Title :
Infinite-Horizon Linear-Quadratic Control by Forward Propagation of the Differential Riccati Equation [Lecture Notes]
Author :
Prach, Anna ; Tekinalp, Ozan ; Bernstein, Dennis S.
Author_Institution :
Dept. of Aerosp. Eng., Middle East Tech. Univ., Ankara, Turkey
Abstract :
One of the foundational principles of optimal control theory is that optimal control laws are propagated backward in time. For linear-quadratic control, this means that the solution of the Riccati equation must be obtained from backward integration from a final-time condition. These features are a direct consequence of the transversality conditions of optimal control, which imply that a free final state corresponds to a fixed final adjoint state [1], [2]. In addition, the principle of dynamic programming and the associated Hamilton-Jacobi-Bellman equation is an inherently backward-propagating methodology [3].
Keywords :
Riccati equations; backpropagation; differential equations; dynamic programming; infinite horizon; linear quadratic control; Hamilton-Jacobi-Bellman equation; backward integration; backward propagation; differential Riccati equation; dynamic programming; forward propagation; infinite-horizon linear-quadratic control; optimal control theory; transversality condition; Dynamic programming; Kalman filters; Optimal control; Quadratic control; Riccati equations; Stability analysis;
Journal_Title :
Control Systems, IEEE
DOI :
10.1109/MCS.2014.2385252
