基于系统动力学仿真模拟的重大水利工程创新绩效提升效应研究OACHSSCD
The enhancement effect of innovation performance of major water conservancy projects based on system dynamics simulation
传统线性创新研究方法难以适配重大水利工程在技术研发与管理实践中面临的复杂难题,开展重大水利工程创新绩效相关研究,对推动水利行业高质量发展具有重要的理论意义与实践价值.基于扎根理论,系统识别了影响重大水利工程创新绩效的影响因素,采用系统动力学方法构建模型并进行仿真模拟,深入探讨了关键因素对项目创新绩效的提升效应.研究结果表明:项目创新绩效受技术、组织、环境3 个维度因素的综合影响;知识管理对项目全生命周期的创新成果转化与研发管理具有显著的提升作用;制度创新在仿真模拟中呈现出缓慢且持久的影响特征;行业生态在政策红利持续积累后,可显著促进项目创新绩效提升.
Conventional linear innovation research methods are difficult to adapt to the complex problems faced by major water conservancy projects in technological R&D and management practices.Therefore,researching the innovation performance of major water conservancy projects has important theoretical significance and practical value for promoting the high-quality development of the water conservancy industry.Based on grounded theory,this paper systematically identifies the influencing factors of the innovation performance of major water conservancy projects and constructs a system dynamics model using the system dynamics method,thereby exploring the enhancement effect of key factors on the innovation performance of major water conservancy projects.The research results show that the project innovation performance is comprehensively influenced by three factors:technology,organization and environment;knowledge management has a significant enhancing effect on the innovation outcome and R&D management throughout the project lifecycle;institutional innovation shows a slow but persistent impact feature in the simulation;after the policy dividends accumulate continuously,the industry ecosystem can significantly improve the project innovation performance.
薛松;葛丽丽;李晓薇;陈士静
河海大学商学院||河海大学项目管理研究所河海大学商学院||河海大学项目管理研究所安徽水利开发有限公司上海勘测设计研究院有限公司
重大水利工程项目创新绩效扎根理论系统动力学
major water conservancy projectsproject innovation performancegrounded theorysystem dynamics
《水利经济》 2026 (2)
117-125,9
国家社会科学基金青年项目(15CJL023)中央高校基本科研业务费项目(人文专项)(2019B19614)
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