Design of Anti-Interference Ultra-Wideband Fuze Waveform Based on Chaotic Pulse Position Modulation

Kaiwei Wu; Shijun Hao; Chunhua Liu; Xiaoshan Shi; Zhonghua Huang

doi:10.1088/1742-6596/2891/12/122001

Design of Anti-Interference Ultra-Wideband Fuze Waveform Based on Chaotic Pulse Position Modulation

Kaiwei Wu, Shijun Hao, Chunhua Liu, Xiaoshan Shi, Zhonghua Huang^*

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

In modern warfare, the increasingly complex electromagnetic environment and the enhanced capabilities of intelligent jamming techniques pose a threat to the survival rate of radio fuzes on the battlefield. To improve the anti-jamming performance and thereby enhance the battlefield survivability of radio fuzes, this paper proposes a chaotic pulse position modulation (PPM) method for ultra-wideband (UWB) radio fuzes based on nonlinear mapping. Simulations validate that the proposed method exhibits better autocorrelation characteristics and superior anti-jamming performance compared to unmodulated UWB radio fuzes.

Original language	English
Article number	122001
Journal	Journal of Physics: Conference Series
Volume	2891
Issue number	12
DOIs	https://doi.org/10.1088/1742-6596/2891/12/122001
Publication status	Published - 2024
Event	4th International Conference on Defence Technology, ICDT 2024 - Xi'an, China Duration: 23 Sept 2024 → 26 Sept 2024

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10.1088/1742-6596/2891/12/122001

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Wu, K., Hao, S., Liu, C., Shi, X., & Huang, Z. (2024). Design of Anti-Interference Ultra-Wideband Fuze Waveform Based on Chaotic Pulse Position Modulation. Journal of Physics: Conference Series, 2891(12), Article 122001. https://doi.org/10.1088/1742-6596/2891/12/122001

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abstract = "In modern warfare, the increasingly complex electromagnetic environment and the enhanced capabilities of intelligent jamming techniques pose a threat to the survival rate of radio fuzes on the battlefield. To improve the anti-jamming performance and thereby enhance the battlefield survivability of radio fuzes, this paper proposes a chaotic pulse position modulation (PPM) method for ultra-wideband (UWB) radio fuzes based on nonlinear mapping. Simulations validate that the proposed method exhibits better autocorrelation characteristics and superior anti-jamming performance compared to unmodulated UWB radio fuzes.",

author = "Kaiwei Wu and Shijun Hao and Chunhua Liu and Xiaoshan Shi and Zhonghua Huang",

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AU - Wu, Kaiwei

AU - Hao, Shijun

AU - Liu, Chunhua

AU - Shi, Xiaoshan

AU - Huang, Zhonghua

PY - 2024

Y1 - 2024

N2 - In modern warfare, the increasingly complex electromagnetic environment and the enhanced capabilities of intelligent jamming techniques pose a threat to the survival rate of radio fuzes on the battlefield. To improve the anti-jamming performance and thereby enhance the battlefield survivability of radio fuzes, this paper proposes a chaotic pulse position modulation (PPM) method for ultra-wideband (UWB) radio fuzes based on nonlinear mapping. Simulations validate that the proposed method exhibits better autocorrelation characteristics and superior anti-jamming performance compared to unmodulated UWB radio fuzes.

AB - In modern warfare, the increasingly complex electromagnetic environment and the enhanced capabilities of intelligent jamming techniques pose a threat to the survival rate of radio fuzes on the battlefield. To improve the anti-jamming performance and thereby enhance the battlefield survivability of radio fuzes, this paper proposes a chaotic pulse position modulation (PPM) method for ultra-wideband (UWB) radio fuzes based on nonlinear mapping. Simulations validate that the proposed method exhibits better autocorrelation characteristics and superior anti-jamming performance compared to unmodulated UWB radio fuzes.

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T2 - 4th International Conference on Defence Technology, ICDT 2024

Y2 - 23 September 2024 through 26 September 2024

ER -

Design of Anti-Interference Ultra-Wideband Fuze Waveform Based on Chaotic Pulse Position Modulation

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