Open AccessGlobal Asymptotic Trajectory Tracking and Point Stabilization of Asymmetric Underactuated Ships with Non-Diagonal Inertia/Damping Matrices
Author(s) -
Baoli Ma,
Wenjing Xie
Publication year - 2013
Publication title -
international journal of advanced robotic systems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.394
H-Index - 46
eISSN - 1729-8814
pISSN - 1729-8806
DOI - 10.5772/56671
Subject(s) - underactuation , trajectory , control theory (sociology) , diagonal , controller (irrigation) , computer science , convergence (economics) , exponential stability , lyapunov function , tracking (education) , inertia , nonlinear system , point (geometry) , mathematics , control (management) , physics , artificial intelligence , psychology , pedagogy , geometry , classical mechanics , astronomy , quantum mechanics , agronomy , economics , biology , economic growth
In this work, we investigate the trajectory tracking and point stabilization problems of asymmetric underactuated surface ships with non-diagonal inertia and damping matrices. By combining the novel state and input transformations, the direct Lyapunov approach, and the nonlinear time-varying tools, the trajectory tracking controller is derived, guaranteeing global κ-exponential convergence of state trajectory to the reference one satisfying mild persistent exciting conditions. By properly designing the reference trajectory, the proposed tracking scheme is also generalized to achieve global uniform asymptotic point stabilization. Simulation examples are given to illustrate the effectiveness of the proposed control schemes
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