根据跑道视距能见度测量,可能改善机场运作

T. Seliga, D. Hazen, L. Salcedo
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引用次数: 4

摘要

跑道视距(RVR)可视性传感器在机场范围内的广泛部署为将其应用扩展到其他机场应用提供了机会。这些包括确定能见度和推断机场表面任何地方的等效液态水含量降雪率。在丹佛国际机场(DEN)和波特兰国际机场(PDX)对消光系数测量值的插值进行了演示。在DEN演示了降雪率的确定,使用基于RVR能见度传感器附近的等效降雪含水量计的能见度传感器消光系数测量的校准。降雪率数据对于跟踪飞机从除冰站滑行到跑道上的起飞位置期间可能累积的等效液态水降雪量是有用的。跟踪沿着指定的地面路线撞击飞机的降雪应该有助于确保更安全的除冰决策。此外,持续评估飞机在不同跑道上的起飞轨迹可以为管制员提供选择跑道的选择,以提高运力。DEN和PDX的能见度插值图像的时间描述说明了机场表面的能见度如何显著不同,以及这种能见度如何随时间漂移。与降雪应用程序类似,沿地面航线进出跑道的插值能见度可以帮助控制人员改进对飞机在滑行期间安全过境所需时间的估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Possible enhancements of airport operations based on runway visual range visibility measurements
The widespread placement of Runway Visual Range (RVR) visibility sensors over an airport domain provides an opportunity to expand their utility to other airport applications. These include determining visibility and inferring equivalent liquid water content snowfall rates anywhere on the airport surface. The interpolation of extinction coefficient measurements is demonstrated at Denver International Airport (DEN) and Portland International Airport (PDX). The snowfall rate determination is demonstrated at DEN, using calibration of visibility sensor extinction coefficient measurements based on an equivalent snowfall water content gauge located nearby one of the RVR visibility sensors. The snowfall rate data are shown to be useful for tracking equivalent liquid water snowfall amounts that can accumulate on an aircraft during taxiing from a deicing station to a takeoff position on a runway. This tracking of snowfall impinging on an aircraft along its designated surface route should help ensure safer deicing decision making. Furthermore, ongoing evaluation of aircraft tracks for takeoff on different runways can provide controllers with options on runway selection to enhance capacity. The time portrayal of interpolated images of visibility at DEN and PDX demonstrates how visibility can differ significantly over an airport surface and how this visibility can drift in time. Similar to the snowfall application, the interpolated visibility along surface routes to and from runways can help controllers improve estimates of times required for safe transit of aircraft during taxiing.
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