Preserving the Human Element in Pilot Weather Reports (PIREPs)

Daniela Kratchounova, Hannah Baumgartner
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Abstract

Pilot reports (PIREPs) are reports describing in-flight weather conditions submitted by pilots, and provide crucial weather information to other pilots for pre-flight and in-flight planning. However, the current PIREP system is antiquated, prone to error, and has been identified as a safety concern according to a 2017 National Transportation Safety Board Special Report. The current paper describes some preliminary results from a proof of concept study investigating the feasibility, utility, and usability of a PIREP submission and retrieval process that uses VHF radio, cloud computing, and artificial intelligence (AI) technologies. In this concept, pilots were able to submit and retrieve PIREPs without talking to an air traffic controller but by communicating with an automated VHF ground station via a voice-user interface. Pilots were also able to retrieve PIREPs online (website and mobile app), where they could listen to voice recordings of PIREPs or read voice-to-text transcriptions of PIREPs submitted in their local area. Most aircraft today are equipped with a VHF radio, which is the primary communication tool used to file PIREPs via communicating either with a Flight Service or Air Traffic Control facility. The use of a dedicated radio frequency for submitting and retrieving PIREPs has the potential to provide an additional mechanism for pilots to communicate these reports reducing congestion on other FSS and ATC frequencies. For the period of time between November 4, 2022 and April 30, 2023; over 200 pilot-participants who were flying within or overflying the areas with radius of ~ 50 nm from two airports—Will Rogers World Airport (KOKC) in Oklahoma and Nenana Municipal Airport (PANN) in Alaska submitted and retrieved~5,000 PIREPs. Two PIREP ground station identifiers were used for this research: (a) “PIREP Watch Alaska” and (b) “PIREP Watch Oklahoma”. For this initial phase of the research, the system did not have the capability to map ADS-B equipped aircraft to aircraft type, location or altitude without querying the pilot. Pilots identified a number of areas of growth for this concept, such as the need for aviation-specific vocabulary in the voice-to-text transcription aspect of the technology. Overall, pilots were highly enthusiastic about the proof of concept study and supported the feasibility, utility, and usability of this novel method of submitting and retrieving PIREPs. This innovative system preserves the human element in modern weather information sources by allowing pilots to use free form when reporting their direct weather observations in-flight while eliminating the need to talk to an air traffic controller or flight service specialist. Furthermore, it offers data-driven support for modernizing the PIREP system.
在飞行员天气报告中保留人为因素
飞行员报告(pirep)是飞行员提交的描述飞行中天气状况的报告,为其他飞行员提供飞行前和飞行中计划的重要天气信息。然而,根据2017年国家运输安全委员会特别报告,目前的PIREP系统已经过时,容易出错,并且已被确定为安全问题。本文描述了概念验证研究的一些初步结果,该研究调查了使用甚高频无线电、云计算和人工智能(AI)技术的PIREP提交和检索过程的可行性、实用性和可用性。在这个概念中,飞行员可以在不与空中交通管制员交谈的情况下提交和检索pirep,而是通过语音用户界面与自动VHF地面站通信。飞行员还可以在线检索pirep(网站和移动应用程序),在那里他们可以收听pirep的录音或阅读在当地提交的pirep的语音到文本转录。如今,大多数飞机都配备了甚高频无线电,这是通过与飞行服务或空中交通管制设施通信来提交pirep的主要通信工具。使用专用无线电频率提交和检索pirep有可能为飞行员提供额外的机制,以交流这些报告,减少其他FSS和ATC频率的拥塞。2022年11月4日至2023年4月30日期间;在俄克拉荷马州威尔·罗杰斯世界机场(KOKC)和阿拉斯加州奈纳市机场(PANN)半径约50纳米范围内或上空飞行的200多名飞行员提交并检索了约5000个pirep。本研究使用了两个PIREP地面站标识符:(a)“PIREP观察阿拉斯加”和(b)“PIREP观察俄克拉荷马”。在研究的初始阶段,该系统没有能力在不询问飞行员的情况下将配备ADS-B的飞机映射到飞机类型、位置或高度。飞行员们确定了这一概念的许多发展领域,比如在语音到文本转录技术方面需要航空专用词汇。总的来说,飞行员对概念验证研究非常热情,并支持这种提交和检索pirep的新方法的可行性、实用性和可用性。这个创新的系统保留了现代天气信息源中的人为因素,允许飞行员在报告飞行中的直接天气观测时使用自由形式,同时消除了与空中交通管制员或飞行服务专家交谈的需要。此外,它还为PIREP系统的现代化提供了数据驱动的支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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