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原文传递 Enhanced Flight Vision Systems Operational Feasibility Study Using Radar and Infrared Sensors.

题名：	Enhanced Flight Vision Systems Operational Feasibility Study Using Radar and Infrared Sensors.
作者：	Etherington, T. J.; Kramer, L. J.; Severance, K.; Bailey, R. E.; Williams, S. P.; Harrison, S. J.
关键词：	Aircraft landing, Landing aids, Low visibility, Head-up displays, Enhanced vision, Radar, Infrared instruments, Sensors, Pilot performance, Workloads (psychophysiology), Flight simulation, Failure analysis, Feasibility analysis
摘要：	Approach and landing operations during periods of reduced visibility have plagued aircraft pilots since the beginning of aviation. Although techniques are currently available to mitigate some of the visibility conditions, these operations are still ultimately limited by the pilot's ability to "see" required visual landing references (e.g., markings and/or lights of threshold and touchdown zone) and require significant and costly ground infrastructure. Certified Enhanced Flight Vision Systems (EFVS) have shown promise to lift the obscuration veil. They allow the pilot to operate with enhanced vision, in lieu of natural vision, in the visual segment to enable equivalent visual operations (EVO). An aviation standards document was developed with industry and government consensus for using an EFVS for approach, landing, and rollout to a safe taxi speed in visibilities as low as 300 feet runway visual range (RVR). These new standards establish performance, integrity, availability, and safety requirements to operate in this regime without reliance on a pilot's or flight crew's natural vision by use of a fail-operational EFVS. A pilot-in-the-loop high-fidelity motion simulation study was conducted at NASA Langley Research Center to evaluate the operational feasibility, pilot workload, and pilot acceptability of conducting straight-in instrument approaches with published vertical guidance to landing, touchdown, and rollout to a safe taxi speed in visibility as low as 300 feet RVR by use of vision system technologies on a head-up display (HUD) without need or reliance on natural vision. Twelve crews flew various landing and departure scenarios in 1800, 1000, 700, and 300 RVR. This paper details the non-normal results of the study including objective and subjective measures of performance and acceptability. The study validated the operational feasibility of approach and departure operations and success was independent of visibility conditions. Failures were handled within the lateral confines of the runway for all conditions tested. The fail-operational concept with pilot in the loop needs further study.
总页数：	Etherington, T. J.; Kramer, L. J.; Severance, K.; Bailey, R. E.; Williams, S. P.; Harrison, S. J.
报告类型：	科技报告