Lund University Publications

@article{d586e8ee-5f2b-429f-9ad5-3b8557be18e9,
  abstract     = {{Background: The air traffic management (ATM) system has historically<br/>coped with a global increase in traffic demand ultimately leading to<br/>increased operational complexity.<br/>When dealing with the impact of this increasing complexity on system<br/>safety it is crucial to automatically analyse the losses of separation<br/>(LoSs) using tools able to extract meaningful and actionable<br/>information from safety reports.<br/>Current research in this field mainly exploits natural language<br/>processing (NLP) to categorise the reports,with the limitations that the<br/>considered categories need to be manually annotated by experts and<br/>that general taxonomies are seldom exploited.<br/>Methods: To address the current gaps,authors propose to perform<br/>exploratory data analysis on safety reports combining state-of-the-art<br/>techniques like topic modelling and clustering and then to develop an<br/>algorithm able to extract the Toolkit for ATM Occurrence Investigation<br/>(TOKAI) taxonomy factors from the free-text safety reports based on<br/>syntactic analysis.<br/>TOKAI is a tool for investigation developed by EUROCONTROL and its<br/>taxonomy is intended to become a standard and harmonised<br/>approach to future investigations.<br/>Results: Leveraging on the LoS events reported in the public<br/>databases of the Comisi n de Estudio y An lisis de Notificaciones de<br/>Incidentes de Tr nsito A reo and the United Kingdom AirproxBoard,authors show how their proposal is able to automatically<br/>extract meaningful and actionable information from safety<br/>reports,other than to classify their content according to the TOKAI<br/>taxonomy.<br/>The quality of the approach is also indirectly validated by checking the<br/>connection between the identified factors and the main contributor of<br/>the incidents.<br/>Conclusions: Authors' results are a promising first step toward the full<br/>automation of a general analysis of LoS reports supported by results<br/>on real-world data coming from two different sources.<br/>In the future,authors' proposal could be extended to other<br/>taxonomies or tailored to identify factors to be included in the safety<br/>taxonomies.<br/>Keywords<br/>ATM, Safety, Resilience, Natural Language Processing, Losses of<br/>Separation, Safety Reports, TOKAI}},
  author       = {{Buselli, Irene and Oneto, Luca and Dambra, Carlo and Verdonk Gallego, Christian and Garcia Martinez, Miguel and Smoker, Anthony and Ike, Nnenna and Pejovic, Tamara and Martino, Patricia Ruiz}},
  issn         = {{2732-5121}},
  language     = {{eng}},
  month        = {{03}},
  pages        = {{1--39}},
  publisher    = {{F1000 Research Ltd.}},
  series       = {{Open Research Europe}},
  title        = {{Natural language processing for aviation safety : Extracting knowledge from publicly-available loss of separation reports}},
  url          = {{https://lup.lub.lu.se/search/files/115592953/2022_Buselli_Natural_language_processing_for_aviation_safety_extracting_knowledge_from_publicly_available_loss_of_separation_reports.pdf}},
  doi          = {{10.12688/openreseurope.14040.2}},
  year         = {{2022}},
}