Dynamic simulation for 6-strut tensegrity robots

机译：6杆张紧机器人的动态仿真

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Tensegrity robots are novel flexible mobile robots based on the conception of “tensegrity structures” that cited from the architecture. Tensegrity robots possess high strength-mass ratio, deformation capacity and shock resistance ability and can adapt to the environment with self-deformations. Existing simulations for tensegrity robots are carried out with Matlab that required complex dynamics modeling process and additional force constraints. Using ODE (Open Dynamic Engine) as a simulation tool can avoid the cumbersome modeling process. However, the robot model would collapse with the growth of DOFs (Degrees of Freedom). This paper solves the stable problem caused by large number of DOFs and builds a simulation environment for 6-strut tensegrity robots. Dynamic simulations for rolling and crawling gaits are performed in the simulation environment.

机译：Tensegrity机器人是一种新颖的柔性移动机器人，它基于从体系结构中引用的“张力结构”的概念。张力机器人具有很高的强度质量比，变形能力和抗冲击能力，并且能够自我变形适应环境。现有的张力机器人仿真是使用Matlab进行的，这需要复杂的动力学建模过程和附加的力约束。使用ODE（开放式动态引擎）作为仿真工具可以避免繁琐的建模过程。但是，机器人模型会随着DOF（自由度）的增长而崩溃。本文解决了自由度高引起的稳定问题，建立了六支柱张力机器人的仿真环境。在模拟环境中执行滚动和爬行步态的动态模拟。

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《IEEE International Conference on Information and Automation》|2014年|870-875|共6页
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Du Wenjuan; Ma Shugen; Li Bin; Wang Minghui; Hirai Shinichi;
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Actuators; Collision avoidance; Force; Friction; Joints; Mathematical model; Robots; Open Dynamic Engine; Simulations; Tensegrity robots;

机译：执行器;避免碰撞;力;摩擦力;关节;数学模型;机器人;开放式动态引擎;模拟;张力机器人;

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专利

1. Design and control of compliant tensegrity robots through simulation and hardware validation [J] . Ken Caluwaerts, Jeremie Despraz, Atil Iscen Journal of the Royal Society Interface . 2014,第98期

机译：通过仿真和硬件验证设计和控制兼容的张力机器人
2. Steady-state dynamics of a 3D tensegrity structure: Simulations and experiments [J] . Michielsen J., Fey R.H.B., Nijmeijer H. International Journal of Solids and Structures . 2012,第7a8期

机译：3D张力结构的稳态动力学：模拟和实验
3. Control and simulation of a tensegrity-based mobile robot [J] . Albert Graells Rovira, Josep M. Mirats Tur Robotics and Autonomous Systems . 2009,第5期

机译：基于张力的移动机器人的控制与仿真
4. Dynamic simulation for 6-strut tensegrity robots [C] . Du Wenjuan, Ma Shugen, Li Bin, IEEE International Conference on Information and Automation . 2014

机译：6支稳定性机器人的动态仿真
5. Spring Rod Plus: A User Interface for a Computer Simulation of a Tensegrity Robot [D] . Gieringer, Arianne Agogino. 2019

机译：Spring Rod Plus：用于Tensegrity机器人的计算机仿真的用户界面
6. Design and control of compliant tensegrity robots through simulation and hardware validation [O] . Ken Caluwaerts, Jérémie Despraz, Atıl Işçen, 2014

机译：通过仿真和硬件验证设计和控制兼容的张力机器人
7. Dynamic simulation for 6-strut tensegrity robots [O] . Du WJ(杜汶娟), Ma SG(马书根), Li B(李斌), 2014

机译：6杆张紧机器人的动态仿真
8. Design and Control of Compliant Tensegrity Robots Through Simulation and Hardware Validation. [R] . Caluwaerts, K., Despraz, J., Iscen, A., 2014

机译：通过仿真和硬件验证设计和控制符合标准的张拉整体机器人。

Dynamic simulation for 6-strut tensegrity robots

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