智能配电网态势感知(Situation Awareness of Smart Distribution Network,SASDN)是配电网稳定运行和精准调度的基础。然而,SASDN面临着通信延时、科学计算耗时、不同子站系统响应时长不一等所引起的一系列时滞不确定性问题，常导致智能配电网精准调度失效，限制了其应用范围。针对该问题，本项目拟采用区间仿射方法研究SASDN时滞不确定性。首先，构建SASDN时滞区间仿射模型，深入探索SASDN时滞的作用机理；其次，基于Lyapunov直接法，探索SASDN时滞区间

作为一种异质复合结构，钢筋混凝土受其各组成部分及结合面力学性能的影响，断裂机制非常复杂。冲击载荷下钢筋与混凝土基体间的相互作用及其对结构断裂力学行为的影响是当前冲击动力学研究的难点问题。本项目针对具有较低配筋率、含缺口的钢筋混凝土梁，分别采用准静态、落锤三点弯曲实验方法，研究其在六种加载速率下的断裂行为。探讨加载速率对断裂能和峰值载荷的影响。拟建立不同加载速率下的载荷—裂缝面张开位移关系。研究加载速率及钢筋混凝土的动态粘接特性对结构响应和破坏模式的影响，分析较高加载速率下惯性效应的影响。另外，用梁单元代表

Project 2: Physical Mechanisms and Clinical Implications of Mechano-transduction in Hepatocellular Carcinoma Tumor Microenvironment. In Project 2, a team of investigators from the physical sciences, engineering, and cell biology will interact

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nnotation:The project is aimed at solving the actual problem of cutting materials at previously inaccessible speeds by expanding the technological capabilities of the advanced production technology of waterjet cutting.Waterjet cutting is one of the most

nnotation:The project is aimed at solving the scientific problem of forming and developing the concept of a Smart City in the regions of Russia,paying special attention to the construction and energy industries.The development of these(selected)industrie