2-Skate-Single-Track-Vehicle with Zero-Fork-Angle & Zero-Trail & Zero-Power: Tested for Rideability, Phase-Lag and Steady-State-Lean-Angles

The Evolving Scholar - BMD 2023, 5th Edition Pub Date : 2023-06-12 DOI:10.59490/645be2c02d0b52c3ea6fba8d

P. Ethier

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Abstract

The 2-Skate was tested but the rider might have been a circus acrobat. So the present study aimed at determining if ordinary persons can ride it with confidence, with the same phase lag between torso and vehicle leaning when slaloming, and the same torso and vehicle lean angles in steady state curves as predicted. 12 riders tested the 2-Skates and on their first trial, they could ride it and go slaloming. Phase lag and lean angle were as predicted by the Torso-Arms-Handlebar Steering Theory presented by Ethier, with differential non-holonomic and servomechanism system equations. This confirmation (a) sheds light on how bicycles are steered, (b) clarifies that Countersteering is done automatically at low speeds, (c) supports and clarifies the way mountain bike steering is taught, (d) suggests a slight modification in teaching motorcycle Countersteering, (e) can be used to develop different approachs to 2-Wheeler simulators, (f) and can renew interest for motorcycles with seat belts and protective structure like the BMW-C1 and the award winning Peraves e-Tracer.

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零叉角、零尾迹、零动力的双滑单轨车辆:可乘性、相位滞后和稳态倾斜角测试

2-Skate经过了测试，但骑手可能是马戏团的杂技演员。因此，本研究旨在确定普通人是否可以自信地驾驶它，在变速时躯干和车辆倾斜之间具有相同的相位滞后，以及在稳态曲线中躯干和车辆倾斜角度是否与预测的相同。12名车手测试了2-Skates，在他们的第一次测试中，他们可以骑着它去玩障碍滑雪。利用Ethier提出的躯干-手臂-车把转向理论，用微分非完整系统方程和伺服机构系统方程预测了相位滞后和倾斜角。这一证实(a)阐明了自行车是如何转向的，(b)阐明了反转向是在低速下自动完成的，(c)支持并阐明了山山车转向的教学方式，(d)建议对摩托车反转向的教学进行轻微修改，(e)可用于开发两轮模拟器的不同方法，(f)并且可以重新唤起人们对带有安全带和保护结构的摩托车的兴趣，如宝马- c1和获奖的Peraves e- tracer。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Evolving Scholar - BMD 2023, 5th Edition

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