WPAN-UWB Transmission Loss Measurements Around/Near A Soldier’s Protective Vest* M. Cross, P.E. MegaWave Corporation 6/20/11 Transmission loss includes.

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Presentation transcript:

WPAN-UWB Transmission Loss Measurements Around/Near A Soldier’s Protective Vest* M. Cross, P.E. MegaWave Corporation 6/20/11 Transmission loss includes antenna gains Other propagation considerations: – Around-body/vest probably “creeping wave” – Stationary? – Dispersive? – Multipath delay spread? – Doppler spread (probably of no consequence) * Sponsored by U. S. Army Natick Soldier RD&E Center

Validity of Narrowband Transmission Loss Measurements Are narrowband measurements valid for UWB bandwidths? – Answer on page 585 of Pahlavan and Levesque* – P r UWB = P r NB [1/1-(W/2F c )²], where: P r = Received power W = bandwidth F c = Center frequency 1.5 dB error for W = 7.5 GHz, F c = 6.85 GHz Narrowband measurements reasonable * Pahlavan, K. and Levesque, A., “Wireless Information Networks,” Wiley, 2005

End-Points for Transmission Loss Measurements

S21 Test Setup (Agar-gel filled phantom/protective vest/VNA)

Transmission Loss: Standing With/Without Protective Vest

Transmission Loss: Prone

Transmission Loss: HMMWV

Transmission Loss: Conclusions ≈ 83 dB maximum measured loss Less loss with vest vs. nude agar-gel-filled phantom Little difference: standing-prone-sitting in HMMWV 100% connectivity with COTS UWB dongles between all end-points (some under armor) Narrow-band ≈ UWB except for delay spread, etc. Continuing measurement campaign: – Confirm MegaWave measurements – Opportunity to measure channel statistics – Will provide accurate and detailed information for system design