自动自行车的稳定控制

Harun Yetkin, Ü. Özgüner
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引用次数: 16

摘要

一个多世纪以来,自行车的自稳定问题一直是一个研究领域。然而,许多研究者将他们的研究局限于自行车在等速下的自稳定。在本文中,我们利用陀螺仪的进动效应来稳定自行车在零前进速度和变速度下的稳定性。推导了底部装有飞轮的自行车运动方程,设计了基于观测器的一阶滑模控制器。对该控制器在不同道路结构上的性能进行了仿真。仿真结果表明,所设计的控制器成功地实现了自行车的全程稳定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stabilizing control of an autonomous bicycle
The problem of self-stabilization of a bicycle has been a research area for more than a century. However, many researchers have confined their study in self stabilization of bicycles at constant velocities. In this paper, we utilized the precession effect of the gyroscope to stabilize the bicycle both at zero forward velocity and varying velocities. Equation of motion of a bicycle with a flywheel mounted on its bottom is derived and a first order observer-based sliding mode controller is designed. The performance of the controller is simulated on different road structures. It is shown that the designed controller succeeded to stabilize the bicycle throughout the trajectory.
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