[1] LI J, ZOU P X. Fuzzy AHP- based risk assessment methodology for PPP Projects[J]. Journal of Construction Engineering and Management, 2011, 12(137): 1205-1209.
[2] AMEYAW E E, CHAN A P C. Evaluation and ranking of risk factors in public- private partnership water supply projects in developing countries using fuzzy synthetic evaluation approach[J]. Expert Systems with Applications, 2015 (42): 5102-5116.
[3] WU Y N, LI L W Y, XU R H, et al. Risk assessment in straw-based power generation public-private partnership projects in China: A fuzzy synthetic evaluation analysis[J]. Journal of Cleaner Production, 2017(161): 977-990.
[4] 何亚伯, 徐冰, 常秀峰. 基于改进熵权灰色关联模型的城市轨道交通 PPP 项目风险评价[J]. 项目管理技术, 2016(3): 112-117. [HE Y B, XU B, CHANG X F. Risk assessment in urban rail transit PPP project based on improved entropy and gray relational model[J]. Project Management Technology, 2016(3): 112-117. ]
[5] 蔡晓琰, 周国光. 交通基础设施 PPP项目智能风险评价模型研究[J]. 技术经济与管理研究, 2016(8): 20- 24. [CAI X Y, ZHOU G G. Research on the model of intelligent risk evaluation of the transport PPP projects[J]. Technoeconomics and Management Research, 2016(8): 20-24.]
[6] OSEI-KYEI R, CHAN A P. Risk assessment in publicprivate partnership infrastructure projects: empirical comparison between Ghana and Hong Kong[J]. Construction Innovation, 2017(17): 204-223.
[7] CHOU J S, PRAMUDAWARDHANI D. Cross- country comparisons of key drivers, critical success factors and risk allocation for public-private partnership projects[J]. International Journal of Project Management, 2015(33): 1136-1150.
[8] CHEUNG E, CHAN A P. Risk factors of public-private partnership projects in China: Comparison between the water, power, and transportation Sectors[J]. Journal of Urban Planning and Development, 2011(137): 409-415. |