2022
DOI: 10.1002/rnc.6249
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Extended bounded real lemma based sum of squares for static output feedback H heading control

Abstract: Aim at the fore and aft asymmetry of unmanned surface vehicle (USV) and the loss of linear velocity, a static output feedback (SOF) H ∞ control method is proposed by the sum of squares (SOS) based on two types of extended bounded real lemmas (EBRL) for heading regulation to guarantee the robustness and improve the rapidity. First, an asymmetric nonlinear heading error model with hydrodynamic parameters is established by the consideration of lack of linear velocity. Second, SOF controller with H ∞ performance i… Show more

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Cited by 5 publications
(8 citation statements)
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“…For the system state equation (7), if there exists a controller of the form as u ( s ) = K ( s ) y ( s ) such that the closed-loop system satisfies the following for all ρ properties 24 :…”
Section: Idof H ∞ Controller Designmentioning
confidence: 99%
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“…For the system state equation (7), if there exists a controller of the form as u ( s ) = K ( s ) y ( s ) such that the closed-loop system satisfies the following for all ρ properties 24 :…”
Section: Idof H ∞ Controller Designmentioning
confidence: 99%
“…Finally, substituting equation (32) into equation ( 27), the stability condition of IDOF control system is obtained Inequality equation ( 33) is an LMI, which is the equivalent representation of inequality equation (24).…”
Section: Equation (27) Has Nonlinear Coupling Termsmentioning
confidence: 99%
“…For (7), it is useful for robust H ∞ control technology to suppress system parameter uncertainties and external disturbances. For any initial system state x(t 0 ), if the system state and the integral inequality J with the control output z and the disturbance w satisfy the inequalities 9,23 :…”
Section: State Feedback Controller With Robust H ∞ Performancementioning
confidence: 99%
“…and 𝜅 = 1 2 𝛼, (35) is equal to (9), which means that the NPV system ( 7) is globally exponentially stable with the conditions of ( 14) and (15).…”
Section: Ehplf Stability Conditionsmentioning
confidence: 99%
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