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DTSTAMP:20221019T181517Z
UID:267931A5-7EEA-463D-B7B1-71BBE37214FD
DTSTART;TZID=America/New_York:20221011T180000
DTEND;TZID=America/New_York:20221011T191500
DESCRIPTION:Come hear\, in-person or virtually\, IEEE AP-S Distinguished Le
 cturer (DL) Dr. Levent Sevgi's broad presentation on the importance of and
  challenges in teaching electromagnetics in electrical engineering today. 
 His presentation is meant for a general audience and has been well-receive
 d throughout the world in his travels as the 2020 - 2023 IEEE AP-S DL. Dr.
  Sevgi brings over 40 years of electromagnetics experience\, in both acade
 mic R&D and industry\, to his role as an IEEE AP-S DL. See the full presen
 tation abstract below. Everyone is welcome\, from practitioner to retiree\
 , and even undergrad students will especially enjoy it. (Don't worry if yo
 u can't remember all of Maxwell's Equations!). IEEE events are open to all
 \; you do not have to be a member to attend.\n\nParking at the Nashua Publ
 ic Library's parking lot is paid by the hour\, via parking meters\; see th
 e lot's $/hr rates and location along the southern bank of the Nashua Rive
 r at https://www.nashuanh.gov/DocumentCenter/View/6306/Downtown-Parking-Br
 ochure-PDF?bidId=. Registration is required in order to receive link via e
 -mail for the live video if attending virtually.\n\nAbstract\n\nThe role o
 f Electromagnetic (EM) fields in our lives has been increasing. Communicat
 ion\, remote sensing\, integrated command/ control/surveillance systems\, 
 intelligent transportation systems\, medicine\, environment\, education\, 
 marketing\, defense are only a few areas where EM fields have critical imp
 ortance. We have witnessed the transformation from Engineering Electromagn
 etics to Electromagnetic Engineering for the last few decades after being 
 surrounded by EM waves everywhere. Among many others\, EM engineering deal
 s with broad range of problems from antenna design to EM scattering\, indo
 or–outdoor radiowave propagation to wireless communication\, radar syste
 ms to integrated surveillance\, subsurface imaging to novel materials\, EM
  compatibility to nano-systems\, electroacoustic devices to electro-optica
 l systems\, etc. The range of the devices we use in our daily life has ext
 ended from DC up to Terahertz frequencies. We have had both large-scale (k
 ilometers-wide) and small-scale (nanometers) EM systems. Large portion of 
 these systems are broadband and digital\, and have to operate in close pro
 ximity that results in severe EM interference problems. Engineers have to 
 take EM issues into account from the earliest possible design stages. This
  necessitates establishing an intelligent balance between strong mathemati
 cal background (theory)\, engineering experience (practice)\, and modeling
  and numerical computations (simulation).\n\nThis keynote lecture aims at 
 a broad-brush look at certain teaching / training challenges that confront
  wave-oriented EM engineering in the 21st century\, in a complex computer 
 and technology-driven world with rapidly shifting societal and technical p
 riorities.\n\nThe lecture also discusses modeling and simulation strategie
 s pertaining to complex EM problems and supplies several user-friendly vir
 tual tools\, most of which have been presented in the IEEE AP Magazine and
  which are very effective in teaching and training in lectures such as EM 
 Wave Theory\, Antennas and Radiowave Propagation\, EM Scattering and Diffr
 action\, Guided Wave Theory\, Microstrip Circuit Design\, Radar Cross Sect
 ion Prediction\, Transmission Lines\, Metamaterials\, etc.\n\nSpeaker(s): 
 Levent Sevgi\, Ph.D.\, \n\nAgenda: \n6:00 PM to 6:15 PM Meet and greet\n\n
 6:15 PM to 7:15 PM Presentation\n\n7:15 PM Optional dinner with speaker at
  a nearby restaurant\n\nRoom: Theater Room\, Nashua Public Library\, 2 Cou
 rt St.\, Nashua\, New Hampshire\, United States\, 03060
LOCATION:Room: Theater Room\, Nashua Public Library\, 2 Court St.\, Nashua\
 , New Hampshire\, United States\, 03060
ORGANIZER:herrere@ieee.org
SEQUENCE:6
SUMMARY:NH IEEE Hybrid Meeting - From ENGINEERING ELECTROMAGNETICS to ELECT
 ROMAGNETIC ENGINEERING: Teaching/Training Next Generations
URL;VALUE=URI:https://events.vtools.ieee.org/m/323548
X-ALT-DESC:Description: <br /><p>Come hear\, in-person or virtually\, IEEE 
 AP-S Distinguished Lecturer (DL) Dr. Levent Sevgi's broad presentation on 
 the importance of and challenges in teaching electromagnetics in electrica
 l engineering today.&nbsp\; His presentation is meant for a general audien
 ce and has been well-received throughout the world in his travels as the 2
 020 - 2023 IEEE AP-S DL.&nbsp\; Dr. Sevgi brings over 40 years of electrom
 agnetics experience\, in both academic R&amp\;D and industry\, to his role
  as an IEEE AP-S DL. See the full presentation abstract below.&nbsp\; Ever
 yone is welcome\, from practitioner to retiree\, and even undergrad studen
 ts will especially enjoy it.&nbsp\; &nbsp\;<em>(Don't worry if you can't r
 emember all of Maxwell's Equations!)</em>.&nbsp\; IEEE events are open to 
 all\; you do not have to be a member to attend.&nbsp\;</p>\n<p>Parking at 
 the Nashua Public Library's parking lot is paid by the hour\, via parking 
 meters\; see the lot's $/hr rates and location along the southern bank of 
 the Nashua River at <a title="nashuanh.gov's downtown parking map" href="h
 ttps://www.nashuanh.gov/DocumentCenter/View/6306/Downtown-Parking-Brochure
 -PDF?bidId=" target="_blank" rel="noopener">https://www.nashuanh.gov/Docum
 entCenter/View/6306/Downtown-Parking-Brochure-PDF?bidId=</a>. &nbsp\;Regis
 tration is required in order to receive link via e-mail for the live video
  if attending virtually. &nbsp\;</p>\n<p><strong>Abstract</strong></p>\n<p
 >The role of Electromagnetic (EM) fields in our lives has been increasing.
  Communication\, remote sensing\, integrated command/ control/surveillance
  systems\, intelligent transportation systems\, medicine\, environment\, e
 ducation\, marketing\, defense are only a few areas where EM fields have c
 ritical importance. We have witnessed the transformation from <strong><em>
 Engineering Electromagnetics </em></strong>to <strong><em>Electromagnetic 
 Engineering </em></strong>for the last few decades after being surrounded 
 by EM waves everywhere. Among many others\, EM engineering deals with broa
 d range of problems from antenna design to EM scattering\, indoor&ndash\;o
 utdoor radiowave propagation to wireless communication\, radar systems to 
 integrated surveillance\, subsurface imaging to novel materials\, EM compa
 tibility to nano-systems\, electroacoustic devices to electro-optical syst
 ems\, etc. The range of the devices we use in our daily life has extended 
 from DC up to Terahertz frequencies. We have had both large-scale (kilomet
 ers-wide) and small-scale (nanometers) EM systems. Large portion of these 
 systems are broadband and digital\, and have to operate in close proximity
  that results in severe EM interference problems. Engineers have to take E
 M issues into account from the earliest possible design stages. This neces
 sitates establishing an intelligent balance between strong mathematical ba
 ckground (theory)\, engineering experience (practice)\, and modeling and n
 umerical computations (simulation).</p>\n<p>This keynote lecture aims at a
  broad-brush look at certain teaching / training challenges that confront 
 wave-oriented EM engineering in the 21st century\, in a complex computer a
 nd technology-driven world with rapidly shifting societal and technical pr
 iorities.</p>\n<p>The lecture also discusses modeling and simulation strat
 egies pertaining to complex EM problems and supplies several user-friendly
  virtual tools\, most of which have been presented in the IEEE AP Magazine
  and which are very effective in teaching and training in lectures such as
  EM Wave Theory\, Antennas and Radiowave Propagation\, EM Scattering and D
 iffraction\, Guided Wave Theory\, Microstrip Circuit Design\, Radar Cross 
 Section Prediction\, Transmission Lines\, Metamaterials\, etc.</p><br /><b
 r />Agenda: <br /><p>6:00 PM to 6:15 PM &nbsp\; Meet and greet&nbsp\;</p>\
 n<p>6:15 PM to 7:15 PM &nbsp\; Presentation&nbsp\;</p>\n<p>7:15 PM&nbsp\; 
 &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; &nbsp\; Op
 tional dinner with speaker at a nearby restaurant</p>
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