Key Technology for Human-System Integration of Unmanned Aircraft Systems in Urban Air Transportation

Key Technology for Human-System Integration of Unmanned Aircraft Systems in Urban Air Transportation

Effective integration of human factors and systems engineering has become a technical challenge that constrains the full realization of human performance in unmanned aircraft systems (UAS) for urban air transportation. To address this challenge, breakthroughs are needed in key technologies related t...

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Bibliographic Details
Main Authors: Chuanyan Feng, Jinwei Hou, Shuang Liu, Xiaoru Wanyan, Menglong Ding, Huadong Li, De Yan, Dawei Bie
Format: Article
Language:English
Published: MDPI AG 2024-12-01
Series:Drones
Subjects:
human-system integration
human factors design
lifecycle
design of ground control station
UAS
urban air transportation
Online Access:https://www.mdpi.com/2504-446X/9/1/18
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Summary:Effective integration of human factors and systems engineering has become a technical challenge that constrains the full realization of human performance in unmanned aircraft systems (UAS) for urban air transportation. To address this challenge, breakthroughs are needed in key technologies related to human-system integration (HSI) of UAS. Based on literature review and industry practices, unique HF challenges of UAS are identified, and two research issues, HSI analysis throughout UAS development lifecycle and HSI practice under UAS typical lifecycle stages, are summarized. To address these issues, a model-based human-system integration (MBHSI) design framework is proposed for the UAS development lifecycle, along with an HSI practice framework for UAS under typical human readiness levels. The HSI design and practice framework can provide references for HF design of UAS in urban air transportation.
ISSN:2504-446X

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