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有关 Fred C. Lee 李泽元老师的网页
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有关 Fred C. Lee 李泽元老师的网页
(1)Virginia Tech Department of Electrical and Computer Engineering,Fred C. Lee
https://ece.vt.edu/people/profile/lee
(2)美国工程院院士,National Academy of Engineering,Member,2011
Professor Fred C. Lee
https://www.nae.edu/42075/Professor-Fred-C-Lee
(3)中国工程院外籍院士,李泽元,2013
http://www.cae.cn/cae/html/main/colys/38954295.html
http://www.cae.cn/cae/html/main/col50/column_50_1.html
(4)美国国家发明家协会院士,The National Academy of Inventors,Fellow,2018
http://www8.nationalacademies.org/onpinews/newsitem.aspx?RecordID=12132017a
(5)李老师退休了?Fred Lee honored with emeritus status,September 13, 2017
https://vtnews.vt.edu/articles/2017/09/eng-fredleeemeritus.html
在 2006年的论文《Inductor winding capacitance cancellation using mutual capacitance concept for noise reduction application》(IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY,卷: 48,期: 2,页: 311-318,出版年: MAY 2006)https://ieeexplore.ieee.org/document/1634745,李老师和Jacobus Daniel van Wyk (M'81–SM'84–F'90–LF'10)以及 Shuo Wang 同学说:
“The mutual capacitance concept has evolved from the duality principle in [1] to the correspondent part of the mutual inductance. The basic properties of mutual capacitance are derived and a physical model using a simple parallel plate capacitor is demonstrated in [1].”
就是傻在“1992年提出了互容的物理模型,并推导了互容的基本性质。”
感谢李泽元Fred.C.Lee院士,Jacobus Daniel van Wyk IEEE 会士,以及Shuo Wang老师的鼓励。
相关资料:
[1] Fred C. Lee 李泽元
https://ieeexplore.ieee.org/author/37271047100
[2] J. D. van Wyk
https://ieeexplore.ieee.org/author/37275458100
[3] Shuo Wang : ECE FLORIDA
https://ieeexplore.ieee.org/author/37280446900
https://www.ece.ufl.edu/people/faculty/shuo-wang/
应该是这位 Shuo Wang 副教授吧?
相关链接:
[1] 2019-02-25,俄罗斯学者将俺的电路理论“互容”概念写入了教材?[EB/OL]
http://blog.sciencenet.cn/blog-107667-1164136.html
[2] 2019-03-04,[请教] Демирчян、Нейман、Коровкин、Чечурин 里谁是院士?[EB/OL]
http://blog.sciencenet.cn/blog-107667-1165610.html
[3] 1995,关于“互容”概念的意义[J]. 电气电子教学学报,1995,17(4): 35-39.
http://www.cnki.com.cn/Article/CJFDTotal-DQDZ199504010.htm
http://www.cqvip.com/QK/98031X/199504/2000725.html
[4] 陈希有,俄版中译教材《电工理论基础》电路理论卷之鉴赏[J]. 电气电子教学学报,2011,33(6): 36-40.
http://mall.cnki.net/magazine/Article/DQDZ201106013.htm
http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqdzjxxb201106012
[5] The Feynman Lectures on Physics, Volume II: Mainly electromagnetism and matter, AC circuits, 22–8 Other circuit elements [EB/OL]
http://www.feynmanlectures.caltech.edu/II_22.html
[6] Moore, SK.4 strange new ways to compute[J]. IEEE SPECTRUM,2018, 55(10): 10-11.
https://spectrum.ieee.org/nanoclast/computing/hardware/4-strange-new-ways-to-make-a-computer
[7] 闵应骅,2018-01-12,放开思路,重振计算科学技术 (180112) 
精选
http://blog.sciencenet.cn/blog-290937-1094444.html
密苏里大学堪萨斯城分校的Naveen Kumar Macha和他的团队,
Macha他们发现,适当安排连线可以出现类似的逻辑行为。譬如三根平行线,给旁边的一根或两根线一个电压,就会在中间那一根上引起一个串扰,这不就是一个或门吗?明智地增加一个晶体管,他们构建了与门、或门、异或门,以及一个有进位功能的电路。这四种电路都比相应的CMOS电路更少的晶体管和少得多的芯片面积。
真傻在 IEEE 的介绍:
Z. L. Yang
https://ieeexplore.ieee.org/author/37069713800
多少有点吓人吧?俺要是这么苗条,就太好了。
感谢您的指教!
感谢您指正以上任何错误!
感谢您提供更多的相关资料!
https://blog.sciencenet.cn/blog-107667-1187364.html
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