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DESCRIPTION:Topic: &quot;The Fascinating World of Computational Electromagnetics
 &quot;\n\nLocation: Middle East Technical Univesity\, Ankara Turkey\n\nJian-Min
 g Jin is Y. T. Lo Chair Professor in Electrical and Computer Engineering a
 nd Director of the Electromagnetics Laboratory and Center for Computationa
 l Electromagnetics at the University of Illinois at Urbana-Champaign. He h
 as authored and co-authored over 275 papers in refereed journals and over 
 20 book chapters. He has also authored The Finite Element Method in Electr
 omagnetics\, Electromagnetic Analysis and Design in Magnetic Resonance Ima
 ging\, and Theory and Computation of Electromagnetic Fields\, co-authored 
 Computation of Special Functions\, Finite Element Analysis of Antennas and
  Arrays\, and Fast and Efficient Algorithms in Computational Electromagnet
 ics. His name often appeared in the University of Illinois’s List of Exc
 ellent Instructors. He was elected by ISI among world’s most cited autho
 rs in 2002. He is a Fellow of IEEE\, Applied Computational Electromagnetic
 s Society (ACES)\, and Electromagnetics Academy. Recently\, he received th
 e 2014 ACES Technical Achievement Award\, 2015 IEEE APS Chen-To Tai Distin
 guished Educator Award\, 2016 ACES Computational Electromagnetics Award\, 
 and 2017 IEEE APS Harrington-Mittra Computational Electromagnetics Award.\
 n\nThe Fascinating World of Computational Electromagnetics\n\nAs an art an
 d science for solving Maxwell’s equations\, computational electromagneti
 cs is a fascinating area for research and engineering application. Over th
 e past five decades\, computational electromagnetics has evolved into the 
 most important field in the general area of electromagnetics. The importan
 ce of computational electromagnetics is due to the predictive power of Max
 well’s theory – Maxwell’s theory can predict design performances or 
 experimental outcome if Maxwell’s equations are solved correctly. Moreov
 er\, Maxwell’s theory\, which governs the basic principles behind electr
 icity\, is extremely pertinent in many engineering and scientific technolo
 gies such as radar\, microwave and RF engineering\, remote sensing\, geoel
 ectromagnetics\, bioelectromagnetics\, antennas\, wireless communication\,
  optics\, and high-frequency circuits. Furthermore\, Maxwell’s theory is
  valid over a broad range of frequencies spanning static to optics\, and o
 ver a wide range of length scales\, from subatomic to inter-galactic. Beca
 use of this\, computational electromagnetics is a very important subject w
 hich has already impacted and will continue to impact many engineering and
  scientific technologies. In this presentation\, we will review the past p
 rogress and current status of computational electromagnetics\, and discuss
  its future challenges and research directions. We will first give an over
 view of computational electromagnetics methods and then use a variety of e
 xamples to demonstrate their applications.\n\nNote: This talk is aimed at 
 senior undergraduate and beginning graduate students.\n\nSpeaker(s): Prof.
  Jianming Jin\, \n\nAnkara\, Ankara\, Türkiye
LOCATION:Ankara\, Ankara\, Türkiye
ORGANIZER:ozergul@metu.edu.tr
SEQUENCE:1
SUMMARY:IEEE-APS DISTINGUISHED LECTURER SEMINAR BY PROF. JIANMING JIN I
URL;VALUE=URI:https://events.vtools.ieee.org/m/172291
X-ALT-DESC:Description: &lt;br /&gt;&lt;p&gt;Topic: &quot;The Fascinating World of Computati
 onal Electromagnetics&quot;&lt;/p&gt;\n&lt;p&gt;Location:&amp;nbsp\;Middle East Technical Unive
 sity\, Ankara Turkey&lt;/p&gt;\n&lt;p&gt;&lt;strong&gt;Jian-Ming Jin&lt;/strong&gt;&amp;nbsp\;is Y. T.
  Lo Chair Professor in Electrical and Computer Engineering and Director of
  the Electromagnetics Laboratory and Center for Computational Electromagne
 tics at the University of Illinois at Urbana-Champaign. He has authored an
 d co-authored over 275 papers in refereed journals and over 20 book chapte
 rs. He has also authored The Finite Element Method in Electromagnetics\, E
 lectromagnetic Analysis and Design in Magnetic Resonance Imaging\, and The
 ory and Computation of Electromagnetic Fields\, co-authored Computation of
  Special Functions\, Finite Element Analysis of Antennas and Arrays\, and 
 Fast and Efficient Algorithms in Computational Electromagnetics. His name 
 often appeared in the University of Illinois&amp;rsquo\;s List of Excellent In
 structors. He was elected by ISI among world&amp;rsquo\;s most cited authors i
 n 2002. He is a Fellow of IEEE\, Applied Computational Electromagnetics So
 ciety (ACES)\, and Electromagnetics Academy. Recently\, he received the 20
 14 ACES Technical Achievement Award\, 2015 IEEE APS Chen-To Tai Distinguis
 hed Educator Award\, 2016 ACES Computational Electromagnetics Award\, and 
 2017 IEEE APS Harrington-Mittra Computational Electromagnetics Award.&lt;/p&gt;\
 n&lt;p&gt;&amp;nbsp\;&lt;/p&gt;\n&lt;p&gt;&lt;strong&gt;The Fascinating World of Computational Electro
 magnetics&lt;/strong&gt;&lt;/p&gt;\n&lt;p&gt;As an art and science for solving Maxwell&amp;rsquo
 \;s equations\, computational electromagnetics is a fascinating area for r
 esearch and engineering application. Over the past five decades\, computat
 ional electromagnetics has evolved into the most important field in the ge
 neral area of electromagnetics. The importance of computational electromag
 netics is due to the predictive power of Maxwell&amp;rsquo\;s theory &amp;ndash\; 
 Maxwell&amp;rsquo\;s theory can predict design performances or experimental ou
 tcome if Maxwell&amp;rsquo\;s equations are solved correctly. Moreover\, Maxwe
 ll&amp;rsquo\;s theory\, which governs the basic principles behind electricity
 \, is extremely pertinent in many engineering and scientific technologies 
 such as radar\, microwave and RF engineering\, remote sensing\, geoelectro
 magnetics\, bioelectromagnetics\, antennas\, wireless communication\, opti
 cs\, and high-frequency circuits. Furthermore\, Maxwell&amp;rsquo\;s theory is
  valid over a broad range of frequencies spanning static to optics\, and o
 ver a wide range of length scales\, from subatomic to inter-galactic. Beca
 use of this\, computational electromagnetics is a very important subject w
 hich has already impacted and will continue to impact many engineering and
  scientific technologies. In this presentation\, we will review the past p
 rogress and current status of computational electromagnetics\, and discuss
  its future challenges and research directions. We will first give an over
 view of computational electromagnetics methods and then use a variety of e
 xamples to demonstrate their applications.&lt;/p&gt;\n&lt;p&gt;&lt;em&gt;Note:&amp;nbsp\;&lt;/em&gt;Th
 is talk is aimed at senior undergraduate and beginning graduate students.&lt;
 /p&gt;
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