摘要:AbstractPectoral fins play an important role in the locomotion and maneuvering of robotic fish. Considering the cyclic nature of typical actuation modes, it is of interest to develop a dynamic average model that is amenable to controller design, where the control inputs are actuation pattern parameters. In this work, we propose a scaling-based approach to develop a nonlinear dynamic average model for a robotic fish propelled by a pair of rowing pectoral fins. In particular, the fin-generated hydrodynamic forces and moment, modeled using blade element theory, are scaled with functions of the fin-beat parameters, and classical averaging is then conducted over the corresponding modified dynamics. To determine proper scaling functions with minimal complexity, we propose a novel estimation scheme employing a nonlinear model predictive control formulation paired with a multivariate nonlinear regression scheme. Experimental and simulation results comparing the predictions from the dynamic and averaged models are presented to support the efficacy of the averaged modeling approach.
关键词:KeywordsAveragingmodelingunderwater vehiclesrobotic fishpectoral fins
