WIRELESS SECURITY RISKS; HISTORICAL WWII DECRYPTION THROUGH 5G CELLULAR TECHNOLOGY

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Joseph discusses the existential WWII enigma code interception and decryption methods along with the heros and heroines who worked around the clock to save the allied nations. The cold war, following WWII, introduced additional risks and new challenges and illustrates wireless security failures and new wireless packet intercept and a list of encryption methods with inherent defects. Finally, wireless risks present in 2022 are shown as security aircraft, ship, automotive, and military cases aircraft, and ship examples. State-of-the-art 5G Cellular security technology and the identified risks of base-station's dynamically changing protocols, hardware BTS trojans, and mobile UAV-identified cellid and location interception challenges are highlighted. Originally presented at a Rutgers IEEE dinner, a professor mentioned she found this presentation informative, but she would not sleep that evening!



  Date and Time

  Location

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  Registration



  • Date: 05 Oct 2022
  • Time: 12:00 PM to 01:00 PM
  • All times are (UTC-05:00) Eastern Time (US & Canada)
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  • 2000 Pennington Road
  • Ewing, New Jersey
  • United States 08638
  • Building: Armstrong Hall
  • Room Number: 102

  • TCNJ IEEE Student chapter email: ieee@tcnj.edu



  Speakers

Joseph Jessen of IEEE TCNJ Student Chapter

Topic:

WIRELESS SECURITY RISKS; HISTORICAL WWII DECRYPTION THROUGH 5G CELLULAR TECHNOLOGY

Joseph discusses the existential WWII enigma code interception and decryption methods along with the heros and heroines who worked around the clock to save the allied nations. The cold war, following WWII, introduced additional risks and new challenges and illustrates wireless security failures and new wireless packet intercept and a list of encryption methods with inherent defects. Finally, wireless risks present in 2022 are shown as security aircraft, ship, automotive, and military cases aircraft, and ship examples. State-of-the-art 5G Cellular security technology and the identified risks of base-station's dynamically changing protocols, hardware BTS trojans, and mobile UAV-identified cellid and location interception challenges are highlighted. Originally presented at a Rutgers IEEE dinner, a professor mentioned she found this presentation informative, but she would not sleep that evening!

Biography:

Joseph Jesson, is CEO of RFSigint Group, a wireless sensor platform IP and SOC supply-chain advisory company, and currently consults with private corporations on wireless sensor networks (LPWAN narrowband digital technology). Joe has 25+ years of experience in designing and implementing - through production - IoT wireless sensors & embedded systems and was awarded General Electric's Innovation prize, the Edison Award, in 2007. Joe was awarded over 15 patents and engineered and tested wireless TEMPEST-secured wireless systems for the DIA in 1976-1982. Currently IEEE Princeton LIFE Chair, he holds graduate degrees from DePaul University & a doctoral candidate.

Email:

Address:2000 Pennington Road, , Ewing, New Jersey, United States, 08638