Dallas IEEE EMC Chapter Meeting

#airborne-radar #electromagnetic-compatibility #simulation #mitigation
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First Meeting to Re-establish the Dallas IEEE EMC Society Chapter

We are pleased to announce the re-establishment of the Dallas IEEE Electromagnetic Compatibility (EMC) Chapter. This revitalized chapter will serve as a local forum for engineers, researchers, and technical professionals to exchange knowledge, share best practices, and engage with the latest developments in EMC and related disciplines.

The Dallas IEEE EMC Chapter aims to provide:

  • Technical presentations and tutorials

  • Networking opportunities with local EMC professionals

  • Collaboration with industry, academia, and standards organizations

  • Support for professional development and student engagement


  Date and Time

  Location

  Hosts

  Registration


  • Add_To_Calendar_icon Add Event to Calendar
  • 410 Freeport Parkway
  • Suite 160
  • Coppell, Texas
  • United States 75019
  • Building: Rohde & Schwarz Office
  • Click here for Map
  • Contact Event Host

  • Josh Deaton

    Interim Chair, Dallas IEEE EMC Chapter
    LinkedIn: www.linkedin.com/in/josh-deaton-3a45085a
    email: josh.deaton81@gmail.com
  • Starts 08 January 2026 06:00 AM UTC
  • Ends 06 February 2026 06:00 AM UTC
  • No Admission Charge

  Speakers

Jason Bommer of Principal Application Engineer, Ansys, Seattle, WA, USA

Topic:

Antenna Simulation and the Dynamic Mission

This presentation highlights modern large-scale and hybrid electromagnetic simulation techniques used to assess installed antenna performance on complex platforms. A case study examining interference and coexistence between a 5G base station and an airborne radar altimeter demonstrates how combining physics-based simulation with digital mission scenarios can improve analysis fidelity and support EMC mitigation strategies.

Biography:

Jason Bommer is a Principal Application Engineer in the electronics business unit at Ansys specializing in RF, antenna, mission, and interference applications. He is also an adjunct instructor at the Science and Math Institute in Tacoma, Washington where he teaches computational physics and engineering. Prior to joining Ansys through the Delcross acquisition in 2015, Jason served as an electromagnetics effects engineer at Boeing for over sixteen years. He holds BS and MS degrees in physics from University of New Orleans and University of Washington, respectively.

Email:




Agenda

Welcome and Opening

Background and Vision

Technical Presentation

Antenna Simulation and the Dynamic Mission: Airborne Radar Altimeter and 5G Coexistence

This presentation highlights modern large-scale and hybrid electromagnetic simulation techniques used to assess installed antenna performance on complex platforms. A case study examining interference and coexistence between a 5G base station and an airborne radar altimeter demonstrates how combining physics-based simulation with digital mission scenarios can improve analysis fidelity and support EMC mitigation strategies.

Proposed Structure and Roles

Open Discussion and Feedback

Next Steps


If you are interested in volunteering, presenting, or helping shape the future of the Dallas EMC community, we would be delighted to hear from you.

We look forward to reconnecting the local EMC community and welcoming you to our first meeting.


  Media

Dallas_IEEE_EMC_Chapter_ReLaunch_Flyer 260.82 KiB