Article ID: | iaor201522417 |
Volume: | 35 |
Issue: | 3 |
Start Page Number: | 361 |
End Page Number: | 382 |
Publication Date: | May 2014 |
Journal: | Optimal Control Applications and Methods |
Authors: | Rivadeneira P S, Costanza V, Gonzlez A H |
Keywords: | optimization, energy, programming: linear, programming: quadratic |
Minimal‐control‐energy strategies are substantiated and illustrated for linear‐quadratic problems with penalized endpoints and no state‐trajectory cost, when bounds in control values are imposed. The optimal solution for a given process with restricted controls, starting at a known initial state, is shown to coincide with the saturated solution to the unrestricted problem that has the same coefficients but starts at a generally different initial state. This result reduces the searching span for the solution: from the infinite‐dimensional set of admissible control trajectories to the finite‐dimensional Euclidean space of initial conditions. An efficient real‐time scheme is proposed here to approximate (eventually to find) the optimal control strategy, based on the detection of the appropriate initial state while avoiding as much as possible the generation and evaluation of state and control trajectories. Numerical (including model predictive control) simulations are provided, compared, and checked against the analytical solution to ‘the cheapest stop of a train’ problem in its pure‐upper‐bounded brake, flexible‐endpoint setting.