Add to ORKGThe development of amphibious robots requires actuation that enables them to crawl as well as swim; sea turtles are excellent examples of amphibious functionality, that can serve as the biomimetic model for the development of amphibious robots. In this paper we have implemented the observed swimming kinematics of Myrtle, a green sea turtle Chelonia Mydas residing in the Giant Ocean Tank of the New England Aquarium, on the 1.5-meter long biomimetic vehicle Finnegan the RoboTurtle. It is shown that these kinematics result in outstanding performance in (a) rapid pitching, and (b) rapid level turning. The turning radius for the rigid hull vehicle is 0.8 body lengths, a remarkable improvement in turning ability for a rigid hull vehicle. Still ...
Hatchling sea turtles emerge from nests, crawl down the beach and enter the sea where they typically...
Softshell turtles (Family Trionychidae) possess extensive webbing between the digits of the manus, s...
Animals that swim using appendages do so by way of rowing and/or flapping motions. Often considered ...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at the M...
Abstract Green sea turtles (Chelonia mydas) can swim up to 50 km per day while only consuming seagra...
Sea turtles are recognised as one of the ocean’s most remarkable migratory species, accomplishing jo...
Locomotion of animals, whether by running, flying, swimming or crawling, is crucial to their surviv...
In recent years, the robotic engineering community is focusing more on the area of biomimetic robots...
Hydrodynamic stability is the ability to resist recoil motions of the body produced by destabilizing...
This paper presents the design and implementation of a turtle hydrofoil for an Autonomous Underwate...
The ability to capture prey and avoid predation in aquatic habitats depends strongly on the ability ...
Abstract — This paper presents a novel underwater robot based on biological locomotion principle. A ...
Bio-inspired solutions are deeply investigated as a source of efficiency and maneuverability improve...
Aquatic organisms exhibit tremendous diversity in body design and modes of propulsion that can stron...
Bio-inspired solutions devised for Autonomous Underwater Robots are currently investigated by resear...
Hatchling sea turtles emerge from nests, crawl down the beach and enter the sea where they typically...
Softshell turtles (Family Trionychidae) possess extensive webbing between the digits of the manus, s...
Animals that swim using appendages do so by way of rowing and/or flapping motions. Often considered ...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at the M...
Abstract Green sea turtles (Chelonia mydas) can swim up to 50 km per day while only consuming seagra...
Sea turtles are recognised as one of the ocean’s most remarkable migratory species, accomplishing jo...
Locomotion of animals, whether by running, flying, swimming or crawling, is crucial to their surviv...
In recent years, the robotic engineering community is focusing more on the area of biomimetic robots...
Hydrodynamic stability is the ability to resist recoil motions of the body produced by destabilizing...
This paper presents the design and implementation of a turtle hydrofoil for an Autonomous Underwate...
The ability to capture prey and avoid predation in aquatic habitats depends strongly on the ability ...
Abstract — This paper presents a novel underwater robot based on biological locomotion principle. A ...
Bio-inspired solutions are deeply investigated as a source of efficiency and maneuverability improve...
Aquatic organisms exhibit tremendous diversity in body design and modes of propulsion that can stron...
Bio-inspired solutions devised for Autonomous Underwater Robots are currently investigated by resear...
Hatchling sea turtles emerge from nests, crawl down the beach and enter the sea where they typically...
Softshell turtles (Family Trionychidae) possess extensive webbing between the digits of the manus, s...
Animals that swim using appendages do so by way of rowing and/or flapping motions. Often considered ...