In this dissertation a direct approach to discrete-time
model reference adaptive control (MRAC) based on
hyperstability theory is proposed to control industrial
robotic manipulators.
For industrial robots and manipulators, which usually have
highly nonlinear and complex dynamic equations and often
have unknown inertia characteristics, it is very difficult
to achieve...
This thesis presents a model of legged locomotion in
which position and velocity of body are directly controlled
by positions and velocities of feet. One central
relationship between foot acceleration, leg stroke and body
velocity is developed. Procedures for determining all
parameters of a step sequence including periods of constant...