Autonomous aerial refueling precise docking based on active disturbance rejection control

Zikang Su; Honglun Wang; Xingling Shao; Peng Yao

doi:10.1109/IECON.2015.7392813

Autonomous aerial refueling precise docking based on active disturbance rejection control

Zikang Su
, Honglun Wang
, Xingling Shao
, Peng Yao

School of Automation Science and Electrical Engineering

Beihang University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

13 Scopus citations

Abstract

In this paper, the receiver aircraft of the AAR is modeled, and the disturbances are presented. The longitudinal and the lateral model of the receiver are correspondingly transformed into relevant three second-order systems and a third-order system. It makes the motion model more convenient for controller design, and the scale separation is avoided at the mean time. Then, the ADRC is firstly applied to the precise docking controller design to adequately reject the different complex disturbances during the docking of AAR. Comparative simulation results show that the ADRC achieves better performance in AAR docking control under complex flow interference.

Original language	English
Title of host publication	IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	4574-4578
Number of pages	5
ISBN (Electronic)	9781479917624
DOIs	https://doi.org/10.1109/IECON.2015.7392813
State	Published - 2015
Event	41st Annual Conference of the IEEE Industrial Electronics Society, IECON 2015 - Yokohama, Japan Duration: 9 Nov 2015 → 12 Nov 2015

Publication series

Name	IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society

Conference

Conference	41st Annual Conference of the IEEE Industrial Electronics Society, IECON 2015
Country/Territory	Japan
City	Yokohama
Period	9/11/15 → 12/11/15

Keywords

Active disturbance rejection control (ADRC)
Autonomous aerial refueling (AAR)
Vortex modeling
flight control
probe and drogue refueling
unmanned aerial vehicle (UAV)

Access to Document

10.1109/IECON.2015.7392813

Cite this

Su, Z., Wang, H., Shao, X., & Yao, P. (2015). Autonomous aerial refueling precise docking based on active disturbance rejection control. In IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society (pp. 4574-4578). Article 7392813 (IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IECON.2015.7392813

Su, Zikang ; Wang, Honglun ; Shao, Xingling et al. / Autonomous aerial refueling precise docking based on active disturbance rejection control. IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society. Institute of Electrical and Electronics Engineers Inc., 2015. pp. 4574-4578 (IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society).

@inproceedings{5668934eb584430f8ad1496d68efd6c1,

title = "Autonomous aerial refueling precise docking based on active disturbance rejection control",

abstract = "In this paper, the receiver aircraft of the AAR is modeled, and the disturbances are presented. The longitudinal and the lateral model of the receiver are correspondingly transformed into relevant three second-order systems and a third-order system. It makes the motion model more convenient for controller design, and the scale separation is avoided at the mean time. Then, the ADRC is firstly applied to the precise docking controller design to adequately reject the different complex disturbances during the docking of AAR. Comparative simulation results show that the ADRC achieves better performance in AAR docking control under complex flow interference.",

keywords = "Active disturbance rejection control (ADRC), Autonomous aerial refueling (AAR), Vortex modeling, flight control, probe and drogue refueling, unmanned aerial vehicle (UAV)",

author = "Zikang Su and Honglun Wang and Xingling Shao and Peng Yao",

note = "Publisher Copyright: {\textcopyright} 2015 IEEE.; 41st Annual Conference of the IEEE Industrial Electronics Society, IECON 2015 ; Conference date: 09-11-2015 Through 12-11-2015",

year = "2015",

doi = "10.1109/IECON.2015.7392813",

language = "英语",

series = "IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "4574--4578",

booktitle = "IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society",

address = "美国",

}

Su, Z, Wang, H, Shao, X & Yao, P 2015, Autonomous aerial refueling precise docking based on active disturbance rejection control. in IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society., 7392813, IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society, Institute of Electrical and Electronics Engineers Inc., pp. 4574-4578, 41st Annual Conference of the IEEE Industrial Electronics Society, IECON 2015, Yokohama, Japan, 9/11/15. https://doi.org/10.1109/IECON.2015.7392813

Autonomous aerial refueling precise docking based on active disturbance rejection control. / Su, Zikang; Wang, Honglun; Shao, Xingling et al.
IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society. Institute of Electrical and Electronics Engineers Inc., 2015. p. 4574-4578 7392813 (IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Wang, Honglun

AU - Shao, Xingling

AU - Yao, Peng

PY - 2015

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N2 - In this paper, the receiver aircraft of the AAR is modeled, and the disturbances are presented. The longitudinal and the lateral model of the receiver are correspondingly transformed into relevant three second-order systems and a third-order system. It makes the motion model more convenient for controller design, and the scale separation is avoided at the mean time. Then, the ADRC is firstly applied to the precise docking controller design to adequately reject the different complex disturbances during the docking of AAR. Comparative simulation results show that the ADRC achieves better performance in AAR docking control under complex flow interference.

AB - In this paper, the receiver aircraft of the AAR is modeled, and the disturbances are presented. The longitudinal and the lateral model of the receiver are correspondingly transformed into relevant three second-order systems and a third-order system. It makes the motion model more convenient for controller design, and the scale separation is avoided at the mean time. Then, the ADRC is firstly applied to the precise docking controller design to adequately reject the different complex disturbances during the docking of AAR. Comparative simulation results show that the ADRC achieves better performance in AAR docking control under complex flow interference.

KW - Active disturbance rejection control (ADRC)

KW - Autonomous aerial refueling (AAR)

KW - Vortex modeling

KW - flight control

KW - probe and drogue refueling

KW - unmanned aerial vehicle (UAV)

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U2 - 10.1109/IECON.2015.7392813

DO - 10.1109/IECON.2015.7392813

M3 - 会议稿件

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T3 - IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society

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EP - 4578

BT - IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 41st Annual Conference of the IEEE Industrial Electronics Society, IECON 2015

Y2 - 9 November 2015 through 12 November 2015

ER -

Su Z, Wang H, Shao X, Yao P. Autonomous aerial refueling precise docking based on active disturbance rejection control. In IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society. Institute of Electrical and Electronics Engineers Inc. 2015. p. 4574-4578. 7392813. (IECON 2015 - 41st Annual Conference of the IEEE Industrial Electronics Society). doi: 10.1109/IECON.2015.7392813

Autonomous aerial refueling precise docking based on active disturbance rejection control

Abstract

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Keywords

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