Compliant footpad design analysis for a bio-inspired quadruped amphibious robot

机译：生物启发的四足两栖机器人的合规脚垫设计分析

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摘要

A quadrupedal water runner robot inspired by the basilisk lizard has previously demonstrated the capability of water surface locomotion. Since the robot is aimed for the amphibious locomotion, a compatible design on both ground and water surface is discussed in this paper. A compliant footpad which can transfer elastic energy to propulsive momentum is introduced and modeled using a pseudo-rigid-body model. Dynamic modeling of the footpad and the robot provides a criterion of efficient ground locomotion. For the water surface locomotion, drag force can be reduced by compliance of the footpad. The optimized design taking into account two locomotions is studied and analyzed for stability using the Poincare map.

机译：受蛇怪蜥蜴启发的四足水上运动机器人以前已经证明了水面运动的能力。由于该机器人是针对两栖运动而设计的，因此本文讨论了在地面和水面上的兼容设计。引入了可将弹性能量传递给推进动量的顺应性脚垫，并使用伪刚体模型对其进行了建模。脚垫和机器人的动态建模为有效的地面运动提供了标准。对于水面运动，可通过脚垫的柔度来减小阻力。使用Poincare映射研究并分析了考虑了两个运动的优化设计的稳定性。

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来源
《IEEE/RSJ International Conference on Intelligent Robots and Systems;IROS 2009》|2009年|645-651|共7页
会议地点 St. Louis, MO(US);St. Louis, MO(US)
作者
Hyun Soo Park; Sitti, M.;
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作者单位

Dept. of Mech. Eng. Carnegie Mellon Univ. Pittsburgh PA USA;

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Poincare mapping; compliance control; mobile robots; robot dynamics; Poincare map; basilisk lizard; bio-inspired quadruped amphibious robot; compliant footpad design analysis; drag force; propulsive momentum; pseudo-rigid-body model; quadrupedal water runner robot; water surface locomotion;

机译：Poincare映射；遵守控制；移动机器人；机器人动力学；庞加莱地图；蛇怪蜥蜴生物启发的四足两栖机器人；合规的脚垫设计分析；阻力推进动力；准刚体模型；四足水流机器人水面运动;

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2. Gait Planning and Simulation Analysis of a New Amphibious Quadruped Robots [J] . Shuo Han, Yuan Chen, Guangying Ma, Journal of robotics and mechatronics . 2018,第2a174期

机译：新型两栖四峰机器人的步态规划和仿真分析
3. Design and Implementation of a Quadruped Amphibious Robot Using Duck Feet [J] . Saad Bin Abul Kashem, Shariq Jawed, Jubaer Ahmed, Robotics . 2019,第3期

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4. Compliant Footpad Design Analysis for a Bio-Inspired Quadruped Amphibious Robot [C] . Hyun Soo Park, Metin Sitti International Conference on Intelligent Robotics and Systems . 2009

机译：符合生物启发Quadrupious两栖机器人的脚底设计分析
5. Morphological Design and Control of a Bio-Inspired, Structurally Compliant Quadruped. [D] . Hustig-Schultz, Dawn. 2017

机译：受生物启发，结构合规的四足动物的形态学设计和控制。
6. Conceptual Design and Computational Modeling Analysis of a Single-Leg System of a Quadruped Bionic Horse Robot Driven by a Cam-Linkage Mechanism [O] . Liangwen Wang, Weiwei Zhang, Caidong Wang, 2019

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7. Compliant Footpad Design Analysis for a Bio-Inspired Quadruped Amphibious Robot [O] . Hyun Soo Park, Metin Sitti 2015

机译：生物启发四足两栖机器人的兼容足垫设计分析

Compliant footpad design analysis for a bio-inspired quadruped amphibious robot

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