Add to ORKGThe control of a snake-like robot is a challenging problem because of unknown environments and complex dynamics. We have proposed an energy-based method, called passive creeping, to control the serpentine locomotion. In the paper, we present a hypothesis that the energy state of the robot can influence the locomotor adaptation. And then we lay emphasis on experiments in order to test the hypothesis and validate the passive creeping. A locomotion experiment and a drag experiment demonstrate the adaptability of the passive creeping to variable environments and different dynamics (or payloads), respectively. In the experiments, an optical motion capture system is used to obtain the kinetic energy information of the snake-like robot in real tim...
This article presents our current work on studying energy efficient locomotion on crawling snake-lik...
- Author's postprintThis paper contributes to the understanding of snake robot locomotion by employi...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for the e...
The control of a snake-like robot is a challenging problem because of unknown environments and compl...
The control of a snake-like robot is a challenging problem because of the complex dynamics. In this ...
Reducing the energy dissipation can improve the movement efficiency of a snake-like robot. Avoiding ...
The control of a snake-like robot is a challenging problem because of the complex dynamics and the u...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for envir...
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...
We aim to develop a snake robot that can autonomously slither over terrains with different surface f...
This is the authors accepted and refereed manuscript to the article.In a recent paper, the authors h...
Making biomimetic robots move like natural animals is an interesting problem, because this topic inv...
Snakes perform many kinds of movement adapted to different environments. Utilizing the snake as a mo...
This paper derives and experimentally investigates fundamental properties of the velocity of a snake...
This article presents our current work on studying energy efficient locomotion on crawling snake-lik...
- Author's postprintThis paper contributes to the understanding of snake robot locomotion by employi...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for the e...
The control of a snake-like robot is a challenging problem because of unknown environments and compl...
The control of a snake-like robot is a challenging problem because of the complex dynamics. In this ...
Reducing the energy dissipation can improve the movement efficiency of a snake-like robot. Avoiding ...
The control of a snake-like robot is a challenging problem because of the complex dynamics and the u...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for envir...
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...
We aim to develop a snake robot that can autonomously slither over terrains with different surface f...
This is the authors accepted and refereed manuscript to the article.In a recent paper, the authors h...
Making biomimetic robots move like natural animals is an interesting problem, because this topic inv...
Snakes perform many kinds of movement adapted to different environments. Utilizing the snake as a mo...
This paper derives and experimentally investigates fundamental properties of the velocity of a snake...
This article presents our current work on studying energy efficient locomotion on crawling snake-lik...
- Author's postprintThis paper contributes to the understanding of snake robot locomotion by employi...
Biological snakes' diverse locomotion modes and physiology make them supremely adapted for the e...