Utilization of Function Generation Synthesis on Biomimetics: A Case Study on Moray Eel Double Jaw Design

Abstract: Throughout history, humans have observed living or non-living things in nature and then imitated them in relation to these observations. This is due to the fact that the energy found in nature is generally consumed at an optimal level in order for it to endure. Biomimetic inspiration in many designs and applications is widely displayed, including within the field of engineering. In this paper, we were inspired by the double set of jaws found in the moray eel, which gives this fish a huge advantage while huntin… Show more

“…Researchers have analyzed and modeled the fins to investigate the high efficiency of motion of aquatic animals, enhancing the swimming capabilities of aquatic robots [12][13][14][15][16]. Additionally, an interesting field for innovative grippers is taking inspiration from some fishes possessing unique jaw mechanisms, such as the Moray eel's double jaw design [17], the upper jaw protrusion of Trachipterus altivelis [18], or the mouth opening phase of Clarias gariepinus [19]. These mechanisms frequently vary between different families and within species belonging to the same family.…”

A Mechanical Approach for Comparing Jaws in Fishes

“…Researchers have analyzed and modeled the fins to investigate the high efficiency of motion of aquatic animals, enhancing the swimming capabilities of aquatic robots [12][13][14][15][16]. Additionally, an interesting field for innovative grippers is taking inspiration from some fishes possessing unique jaw mechanisms, such as the Moray eel's double jaw design [17], the upper jaw protrusion of Trachipterus altivelis [18], or the mouth opening phase of Clarias gariepinus [19]. These mechanisms frequently vary between different families and within species belonging to the same family.…”

A Mechanical Approach for Comparing Jaws in Fishes

“…The soft bodies, good flexibility and strong environmental adaptability of marine organisms inspire new ideas for the development of underwater robots [ 12 ]. After a long period of evolution, fish have adapted to exploit the principle of hydrodynamics to move forward using tail fins or pectoral fins [ 13 , 14 , 15 ], which has become the best way to move in water [ 16 , 17 ]. The propulsion method employed by fish can maintain high maneuverability and change posture according to the changing environment.…”

Underwater Undulating Propulsion Biomimetic Robots: A Review