TY - GEN
A1 - Rotondo, Damiano
A1 - Nejjari, Fatiha
A1 - Puig, Vicenç
A2 - Simani, Silvio - ed.
A2 - Castaldi, Paolo - ed.
PB - Zielona Góra: Uniwersytet Zielonogórski
N2 - A solution for fault tolerant control (FTC) of a quadrotor unmanned aerial vehicle (UAV) is proposed. It relies on model reference-based control, where a reference model generates the desired trajectory. Depending on the type of reference model used for generating the reference trajectory, and on the assumptions about the availability and uncertainty of fault estimation, different error models are obtained. These error models are suitable for "passive FTC", "active FTC" and "hybrid FTC", the latter being able to merge the benefits of active and passive FTC while reducing their respective drawbacks.
N2 - The controller is generated using results from the robust linear parameter varying (LPV) polytopic framework, where the vector of varying parameters is used to schedule between uncertain linear time invariant (LTI) systems. The design procedure relies on solving a set of linear matrix inequalities (LMIs) in order to achieve regional pole placement and H[the sign of infinity] norm bounding constraints. Simulation results are used to compare the different FTC strategies.
L1 - http://zbc.uz.zgora.pl/Content/79000/AMCS_2015_25_1_1.pdf
L2 - http://zbc.uz.zgora.pl/Content/79000
KW - linear parameter varying systems
KW - fault tolerant control
KW - quadrotor
KW - model reference-based control
KW - linear matrix inequalities
T1 - Robust quasi-LPV model reference FTC of a quadrotor UAV subject to actuator faults
UR - http://zbc.uz.zgora.pl/dlibra/docmetadata?id=79000
ER -