Add to ORKGDevelopment of snake robots have been motivated by the ability of snakes to move efficiently in unstructured and cluttered environments. A snake robot has the potential to utilise obstacles for generating locomotion, in contrast to wheeled robots which are unable to move efficiently in rough terrain. In this paper, we propose a local path planning algorithm for snake robots based on obstacle-aided locomotion (OAL). An essential feature in OAL is to determine suitable push-points in the environment that the snake robot can use for locomotion. The proposed method is based on a set of criteria for evaluating a path, and is a novel contribution of this paper. We focus on local path planning and formulate the problem as finding the best next pus...
Biological snakes are capable of exploiting roughness in the terrain for locomotion. This feature al...
Snake robots have the potential of contributing vastly in areas such as rescue missions, fire-fighti...
This work investigates locomotion efficiency optimization and adaptive path following of snake-like ...
Development of snake robots have been motivated by the ability of snakes to move efficiently in unst...
In this work a path planning which is the first step of motion planning in especially snake-like rob...
In nature, snakes can gracefully traverse a wide range of different and complex environments. Snake ...
In nature, snakes can gracefully traverse a wide range of different and complex environments. Snake ...
Snake robots have the potential to be used for many tasks where maneuvering through narrow and uneve...
This thesis is motivated by the long-term goal of developing snake robots which can move in unknown ...
As a step towards enabling snake robots to move in unstructured environments, this paper considers c...
Robot path planning is one of the core issues in robotics and its application. Optimizing the route ...
The interaction between the snake-like robot and environment produces serpentine action to push the ...
The efficient movement of biological snakes in various environments is the result of a long evolutio...
- Author postprintAs a step toward enabling snake robots to move in cluttered environments, this pap...
- Author postprintA snake robot can traverse cluttered and irregular environments by using irregular...
Biological snakes are capable of exploiting roughness in the terrain for locomotion. This feature al...
Snake robots have the potential of contributing vastly in areas such as rescue missions, fire-fighti...
This work investigates locomotion efficiency optimization and adaptive path following of snake-like ...
Development of snake robots have been motivated by the ability of snakes to move efficiently in unst...
In this work a path planning which is the first step of motion planning in especially snake-like rob...
In nature, snakes can gracefully traverse a wide range of different and complex environments. Snake ...
In nature, snakes can gracefully traverse a wide range of different and complex environments. Snake ...
Snake robots have the potential to be used for many tasks where maneuvering through narrow and uneve...
This thesis is motivated by the long-term goal of developing snake robots which can move in unknown ...
As a step towards enabling snake robots to move in unstructured environments, this paper considers c...
Robot path planning is one of the core issues in robotics and its application. Optimizing the route ...
The interaction between the snake-like robot and environment produces serpentine action to push the ...
The efficient movement of biological snakes in various environments is the result of a long evolutio...
- Author postprintAs a step toward enabling snake robots to move in cluttered environments, this pap...
- Author postprintA snake robot can traverse cluttered and irregular environments by using irregular...
Biological snakes are capable of exploiting roughness in the terrain for locomotion. This feature al...
Snake robots have the potential of contributing vastly in areas such as rescue missions, fire-fighti...
This work investigates locomotion efficiency optimization and adaptive path following of snake-like ...