Collision-Free Distributed Adaptive Resilient Formation Control for Underactuated USVs Subject to Intermittent Actuator Faults and Denial-of-Service Attacks
This paper investigates a collision-free distributed fuzzy adaptive resilient formation control scheme for underactuated unmanned surface vehicles (USVs) with unknown nonlinear dynamics under intermittent actuator faults and denial-of-service (DoS) attacks, where all network communication links betw...
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| Published in | IEEE transactions on vehicular technology Vol. 74; no. 9; pp. 1 - 12 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
2025
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9545 1939-9359 |
| DOI | 10.1109/TVT.2025.3565820 |
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| Abstract | This paper investigates a collision-free distributed fuzzy adaptive resilient formation control scheme for underactuated unmanned surface vehicles (USVs) with unknown nonlinear dynamics under intermittent actuator faults and denial-of-service (DoS) attacks, where all network communication links between USVs are interrupted in attack active intervals simultaneously. First, fuzzy logic systems are used to approximate unknown nonlinear dynamics. Then, using an artificial potential field method, potential function with continuous partial derivative is designed and integrated into a resilient distributed formation estimator. A novel collision avoidance resilient distributed formation estimator is proposed to ensure the existence of the first-order derivative of estimator states and achieve collision-free between USVs. Meanwhile, a simple prescribed performance function is designed to ensure transient and steady-state formation performances of underactuated USVs. Subsequently, combining dynamic surface control and adaptive technology, an adaptive fault-tolerant control algorithm is proposed to deal with intermittent actuator faults. It is shown that the designed controller can steer formation tracking errors into a residual set of predefined accuracy within a preassigned settling time while avoiding collision between USVs, and ensure all signals in the closed-loop system are semi-globally uniformly ultimately bounded. Finally, a simulation example confirms the effectiveness of the presented theory and approach. |
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| AbstractList | This paper investigates a collision-free distributed fuzzy adaptive resilient formation control scheme for underactuated unmanned surface vehicles (USVs) with unknown nonlinear dynamics under intermittent actuator faults and denial-of-service (DoS) attacks, where all network communication links between USVs are interrupted in attack active intervals simultaneously. First, fuzzy logic systems are used to approximate unknown nonlinear dynamics. Then, using an artificial potential field method, potential function with continuous partial derivative is designed and integrated into a resilient distributed formation estimator. A novel collision avoidance resilient distributed formation estimator is proposed to ensure the existence of the first-order derivative of estimator states and achieve collision-free between USVs. Meanwhile, a simple prescribed performance function is designed to ensure transient and steady-state formation performances of underactuated USVs. Subsequently, combining dynamic surface control and adaptive technology, an adaptive fault-tolerant control algorithm is proposed to deal with intermittent actuator faults. It is shown that the designed controller can steer formation tracking errors into a residual set of predefined accuracy within a preassigned settling time while avoiding collision between USVs, and ensure all signals in the closed-loop system are semi-globally uniformly ultimately bounded. Finally, a simulation example confirms the effectiveness of the presented theory and approach. |
| Author | Wu, Xiangjun Wang, Huanqing Niu, Ben Zhao, Xudong Zong, Guangdeng |
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| SubjectTerms | Accuracy Actuators Adaptive algorithms Closed loops Collision avoidance Control algorithms Control systems Control theory Denial of service attacks denial-of-service (DoS) attacks Denial-of-service attack Derivatives Dynamical systems Fault tolerance Faults Feedback control Formation control Fuzzy logic Fuzzy systems Heuristic algorithms intermittent actuator faults Nonlinear dynamics Potential fields prescribed performance Steady-state Surface vehicles Tracking errors Transient analysis Underactuated surface vessels Underactuated unmanned surface vehicles (USVs) Unmanned vehicles |
| Title | Collision-Free Distributed Adaptive Resilient Formation Control for Underactuated USVs Subject to Intermittent Actuator Faults and Denial-of-Service Attacks |
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