大规模自组织网络的分布式控制、服务与安全研究

项目名称： 大规模自组织网络的分布式控制、服务与安全研究

项目编号： No.61273026

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 自动化技术、计算机技术

项目作者： 张皓

作者单位： 同济大学

项目金额： 80万元

中文摘要： 青年基金项目研究了网络控制系统的多项关键科学问题，在基础理论、工业实际应用等方面取得了一系列成果。发表论文30余篇，SCI,EI收录25篇，以第一作者在IEEE Trans. 汇刊上发表长文3篇；出版英文专著章节2部；申请美国专利1项，中国专利2项，获软件著作权3项；获上海市科技进步一等奖，入选上海市晨光人才计划。提出了信息有限网络控制系统量化模型和控制性能的定量分析方法；结合工业控制网络提出了控制网络的测试体系和评估标准，建立了控制网络性能测试中心，已获国际测试认证。大规模自组织网络采用共享无线信道、开放网络结构、分布式控制等技术，业务模式动态改变。这些特征决定了它只能提供较差的安全性能。本申请项目拟建立拓扑切换的大规模自组织网络模型；分析信道容量、量化算法等对网络动力学行为和性能的影响；研究大规模自组织网络分布式控制、滤波方法；开发适用于大规模自组织网络的安全体系结构和技术。

中文关键词： 自组织网络；分布式滤波网络；分布式网络控制系统；事件触发机制；汽车悬架系统

英文摘要： Some key scientific issues of network control system (NCSs) have been investigated and solved of the project Youth National Science Foundation of China under Grant No. 60904015. Supported by this project, a series of achievements have been made on basic theories, industrial and practical application, etc as follows: 30 high quality papers have been published, of which 25 papers have been indexed by SCI / EI and 3 Regular papers have been published as the first and corresponding author on the well-known influential journals such as IEEE Transactions on Fuzzy systems, IEEE Transactions on Signal Processing, etc.; 2 English book chapters have been published; 1 U.S. invention patent has been applied and 2 Chinese invention patents have been approved; 3 software copyrights have been granted; First prize of the Shanghai Science and Technology Progress Award has been won; I was selected for “Chen Guang” Talents Program supported by Shanghai Municipal Education Commission and Shanghai Education Development Foundation. Furthermore, novel quantized feedback models and quantitative analysis method of control performance for networked control systems with limited information have been proposed; A testing system and evaluation standard for control network have been developed combined with the practical industry control netwo

英文关键词： self-organizing networks；distributed filtering networks；distributed networked control systems；event-triggered scheme；car suspension systems