大规模科学技术工程的战略核心之一是实现各类隐性知识的集成创新。为有效实现大规模科学技术工程隐性知识集成创新,本文融合知识管理理论和微分动力学理论与方法,分析大规模科学技术工程隐性知识集成的必要性;界定大规模科学技术工程隐性知识集成的主、客体;在此基础上,构建大规模科学技术工程隐性知识集成创新模型,研究模型解析解的渐进稳定性;最后,基于模型分析结果,提出可以通过构建隐性知识集成创新的考核激励机制、进一步完善隐性知识集成创新的知识管理体系、营造隐性知识集成创新的软、硬环境,推动大规模科学技术工程隐性知识的集成创新。 One of the strategic cores of large-scale science and technology engineering is to realize the integrated innovation of various tacit knowledge. In order to effectively integrate and innovate the tacit knowledge of large-scale science and technology engineering, this paper integrates knowledge management theory and differential dynamics theory and method to analyze the necessity of integration of large-scale science and technology engineering tacit knowledge. It defines the tacit knowledge of large-scale science and technology engineering Based on which, we construct a large-scale integrated innovation model of tacit knowledge in science and technology engineering and study the gradual stability of the analytical solution of the model. Finally, based on the results of the model analysis, we propose that integrating tacit knowledge Assessment and incentive mechanism to further improve the tacit knowledge integration and innovation of knowledge management system to create a tacit knowledge integration innovation of soft and hard environment and promote large-scale integration of science and technology engineering tacit knowledge innovation.