Sliding mode optimal regulator for a bolza-meyer criterion with non-quadratic state energy terms

This paper presents the solution to the optimal control problem for a linear system with respect to a Bolza-Meyer criterion with non-quadratic state energy terms. A distinctive feature of the obtained result is that a part of the optimally controlled state trajectory occurs to be in a sliding mode, i.e., represents an enforced motion along a certain manifold. The optimal solution is obtained as a sliding mode control, whereas the conventional linear feedback control fails to provide a causal solution. Performance of the obtained optimal controller is verified in the illustrative example against the conventional LQ regulator that is optimal for the quadratic Bolza-Meyer criterion. The simulation results confirm an advantage in favor of the designed sliding mode control.