Add to ORKGConventional robots adopt wheels or robotic limbs for locomotion. Wheels are simple to control but not suitable for irregular terrains. On the other hand, robotic feet can overcome a wider variety of surfaces but are less desirable due to their complex design and control system. In nature, we find that invertebrate animals, like snails, can go anywhere without needing the complex control system a rigid robot needs. Instead, they move forward by sending travelling deformations along their soft bodies. Inspired by these animals, we present a soft robot that uses a sequence of deformations for locomotion. This sequence of deformations is driven by a row of vibrating actuators that vibrate with the same frequency but a phase shift between each ...
Inspired by the efficient locomotion of insects in nature, researchers have been developing a divers...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
This paper describes the design and development of a robot with six soft limbs, with the dual capabi...
Inspired by the robust locomotion of limbless animals in a range of environments, the development of...
Soil exploration is required in many different activities, ranging from detecting minerals or pollut...
All animals use mechanosensors to help them move in complex and changing environments. With few exce...
All animals use mechanosensors to help them move in complex and changing environments. With few exce...
In complex and extreme environments, such as pipelines and polluted waters, gait programming has gre...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
All animals use mechanosensors to help them move in complex and changing environments. With few exce...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
Traditional robots, such as robotic arms in assembly lines, are designed for specialized, repeatable...
Soft robots demonstrate an impressive ability to adapt to objects and environments. However, current...
Several recent designs of soft robots feature locomotion mechanisms that entail orchestrating change...
We present a novel soft limb quadruped robot "FASTT," with a simple and cheap design of its legs for...
Inspired by the efficient locomotion of insects in nature, researchers have been developing a divers...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
This paper describes the design and development of a robot with six soft limbs, with the dual capabi...
Inspired by the robust locomotion of limbless animals in a range of environments, the development of...
Soil exploration is required in many different activities, ranging from detecting minerals or pollut...
All animals use mechanosensors to help them move in complex and changing environments. With few exce...
All animals use mechanosensors to help them move in complex and changing environments. With few exce...
In complex and extreme environments, such as pipelines and polluted waters, gait programming has gre...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
All animals use mechanosensors to help them move in complex and changing environments. With few exce...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
Traditional robots, such as robotic arms in assembly lines, are designed for specialized, repeatable...
Soft robots demonstrate an impressive ability to adapt to objects and environments. However, current...
Several recent designs of soft robots feature locomotion mechanisms that entail orchestrating change...
We present a novel soft limb quadruped robot "FASTT," with a simple and cheap design of its legs for...
Inspired by the efficient locomotion of insects in nature, researchers have been developing a divers...
Peristalsis, i.e., a motion pattern arising from the propagation of muscle contraction and expansion...
This paper describes the design and development of a robot with six soft limbs, with the dual capabi...