Abstract:
According to the structure, driving properties and maneuvering properties of the developed bionic pectoral fin in labriform mode, the artificial spinal cord control networks for the bionic pectoral fin in labriform mode are designed. Firstly, the topological connection relations between the artificial spinal cord networks of the left and right bionic pectoral fins are constructed based on the coordinated motion properties of the left and right bionic pectoral fins in labriform mode to implement the coordinated control of the left and right bionic pectoral fins. Then, the Matlab is used to simulate the performances of the artificial spinal cord network in generating the propulsion morphology of pectoral fin and controlling the coordinated motion between the left and right bionic pectoral fins. The simulation results are consistent with the observation results, proving that the structure and driving system of bionic pectoral fin in labriform mode as well as the built artificial spinal cord control networks are reasonable, and can reflect the maneuver and control mechanism of the pectoral fins of the teleost. In addition, the coordinated control of the bionic pectoral fins shows excellent biological properties. It lays foundation for the development on the high-performance propulsion system in labriform mode and the research on the propulsion mechanism and neuromuscular control mechanism in labriform mode.