A Microcomputer-Based Controller for an Autonomous Underwater Vehicle (AUV)

Abstract

This thesis considers real-time control problems for an AUV. Among these problems is the ability to control the submersible given its highly nonlinear operating environment. To account for these variations, robust control techniques must be used. In particular, Variable Structure Control (VSC) with Doyle-Stein Observer has proven to produce optimal results while maintaining a high degree of robustness. This led to the development of a real-time error detector using the robust observer to provide system redundancy through software. The culmination of this work is a real-time autopilot written in the 'C' language which is ready for implementation and testing in the NPG School AUV prototype. We also address the aspect of real-time signal processing and conditioning in terms of synchro-to-resolver conversion and anti-aliasing filters. The synchro problem involves converting a nonpotentiometric directional gyro output to a natural binary format which calls for an intricate design of power transformers, analog-to-digital converter, and passive element components. Lastly, the use of Generalized-Immittance Converter circuitry in the design of very low frequency anti-aliasing filter applications is developed and tested. Keywords: Sensor error detection.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 1990

Accession Number

ADA221559

Entities

Tags