Tensegrity robots, composed of rigid rods and flexible cables, exhibit high strength-to-weight ratios and extreme deformations, enabling them to navigate unstructured terrain and even survive harsh impacts. However, they are hard to control due to their high dimensionality, complex dynamics, and coupled architecture. Physics-based simulation is one avenue for developing locomotion policies that can then be transferred to real robots, but modeling tensegrity robots is a complex task, so simulations experience a substantial sim2real gap. To address this issue, this paper describes a Real2Sim2Real strategy for tensegrity robots. This strategy is based on a differential physics engine that can be trained given limited data from a real robot (i....
Robots that are designed for NASA's missions to foreign planets, as with disaster relief efforts on ...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
Learning controllers that reproduce legged locomotion in nature has been a long-time goal in robotic...
Tensegrity robots, composed of rigid rods and flexible cables, are difficult to accurately model and...
Tensegrity structures are an emergent type of soft-robotics that are compliant, lightweight, and imp...
This paper introduces the task of {\em Planar Robot Casting (PRC)}: where one planar motion of a rob...
In deep reinforcement learning, sim-to-real is the mainstream method as it needs a large number of t...
Tensegrity structures (built from interconnected rods and cables) have the potential to offer a revo...
Traditional robotic structures have limitations in planetary exploration as their rigid structural j...
Deformable linear objects (DLOs), such as rods, cables, and ropes, play important roles in daily lif...
We present a methodology enabled by the NASA Tensegrity Robotics Toolkit (NTRT) for the rapid struct...
The paper has originated in the framework of solving No. 20-21893S project of the Czec...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
This thesis presents a novel actuation system and morphologies for tensegrity robots. The research a...
A realistic simulation environment is an essential tool in every roboticist's toolkit, with uses ran...
Robots that are designed for NASA's missions to foreign planets, as with disaster relief efforts on ...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
Learning controllers that reproduce legged locomotion in nature has been a long-time goal in robotic...
Tensegrity robots, composed of rigid rods and flexible cables, are difficult to accurately model and...
Tensegrity structures are an emergent type of soft-robotics that are compliant, lightweight, and imp...
This paper introduces the task of {\em Planar Robot Casting (PRC)}: where one planar motion of a rob...
In deep reinforcement learning, sim-to-real is the mainstream method as it needs a large number of t...
Tensegrity structures (built from interconnected rods and cables) have the potential to offer a revo...
Traditional robotic structures have limitations in planetary exploration as their rigid structural j...
Deformable linear objects (DLOs), such as rods, cables, and ropes, play important roles in daily lif...
We present a methodology enabled by the NASA Tensegrity Robotics Toolkit (NTRT) for the rapid struct...
The paper has originated in the framework of solving No. 20-21893S project of the Czec...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
This thesis presents a novel actuation system and morphologies for tensegrity robots. The research a...
A realistic simulation environment is an essential tool in every roboticist's toolkit, with uses ran...
Robots that are designed for NASA's missions to foreign planets, as with disaster relief efforts on ...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
Learning controllers that reproduce legged locomotion in nature has been a long-time goal in robotic...