Dynamic modeling and analysis of pitch motion of a basilisk lizard inspired quadruped robot running on water

机译：蛇怪蜥蜴启发四足机器人在水面上运行的俯仰运动的动力学建模和分析

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A quadrupedal robot inspired by the basilisk lizard was developed and modeled with a 3D real time simulation. Due to the robot's geometry, leg motion, and water interactions, the net pitch moment at the center of mass is not zero making pitch motion unstable. This paper introduces two types of tails, passive and active, to stabilize pitch motion and analyzes the advantages and disadvantages of each. It is shown in simulation that a purely passive tail can stabilize pitch motion and lead to a steady state robot pitch angle in the absence of disturbances. It is further shown that an active tail can compensate for disturbances and correct any drift in the robot body pitch angle due to changes in robot running speed.

机译：开发了受蛇怪蜥蜴启发的四足机器人，并通过3D实时仿真对其建模。由于机器人的几何形状，腿部运动和水的相互作用，质心处的净俯仰力矩不为零，从而使俯仰运动不稳定。本文介绍了两种类型的尾巴，被动和主动，以稳定俯仰运动，并分析了每种尾巴的优缺点。在仿真中显示，在没有干扰的情况下，纯被动尾部可以稳定俯仰运动并导致稳态的机器人俯仰角。进一步显示，活动尾巴可以补偿干扰并纠正由于机器人运行速度的变化而引起的机器人机体俯仰角的任何漂移。

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《IEEE International Conference on Robotics and Automation;ICRA '09》|2009年|2655-2660|共6页
会议地点 Kobe(JP);Kobe(JP)
作者
Hyun Soo Park; Floyd, S.; Sitti, M.;
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Dept. of Mech. Eng. Carnegie Mellon Univ. Pittsburgh PA USA;

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biomimetics; compensation; legged locomotion; robot dynamics; robot kinematics; stability; 3D real time simulation; active tail; basilisk lizard; dynamic modeling; passive tail; pitch motion analysis; quadruped robot; robot geometry; robot leg motion; steady state robot pitch angle; water interaction;

机译：仿生;赔偿；腿运动机器人动力学；机器人运动学稳定性; 3D实时仿真；活跃的尾巴蛇怪蜥蜴动态建模被动尾巴俯仰运动分析；四足机器人机器人几何；机器人的腿部动作；稳态机器人俯仰角；水相互作用;

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专利

1. Roll and Pitch Motion Analysis of a Biologically Inspired Quadruped Water Runner Robot [J] . Hyun Soo Park, Steven Floyd, Metin Sitti The International journal of robotics research . 2010,第10期

机译：生物启发的四足水轮机器人的侧倾和俯仰运动分析
2. Dynamics Analysis of Fluid-Structure Interaction for a Biologically-inspired Biped Robot Running on Water [J] . Xu Linsen, Cao Kai, Wei Xianming, International Journal of Advanced Robotic Systems . 2013,第期

机译：在水上运行的生物启发双层机器人流体结构相互作用的动力学分析
3. Dynamics of underwater legged locomotion: modeling and experiments on an octopus-inspired robot [J] . Calisti M., Corucci F., Arienti A., Bioinspiration & biomimetics . 2015,第4期

机译：水下腿部运动的动力学：以章鱼为灵感的机器人的建模和实验
4. Dynamic Modeling and Analysis of Pitch Motion of a Basilisk Lizard Inspired Quadruped Robot Running on Water [C] . Hyun Soo Park, Steven Floyd, Metin Sitti International Conference on Robotics and Automation . 2009

机译：大型乐曲蜥蜴的动态建模与分析，南方沿着水的曲折机器人
5. Basilisk Lizard Inspired Methods for Locomotion on Granular and Aquatic Media with Robotic Applications [D] . Jayanetti, Vidu 2019

机译：Basilisk蜥蜴启发了机器人在粒状和水生介质上运动的方法
6. Running on water: Three-dimensional force generation by basilisk lizards [O] . S. Tonia Hsieh, George V. Lauder 2004

机译：在水上奔跑：蛇怪蜥蜴产生三维力
7. Dynamic modeling and analysis of pitch motion of a basilisk lizard inspired quadruped robot running on water [O] . Hyun Soo Park, Steven Floyd, Metin Sitti 2009

机译：动力建模和分析蛇怪蜥蜴的俯仰运动激发四足动物机器人在水上运行

Dynamic modeling and analysis of pitch motion of a basilisk lizard inspired quadruped robot running on water

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