Add to ORKGThis paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean currents. The robot is assumed to be neutrally buoyant and move fully submerged with a planar sinusoidal gait and limited link angles. As a basis for the analysis, an existing, controloriented model is further simplified and extended to general sinusoidal gaits. Averaging theory is then employed to derive the averaged velocity dynamics of the underwater snake robot from that model. It is proven that the averaged velocity converges exponentially to an equilibrium, and an analytical expression for calculating the forward velocity of the robot in steady state is derived. A simulation study that validates both the proposed modelling approach and...
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. Cons...
This paper investigates the controllability and stability properties of a planar snake robot influen...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
This paper presents an averaged model of the velocity dynamics of an underwater snake robot, suited ...
This thesis presents different approaches for guidance and motion control of underwater snake robots...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move over...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
In this paper we consider swimming underwater snake robots that are fully immersed in water and movi...
This paper investigates the problem of planar maneuvering control for bio-inspired underwater snake ...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
This chapter presents a model-based control system for straight-line path-following of neutrally buo...
In this thesis we present a model of a swimming underwater snake robot. How aquatic animals move in...
Serpentine Locomotion is the most common and simplest locomotion form of a snake-like robot; its mai...
Serpentine Locomotion is the most common and simplest locomotion form of a snake-like robot; its mai...
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. Cons...
This paper investigates the controllability and stability properties of a planar snake robot influen...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
This paper presents an averaged model of the velocity dynamics of an underwater snake robot, suited ...
This thesis presents different approaches for guidance and motion control of underwater snake robots...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move over...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
In this paper we consider swimming underwater snake robots that are fully immersed in water and movi...
This paper investigates the problem of planar maneuvering control for bio-inspired underwater snake ...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
This chapter presents a model-based control system for straight-line path-following of neutrally buo...
In this thesis we present a model of a swimming underwater snake robot. How aquatic animals move in...
Serpentine Locomotion is the most common and simplest locomotion form of a snake-like robot; its mai...
Serpentine Locomotion is the most common and simplest locomotion form of a snake-like robot; its mai...
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. Cons...
This paper investigates the controllability and stability properties of a planar snake robot influen...