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南非国家科学院院士Wang Qing-Guo教授系列学术报告

点击[] 时间[ 2018年07月04日 11:09] 发布人[]

报告题目一(北航自动化大讲堂):R2 - Research on Research /“怎样从事科学研究”

报告时间:2018年7月10日(周二) 上午9:30 -11:30

报告地点:新主楼E706

报告人简介:

王庆国生于江苏省常熟县,于1982,1984,1987年分别获得浙江大学学士学位(化学工程),硕士学位(工业自动化), 博士学位(工业自动化, 导师周春晖和孙优贤教授)及“优秀毕业生”称号。1987至1989年与浙大路甬祥教授从事博士后研究,1989年任浙大化工系副教授。1990年获中国科协“青年科技奖”及国家教委“有突出贡献的博士学位获得者”称号。1990至1992年获德国洪堡研究奖学金在杜伊斯堡大学和卡塞尔大学进行客座研究。1992至2015年任教于新加坡国立大学电气与计算机工程系,2004年晋升正教授。现任南非约翰内斯堡大学杰出教授,南非国家A级科学家,南非国家科学院院士。学术上主要从事复杂系统的建模、估计、预测、优化、控制及自动化等方面的研究。在国际杂志发表论文300余篇,由Springer出版7部学术专著,累计论著引用近15000次,h-index为65。荣获国际自控界权威学报《Automatica》2006-2010年最多引用论文奖,在2013年名列Thomson Reuters list of highly cited researchers榜,2014年荣获《控制理论与应用》创刊30周年最具影响力论文奖。他也从事大量高技术研发及实际的工程应用,如造纸机、注塑机、间隙过程、飞机、无人机、风能、电厂、机器人、超净室、空调系统及医疗器械等的建模和控制,与大多数国际控制大公司合作过,累计科研经费超亿人民币。获美国等地专利5项(转让2项)。曾任美国电气与电子工程师协会新加坡控制分会主席(4次),亚洲控制会议及若干IEEE国际会议总主席,国际自动控制联合会学报《过程控制》编委。现任《美国仪表学会会刊》副主编(Deputy Editor-in-Chief),及多份国际学报编委。已培养博士及博士后各30余名。

报告摘要:

Do not miss this talk as it could be of both first kind and first hand of research life to you. Being a researcher with nearly 15000 citations and H-index of 65, the speaker will share his personal journal and view on research process of his numerous projects/publications, and research supervision of his 30+ PhD students and 30+ postdoctoral fellows. He will address the weakest aspects of Chinese students/researchers: creativity and presentation. In particular, he will show

·     how to build solid fundamentals

·     how to get maximum gains from the literature

·     how to acquire logic reasoning ability

·     how to generate novel ideas

·     how to present research with clarity and rigor for easy recognition

With wild guess, most of its contents might be unknown but useful to audience  

 

报告题目二:4th Industrial Revolution/ 中国制造 2025 and Our Roles/Future

报告时间:2018年7月17日(周二) 上午9:30 -11:30

报告地点:新主楼E706

报告摘要:

The 4th Industrial Revolution has arrived with no historical precedent and is evolving at an exponential rather than a linear pace of technological breakthroughs. It is fueled by rapid advances in Internets, wireless device and communication, big data, cloud computing, artificial intelligence, robotics, autonomous vehicles, 3-D printing, nanotechnology, biotechnology, materials science, new energies, which connect billions of people and machines together, anytime and anywhere.

4th Industrial Revolution is changing and will continue to change everything.  It will fundamentally alter the way we live, work, and relate to one another. Technology has greatly improved efficiency and productivity of industries, opened new markets and drive economic growth. Innovations create new products and services that raise the quality and pleasure of our personal lives. Moreover, it is also disrupting almost every industry in every country. The breadth and depth of these changes herald the transformation of entire systems of production, management, and governance.  

4th Industrial Revolution offers both opportunities and challenges for each country. Major industrial powers such as Germany, USA, China and Japan are dominated the field, they have well planned and prepared for it, and are leading this big game. No nation can ignore such a mega-trend and afford being left behind of this game, causing severe deindustrialization, huge job loss, and irreversible great decline of international competitiveness and living standards.    

This talk will give brief introduction to the 4th Industrial Revolution and show our roles and action in this meg-trend, where the latest work of the speaker on i-enterprise will be highlighted  

 

报告题目三:Control Design with Guaranteed Transient Performance: a Set-Theoretic Approach

报告时间:2018年7月24日(周二) 上午10:30 -11:30

报告地点:新主楼E706

报告摘要:

In this seminar, a novel approach is presented for control design with guaranteed transient performance for multipleinput multiple-output discrete-time linear polytope difference inclusions. We establish a theorem that gives necessary and sufficient conditions for the state to evolve from one polyhedral subset of the state-space to another. Then we present an algorithm which, given a time-varying polyhedral set called the target tube, which may be specified from typical transient performance specifications, constructs an output feedback law that guarantees that the state evolves in this tube. Our formulation is very general and includes reference tracking with any desired transient behaviour in the face of disturbances, as specified, for example, by the most popular step response specifications. The approach is demonstrated by an example involving the control of water levels in two coupled tanks. Index Terms—transient performance; control design; time domain specifications; state constraints; discrete-time systems; set-theoretic methods; linear parameter-varying systems.

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