education can fill in the gaps. In uncrewed aviation, the existing body of standards could be considered the most mature tools. However, progress and adoption appear to have reached a plateau in that very few standards are being recognized by the FAA. If the FAA wants to accelerate creation of a unique uncrewed tradition and culture, one strong tool would be widespread acceptance of industry standards. That in turn will drive educational resources to support their understanding and use. Finally, as discussed in the previous paragraphs, support for data analysis programs will not only enhance safety but in this case contribute to the building of culture and tradition.
2.2 The Mechanics of Day-to-Day Safety The previous sections discussed the conceptual underpinnings of the traditional tools contributing to aviation safety. Together and individually, they point people and organizations in a direction, but do not provide guaranteed outcomes. They remain theoretical until they are used to build policies and procedures that direct day to day actions. The translation of theory to practice depends almost entirely on the perspective through which an organization views regulation, education, data, and tradition and culture. We call this perspective “safety culture.” The FAA defines safety culture as “a collection of beliefs, perceptions, and values that all employees share in relation to the risks that exist while conducting operations within an organization. It is what each person believes about the importance of safety and how he or she contributes in light of that belief.”75 In effect, safety culture drives how an organization understands and react to risks. As common in any industry, UAS operators and manufacturers face a seemingly endless range of risks on any given day. Common categories of risk identified by the FAA facing UAS operators include, but are not limited to:76 • Pilot: An individual needs to possesses the knowledge, skills, and training required for the mission to be flown. Additionally, physiological factors such as health, fatigue, use of medication or alcohol, and stress contribute to risk. • Aircraft: The equipment selected for a given mission must be capable of performing all required tasks. This includes proper maintenance, preflight inspections, and endurance. • Environment: Factors such as weather, terrain, and airspace must all be suitable for the intended duration of a flight. These must also be evaluated for any potential emergency situations that may arise. • External pressures: These include pressures internally generated within the pilot reflecting an “I must get the job done” attitude as well as pressure caused by clients or end users of the data to be collected by the UAS.
Guiding the New UAS Industry to Safety Excellence
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