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Robotic Fish iSplash-II: Realizing Fast Carangiform Swimming to Outperform a Real Fish
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Robotic Fish iSplash-II: Realizing Fast Carangiform Swimming to Outperform a Real Fish
Current price: $9.99
Barnes and Noble
Robotic Fish iSplash-II: Realizing Fast Carangiform Swimming to Outperform a Real Fish
Current price: $9.99
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Abstract-This paper introduces a new robotic fish, iSplash-II, capable of outperforming real carangiform fish in terms of average maximum velocity (measured in body lengths/ second) and endurance, the duration that top speed is maintained. A new fabrication technique and mechanical drive system were developed, effectively transmitting large forces at high frequencies to obtain high-speed propulsion. The lateral and thrust forces were optimized around the center of mass, generating accurate kinematic displacements and greatly increasing the magnitude of added mass. The prototype, with a length of 32cm has significantly increased the linear swimming speed of robotic fish, achieving consistent untethered stabilized swimming speeds of 11.6BL/s (i.e. 3.7m/s), with a frequency of 20Hz.
Keywords: Robotic fish • Carangiform swimming • Mechanical drive system • Full-Body length.
Keywords: Robotic fish • Carangiform swimming • Mechanical drive system • Full-Body length.
Abstract-This paper introduces a new robotic fish, iSplash-II, capable of outperforming real carangiform fish in terms of average maximum velocity (measured in body lengths/ second) and endurance, the duration that top speed is maintained. A new fabrication technique and mechanical drive system were developed, effectively transmitting large forces at high frequencies to obtain high-speed propulsion. The lateral and thrust forces were optimized around the center of mass, generating accurate kinematic displacements and greatly increasing the magnitude of added mass. The prototype, with a length of 32cm has significantly increased the linear swimming speed of robotic fish, achieving consistent untethered stabilized swimming speeds of 11.6BL/s (i.e. 3.7m/s), with a frequency of 20Hz.
Keywords: Robotic fish • Carangiform swimming • Mechanical drive system • Full-Body length.
Keywords: Robotic fish • Carangiform swimming • Mechanical drive system • Full-Body length.
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