针对当前多频带信号模拟信息转换结构存在冗余、无法对捷变动态谱快速响应及缺乏硬件实物验证的问题，本项目基于可变周期随机编码序列，提出一种面向多频带信号簇结构特征的模拟信息转换方法，给出采样结构，基于簇相关性，分析感知矩阵约束条件，研究编码序列周期与系统设计复杂度之间的关系，给出编码序列周期最优选择依据。基于簇结构统计独立性，研究基于多重信号分解的多维信号恢复方法。研制系统原型样机，基于原型样机，定量分析系统对捷变频谱快速响应性能，分析硬件实现过程中器件非线性、时间延迟等非理想因素对观测矩阵构造的影响，进而分

为解决日益严重的能源和环境问题，大力发展可再生能源已经成为全球共识。其中，海浪能具有巨大的开发潜力，是各国可再生能源利用的热点。对于海浪发电装置，高效稳定的能量转换技术是研究的重点和难点。本项目以漂浮式液压海浪发电系统为研究对象，以提高系统捕能效率为目标，提出液压变阻尼宽频带自适应蓄能式发电控制策略。首先构建发电系统的多体耦合非线性动力模型，研究浮体水动力响应及精确运动预测；重点研究液压PTO变阻尼高效捕能技术，分析液压PTO参数变化对捕能效率的影响，提出浮体运动预测条件下变阻尼宽频带自适应控制策略，建模

Project Summary: The long-term goal of this project is to develop an understanding of the cellular and molecular mechanisms of human cytomegalovirus (HCMV) latency in CD34+ hematopoietic progenitor cells (HPCs) and the effect of latent and reactivating vi

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

nnotation:One of the important tasks of modern materials science is the development of new metal and composite materials based on a metal matrix with improved functional properties. This project considers following scientific problems to be solved while

nnotation:Incremental sheet metal forming(ISF)is a dieless metalworking process that relies on a progression of localized deformation.The desired shape is obtained by applying localized pressure with a simple rigid tool that moves across a metal sheet.Th