2018 |
Gyunghoon Park / Hyungbo Shim Guaranteeing Almost Fault-free Tracking Performance from Transient to Steady-state: a Disturbance Observer Approach Journal Article In: Science China Information Sciences, vol. 61, no. 7, 2018. Abstract | Links | BibTeX | Tags: Disturbance observer, Fault-tolerant @article{ParkShim18, ** Invited Paper for the Special Issue on Advances in Disturbance/Unvertainty Estimation and Attenuation Technique With Applications ** In this paper, we propose an output-feedback fault-tolerant controller (FTC) for a class of uncertain multi-input single-output systems under float and lock-in-place actuator faults. Of particular interest is to recover a fault-free tracking performance of a (pre-defined) nominal closed-loop system, during the entire time period including the transients due to abrupt actuator faults. As a key component, a high-gain disturbance observer (DOB) is employed to rapidly compensate the lumped disturbance, a compressed expression of all the effect of actuator faults (as well as model uncertainty and disturbance) on the system. To implement this high-gain approach, a fixed control allocation (CA) law is presented in order to keep an extended system with a virtual scalar input to remain of minimum phase under any patterns of faults. It is shown via the singular perturbation theory that the proposed FTC, consisting of the high-gain DOB and the CA law, resolves the problem in an approximate but arbitrarily accurate sense. Simulation results with the linearized lateral model of Boeing 747 are performed to verify the validity of the proposed FTC scheme. |
List of English Publication
2018 |
Guaranteeing Almost Fault-free Tracking Performance from Transient to Steady-state: a Disturbance Observer Approach Journal Article In: Science China Information Sciences, vol. 61, no. 7, 2018. |