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The design of a tethered aerial robot

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conference contribution
posted on 2024-11-14, 09:23 authored by Phillip McKerrow, D Ratner
This paper describes the design and modeling of a robot that swings on the end of a tether. Its height above the ground is controlled by the length of the tether. Its location on a spherical shell at the end of the tether is controlled by a pair of ducted fans. The vertical orientation of its body is determined by the point at which the horizontal thrust force acts relative to the centre of gravity (cog). The system acts like a double pendulum with two modes of natural movement. It is modeled with coordinate frames at the ends of the tether and at the cog. Due to the second mode of motion it may oscillate around its centre of gravity while it swings or flies in a circle. From the dynamic model we develop a model for simulating the motion of the tethered robot.

History

Citation

This paper was originally published as: McKerrow, PJM & Ratner, D, The design of a tethered aerial robot, IEEE International Conference on Robotics and Automation 2007, Rome, Italy, 10-14 April 2007, 355-360. Copyright 2007 IEEE.

Parent title

2014 IEEE International Conference on Robotics and Automation (ICRA)

Pagination

355-360

Language

English

RIS ID

18248

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