For robots to navigate successfully in the real world, unstructured environment adaptability is a prerequisite. Although this is typically implemented within the control layer, there have been recent proposals of adaptation through a morphing of the body. However, the successful demonstration of this approach has mostly been theoretical and in simulations thus far. In this work we present an underwater hopping robot that features a deformable body implemented as a deployable structure that is covered by a soft skin for which it is possible to manually change the body size without altering any other property (e.g. buoyancy or weight). For such a system, we show that it is possible to induce a stable hopping behavior instead of a fall, by jus...
Abstract. For their efficient and elegant locomotion, batoid fishes (e.g. the manta ray) have been w...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
This paper considers aquatic swimming of a pedundulatory bio-robotic system, inspired by the outstan...
This paper presents the self-stabilisation features of a hopping gait during underwater legged locom...
Many platforms have been developed for moving remotely underwater; however, many of these systems ar...
Biology provides many examples of how body adaption can be used to achieve a change in functionality...
Recent developments in robotics demonstrated that bioinspiration and embodiement are powerful tools ...
In recent years a number of robotic platforms have been developed, that are capable of robust locomo...
Drawing inspiration from the locomotion modalities of animals, legged robots demonstrated the potent...
In this letter, a fundamental model for underwater legged locomotion, called U-SLIP, is presented an...
For their efficient and elegant locomotion, batoid fishes (e.g. the manta ray) have been widely stud...
International audienceThis paper reports methods to compute the equilibrium stances of a new snake-l...
Abstract — Toward adaptive underwater locomotion, this paper presents the experimental results of fi...
Abstract. For their efficient and elegant locomotion, batoid fishes (e.g. the manta ray) have been w...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
This paper considers aquatic swimming of a pedundulatory bio-robotic system, inspired by the outstan...
This paper presents the self-stabilisation features of a hopping gait during underwater legged locom...
Many platforms have been developed for moving remotely underwater; however, many of these systems ar...
Biology provides many examples of how body adaption can be used to achieve a change in functionality...
Recent developments in robotics demonstrated that bioinspiration and embodiement are powerful tools ...
In recent years a number of robotic platforms have been developed, that are capable of robust locomo...
Drawing inspiration from the locomotion modalities of animals, legged robots demonstrated the potent...
In this letter, a fundamental model for underwater legged locomotion, called U-SLIP, is presented an...
For their efficient and elegant locomotion, batoid fishes (e.g. the manta ray) have been widely stud...
International audienceThis paper reports methods to compute the equilibrium stances of a new snake-l...
Abstract — Toward adaptive underwater locomotion, this paper presents the experimental results of fi...
Abstract. For their efficient and elegant locomotion, batoid fishes (e.g. the manta ray) have been w...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
This paper considers aquatic swimming of a pedundulatory bio-robotic system, inspired by the outstan...