Real-time implementation of an indirect adaptive robot controller

## Abstract This article presents an image processing system that can work in hard real‐time. Compared with systems that use the traditional multiprocessor architecture approach, this computer system takes advantage on recent technological advances and it is designed to work with a single processor

## Abstract In this paper, an indirect adaptive pole‐placement control scheme for multi‐input multi‐output (MIMO) discrete‐time stochastic systems is developed. This control scheme combines a recursive least squares (RLS) estimation algorithm with pole‐placement control design to produce a control

This paper presents the development of a control algorithm, which combines the linear regulator theory and Takagi-Sugeno (T-S) fuzzy modeling. Each local controller consists in a feedback control term plus a trajectory tracking term. The global controller is determined by means of T-S methodology. T

An indirect adaptive control for a discrete-time non-linear system that is fully input-output linearizable is developed. The unknown parameters of the system are identified by using a multi-output RLS algorithm. Based on the certainty equivalence principle, the estimated parameters are then utilized