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Towards Real-Time, On-Board, Hardware-Supported Sensor and Software Health Management for Unmanned Aerial Systems (2015)

Ippolito, Corey ; Mbaya, Timmy ; Mengshoel, Ole J. ; [et al.]

In: CASI

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Publication Date: 2019-07-06

Description: For unmanned aerial systems (UAS) to be successfully deployed and integrated within the national airspace, it is imperative that they possess the capability to effectively complete their missions without compromising the safety of other aircraft, as well as persons and property on the ground. This necessity creates a natural requirement for UAS that can respond to uncertain environmental conditions and emergent failures in real-time, with robustness and resilience close enough to those of manned systems. We introduce a system that meets this requirement with the design of a real-time onboard system health management (SHM) capability to continuously monitor sensors, software, and hardware components. This system can detect and diagnose failures and violations of safety or performance rules during the flight of a UAS. Our approach to SHM is three-pronged, providing: (1) real-time monitoring of sensor and software signals; (2) signal analysis, preprocessing, and advanced on-the-fly temporal and Bayesian probabilistic fault diagnosis; and (3) an unobtrusive, lightweight, read-only, low-power realization using Field Programmable Gate Arrays (FPGAs) that avoids overburdening limited computing resources or costly re-certification of flight software. We call this approach rt-R2U2, a name derived from its requirements. Our implementation provides a novel approach of combining modular building blocks, integrating responsive runtime monitoring of temporal logic system safety requirements with model-based diagnosis and Bayesian network-based probabilistic analysis. We demonstrate this approach using actual flight data from the NASA Swift UAS.

Keywords: Air Transportation and Safety

Type: ARC-E-DAA-TN24388 , International Journal of Prognostics &amp; Health Management (ISSN 2153-2648); 6; 021

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Bayesian Software Health Management for Aircraft Guidance, Navigation, and Control (2011)

Schumann, Johann ; Mbaya, Timmy ; Menghoel, Ole

In: CASI

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Publication Date: 2019-07-13

Description: Modern aircraft, both piloted fly-by-wire commercial aircraft as well as UAVs, more and more depend on highly complex safety critical software systems with many sensors and computer-controlled actuators. Despite careful design and V&V of the software, severe incidents have happened due to malfunctioning software. In this paper, we discuss the use of Bayesian networks (BNs) to monitor the health of the on-board software and sensor system, and to perform advanced on-board diagnostic reasoning. We will focus on the approach to develop reliable and robust health models for the combined software and sensor systems.

Keywords: Aircraft Communications and Navigation

Type: ARC-E-DAA-TN3710 , Annual Conference of the Prognostics and Health; Sep 25, 2011 - Sep 29, 2011; Montreal, Ontario; Canada

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Towards Real-time, On-board, Hardware-Supported Sensor and Software Health Management for Unmanned Aerial Systems (2013)

Reinbacher, Thomas ; Rozier, Kristin Y. ; Schumann, Johann ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Unmanned aerial systems (UASs) can only be deployed if they can effectively complete their missions and respond to failures and uncertain environmental conditions while maintaining safety with respect to other aircraft as well as humans and property on the ground. In this paper, we design a real-time, on-board system health management (SHM) capability to continuously monitor sensors, software, and hardware components for detection and diagnosis of failures and violations of safety or performance rules during the flight of a UAS. Our approach to SHM is three-pronged, providing: (1) real-time monitoring of sensor and/or software signals; (2) signal analysis, preprocessing, and advanced on the- fly temporal and Bayesian probabilistic fault diagnosis; (3) an unobtrusive, lightweight, read-only, low-power realization using Field Programmable Gate Arrays (FPGAs) that avoids overburdening limited computing resources or costly re-certification of flight software due to instrumentation. Our implementation provides a novel approach of combining modular building blocks, integrating responsive runtime monitoring of temporal logic system safety requirements with model-based diagnosis and Bayesian network-based probabilistic analysis. We demonstrate this approach using actual data from the NASA Swift UAS, an experimental all-electric aircraft.

Keywords: Quality Assurance and Reliability; Air Transportation and Safety

Type: ARC-E-DAA-TN11657 , 2013 Prognostics and System Health Management Conference; Oct 14, 2013 - Oct 17, 2013; New Orleans, LA; United States

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