Add to ORKGIn this paper we consider underwater snake robots (USRs) that may be equipped with additional added effectors along their body, including caudal, dorsal and pectoral fins, tunnel thrusters and/or a stern propeller. We propose a mathematical model for USRs swimming in a 2D plane, which includes the extra propulsion forces acting on each link from the added effectors. The resulting model is in closed form, making it well-suited for control design and analysis. We then consider the particular case when fins are added to one or more links to provide lift forces. We develop a quasi-static model for an oscillating and rotating foil, which is then combined with the model of the USR to provide a model of an USR with one or more fins along its body....
Experimental investigation of efficient locomotion of underwater snake robots for lateral undulation...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
Energy efficiency is one of the main challenges for long-term autonomy of underwater robotic systems...
In this thesis we present a model of a swimming underwater snake robot. How aquatic animals move in...
In this paper we consider swimming underwater snake robots that are fully immersed in water and movi...
Over the last few decades, the robotics community has shown increasing interest in developing bioins...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move over...
In this paper, we present a bioinspired underwater snake robot (USR) equipped with a passive caudal ...
Lately there has been an increasing interest for subsea inspection and intervention tasks, and in pa...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
Unmanned underwater vehicles are being increasingly used for subsea maintenance, inspection and repa...
Underwater snake robots offer many interesting capabilities for underwater operations. The long and ...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Cons...
The inspiration for snake robots comes from biological snakes. Snakes display superior mobility capa...
Nowadays different types of unmanned underwater vehicles (UUVs), such as remotely operated vehicles ...
Experimental investigation of efficient locomotion of underwater snake robots for lateral undulation...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
Energy efficiency is one of the main challenges for long-term autonomy of underwater robotic systems...
In this thesis we present a model of a swimming underwater snake robot. How aquatic animals move in...
In this paper we consider swimming underwater snake robots that are fully immersed in water and movi...
Over the last few decades, the robotics community has shown increasing interest in developing bioins...
This thesis is mainly motivated by the attribute of the snake robots that they are able to move over...
In this paper, we present a bioinspired underwater snake robot (USR) equipped with a passive caudal ...
Lately there has been an increasing interest for subsea inspection and intervention tasks, and in pa...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Henc...
Unmanned underwater vehicles are being increasingly used for subsea maintenance, inspection and repa...
Underwater snake robots offer many interesting capabilities for underwater operations. The long and ...
Increasing efficiency by improving the locomotion methods is a key issue for underwater robots. Cons...
The inspiration for snake robots comes from biological snakes. Snakes display superior mobility capa...
Nowadays different types of unmanned underwater vehicles (UUVs), such as remotely operated vehicles ...
Experimental investigation of efficient locomotion of underwater snake robots for lateral undulation...
This paper presents an analysis of planar underwater snake robot locomotion in the presence of ocean...
Energy efficiency is one of the main challenges for long-term autonomy of underwater robotic systems...