多转子
无人机
计算机科学
MATLAB语言
执行机构
固件
故障检测与隔离
障碍物
控制器(灌溉)
特征(语言学)
断层(地质)
实时计算
人工智能
工程类
航空航天工程
计算机硬件
哲学
地震学
地质学
操作系统
法学
生物
遗传学
语言学
政治学
农学
作者
Alessandro Baldini,Lorenzo D’Alleva,Riccardo Felicetti,Francesco Ferracuti,Alessandro Freddi,Andrea Monteriù
标识
DOI:10.1109/icuas57906.2023.10156060
摘要
Multirotor drones are equipped with propellers that may get damaged in flight in case of a collision with an obstacle or a rough landing. In view of safety-critical applications, such as flying over crowded areas or future passenger drones, being aware of a damaged actuator becomes essential to enhance system integrity. Therefore, in this paper we present a public dataset, namely UAV-FD, where real flight data from a multirotor under the effects of a chipped blade are collected. A conventional ArduPilot-based controller is employed, where the ArduPilot firmware is customized to increase the signal logging rate of selected variables, thus capturing information at higher frequencies. Moreover, the actual speed of each motor is measured and made available. Finally, we provide an illustrative fault detection strategy, based on MATLAB Diagnostic Feature Designer toolbox, to show how the dataset can be used and the blade chipping can be detected.
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