Mechanical models for insect locomotion: dynamics and stability in the horizontal plane I. Theory

Schmitt J.; Holmes P.

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Mechanical models for insect locomotion: dynamics and stability in the horizontal plane I. Theory

机译：昆虫运动的机械模型：水平面中的动力学和稳定性I.理论

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We study the dynamics and stability of legged locomotion in the horizontal plane. Motivated by experimental studies of insects, we develop two- and three-degree-of freedom rigid body models with pairs of 'virtual' elastic legs in intermittent contact with the ground. We focus on conservative compliant-legged models, but we also consider prescribed forces, prescribed leg displacements, and combined strategies. The resulting mechanical systems exhibit periodic gaits whose stability characteristics are due to intermittent foot contact, and are largely determined by geometrical criteria. Most strikingly, we show that mechanics alone can confer asymptotic stability in heading and body orientation. In a companion paper, we apply our results to rapidly running cockroaches. [References: 32]

机译：我们研究了水平面中腿部运动的动力学和稳定性。受昆虫实验研究的启发，我们开发了两自由度和三自由度的刚体模型，该模型具有成对的“虚拟”弹性腿与地面间歇接触。我们专注于保守的服从腿的模型，但是我们也考虑了规定的力量，规定的腿部位移和组合策略。最终的机械系统表现出周期性的步态，其步态稳定性是由于间歇性的脚接触造成的，并且在很大程度上由几何标准决定。最引人注目的是，我们证明了仅靠机械因素就能在前进方向和身体定向方面赋予渐近稳定性。在随附的论文中，我们将研究结果应用于快速繁殖的蟑螂。 [参考：32]

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《Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten 》 |2000年第6期| 共15页
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Schmitt J.; Holmes P.;
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正文语种 eng
中图分类理论生物物理学 ;
关键词
Hexapedal runners; Cockroaches; System; Leg; Walking;

机译：六足赛跑者;蟑螂;系统;腿;步行;

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1. Mechanical models for insect locomotion: dynamics and stability in the horizontal plane I. Theory [J] . Schmitt J., Holmes P. Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten . 2000 ,第6期

机译：昆虫运动的机械模型：水平面中的动力学和稳定性I.理论
2. Dynamics and stability of insect locomotion: a hexapedal model for horizontal plane motions [J] . Seipel JE, Holmes PJ, Full RJ Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten . 2004 ,第2期

机译：昆虫运动的动力学和稳定性：水平面运动的六足模型
3. Dynamics and stability of legged locomotion in the horizontal plane: a test case using insects [J] . Schmitt J., Garcia M., Razo RC., Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten . 2002 ,第5期

机译：腿部运动在水平面中的动力学和稳定性：使用昆虫的测试案例
4. An Actuated Horizontal Plane Model for Insect Locomotion [C] . John Schmitt International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines . 2006

机译：昆虫运动的致动水平平面模型
5. Mechanical models for insect locomotion: Dynamics and stability in the horizontal plane. [D] . Schmitt, John Michael. 2001

机译：昆虫运动的机械模型：水平面的动力学和稳定性。
6. A dynamical systems analysis of afferent control in a neuromechanical model of locomotion. I. Rhythm generation [O] . Lucy E. Spardy, Sergey N. Markin, Natalia A. Shevtsova, -1

机译：在运动的neuromechanical模型传入控制的动力系统的分析。 I.节奏产生
7. A dynamical systems analysis of afferent control in a neuromechanical model of locomotion: I. Rhythm generation [O] . Lucy E Spardy, Sergey N Markin, Natalia A Shevtsova, 2011

机译：一种动态系统在机置神经力学模型中传入控制的动态系统分析：I。节奏生成

Mechanical models for insect locomotion: dynamics and stability in the horizontal plane I. Theory

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