人脑是大量神经元、神经元集群或者脑区相互作用的复杂网络。基于复杂网络理论的人脑连接组研究可以为理解大脑机制及精神类疾病的病理机制提供新的视角。人脑工作机理的复杂性体现在时间上的时变效应，空间上的多元关系以及二者之间的交互效应。由于受到方法的限制，传统的基于简单、低阶的功能网络构建方法，无法满足对人脑真实神经元活动的复杂交互效应的建模及分析。本项目将在已有研究的基础上，分别针对时间和空间维度，提出动态高序功能网络构建技术及多元功能超网构建技术，并提出基于随机分块模型的连接可信度分析技术以保证所建网络的可信度

车辆主动悬架在获得良好减振性能的同时，却消耗大量能量。将电磁直线作动器与电磁阀可调减振器集成，提出基于EMLHA(electro-magnetic linear hybrid actuator)电磁直线混合作动器的自供能主动悬架结构。在系统精确建模和参数敏感性分析基础上，利用多目标参数优化法对EMLHA悬架减振与馈能进行协调性优化；设计包含AC-DC同步整流器、双向DC-DC电压变换器、超级电容的可变电压源系统，解决低速时馈能电压较小无法充电问题，提高悬架馈能效率，在控制器作用下实现EMLHA悬架充放电流

Project Summary–Developmental Research Project(DRP)ProgramThe Developmental Research Project(DRP)program has been an instrumental part of SC INBRE III’s successin promoting the growth of biomedical research and increasing student training opportunities in

? DESCRIPTION (provided by applicant): We seek to understand the molecules and forces that determine the orientation of cleavage planes in dividing frog eggs. This will generate fundamental knowledge relevant to division of all human cells, and may inf

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:Occurrence of turbulence is one of the key problems of fundamental fluid dynamics and applied aerodynamics of flight vehicles(FV)of new generation,including highly energy-conserving and ecological airplanes with natural and/or artificial lamina