Neural learning control of missile interception against dynamics uncertainty and target evasive maneuver

Tian Yan; Yu Yan Guo; Quan Cheng Li; Bin Xu

doi:10.1002/rnc.6458

Neural learning control of missile interception against dynamics uncertainty and target evasive maneuver

Tian Yan, Yu Yan Guo, Quan Cheng Li, Bin Xu

School of Automation

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The integrated guidance and control (IGC) design for the advanced interceptors against targets in progress of implementing evasive maneuvers is investigated. During interception, the target's unknown maneuver accelerations, and the extra angle of attack (AOA) caused by wind effects, are considered as disturbances. For the sake of enough hit-to-kill accuracy under multisource disturbances, the neural networks (NNs) and disturbance observer (DOB) are applied to solve the model inaccuracy and external disturbance. As a result, a novel DOB-based neural controller can accomplish high tracking accuracy and hit-to-kill interception performance can be accomplished. Simulations studies demonstrate the validity and advantage bring by the DOB-based neural control.

Original language	English
Pages (from-to)	1456-1478
Number of pages	23
Journal	International Journal of Robust and Nonlinear Control
Volume	33
Issue number	3
DOIs	https://doi.org/10.1002/rnc.6458
State	Published - Feb 2023

Keywords

disturbance observer
integrated guidance and control
neural networks
target maneuver uncertainty
wind effect

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10.1002/rnc.6458

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title = "Neural learning control of missile interception against dynamics uncertainty and target evasive maneuver",

abstract = "The integrated guidance and control (IGC) design for the advanced interceptors against targets in progress of implementing evasive maneuvers is investigated. During interception, the target's unknown maneuver accelerations, and the extra angle of attack (AOA) caused by wind effects, are considered as disturbances. For the sake of enough hit-to-kill accuracy under multisource disturbances, the neural networks (NNs) and disturbance observer (DOB) are applied to solve the model inaccuracy and external disturbance. As a result, a novel DOB-based neural controller can accomplish high tracking accuracy and hit-to-kill interception performance can be accomplished. Simulations studies demonstrate the validity and advantage bring by the DOB-based neural control.",

keywords = "disturbance observer, integrated guidance and control, neural networks, target maneuver uncertainty, wind effect",

author = "Tian Yan and Guo, {Yu Yan} and Li, {Quan Cheng} and Bin Xu",

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year = "2023",

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doi = "10.1002/rnc.6458",

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T1 - Neural learning control of missile interception against dynamics uncertainty and target evasive maneuver

AU - Yan, Tian

AU - Guo, Yu Yan

AU - Li, Quan Cheng

AU - Xu, Bin

PY - 2023/2

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N2 - The integrated guidance and control (IGC) design for the advanced interceptors against targets in progress of implementing evasive maneuvers is investigated. During interception, the target's unknown maneuver accelerations, and the extra angle of attack (AOA) caused by wind effects, are considered as disturbances. For the sake of enough hit-to-kill accuracy under multisource disturbances, the neural networks (NNs) and disturbance observer (DOB) are applied to solve the model inaccuracy and external disturbance. As a result, a novel DOB-based neural controller can accomplish high tracking accuracy and hit-to-kill interception performance can be accomplished. Simulations studies demonstrate the validity and advantage bring by the DOB-based neural control.

AB - The integrated guidance and control (IGC) design for the advanced interceptors against targets in progress of implementing evasive maneuvers is investigated. During interception, the target's unknown maneuver accelerations, and the extra angle of attack (AOA) caused by wind effects, are considered as disturbances. For the sake of enough hit-to-kill accuracy under multisource disturbances, the neural networks (NNs) and disturbance observer (DOB) are applied to solve the model inaccuracy and external disturbance. As a result, a novel DOB-based neural controller can accomplish high tracking accuracy and hit-to-kill interception performance can be accomplished. Simulations studies demonstrate the validity and advantage bring by the DOB-based neural control.

KW - disturbance observer

KW - integrated guidance and control

KW - neural networks

KW - target maneuver uncertainty

KW - wind effect

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Neural learning control of missile interception against dynamics uncertainty and target evasive maneuver

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