原文传递 Flying Schedule-Matching Descents to Explore Flight Crews' Perceptions of Their Load and Task Feasibility.
题名: Flying Schedule-Matching Descents to Explore Flight Crews' Perceptions of Their Load and Task Feasibility.
作者: Dulchinos, V.; Hayashi, M.; Kaneshige, J.; Lozito, S.; Martin, L. H.; Sharma, S.
关键词: Airspace; Flight Crews; Flight Management Systems; Ground Based Controllers; Loads(forces); Perception; Routes; Schedules; Scheduling(ground); Workloads(psychophysiology)
摘要: Multiple studies have investigated the development and use of ground-based (controller) tools to manage and schedule traffic in future terminal airspace. No studies have investigated the impacts that such tools (and concepts) could have on the flight-deck. To begin to redress the balance, an exploratory study investigated the procedures and actions of ten Boeing-747-400 crews as they flew eight continuous descent approaches in the Los Angeles terminal airspace, with the descents being controlled using speed alone. Although the study was exploratory in nature, four variables were manipulated: speed changes, route constraints, clearance phraseology, and winds. Despite flying the same scenarios with the same events and timing, there was at least a 50 second difference in the time it took crews to fly the approaches. This variation is the product of a number of factors but highlights potential difficulties for scheduling tools that would have to accommodate this amount of natural variation in descent times. The primary focus of this paper is the potential impact of ground scheduling tools on the flight crews performance and procedures. Crews reported 'moderate to low' workload, on average; however, short periods of intense and high workload were observed. The non-flying pilot often reported a higher level of workload than the flying-pilot, which may be due to their increased interaction with the Flight Management Computer, when using the aircraft automation to assist with managing the descent clearances. It is concluded that ground-side tools and automation may have a larger impact on the current-day flight-deck than was assumed and that studies investigating this impact should continue in parallel with controller support tool development.
报告类型: 科技报告
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