Tensegrity robots are based on the idea of tensegrity struc-tures that provides many advantages critical to robotics such as being lightweight and impact tolerant. Unfortunately tensegrity robots are hard to control due to overall com-plexity. We use multiagent learning to learn controls of a ball-shaped tensegrity with 6 rods and 24 cables. Our simu-lation results show that multiagent learning can be used to learn an efficient rolling behavior and test its robustness to actuation noise
Soft-Robotics is an emerging field that holds the potential to answer questions in fields ranging fr...
This paper proposes an analytic method based on finite-element method (FEM) for the rolling gaits of...
Tensegrity structures can provide a new approach to the construction of mobile robots with different...
Graduation date: 2014Tensegrity structures are composed of pure compressional elements that are conn...
Tensegrity structures are an emergent type of soft-robotics that are compliant, lightweight, and imp...
Tensegrity structures (built from interconnected rods and cables) have the potential to offer a revo...
Tensegrity structures (built from interconnected rods and cables) have the potential to offer a revo...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
Swarm systems for multiagent control rely on natural models of behavior. Such models both predict si...
Tensegrity robots, composed of rigid rods and flexible cables, are difficult to accurately model and...
This paper describes dynamic simulation of rolling locomotion of a tensegrity robot. Tensegrity is a...
This thesis develops a novel approach to robot control that learns to account for a robot's dynamic ...
The emerging field of morphological computation seeks to understand how mechanical complexity in liv...
This dissertation presents the design, analysis and testing of various actuated modular spherical te...
Traditional robotic structures have limitations in planetary exploration as their rigid structural j...
Soft-Robotics is an emerging field that holds the potential to answer questions in fields ranging fr...
This paper proposes an analytic method based on finite-element method (FEM) for the rolling gaits of...
Tensegrity structures can provide a new approach to the construction of mobile robots with different...
Graduation date: 2014Tensegrity structures are composed of pure compressional elements that are conn...
Tensegrity structures are an emergent type of soft-robotics that are compliant, lightweight, and imp...
Tensegrity structures (built from interconnected rods and cables) have the potential to offer a revo...
Tensegrity structures (built from interconnected rods and cables) have the potential to offer a revo...
Soft spherical tensegrity robots are novel steerable mobile robotic platforms that are compliant, li...
Swarm systems for multiagent control rely on natural models of behavior. Such models both predict si...
Tensegrity robots, composed of rigid rods and flexible cables, are difficult to accurately model and...
This paper describes dynamic simulation of rolling locomotion of a tensegrity robot. Tensegrity is a...
This thesis develops a novel approach to robot control that learns to account for a robot's dynamic ...
The emerging field of morphological computation seeks to understand how mechanical complexity in liv...
This dissertation presents the design, analysis and testing of various actuated modular spherical te...
Traditional robotic structures have limitations in planetary exploration as their rigid structural j...
Soft-Robotics is an emerging field that holds the potential to answer questions in fields ranging fr...
This paper proposes an analytic method based on finite-element method (FEM) for the rolling gaits of...
Tensegrity structures can provide a new approach to the construction of mobile robots with different...