ADAPTIVE CONTROL FOR TRACKING AND DISTURBANCE ATTENUATION FOR SISO LINEAR SYSTEMS WITH REPEATED NOISY MEASUREMENTS

CHEN, YU

January 2003

No description available.

integrator backstepping

cost-to-come function

adaptive control

disturbance attenuation

Adaptive control of flexible systems using self-tuning digital notch filters

Maggard, William P.

January 1987

No description available.

Adaptive Control

Flexible Systems

Self-Tuning Digital Notch Filters

The adaptive seeking control strategy and applications in automotive control technology

Yu, Hai

21 September 2006

No description available.

Adaptive control

gradient seeking

sliding mode control

automotive control

Nonlinear Adaptive Controller Design For Air-breathing Hypersonic Vehicles

Fiorentini, Lisa

01 September 2010

No description available.

Electrical Engineering

nonlinear control

adaptive control

aircraft control

hypersonic vehicles

Modified Sliding Mode Control Algorithm for Vibration Control of Linear and Nonlinear Civil Structures

Wang, Nengmou

27 July 2011

No description available.

Civil Engineering

Structural vibration

Sliding Mode Control

Adaptive Control

Chattering

Sources of Adaptive Capacity during Multi-Unmanned Aerial Vehicle Operations

Hughes, Thomas Carroll

19 December 2012

No description available.

Engineering

Cognitive Systems Engineering

Adaptive Control

Unmanned Systems

Discrete-time adaptive control of a class of nonlinear systems /

Lee, Keh-ning

January 1986

No description available.

Engineering

Adaptive control systems

Discrete-time systems

Nonlinear theories

Adaptive Feedforward Control of Sinusoidal Disturbances with Unknown Parameters: AnExperimental Investigation

Bassford, Marshall R., Mr.

21 July 2022

No description available.

Electrical Engineering

A technique for dual adaptive control.

Alster, Jacob

January 1972

No description available.

Control theory

Adaptive control systems

Stochastic processes

Kalman filtering

Model Updating Using Neural Networks

Atalla, Mauro J.

01 April 1996

Accurate models are necessary in critical applications. Key parameters in dynamic systems often change during their life cycle due to repair and replacement of parts or environmental changes. This dissertation presents a new approach to update system models, accounting for these changes. The approach uses frequency domain data and a neural network to produce estimates of the parameters being updated, yielding a model representative of the measured data. Current iterative methods developed to solve the model updating problem rely on minimization techniques to find the set of model parameters that yield the best match between experimental and analytical responses. Since the minimization procedure requires a fair amount of computation time, it makes the existing techniques infeasible for use as part of an adaptive control scheme correcting the model parameters as the system changes. They also require either mode shape expansion or model reduction before they can be applied, introducing errors in the procedure. Furthermore, none of the existing techniques has been applied to nonlinear systems. The neural network estimates the parameters being updated quickly and accurately without the need to measure all degrees of freedom of the system. This avoids the use of mode shape expansion or model reduction techniques, and allows for its implementation as part of an adaptive control scheme. The proposed technique is also capable of updating weakly nonlinear systems. Numerical simulations and experimental results show that the proposed method has good accuracy and generalization properties, and it is therefore, a suitable alternative for the solution of the model updating problem of this class of systems. / Ph. D.

neural networks

adaptive control

model updating

LD5655.V856 1996.A835