Industrial logistics system is one of the key objects of industrial informatization, and analysis on this system is an important task of industrial information integration. According to the concept and principle of industrial information integration engineering, we present a five-layered framework of wartime industrial logistics information integration, and form an analysis of wartime industrial logistics system from the perspective of industrial information integration. To provide resolutions to the problems of optimizing deployment and formation of resources in wartime industrial logistics system (e.g., military logistics platforms [MLPs]), we conduct a typical application of this framework. As the research objects of the fourth layer, war statistics, mathematical calculations and simulation experiment are designed as the means by which descriptive analysis, predictive analysis and prescriptive analysis at the fifth layer can be implemented, respectively. Accordingly, the battle damage repair efficiency-oriented optimal decisions model of using MLPs are built. Results show that our study forms a systematic procedure for wartime industrial logistics information integration, thus obtaining more decision support and greater reference value for wartime industrial logistics.

工业物流系统是工业信息化的关键对象之一，对此系统的分析是工业信息集成的重要任务。根据工业信息集成工程的概念和原理，提出了战时工业物流信息集成的五层框架，并从工业信息集成的角度对战时工业物流系统进行了分析。为了解决战时工业物流系统（例如，军事物流平台[MLP]）中资源的优化部署和形成问题，我们进行了此框架的典型应用。作为第四层的研究对象，战争统计 设计了数学计算和模拟实验作为分别在第五层进行描述性分析，预测性分析和描述性分析的手段。据此，建立了基于战斗力修复效率的MLP优化决策模型。结果表明，本研究为战时工业物流信息集成提供了系统的程序，从而为战时工业物流获得了更多的决策支持和更大的参考价值。