Event-Triggered-Backstepping-Based Parallel Approaching Guidance Method for Maneuvering Target Interception

Shen, Yaohua; Zheng, Zixuan; Guo, Hongzhen

doi:10.1142/s2737480722500054

Cited by 5 publications

(7 citation statements)

References 20 publications

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“…In the ETM, the controller d is changed only at § i f g 1 k¼0 and remains constant during [ § i , § i11 ), where § i f g 1 k¼0 denotes the event-triggering instants that is a monotonically increasing aperiodic time sequence. The event-triggering instants are decided when in violation of the state-dependent eventtriggering condition as follows (Duan et al, 2020;Shen et al, 2022):…”

Section: Design Of Event-triggered-mechanism-based Controlmentioning

confidence: 99%

“…In the ETM, the controller δ is changed only at true{ςitrue}k=0∞ and remains constant during [ ς i , ς i +1 ), where true{ςitrue}k=0∞ denotes the event-triggering instants that is a monotonically increasing aperiodic time sequence. The event-triggering instants are decided when in violation of the state-dependent event-triggering condition as follows (Duan et al , 2020; Shen et al , 2022): where ξ(t)=truee¯a−bold-italicea(t) denotes the event-triggering error vector for any t ∈[ ς i , ς i +1 ); bold-italicea=[bold-italicesboldT,bold-italicefboldT]boldT denotes the tracking error states vector; truee¯a denotes the last event-triggering error states vector as truee¯a= bold-italicea(ςi); and ξ E denotes the designed event-triggering threshold.…”

Section: Design Of Event-triggered-mechanism-based Backstepping Controlmentioning

confidence: 99%

“…Once event-triggering condition (52) is violated, the tracking error state vector e a is assigned to the last event-triggering error state vector truee¯a and held during [ ς i , ς i +1 ). Correspondingly, the controller δ is also updated at event-triggering instants and held during [ ς i , ς i +1 ) as follows (Duan et al , 2020; Shen et al , 2022): …”

Section: Design Of Event-triggered-mechanism-based Backstepping Controlmentioning

confidence: 99%

“…By using zero-order-holder, the ETM-based controller δ(truee¯a(t)) is achieved (Duan et al , 2020; Shen et al , 2022). Applying δ(truee¯a(t)) to equation (2) yields: …”

Section: Design Of Event-triggered-mechanism-based Backstepping Controlmentioning

confidence: 99%

“…In this section, the minimum dwell time is defined as follows to analyze Zeno behavior (Shen et al , 2022): …”

Section: Analysis Of Zeno Behaviormentioning

confidence: 99%

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Robust backstepping control for maneuver aircraft based on event-triggered mechanism and nonlinear disturbance observer

Shen

2023

AEAT

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Purpose This study aims to achieve the post-stall pitching maneuver (PSPM) and decrease the deflection frequency of aircraft actuators controlled by the robust backstepping method based on event-triggered mechanism (ETM), nonlinear disturbance observer (NDO) and dynamic surface control (DSC) techniques. Design/methodology/approach To estimate unsteady aerodynamic disturbances (UADs) to suppress their adverse effects, the NDO is designed. To avoid taking the derivative of the virtual control law directly and eliminate the coupling term of the system states and dynamic surface errors in the stability analysis, an improved DSC is developed. Combined with the NDO and DSC techniques, a robust backstepping method is proposed to achieve the PSPM. Furthermore, to decrease the deflection frequency of the aircraft actuators, a state-dependent ETM is introduced. Findings An ETM-and-NDO-based backstepping method with an improved DSC technique is developed to achieve the PSPM and decrease the deflection frequency of aircraft actuators. And simulation results are presented to verify the effectiveness of the proposed paper. Originality/value Few studies have been conducted on the control of the PSPM in which the lateral and longitudinal attitude dynamics are coupled with each other considering the UADs. Moreover, the mechanism that can decrease the deflection frequency of aircraft actuators is rarely developed in existing research. This study proposes an ETM-and-NDO-based backstepping scheme to address these problems with satisfactory performance of the PSPM.

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Section: Design Of Event-triggered-mechanism-based Controlmentioning

confidence: 99%

Section: Design Of Event-triggered-mechanism-based Backstepping Controlmentioning

confidence: 99%

Section: Design Of Event-triggered-mechanism-based Backstepping Controlmentioning

confidence: 99%

“…By using zero-order-holder, the ETM-based controller δ(truee¯a(t)) is achieved (Duan et al , 2020; Shen et al , 2022). Applying δ(truee¯a(t)) to equation (2) yields: …”

Section: Design Of Event-triggered-mechanism-based Backstepping Controlmentioning

confidence: 99%

“…In this section, the minimum dwell time is defined as follows to analyze Zeno behavior (Shen et al , 2022): …”

Section: Analysis Of Zeno Behaviormentioning

confidence: 99%

See 3 more Smart Citations

Robust backstepping control for maneuver aircraft based on event-triggered mechanism and nonlinear disturbance observer

Shen

2023

AEAT

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A Game Theory-Based Approach for Multiple UAVs Cooperative Target Defense

Tong,

Duan

2024

IEEE Trans. Circuits Syst. II

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Distance-Scalar Disturbance Observer-based Parallel Approaching Guidance Using Finite-time Prescribed Performance

Sun,

Yong,

Shen

2023

Preprint

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In this paper, to make the missile intercept the maneuvering target, the parallel approaching guidance law is developed. In order to estimate the target maneuver more accurately and reduce that’s influence on guidance accuracy, the distance-scalar disturbance observer is employed. Specifically, the estimation accuracy of the observer designed is regardless of the relative distance. The finite-time prescribed performance is employed to ensure that the line-of-sight angular rate is capable of converging to a predesigned small region in the specified finite time. All signals of interception system can guarantee ultimately uniformly boundedness proved by the Lyapunov stability theory. Finally, the availability of the parallel approaching guidance law is demonstrated by the numerical simulation.

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Event-Triggered-Backstepping-Based Parallel Approaching Guidance Method for Maneuvering Target Interception

Cited by 5 publications

References 20 publications

Robust backstepping control for maneuver aircraft based on event-triggered mechanism and nonlinear disturbance observer

Robust backstepping control for maneuver aircraft based on event-triggered mechanism and nonlinear disturbance observer

A Game Theory-Based Approach for Multiple UAVs Cooperative Target Defense

Distance-Scalar Disturbance Observer-based Parallel Approaching Guidance Using Finite-time Prescribed Performance

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