基于干扰补偿的BTT导弹自动驾驶仪抗尖峰滑模控制器设计

Yang Wang; Jun Zhou

doi:10.13195/j.kzyjc.2017.0266

基于干扰补偿的BTT导弹自动驾驶仪抗尖峰滑模控制器设计

Translated title of the contribution: Robust autopilot design for bank-to-turn missiles using peaking-free disturbance observer-based sliding mode control

Yang Wang, Jun Zhou

School of Astronautics

Northwestern Polytechnical University Xian

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

3 Scopus citations

Abstract

To improve the control precision and the dynamic property of bank-to-turn(BTT) missile autopilot in the presence of mismatched uncertainties, a novel peaking-free disturbance observer-based sliding mode controller (PDOSMC) is proposed, which not only is available when the H₂ assumption of mismatched uncertainties is invalid, but also avoids the undesirable peaking phenomenon caused by the high observer gain. The simulation results demonstrate that, in the case of high gains, the PDOSMC scheme not only can achieve the same control precision as the DOSMC scheme, but also avoids the control input saturation and poor dynamic property caused by undesirable peaking phenomenon within a DOSMC scheme case.

Translated title of the contribution	Robust autopilot design for bank-to-turn missiles using peaking-free disturbance observer-based sliding mode control
Original language	Chinese (Traditional)
Pages (from-to)	1062-1068
Number of pages	7
Journal	Kongzhi yu Juece/Control and Decision
Volume	33
Issue number	6
DOIs	https://doi.org/10.13195/j.kzyjc.2017.0266
State	Published - 1 Jun 2018

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title = "基于干扰补偿的BTT导弹自动驾驶仪抗尖峰滑模控制器设计",

abstract = "To improve the control precision and the dynamic property of bank-to-turn(BTT) missile autopilot in the presence of mismatched uncertainties, a novel peaking-free disturbance observer-based sliding mode controller (PDOSMC) is proposed, which not only is available when the H2 assumption of mismatched uncertainties is invalid, but also avoids the undesirable peaking phenomenon caused by the high observer gain. The simulation results demonstrate that, in the case of high gains, the PDOSMC scheme not only can achieve the same control precision as the DOSMC scheme, but also avoids the control input saturation and poor dynamic property caused by undesirable peaking phenomenon within a DOSMC scheme case.",

keywords = "BTT missile autopilot, Disturbance observer, Mismatched uncertainties, Peaking phenomenon, Sliding-mode control",

author = "Yang Wang and Jun Zhou",

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AU - Wang, Yang

AU - Zhou, Jun

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N2 - To improve the control precision and the dynamic property of bank-to-turn(BTT) missile autopilot in the presence of mismatched uncertainties, a novel peaking-free disturbance observer-based sliding mode controller (PDOSMC) is proposed, which not only is available when the H2 assumption of mismatched uncertainties is invalid, but also avoids the undesirable peaking phenomenon caused by the high observer gain. The simulation results demonstrate that, in the case of high gains, the PDOSMC scheme not only can achieve the same control precision as the DOSMC scheme, but also avoids the control input saturation and poor dynamic property caused by undesirable peaking phenomenon within a DOSMC scheme case.

AB - To improve the control precision and the dynamic property of bank-to-turn(BTT) missile autopilot in the presence of mismatched uncertainties, a novel peaking-free disturbance observer-based sliding mode controller (PDOSMC) is proposed, which not only is available when the H2 assumption of mismatched uncertainties is invalid, but also avoids the undesirable peaking phenomenon caused by the high observer gain. The simulation results demonstrate that, in the case of high gains, the PDOSMC scheme not only can achieve the same control precision as the DOSMC scheme, but also avoids the control input saturation and poor dynamic property caused by undesirable peaking phenomenon within a DOSMC scheme case.

KW - BTT missile autopilot

KW - Disturbance observer

KW - Mismatched uncertainties

KW - Peaking phenomenon

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基于干扰补偿的BTT导弹自动驾驶仪抗尖峰滑模控制器设计

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