Journal ArticleDOI
Adaptive Dynamic Surface Control for Formations of Autonomous Surface Vehicles With Uncertain Dynamics
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TLDR
A robust adaptive formation controller is developed by employing neural network and dynamic surface control technique and is able to capture the vehicle dynamics without exact information of coriolis and centripetal force, hydrodynamic damping and disturbances from the environment.Abstract:
In this brief, we consider the formation control problem of underactuated autonomous surface vehicles (ASVs) moving in a leader-follower formation, in the presence of uncertainties and ocean disturbances. A robust adaptive formation controller is developed by employing neural network and dynamic surface control technique. The stability of the design is proven via Lyapunov analysis where semiglobal uniform ultimate boundedness of the closed-loop signals is guaranteed. The advantages of the proposed formation controller are that: first, the proposed method only uses the measurements of line-of-sight range and angle by local sensors, no other information about the leader is required for control implementation; second, the developed neural formation controller is able to capture the vehicle dynamics without exact information of coriolis and centripetal force, hydrodynamic damping and disturbances from the environment. Comparative analysis with a model-based approach is given to demonstrate the effectiveness of the proposed method.read more
Citations
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Posted ContentDOI
Finite-Time Coordinated Path Following Control of Leader-Following Multi-Agent Systems
Weibin Chen,Yang-Yang Chen +1 more
TL;DR: The applications of the continuous feedback method to achieve both path following and a formation moving along desired orbits at a finite time is presented and a novel continuous finite-time formation algorithm is designed.
Journal ArticleDOI
Model-based deep reinforcement learning for data-driven motion control of an under-actuated unmanned surface vehicle: Path following and trajectory tracking
TL;DR: In this paper , a fully data-driven learning-based motion control method for an UAV based on model-based deep reinforcement learning is presented for achieving trajectory tracking and path following tasks.
Proceedings ArticleDOI
Optimal Automatic Formation Control for Two-Wheeled Vehicles Using Model Predictive Control with Temporal Logic Constraints
TL;DR: An optimal automatic formation control method according to the environment is proposed, where the edge of course are defined as the environment and optimal formation is automatically determined among predefined formations in real time using model predictive control.
Proceedings ArticleDOI
Strong iISS Target Tracking Controller Design for an Unmanned Surface Vehicle with Uncertain Follower Dynamics and Target Dynamics
TL;DR: Simulations confirm the efficacy of the presented strong iISS target tracking control method for an USV with uncertain target kinematics as well as follower dynamics.
Journal ArticleDOI
Finite-time coordinated path-following control of leader-following multi-agent systems
TL;DR: In this article , the authors presented applications of the continuous feedback method to achieve path-following and a formation moving along the desired orbits within a finite time, assuming that the topology for the virtual leader and followers is directed.
References
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Approximation capabilities of multilayer feedforward networks
TL;DR: It is shown that standard multilayer feedforward networks with as few as a single hidden layer and arbitrary bounded and nonconstant activation function are universal approximators with respect to L p (μ) performance criteria, for arbitrary finite input environment measures μ.
Journal ArticleDOI
Information flow and cooperative control of vehicle formations
J.A. Fax,Richard M. Murray +1 more
TL;DR: A Nyquist criterion is proved that uses the eigenvalues of the graph Laplacian matrix to determine the effect of the communication topology on formation stability, and a method for decentralized information exchange between vehicles is proposed.
Journal ArticleDOI
Behavior-based formation control for multirobot teams
Tucker Balch,Ronald C. Arkin +1 more
TL;DR: New reactive behaviors that implement formations in multirobot teams are presented and evaluated and demonstrate the value of various types of formations in autonomous, human-led and communications-restricted applications, and their appropriateness in different types of task environments.
Journal ArticleDOI
Dynamic surface control for a class of nonlinear systems
TL;DR: A method is proposed for designing controllers with arbitrarily small tracking error for uncertain, mismatched nonlinear systems in the strict feedback form and it is shown that these low pass filters allow a design where the model is not differentiated, thus ending the complexity arising due to the "explosion of terms" that has made other methods difficult to implement in practice.
Journal ArticleDOI
Information flow and cooperative control of vehicle formations
TL;DR: It is demonstrated how exchange of minimal amounts of information between vehicles can be designed to realize a dynamical system which supplies each vehicle with a shared reference trajectory.