Add to ORKGIncreasing efficiency by improving the locomotion methods is a key issue for underwater robots. Hence, an accurate dynamic model is important for both controller design and efficient locomotion methods. This paper presents a model of the kinematics and dynamics of a planar, underwater snake robot aimed at control design. Fluid contact forces and torques are modeled using analytical fluid dynamics. The model is derived in a closed form and can be utilized in modern model-based control schemes. The proposed model is easily implemented and simulated, regardless of the number of robot links. Simulation results with a ten link robotic system are presented
This paper presents an averaged model of the velocity dynamics of an underwater snake robot, suited ...
The inspiration for snake robots comes from biological snakes. Snakes display superior mobility capa...
This chapter presents a model-based control system for straight-line path-following of neutrally buo...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Hen...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Cons...
In this paper we consider swimming underwater snake robots that are fully immersed in water and movi...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move over...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
This paper investigates the problem of planar maneuvering control for bio-inspired underwater snake ...
Unmanned underwater vehicles are being increasingly used for subsea maintenance, inspection and repa...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move ove...
This thesis presents different approaches for guidance and motion control of underwater snake robots...
In this thesis we present a model of a swimming underwater snake robot. How aquatic animals move in...
This paper presents an averaged model of the velocity dynamics of an underwater snake robot, suited ...
The inspiration for snake robots comes from biological snakes. Snakes display superior mobility capa...
This chapter presents a model-based control system for straight-line path-following of neutrally buo...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Hen...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Cons...
In this paper we consider swimming underwater snake robots that are fully immersed in water and movi...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move over...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
This paper investigates the problem of planar maneuvering control for bio-inspired underwater snake ...
Unmanned underwater vehicles are being increasingly used for subsea maintenance, inspection and repa...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move ove...
This thesis presents different approaches for guidance and motion control of underwater snake robots...
In this thesis we present a model of a swimming underwater snake robot. How aquatic animals move in...
This paper presents an averaged model of the velocity dynamics of an underwater snake robot, suited ...
The inspiration for snake robots comes from biological snakes. Snakes display superior mobility capa...
This chapter presents a model-based control system for straight-line path-following of neutrally buo...