Disturbance Attenuation with Minimization of Ellipsoids Restricting Phase Trajectories in Transition and Steady State

Abstract A new method for attenuation of external unknown bounded disturbances in linear dynamical systems with known parameters is proposed. In contrast to the well known results, the developed static control law ensures that the phase trajectories of the system are located in an ellipsoid, which is close enough to the ball in which the initial conditions are located, as well as provides the best control accuracy in the steady state. To solve the problem, the method of Lyapunov functions and the technique of linear matrix inequalities are used. The linear matrix inequalities allow one to find optimal controller. In addition to the solvability of linear matrix inequalities, a matrix search scheme is proposed that provides the smallest ellipsoid in transition mode and steady state with a small error. The proposed control scheme extends to control linear systems under conditions of large disturbances, for the attenuation of which the integral control law is used. Comparative examples of the proposed method and the method of invariant ellipsoids are given. It is shown that under certain conditions the phase trajectories of a closed-loop system obtained on the basis of the invariant ellipsoid method are close to the boundaries of the smallest ellipsoid for the transition mode, while the obtained control law guarantees the convergence of phase trajectories to the smallest ellipsoid in the steady state. 

1. Boyd S., Ghaoui L. E., Feron E., Balakrishnan V. Linear Matrix Inequalities, In System And Control Theory. Vol. 15 of SIAM studies in applied mathematics, SIAM, Philadelphia, 1994.

2. Balandin D. V., Kogan M. M. Synthesis of control laws based on linear matrix inequalities, Moscow, Fizmatlit, 2007 (in Russian).

3. Abedor J., Nagpal K., Poola K. A linear matrix inequality approach to peak-to-peak gain minimization, Int. J. Robust and Nonlinear Control, 1996, vol. 6, pp. 899—927.

4. Nazin S. A., Polyak B. T., Topunov M. V. Rejection of bounded exogenous disturbances by the method of invariant ellipsoids, Automation and Remote Control, 2007, vol. 68, no. 3, pp. 467—486.

5. Tsykunov A. M. Robust control algorithms with compensation of bounded perturbations, Automation and Remote Control, 2007, vol. 68, no. 7, pp. 1213—1224.

6. Furtat I. B. An Algorithm to Control Nonlinear Systems in Perturbations and Measurement Noise, Automation and Remote Control, 2018, vol. 79, no. 7, pp. 1207—1221.

7. Furtat I. B. Control of nonlinear systems with compensation of disturbances under measurement noises, International Journal of Control, available: https://doi.org/10.1080/00207179.2018.1503723.