Title :
Model Evaluation for Robust Tracking Under Unknown Upper Bounds on Perturbations and Measurement Noise
Author_Institution :
Dept. of Math., Komi Sci. Center, Syktyvkar, Russia
Abstract :
This technical note addresses a problem of model evaluation in the framework of robust steady-state tracking in the l1 setup. The upper bounds on measurement noise, exogenous disturbance and coprime factor perturbations in a discrete-time linear time-invariant SISO system are assumed to be unknown. For a given nominal model and a given tracking controller, three different model validation tests are considered and the complexity of computing upper bounds on the worst-case steady-state tracking error, consistent with these tests, is analysed.
Keywords :
discrete time systems; linear systems; measurement errors; perturbation techniques; robust control; tracking; computing upper bounds complexity; coprime factor perturbations; discrete-time linear time-invariant SISO system; exogenous disturbance; measurement noise; model evaluation; model validation tests; nominal model; robust steady-state tracking; robust tracking; tracking controller; unknown upper bounds; worst-case steady-state tracking error; Computational modeling; Mathematical model; Noise; Noise measurement; Robust control; Robustness; Upper bound; Error analysis; measurement noise; model evaluation; robust tracking;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2013.2273295
