Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D

Yuxuan Dong; Zhen Yang; Shiyuan Chai; Yupeng He; Deyun Zhou

doi:10.1109/ICCR60000.2023.10444798

Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D

Yuxuan Dong, Zhen Yang, Shiyuan Chai, Yupeng He, Deyun Zhou

School of Electronics and Information

Northwestern Polytechnical University Xian

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

Abstract

For the problem of multiple missiles attack maneuvering target in 3-D, this paper designed a cooperative guidance law, which can satisfy both time and angular constraints, taking into account the communication delay and topological structure changes among missiles. Based on the relative motion model of missile and target in 3-D, for the LOS (line-of-sight) direction, the control law is designed by the multi-agent consensus theory to meet the time constraint under the communication delay and topological transformation; For the LOS normal direction, a segmented non-singular sliding model surface and the convergence law is designed by using super-twisting sliding model control to meet the angular constraint in a finite time. Finally, the effectiveness of the proposed cooperative guidance law was verified through simulation.

Original language	English
Title of host publication	2023 5th International Conference on Control and Robotics, ICCR 2023
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	73-77
Number of pages	5
ISBN (Electronic)	9798350307627
DOIs	https://doi.org/10.1109/ICCR60000.2023.10444798
State	Published - 2023
Event	5th International Conference on Control and Robotics, ICCR 2023 - Tokyo, Japan Duration: 23 Nov 2023 → 25 Nov 2023

Publication series

Name	2023 5th International Conference on Control and Robotics, ICCR 2023

Conference

Conference	5th International Conference on Control and Robotics, ICCR 2023
Country/Territory	Japan
City	Tokyo
Period	23/11/23 → 25/11/23

Keywords

3-D
communication delay
cooperative guidance
multi-agent
sliding mode control
topological transformation

Access to Document

10.1109/ICCR60000.2023.10444798

Cite this

Dong, Y., Yang, Z., Chai, S., He, Y., & Zhou, D. (2023). Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D. In 2023 5th International Conference on Control and Robotics, ICCR 2023 (pp. 73-77). (2023 5th International Conference on Control and Robotics, ICCR 2023). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICCR60000.2023.10444798

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title = "Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D",

abstract = "For the problem of multiple missiles attack maneuvering target in 3-D, this paper designed a cooperative guidance law, which can satisfy both time and angular constraints, taking into account the communication delay and topological structure changes among missiles. Based on the relative motion model of missile and target in 3-D, for the LOS (line-of-sight) direction, the control law is designed by the multi-agent consensus theory to meet the time constraint under the communication delay and topological transformation; For the LOS normal direction, a segmented non-singular sliding model surface and the convergence law is designed by using super-twisting sliding model control to meet the angular constraint in a finite time. Finally, the effectiveness of the proposed cooperative guidance law was verified through simulation.",

keywords = "3-D, communication delay, cooperative guidance, multi-agent, sliding mode control, topological transformation",

author = "Yuxuan Dong and Zhen Yang and Shiyuan Chai and Yupeng He and Deyun Zhou",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 5th International Conference on Control and Robotics, ICCR 2023 ; Conference date: 23-11-2023 Through 25-11-2023",

year = "2023",

doi = "10.1109/ICCR60000.2023.10444798",

language = "英语",

series = "2023 5th International Conference on Control and Robotics, ICCR 2023",

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

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Dong, Y, Yang, Z, Chai, S, He, Y & Zhou, D 2023, Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D. in 2023 5th International Conference on Control and Robotics, ICCR 2023. 2023 5th International Conference on Control and Robotics, ICCR 2023, Institute of Electrical and Electronics Engineers Inc., pp. 73-77, 5th International Conference on Control and Robotics, ICCR 2023, Tokyo, Japan, 23/11/23. https://doi.org/10.1109/ICCR60000.2023.10444798

Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D. / Dong, Yuxuan; Yang, Zhen; Chai, Shiyuan et al.
2023 5th International Conference on Control and Robotics, ICCR 2023. Institute of Electrical and Electronics Engineers Inc., 2023. p. 73-77 (2023 5th International Conference on Control and Robotics, ICCR 2023).

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

TY - GEN

T1 - Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D

AU - Dong, Yuxuan

AU - Yang, Zhen

AU - Chai, Shiyuan

AU - He, Yupeng

AU - Zhou, Deyun

PY - 2023

Y1 - 2023

N2 - For the problem of multiple missiles attack maneuvering target in 3-D, this paper designed a cooperative guidance law, which can satisfy both time and angular constraints, taking into account the communication delay and topological structure changes among missiles. Based on the relative motion model of missile and target in 3-D, for the LOS (line-of-sight) direction, the control law is designed by the multi-agent consensus theory to meet the time constraint under the communication delay and topological transformation; For the LOS normal direction, a segmented non-singular sliding model surface and the convergence law is designed by using super-twisting sliding model control to meet the angular constraint in a finite time. Finally, the effectiveness of the proposed cooperative guidance law was verified through simulation.

AB - For the problem of multiple missiles attack maneuvering target in 3-D, this paper designed a cooperative guidance law, which can satisfy both time and angular constraints, taking into account the communication delay and topological structure changes among missiles. Based on the relative motion model of missile and target in 3-D, for the LOS (line-of-sight) direction, the control law is designed by the multi-agent consensus theory to meet the time constraint under the communication delay and topological transformation; For the LOS normal direction, a segmented non-singular sliding model surface and the convergence law is designed by using super-twisting sliding model control to meet the angular constraint in a finite time. Finally, the effectiveness of the proposed cooperative guidance law was verified through simulation.

KW - 3-D

KW - communication delay

KW - cooperative guidance

KW - multi-agent

KW - sliding mode control

KW - topological transformation

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DO - 10.1109/ICCR60000.2023.10444798

M3 - 会议稿件

AN - SCOPUS:85187201241

T3 - 2023 5th International Conference on Control and Robotics, ICCR 2023

SP - 73

EP - 77

BT - 2023 5th International Conference on Control and Robotics, ICCR 2023

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 5th International Conference on Control and Robotics, ICCR 2023

Y2 - 23 November 2023 through 25 November 2023

ER -

Dong Y, Yang Z, Chai S, He Y, Zhou D. Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D. In 2023 5th International Conference on Control and Robotics, ICCR 2023. Institute of Electrical and Electronics Engineers Inc. 2023. p. 73-77. (2023 5th International Conference on Control and Robotics, ICCR 2023). doi: 10.1109/ICCR60000.2023.10444798

Multi-missile cooperative guidance law under communication delay and topological transformation in 3-D

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