Imitation of the body/caudal fin undulatory swimming of a spiny dogfish (Squalus acanthias): The kinematic equation

Abstract: Fishes, with their efficient propulsive systems and wide variety of body shapes, inspire the design of marine robots. To imitate the kinematics of live species for the fish-like robots, some parameters would be extracted by observations from nature. In this article, a summary is presented over the important literature on the kinematics of the body/caudal swimming of fishes. Then, a detailed procedure to extract the kinematic parameters from live species is discussed. In addition, a procedure is presented to ac… Show more

“…5 a), a third of fish length behind fish tail. Unlike parametric models of fish locomotion in previous literatures [26], [27], [28] , driving force of live fish is fluctuating. They undulate the body for gaining locomotion and slide with a minimum drag force body shape.…”

A Study of Fish Undulatory Swimming Based on Merged CFD and Experimental Video of the Swimming Movement of Mosquito Fish

“…5 a), a third of fish length behind fish tail. Unlike parametric models of fish locomotion in previous literatures [26], [27], [28] , driving force of live fish is fluctuating. They undulate the body for gaining locomotion and slide with a minimum drag force body shape.…”

A Study of Fish Undulatory Swimming Based on Merged CFD and Experimental Video of the Swimming Movement of Mosquito Fish