# A New Concept for an Obstacle Avoidance System for the AUV "SLOCUM   Glider" Operation under Ice

**Authors:** Mike Eichhorn

arXiv: 1702.08106 · 2017-02-28

## TL;DR

This paper introduces a control system concept for an autonomous underwater glider operating under ice, featuring a graph-based path planning algorithm for dynamic environments with moving obstacles.

## Contribution

It proposes a novel obstacle avoidance system and a graph-based path planning algorithm tailored for autonomous underwater vehicles in complex, time-varying environments.

## Key findings

- Development of a sensor and environment simulation interface
- Design of a graph-based path planning algorithm
- Initial results demonstrating obstacle avoidance capabilities

## Abstract

This paper presents a concept for a control System for an autonomous underwater vehicle under ice using a "SLOCUM" underwater glider. The project concept, the separate working tasks for the next one-and-a-half years and the first results will be presented. In this context the structure of the obstacle avoidance system and a simulator structure with a sensor and environment simulation as well as the interfaces to the glider hardware will be discussed. As a first result of the main research, a graph-based algorithm for the path planning in a time-varying environment (variable ocean field, moving obstacles) will be described.

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Source: https://tomesphere.com/paper/1702.08106