering projects. In Handbook on Project Management and Scheduling Vol. 2 (pp. 1079-1101). Springer In-ternational Publishing.
Chao, L. C., & Hsiao, C. S. (2012). Fuzzy model for predicting project performance based on procure-ment experiences. Automation in Construction, 28, 71-81.
Chen, S. J., & Hwang, C. L. (1992). Fuzzy multiple attribute decision making methods. In Fuzzy multiple attribute decision making (pp. 289-486). Springer, Berlin, Heidelberg.
Chou, S. Y., Chang, Y. H., & Shen, C. Y. (2008). A fuzzy simple additive weighting system under group decision-making for facility location selection with objective/subjective attributes. European Journal of Operational Research, 189(1), 132-145.
Dubois, D., & Prade, H. (1978). Operations on fuzzy numbers. International Journal of systems sci-ence, 9(6), 613-626.
Ebrahimnejad, S., Mousavi, S. M., Tavakkoli-Moghaddam, R., & Heydar, M. (2014). Risk ranking in mega projects by fuzzy compromise approach: A comparative analysis. Journal of Intelligent & Fuzzy Systems, 26(2), 949-959.
Fisher, E. (2011). What practitioners consider to be the skills and behaviours of an effective people pro-ject manager. International Journal of Project Management, 29(8), 994-1002.
Giezen, M., Bertolini, L., & Salet, W. (2015). Adaptive capacity within a mega project: A case study on planning and decision-making in the face of complexity. European Planning Studies, 23(5), 999-1018.
Gransberg, D. D., Shane, J. S., Strong, K., & del Puerto, C. L. (2012). Project complexity mapping in five dimensions for complex transportation projects. Journal of Management in Engineering, 29(4), 316-326.
He, Q., Luo, L., Hu, Y., & Chan, A. P. (2015). Measuring the complexity of mega construction projects in China—A fuzzy analytic network process analysis. International Journal of Project Manage-ment, 33(3), 549-563.
International Project Management Association, & Caupin, G. (2006). IPMA competence baseline: ICB; Version 3.0. Internat. Project Management Association.
Kahraman, C. (Ed.). (2008). Fuzzy multi-criteria decision making: theory and applications with recent developments(Vol. 16). Springer Science & Business Media.
Kauffman, A., & Gupta, M. M. (1991). Introduction to Fuzzy Arithmetic, Theory and Application.
Lessard, D., Sakhrani, V., & Miller, R. (2014). House of Project Complexity—understanding complexity in large infrastructure projects. Engineering Project Organization Journal, 4(4), 170-192.
Li, Y., Lu, Y., Kwak, Y. H., & Dong, S. (2015). Developing a city-level multi-project management in-formation system for Chinese urbanization. International Journal of Project Management, 33(3), 510-527.
Lin, K. L. (2010). Human resource allocation for remote construction projects. Journal of Management in Engineering, 27(1), 13-20.
Lu, Y., Luo, L., Wang, H., Le, Y., & Shi, Q. (2015). Measurement model of project complexity for large-scale projects from task and organization perspective. International Journal of Project Man-agement, 33(3), 610-622.
Moeinzadeh, P., & Hajfathaliha, A. (2009). A combined fuzzy decision making approach to supply chain risk assessment. World Academy of Science, Engineering and Technology, 60(2), 519-528.
Müller, R., & Turner, R. (2010). Leadership competency profiles of successful project manag-ers. International Journal of Project Management, 28(5), 437-448.
Nguyen, A. T., Nguyen, L. D., Le-Hoai, L., & Dang, C. N. (2015). Quantifying the complexity of trans-portation projects using the fuzzy analytic hierarchy process. International Journal of Project Man-agement, 33(6), 1364-1376.
Nguyen, H. T., & Walker, E. A. (2005). A first course in fuzzy logic. CRC press.
Liyana Othman, N., & Jaafar, M. (2013). Personal competency of selected women construction project managers in Malaysia. Journal of Engineering, Design and Technology, 11(3), 276-287.
PMI Standards Committee. (2002). Project manager competency development (PMCD) frame-work. Project Management Institute (PMI), Newtown Square, Pennsylvania.
Qureshi, S. M., & Kang, C. (2015). Analysing the organizational factors of project complexity using structural equation modelling. International Journal of Project Management, 33(1), 165-176.
Ramasesh, R. V., & Browning, T. R. (2014). A conceptual framework for tackling knowable unknown unknowns in project management. Journal of Operations Management, 32(4), 190-204.
Ross, T. J. (2009). Fuzzy logic with engineering applications. John Wiley & Sons.
Sadeghi, H., Mousakhani, M., Yazdani, M., & Delavari, M. (2014). Evaluating project managers by an interval decision-making method based on a new project manager competency model. Arabian Jour-nal for Science & Engineering (Springer Science & Business Media BV), 39(2).
Sadi-Nezhad, S., Noroozi-yadak, A., & Makui, A. (2013). Fuzzy distance of triangular fuzzy num-bers. Journal of Intelligent & Fuzzy Systems, 25(4), 845-852.
Safarzadegan Gilan, S. S., Sebt, M. H., & Shahhosseini, V. (2012). Computing with words for hierar-chical competency based selection of personnel in construction companies. Applied Soft Compu-ting, 12(2), 860-871.
Senescu, R. R., Aranda-Mena, G., & Haymaker, J. R. (2012). Relationships between project complexity and communication. Journal of Management in Engineering, 29(2), 183-197.
Shahhosseini, V., & Sebt, M. H. (2011). Competency-based selection and assignment of human re-sources to construction projects. Scientia Iranica, 18(2), 163-180.
Sorooshian, S., Afshari, A., & Dodangeh, J. (2014). Linguistic extension for group multicriteria project manager selection. Journal of Applied Mathematics. 14(1), 1-8.
Sun, C., Man, Q., & Wang, Y. (2015). Study on BIM-based construction project cost and schedule risk early warning. Journal of Intelligent & Fuzzy Systems, 29(2), 469-477.
Tah, J. H. M., & Carr, V. (2000). A proposal for construction project risk assessment using fuzzy log-ic. Construction Management & Economics, 18(4), 491-500.
Varajão, J., & Cruz-Cunha, M. M. (2013). Using AHP and the IPMA competence baseline in the project managers selection process. International Journal of Production Research, 51(11), 3342-3354.
Vidal, L. A., Marle, F., & Bocquet, J. C. (2013). Building up a project complexity framework using an international Delphi study. International Journal of Technology Management, 62(2/3/4), 251-283.
Xia, B., & Chan, A. P. (2012). Measuring complexity for building projects: a Delphi study. Engineering, Construction and Architectural Management, 19(1), 7-24.
Xu, F., & Lin, S. P. (2016). Theoretical framework of Fuzzy-AI model in quantitative project manage-ment. Journal of Intelligent & Fuzzy Systems, 30(1), 509-521.
Yazdani-Chamzini, A., Razani, M., Yakhchali, S. H., Zavadskas, E. K., & Turskis, Z. (2013). Develop-ing a fuzzy model based on subtractive clustering for road header performance predic-tion. Automation in Construction, 35, 111-120.
Zhang, F., Zuo, J., & Zillante, G. (2013). Identification and evaluation of the key social competencies for Chinese construction project managers. International Journal of Project Management, 31(5), 748-759.
Afshari, A. (2015). Selection of construction project manager by using Delphi and fuzzy linguistic deci-sion making. Journal of Intelligent & Fuzzy Systems, 28(6), 2827-2838.
Ahadzie, D. K., Proverbs, D. G., & Sarkodie-Poku, I. (2014). Competencies required of project manag-ers at the design phase of mass house building projects. International Journal of Project Manage-ment, 32(6), 958-969.
Ahsan, K., Ho, M., & Khan, S. (2013). Recruiting project managers: A comparative analysis of compe-tencies and recruitment signals from job advertisements. Project Management Journal, 44(5), 36-54.
Awad, A., & Fayek, A. R. (2012). A decision support system for contractor prequalification for surety bonding. Automation in Construction, 21, 89-98.
Bojadziev, G., & Bojadziev, M. (2007). Fuzzy logic for business, finance, and management.
Bosch-Rekveldt, M., Bakker, H., Hertogh, M., & Mooi, H. (2015). Drivers of complexity in engineering projects. In Handbook on Project Management and Scheduling Vol. 2 (pp. 1079-1101). Springer In-ternational Publishing.
Chao, L. C., & Hsiao, C. S. (2012). Fuzzy model for predicting project performance based on procure-ment experiences. Automation in Construction, 28, 71-81.
Chen, S. J., & Hwang, C. L. (1992). Fuzzy multiple attribute decision making methods. In Fuzzy multiple attribute decision making (pp. 289-486). Springer, Berlin, Heidelberg.
Chou, S. Y., Chang, Y. H., & Shen, C. Y. (2008). A fuzzy simple additive weighting system under group decision-making for facility location selection with objective/subjective attributes. European Journal of Operational Research, 189(1), 132-145.
Dubois, D., & Prade, H. (1978). Operations on fuzzy numbers. International Journal of systems sci-ence, 9(6), 613-626.
Ebrahimnejad, S., Mousavi, S. M., Tavakkoli-Moghaddam, R., & Heydar, M. (2014). Risk ranking in mega projects by fuzzy compromise approach: A comparative analysis. Journal of Intelligent & Fuzzy Systems, 26(2), 949-959.
Fisher, E. (2011). What practitioners consider to be the skills and behaviours of an effective people pro-ject manager. International Journal of Project Management, 29(8), 994-1002.
Giezen, M., Bertolini, L., & Salet, W. (2015). Adaptive capacity within a mega project: A case study on planning and decision-making in the face of complexity. European Planning Studies, 23(5), 999-1018.
Gransberg, D. D., Shane, J. S., Strong, K., & del Puerto, C. L. (2012). Project complexity mapping in five dimensions for complex transportation projects. Journal of Management in Engineering, 29(4), 316-326.
He, Q., Luo, L., Hu, Y., & Chan, A. P. (2015). Measuring the complexity of mega construction projects in China—A fuzzy analytic network process analysis. International Journal of Project Manage-ment, 33(3), 549-563.
International Project Management Association, & Caupin, G. (2006). IPMA competence baseline: ICB; Version 3.0. Internat. Project Management Association.
Kahraman, C. (Ed.). (2008). Fuzzy multi-criteria decision making: theory and applications with recent developments(Vol. 16). Springer Science & Business Media.
Kauffman, A., & Gupta, M. M. (1991). Introduction to Fuzzy Arithmetic, Theory and Application.
Lessard, D., Sakhrani, V., & Miller, R. (2014). House of Project Complexity—understanding complexity in large infrastructure projects. Engineering Project Organization Journal, 4(4), 170-192.
Li, Y., Lu, Y., Kwak, Y. H., & Dong, S. (2015). Developing a city-level multi-project management in-formation system for Chinese urbanization. International Journal of Project Management, 33(3), 510-527.
Lin, K. L. (2010). Human resource allocation for remote construction projects. Journal of Management in Engineering, 27(1), 13-20.
Lu, Y., Luo, L., Wang, H., Le, Y., & Shi, Q. (2015). Measurement model of project complexity for large-scale projects from task and organization perspective. International Journal of Project Man-agement, 33(3), 610-622.
Moeinzadeh, P., & Hajfathaliha, A. (2009). A combined fuzzy decision making approach to supply chain risk assessment. World Academy of Science, Engineering and Technology, 60(2), 519-528.
Müller, R., & Turner, R. (2010). Leadership competency profiles of successful project manag-ers. International Journal of Project Management, 28(5), 437-448.
Nguyen, A. T., Nguyen, L. D., Le-Hoai, L., & Dang, C. N. (2015). Quantifying the complexity of trans-portation projects using the fuzzy analytic hierarchy process. International Journal of Project Man-agement, 33(6), 1364-1376.
Nguyen, H. T., & Walker, E. A. (2005). A first course in fuzzy logic. CRC press.
Liyana Othman, N., & Jaafar, M. (2013). Personal competency of selected women construction project managers in Malaysia. Journal of Engineering, Design and Technology, 11(3), 276-287.
PMI Standards Committee. (2002). Project manager competency development (PMCD) frame-work. Project Management Institute (PMI), Newtown Square, Pennsylvania.
Qureshi, S. M., & Kang, C. (2015). Analysing the organizational factors of project complexity using structural equation modelling. International Journal of Project Management, 33(1), 165-176.
Ramasesh, R. V., & Browning, T. R. (2014). A conceptual framework for tackling knowable unknown unknowns in project management. Journal of Operations Management, 32(4), 190-204.
Ross, T. J. (2009). Fuzzy logic with engineering applications. John Wiley & Sons.
Sadeghi, H., Mousakhani, M., Yazdani, M., & Delavari, M. (2014). Evaluating project managers by an interval decision-making method based on a new project manager competency model. Arabian Jour-nal for Science & Engineering (Springer Science & Business Media BV), 39(2).
Sadi-Nezhad, S., Noroozi-yadak, A., & Makui, A. (2013). Fuzzy distance of triangular fuzzy num-bers. Journal of Intelligent & Fuzzy Systems, 25(4), 845-852.
Safarzadegan Gilan, S. S., Sebt, M. H., & Shahhosseini, V. (2012). Computing with words for hierar-chical competency based selection of personnel in construction companies. Applied Soft Compu-ting, 12(2), 860-871.
Senescu, R. R., Aranda-Mena, G., & Haymaker, J. R. (2012). Relationships between project complexity and communication. Journal of Management in Engineering, 29(2), 183-197.
Shahhosseini, V., & Sebt, M. H. (2011). Competency-based selection and assignment of human re-sources to construction projects. Scientia Iranica, 18(2), 163-180.
Sorooshian, S., Afshari, A., & Dodangeh, J. (2014). Linguistic extension for group multicriteria project manager selection. Journal of Applied Mathematics. 14(1), 1-8.
Sun, C., Man, Q., & Wang, Y. (2015). Study on BIM-based construction project cost and schedule risk early warning. Journal of Intelligent & Fuzzy Systems, 29(2), 469-477.
Tah, J. H. M., & Carr, V. (2000). A proposal for construction project risk assessment using fuzzy log-ic. Construction Management & Economics, 18(4), 491-500.
Varajão, J., & Cruz-Cunha, M. M. (2013). Using AHP and the IPMA competence baseline in the project managers selection process. International Journal of Production Research, 51(11), 3342-3354.
Vidal, L. A., Marle, F., & Bocquet, J. C. (2013). Building up a project complexity framework using an international Delphi study. International Journal of Technology Management, 62(2/3/4), 251-283.
Xia, B., & Chan, A. P. (2012). Measuring complexity for building projects: a Delphi study. Engineering, Construction and Architectural Management, 19(1), 7-24.
Xu, F., & Lin, S. P. (2016). Theoretical framework of Fuzzy-AI model in quantitative project manage-ment. Journal of Intelligent & Fuzzy Systems, 30(1), 509-521.
Yazdani-Chamzini, A., Razani, M., Yakhchali, S. H., Zavadskas, E. K., & Turskis, Z. (2013). Develop-ing a fuzzy model based on subtractive clustering for road header performance predic-tion. Automation in Construction, 35, 111-120.
Zhang, F., Zuo, J., & Zillante, G. (2013). Identification and evaluation of the key social competencies for Chinese construction project managers. International Journal of Project Management, 31(5), 748-759.