2019
DOI: 10.3390/robotics8030077
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Design and Implementation of a Quadruped Amphibious Robot Using Duck Feet

Abstract: Roaming complexity in terrains and unexpected environments pose significant difficulties in robotic exploration of an area. In a broader sense, robots have to face two common tasks during exploration, namely, walking on the drylands and swimming through the water. This research aims to design and develop an amphibious robot, which incorporates a webbed duck feet design to walk on different terrains, swim in the water, and tackle obstructions on its way. The designed robot is compact, easy to use, and also has … Show more

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Cited by 18 publications
(9 citation statements)
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“…As shown in Figure 1a, the design of the PPFR is based around a boat-paddle structure, with a floating body on the water surface, propelled by a drag from a swinging quasi-rhombus paddle, designed to maximize the water resistance, as has been seen in previous swimming robots. 21 The paddle is connected to a hollow transparent tube that leads up to the floating body consisting of a hollow transparent sphere housing the photothermal material (Figure 1b). The device rests on the water with the tube/foot submerged, sealing the air within the body and the tube; the pneumatics in the device arise from thermal control of this air, acting as a piston.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…As shown in Figure 1a, the design of the PPFR is based around a boat-paddle structure, with a floating body on the water surface, propelled by a drag from a swinging quasi-rhombus paddle, designed to maximize the water resistance, as has been seen in previous swimming robots. 21 The paddle is connected to a hollow transparent tube that leads up to the floating body consisting of a hollow transparent sphere housing the photothermal material (Figure 1b). The device rests on the water with the tube/foot submerged, sealing the air within the body and the tube; the pneumatics in the device arise from thermal control of this air, acting as a piston.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…To increase the quadruped robot stability complaint foot-pad where the design is inspired by duck feet. Saad et al [45] the proposed duck feet inspired design imitating the duck feet movement's operational behavior on land and water environment. The duck feet' critical analysis for motion inspires improved Klann linkage design mechanism which is trying to replicate the duck feet.…”
Section: ) Biped Amphibious Locomotionmentioning
confidence: 99%
“…Whereas, inhibiting the anterior side deformation is required during power stroke to maintain large surface areas of the propulsors. Although this drag-powered rowing was studied in many previous works, [8,10,12,21,22,[25][26][27][28][29][30] only handful of robots had employed stiffness-adjustable propulsors in aquatic rowing. [12,21,22] Due to the tethered power cables, however, the robot was unable to perform free swimming in underwater.…”
Section: Introductionmentioning
confidence: 99%