학술논문

Assessment of a Supervisory Fault-Hiding Scheme in a Classical Guidance, Navigation and Control Setup: the e.Deorbit mission

Document Type

Conference

Author

Cieslak, J.; Henry, D.; Colmenarejo, P.; Branco, J.; Santos, N.; Serra, P.; Telaar, J.; Strauch, H.; Giordano, A.M.; de Stefano, M.; Ott, C.; Reiner, M.; Jaworski, J.; Papadopoulos, E.; Visentin, G.; Ankersen, F.; Fernandez, J.G.

Source

2019 4th Conference on Control and Fault Tolerant Systems (SysTol) Control and Fault Tolerant Systems (SysTol), 2019 4th Conference on. :7-12 Sep, 2019

Subject

Aerospace
Communication, Networking and Broadcast Technologies
Computing and Processing
General Topics for Engineers
Robotics and Control Systems
Signal Processing and Analysis
Transportation
Attitude control
Space vehicles
Propulsion
Mathematical model
Space missions
Aerodynamics
Fault tolerant systems

Language

ISSN

2162-1209

Abstract

The design of a model-based Fault Tolerant Control (FTC) strategy based on Virtual Actuators (VA) in a built-in Guidance, Navigation and Control (GNC) setup is addressed for the e.Deorbit space mission. This mission, initiated by the European Space Agency (ESA), aims at removing a large defunct satellite from Earth orbit: ENVISAT. The goal of this paper is to promote academic solutions to add fault tolerance capacities against thruster faults without any change or new tuning of the already in-place GNC solution. The validation of the proposed FTC solution is assessed by a simulation campaign based on a high-fidelity nonlinear industrial simulator.

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