As a hyper-redundant robot, a 3D snake-like robot can perform many other configurations and types of locomotion adapted to environment except for mimicking the natural snake locomotion. The natural snake locomotion usually limits locomotion capability of the robot because of inadequacy in the mechanism and actuation to imitate characters of natural snake such as the too many DOFs and the characteristics of the muscle. In order to apply snake-like robots to the unstructured environment, the researchers have designed many gaits for increasing the adaptability to a variety of surroundings. The twist-related locomotion is an effective gait achieved by jointly driving the pitching-DOF and yawing-DOF, with which the snake-like robot can move on r...
This paper presents an amphibious snake-like robot's design and its omnipotent locomotion abilit...
Snakes perform many kinds of movement that are adaptable to the environment. Utilizing the snake (it...
The diverse locomotion modes and physiology of biological snakes make them supremely adapted for the...
As a hyper-redundant robot, a 3D snake-like robot can perform many other configurations and types of...
As a hyper-redundant robot, a 3D snake-like robot can perform many other configurations and types of...
This paper describes our work on the studies of the locomotion of a 3D snake-like robot, which has b...
A snake changes its gait to adapt to different environments. A snake-like robot that is able to perf...
Snake-like robots exhibited more advantages than conventional mobile robots on environment adaptatio...
It is essential to design a joint mechanism for snake-like robots to exhibit more mobility, no singu...
The snake-like robot can be adaptive to many terrains with its abundant gaits. Serpentine locomotion...
In this paper, a novel serpentine gait generation method is proposed based on geometry mechanics. Fr...
Amphibious snake-like robots are advantageous than traditional snake-like robots for their adaptabil...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for the e...
Snake-like robots that behaves biological snakes' characteristics have possibility to make them ...
Abstract. Inspired by the efficient method of locomotion of the rattlesnake Crotalus cerastes, the o...
This paper presents an amphibious snake-like robot's design and its omnipotent locomotion abilit...
Snakes perform many kinds of movement that are adaptable to the environment. Utilizing the snake (it...
The diverse locomotion modes and physiology of biological snakes make them supremely adapted for the...
As a hyper-redundant robot, a 3D snake-like robot can perform many other configurations and types of...
As a hyper-redundant robot, a 3D snake-like robot can perform many other configurations and types of...
This paper describes our work on the studies of the locomotion of a 3D snake-like robot, which has b...
A snake changes its gait to adapt to different environments. A snake-like robot that is able to perf...
Snake-like robots exhibited more advantages than conventional mobile robots on environment adaptatio...
It is essential to design a joint mechanism for snake-like robots to exhibit more mobility, no singu...
The snake-like robot can be adaptive to many terrains with its abundant gaits. Serpentine locomotion...
In this paper, a novel serpentine gait generation method is proposed based on geometry mechanics. Fr...
Amphibious snake-like robots are advantageous than traditional snake-like robots for their adaptabil...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for the e...
Snake-like robots that behaves biological snakes' characteristics have possibility to make them ...
Abstract. Inspired by the efficient method of locomotion of the rattlesnake Crotalus cerastes, the o...
This paper presents an amphibious snake-like robot's design and its omnipotent locomotion abilit...
Snakes perform many kinds of movement that are adaptable to the environment. Utilizing the snake (it...
The diverse locomotion modes and physiology of biological snakes make them supremely adapted for the...