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【百家大讲堂】第205 期:弹性网络物理系统的建模、分析与设计

编辑: 研究生院 发布日期: 2019-05-23 浏览量:
 
  讲座题目:弹性网络物理系统的建模、分析与设计
  报  告 人:教授Bruno Sinopoli
  时    间:2019年6 月5日上午10:00-12:00
  地    点:研究生教学楼5楼创新基地 
  主办单位:研究生院、自动化学院
  报名方式:登录北京兴旺体育app大学微信企业号---第二课堂---课程报名中选择“【百家大讲堂】第205期:弹性网络物理系统的建模、分析与设计” 
 
【主讲人简介】
Bruno Sinopoli教授于1998年获得帕多瓦大学的工程学士学位,2003年和2005年分别获得加州大学伯克利分校的电气工程硕士和博士学位。在斯坦福大学进行博士后研究后,Sinopoli教授于2007年到2019年在卡内基梅隆大学任教,担任电气和计算机工程系的全职教授,在机械工程专业和机器人研究所任职,同时也是智能基础设施研究所的联合主任。智能基础设施研究所是一个旨在推进智能基础设施建模分析和设计创新的研究中心。2019年,Sinopoli教授加入位于圣路易斯的华盛顿大学,担任电气和系统工程系主任。Sinopoli教授因在加州大学伯克利分校取得的系统、通信、控制和信号处理领域的杰出研究成果获得2006年ELI评审团奖,2010年获得卡内基梅隆大学的George Tallman Ladd研究奖和NSF Career Award。他的研究兴趣包括安全信息物理系统的建模、分析和设计,以及应用于能源系统、相互依赖的基础设施和物联网的研究。
主讲人简介(英文)
Bruno Sinopoli received the Dr. Eng. degree from the University of Padova in 1998 and his M.S. and Ph.D. in Electrical Engineering from the University of California at Berkeley, in 2003 and 2005 respectively. After a postdoctoral position at Stanford University, Dr. Sinopoli was the faculty at Carnegie Mellon University from 2007 to 2019, where he was full professor in the Department of Electrical and Computer Engineering with courtesy appointments in Mechanical Engineering and in the Robotics Institute and co-director of the Smart Infrastructure Institute, a research center aimed at advancing innovation in the modeling analysis and design of smart infrastructure. In 2019 Dr. Sinopoli joined Washington University in Saint Louis, where he is the chair of the Electrical and Systems Engineering department. Dr. Sinopoli was awarded the 2006 Eli Jury Award for outstanding research achievement in the areas of systems, communications, control and signal processing at U.C. Berkeley, the 2010 George Tallman Ladd Research Award from Carnegie Mellon University and the NSF Career award in 2010. His research interests include the modeling, analysis and design of Secure by Design Cyber-Physical Systems with applications to Energy Systems, Interdependent Infrastructures and Internet of Things.
内容简介(中文)
传感、通信和计算方面的最新进展允许在物理世界中对大规模传感器和执行器网络经济进行有效的部署,从而实现对多种物理系统和基础设施的精准监测和控制。这样的系统被称为信息物理系统,是控制、通信和计算领域的交叉领域。这些领域之间的密切相互作用使得控制、通信和计算三个子系统的独立设计成为一种具有很强风险性的方法,因为对三者的分离考虑并不符合现实场景中真实假设。因此,必须推出新的模型和方法,以便分析和设计鲁棒和安全的网络物理系统(CPS)。本报告将介绍关于这一主题的最新研究概况,并讨论未来的发展方向。
内容简介(英文)
Recent advances in sensing, communication and computing allow cost effective deployment in the physical world of large-scale networks of sensors and actuators, enabling fine grain monitoring and control of a multitude of physical systems and infrastructures. Such systems, called cyber-physical, lie at the intersection of control, communication and computing. The close interplay among these fields renders independent design of the control, communication, and computing subsystems a risky approach, as separation of concerns does not constitute a realistic assumption in real world scenarios. It is therefore imperative to derive new models and methodologies to allow analysis and design of robust and secure cyber-physical systems (CPS). In this talk I will present an overview of recent research on the topic and discuss future directions.