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DTSTART;TZID=America/New_York:20250909T150000
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DESCRIPTION:Special Presentation by Gregory Skidmore and Tarun Chawla (REMC
 OM\, USA)\n\nHosted by the Future Networks massive MIMO Working Group\n\nD
 ate/Time: Tuesday\, 9 September 2025 @ 3 PM EDT\n\nTopic:\n\nElectromagnet
 ic Twins: Physics-Based Digital Twins for Communications and Sensing\n\nAb
 stract:\n\nElectromagnetic (EM) Twins are a new class of digital twins tha
 t embed high-fidelity\, physics-based solvers\, based on Maxwell’s equat
 ions\, into the design and optimization of modern RF communication and sen
 sing systems. By integrating with mechanical CAD\, PCB layouts\, and 3D sp
 atial data\, EM Twins enable full-system electromagnetic analysis within r
 ealistic environments and production workflows.\n\nIn this webinar\, REMCO
 M engineers will demonstrate simulation workflows using tools such as XFdt
 d\, Wireless InSite\, highlighting how EM Twins can:\n\n· Simulate outdoo
 r RF propagation using 3D GIS-based urban and rural environments\n\n· Cha
 racterize indoor wireless channels with LiDAR measurements for scalable an
 d accurate modeling\n\n· Model human presence and movement using animated
  body models for RF sensing applications\, including health monitoring and
  occupancy detection\n\n· These physics-informed simulations generate ric
 h\, labeled datasets suitable for training AI/ML models—enabling perform
 ance-aware chipset design and advancing Physics-Informed AI techniques for
  wireless sensing and communication systems.\n\nDesigned for engineers and
  researchers working in RF systems and digital twins\, this webinar featur
 es live demonstrations and practical guidance for integrating EM simulatio
 n into next-generation system design and validation workflows.\n\nSpeaker:
 \n\nGregory Skidmore received the B.S.E.E. degree from the University of V
 irginia in 1993 and the M.S.E.E. degree from Johns Hopkins University in 1
 997. He is currently the Director of Wireless at Remcom\, State College\, 
 PA\, USA with over 20 years of experience in US DoD contract management. H
 is current interests include channel modeling\, radar\, digital signal pro
 cessing\, and hybrid electromagnetic techniques.\n\nTarun Chawla (Member\,
  IEEE) received the B.S.E.E. degree from The Pennsylvania State University
  in 2008\, and the M.B.A. degree from the University of Memphis in 2019. H
 e is the Director of Business Development at Remcom\, State College\, PA\,
  USA\, with over 16 years of experience in hardware\, middleware\, and com
 putational physics for electronics. His teams focus on integrating simulat
 ion tools for manufacturers in the semiconductor\, consumer\, automotive\,
  and defense industries\, including NASA. He works at the intersection of 
 research and product engineering to support the development of AI-enabled 
 wireless systems.\n\nCo-sponsored by: Future Networks massive MIMO Working
  Group\n\nVirtual: https://events.vtools.ieee.org/m/499620
LOCATION:Virtual: https://events.vtools.ieee.org/m/499620
ORGANIZER:c.polk@comsoc.org
SEQUENCE:29
SUMMARY:"Electromagnetic Twins: Physics-Based Digital Twins for Communicati
 ons and Sensing" webinar
URL;VALUE=URI:https://events.vtools.ieee.org/m/499620
X-ALT-DESC:Description: <br /><p class="MsoNormal" style="margin-top: .25in
 \;"><img src="https://events.vtools.ieee.org/vtools_ui/media/display/c89ba
 742-187c-4a7b-8e7b-ea01ace0f9eb"></p>\n<p class="MsoNormal" style="margin-
 top: 12.0pt\;">Special Presentation by<strong> <span style="font-size: 14p
 t\; line-height: 107%\; font-family: Calibri\, sans-serif\;">Gregory Skidm
 ore and Tarun Chawla (REMCOM\, USA)</span></strong></p>\n<p class="MsoNorm
 al" style="margin-top: 12.0pt\;">Hosted by the Future Networks<strong> <sp
 an style="font-size: 14pt\;">massive MIMO Working Group</span></strong></p
 >\n<p class="MsoNormal" style="margin-top: 12.0pt\;"><strong><span style="
 font-size: 14.0pt\; font-family: Copperplate\; mso-fareast-font-family: PM
 ingLiU\; mso-fareast-theme-font: minor-fareast\; mso-bidi-font-family: Ari
 al\; mso-bidi-theme-font: minor-bidi\; mso-ansi-language: EN-US\; mso-fare
 ast-language: ZH-TW\; mso-bidi-language: AR-SA\;">Date/Time</span></strong
 ><span style="font-size: 12.0pt\; font-family: 'Calibri'\,sans-serif\; mso
 -ascii-theme-font: minor-latin\; mso-fareast-font-family: PMingLiU\; mso-f
 areast-theme-font: minor-fareast\; mso-hansi-theme-font: minor-latin\; mso
 -bidi-font-family: Arial\; mso-bidi-theme-font: minor-bidi\; mso-ansi-lang
 uage: EN-US\; mso-fareast-language: ZH-TW\; mso-bidi-language: AR-SA\;">: 
 <span style="font-size: 14pt\;"><strong>Tuesday\, 9 September 2025</strong
 ><strong> @ 3 PM EDT</strong></span></span></p>\n<p class="MsoNormal" styl
 e="margin-top: .25in\;"><strong><u><span style="font-size: 16.0pt\; font-f
 amily: Copperplate\;">Topic</span></u></strong><strong><span style="font-s
 ize: 16.0pt\; font-family: Copperplate\;">:</span></strong></p>\n<p class=
 "MsoNormal"><span style="font-size: 18pt\;"><strong id="docs-internal-guid
 -16ecabfc-7fff-d94a-c7aa-58273fe72681">Electromagnetic Twins: Physics-Base
 d Digital Twins for Communications and Sensing</strong></span></p>\n<p cla
 ss="MsoNormal" style="margin-top: .25in\;"><strong><u><span style="font-si
 ze: 16.0pt\; font-family: Copperplate\;">Abstract</span></u></strong><stro
 ng><span style="font-size: 16.0pt\; font-family: Copperplate\;">:</span></
 strong></p>\n<p class="MsoNoSpacing" style="text-align: justify\;"><span l
 ang="EN" style="mso-ansi-language: EN\;">Electromagnetic (EM) Twins are a 
 new class of digital twins that embed high-fidelity\, physics-based solver
 s\, based on Maxwell&rsquo\;s equations\, into the design and optimization
  of modern RF communication and sensing systems. By integrating with mecha
 nical CAD\, PCB layouts\, and 3D spatial data\, EM Twins enable full-syste
 m electromagnetic analysis within realistic environments and production wo
 rkflows.</span></p>\n<p class="MsoNoSpacing" style="text-align: justify\;"
 ><span lang="EN" style="mso-ansi-language: EN\;">In this webinar\, REMCOM 
 engineers will demonstrate simulation workflows using tools such as XFdtd\
 , Wireless InSite\, highlighting how EM Twins can:</span></p>\n<p class="M
 soNoSpacing" style="margin-left: .5in\; text-align: justify\; text-indent:
  -.25in\; mso-list: l0 level1 lfo1\;"><!-- [if !supportLists]--><span lang
 ="EN" style="font-family: Symbol\; mso-fareast-font-family: Symbol\; mso-b
 idi-font-family: Symbol\; mso-ansi-language: EN\;"><span style="mso-list: 
 Ignore\;">&middot\; </span></span><span lang="EN" style="mso-ansi-language
 : EN\;">Simulate outdoor RF propagation using 3D GIS-based urban and rural
  environments</span></p>\n<p class="MsoNoSpacing" style="margin-left: .5in
 \; text-align: justify\; text-indent: -.25in\; mso-list: l0 level1 lfo1\;"
 ><!-- [if !supportLists]--><span lang="EN" style="font-family: Symbol\; ms
 o-fareast-font-family: Symbol\; mso-bidi-font-family: Symbol\; mso-ansi-la
 nguage: EN\;"><span style="mso-list: Ignore\;">&middot\; </span></span><sp
 an lang="EN" style="mso-ansi-language: EN\;">Characterize indoor wireless 
 channels with LiDAR measurements for scalable and accurate modeling</span>
 </p>\n<p class="MsoNoSpacing" style="margin-left: .5in\; text-align: justi
 fy\; text-indent: -.25in\; mso-list: l0 level1 lfo1\;"><!-- [if !supportLi
 sts]--><span lang="EN" style="font-family: Symbol\; mso-fareast-font-famil
 y: Symbol\; mso-bidi-font-family: Symbol\; mso-ansi-language: EN\;"><span 
 style="mso-list: Ignore\;">&middot\; </span></span><span lang="EN" style="
 mso-ansi-language: EN\;">Model human presence and movement using animated 
 body models for RF sensing applications\, including health monitoring and 
 occupancy detection</span></p>\n<p class="MsoNoSpacing" style="margin-left
 : .5in\; text-align: justify\; text-indent: -.25in\; mso-list: l0 level1 l
 fo1\;"><!-- [if !supportLists]--><span lang="EN" style="font-family: Symbo
 l\; mso-fareast-font-family: Symbol\; mso-bidi-font-family: Symbol\; mso-a
 nsi-language: EN\;"><span style="mso-list: Ignore\;">&middot\; </span></sp
 an><span lang="EN" style="mso-ansi-language: EN\;">These physics-informed 
 simulations generate rich\, labeled datasets suitable for training AI/ML m
 odels&mdash\;enabling performance-aware chipset design and advancing Physi
 cs-Informed AI techniques for wireless sensing and communication systems.<
 /span></p>\n<p class="MsoNoSpacing" style="text-align: justify\;"><span la
 ng="EN" style="mso-ansi-language: EN\;">Designed for engineers and researc
 hers working in RF systems and digital twins\, this webinar features live 
 demonstrations and practical guidance for integrating EM simulation into n
 ext-generation system design and validation workflows.</span></p>\n<p><str
 ong><span style="font-size: 16.0pt\; font-family: Copperplate\;"><u>Speake
 r</u>:</span></strong></p>\n<table style="border-collapse: collapse\; widt
 h: 100%\; height: 400.782px\;" border="1"><colgroup><col style="width: 17.
 466411%\;"><col style="width: 82.43762%\;"></colgroup>\n<tbody>\n<tr style
 ="height: 200.391px\;">\n<td style="height: 200.391px\;"><img src="https:/
 /events.vtools.ieee.org/vtools_ui/media/display/445fbc4a-4ff1-43cc-b202-ee
 d9f13ef8c3"></td>\n<td style="height: 200.391px\;">\n<p class="MsoNormal" 
 style="margin-top: 6.0pt\;"><strong>Gregory Skidmore </strong>received the
  B.S.E.E. degree from the University of Virginia in 1993 and the M.S.E.E. 
 degree from Johns Hopkins University in 1997. He is currently the Director
  of Wireless at Remcom\, State College\, PA\, USA with over 20 years of ex
 perience in US DoD contract management. His current interests include chan
 nel modeling\, radar\, digital signal processing\, and hybrid electromagne
 tic techniques<strong>.</strong></p>\n</td>\n</tr>\n<tr style="height: 200
 .391px\;">\n<td style="height: 200.391px\;"><img src="https://events.vtool
 s.ieee.org/vtools_ui/media/display/75c171f9-4b4e-4c19-81ef-9d016ef0159b" w
 idth="194" height="195"></td>\n<td style="height: 200.391px\;">\n<p class=
 "MsoNormal" style="margin-top: 6.0pt\;"><strong>Tarun Chawla </strong>(Mem
 ber\, IEEE) received the B.S.E.E. degree from The Pennsylvania State Unive
 rsity in 2008\, and the M.B.A. degree from the University of Memphis in 20
 19. He is the Director of Business Development at Remcom\, State College\,
  PA\, USA\, with over 16 years of experience in hardware\, middleware\, an
 d computational physics for electronics. His teams focus on integrating si
 mulation tools for manufacturers in the semiconductor\, consumer\, automot
 ive\, and defense industries\, including NASA. He works at the intersectio
 n of research and product engineering to support the development of AI-ena
 bled wireless systems.</p>\n</td>\n</tr>\n</tbody>\n</table>
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