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A control-oriented model of underwater snake robots exposed to currents

A. M. Kohl, Eleni Kelasidi, Kristin Y. Pettersen, Jan Tommy Gravdahl

发表年份
2015
引用次数
10

摘要

This paper presents a control-oriented model of a neutrally buoyant underwater snake robot that is exposed to a constant irrotational current. The robot is assumed to move in a horizontal, fully submerged plane with a sinusoidal gait pattern and limited link angles. The intention behind the proposed model is to describe the qualitative behaviour of the robot by a simplified kinematic approach, thus neglecting some of the non-linear effects that do not significantly contribute to the overall behaviour. This results in a model with significantly less complex dynamic equations than existing models, which makes the new model well-fitted for control design and analysis. An existing, more complex model and a class of sinusoidal gait patterns are analysed, leading to several properties that serve as a basis for the simplified model. Some of the revealed properties are also valid for ground robots. Simulations that qualitatively validate the theoretical results are presented.

关键词

RobotKinematicsControl theory (sociology)UnderwaterComputer scienceRobot kinematicsSimulationBasis (linear algebra)Conservative vector fieldConstant (computer programming)

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