Title :
Optimal neuro-controller in longitudinal auto-landing of a commercial jet transport
Author :
Izadi, Hojjat ; Pakmehr, Mehrdad ; Sadati, Nasser
Author_Institution :
Mech. Eng. Dept., Tarbiyat Modarres Univ., Tehran, Iran
Abstract :
In the last three decades, optimality-based auto-landing designs have been considered to the most effective way by many authors. However, it is known that the straight forward solution to the optimal control problem leads to Two Point Boundary Value Problem (TPBVP) (Riccati equation), which is usually too complex in solution, backward in the time, and real-time onboard implementation, or the final time, as a boundary condition, may also not be known precisely. To avoid these problems, first, a suboptimal solution by assuming tf→∞ has been considered and its inapplicability has been discussed. Then an optimal controller for landing phase of a typical commercial aircraft has been designed. Finally, seven neural networks were being trained to learn the costates of the system to estimate the costates in similar scenarios without using the final time value, which usually is needed in solving the optimal control problems.
Keywords :
Riccati equations; aircraft landing guidance; boundary-value problems; control system synthesis; neurocontrollers; real-time systems; state estimation; suboptimal control; Riccati equation; boundary condition; commercial aircraft; commercial jet aircraft; control system synthesis; costate estimation; longitudinal auto landing; neural networks; neurocontroller; optimal control; real time onboard implementation; suboptimal solution; two point boundary value problem; Aerospace control; Aircraft; Airplanes; Automatic control; Boundary conditions; Boundary value problems; Differential algebraic equations; Neural networks; Optimal control; Riccati equations;
Conference_Titel :
Control Applications, 2003. CCA 2003. Proceedings of 2003 IEEE Conference on
Print_ISBN :
0-7803-7729-X
DOI :
10.1109/CCA.2003.1223466
