Vertical Impact Tests of the Panoramic Night Vision Goggle

Abstract

The Panoramic Night Vision Goggle (PNVG) was developed to provide an ultra-wide field of view over conventional NVGs; however, the PNVG, when attached to a standard USAF flight helmet, alters the helmet's inertial properties. These altered properties could potentially induce neck injuries during ejection. An experimental effort was conducted to measure the biodynamic response of an Advanced Dynamic Anthropomorphic Manikin (ADAM) subjected to simulated catapult dynamics while wearing the Panoramic Night Vision Goggle (PNVG). A series of vertical impacts were conducted with the PNVG using the AFRL/HEPA Vertical Deceleration Tower (VDT). The VDT impact test pulses were a nominal 10 G peak half-sine waveform with an approximate rise time of 72 ms. The effects of inertial property differences of the PNVG helmet system as compared to a baseline HGU-55/P were evaluated and found not to increase the risk of injury during the catapult phase of ejection with an ACES II seat when compared to a current operational helmets. Dynamic evaluation of the PNVG helmet using 10 G vertical impacts indicated that it will not induce neck loads greater than established VDT human tolerance values. Dynamic evaluation also found no structural failures to the PNVG mounting points.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 1998

Accession Number

ADA364165

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