Research on Uwb Technology and Uwb Radar

Haoran Li

doi:10.54254/2753-8818/2025.GL24670

Theoretical and Natural ScienceOpen access

Research on Uwb Technology and Uwb Radar

Research Article

Open Access

Research on Uwb Technology and Uwb Radar

Haoran Li ^1*

¹ Automation, Silesian University of Technology, Gliwice, Poland, 44-100

^*Corresponding author: hl309317@student.polsl.pl

Published on 4 July 2025

TNS Vol.125

ISSN (Print): 2753-8826

ISSN (Online): 2753-8818

ISBN (Print): 978-1-80590-233-1

ISBN (Online): 978-1-80590-234-8

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Abstract

Ultra-Wideband (UWB) technology signifies a significant leap forward in wireless communication techniques. This state-of-the-art method utilizes the direct modulation of impulse signals with rapid rise and fall times, achieving a signal bandwidth that can extend into several gigahertz (GHz). The origins of UWB technology can be traced back to pulse communication methods developed in the 1960s, which provided the foundational principles for its evolution. UWB technology utilizes ultra-wideband pulses that exhibit an exceptionally wide frequency spectrum, enabling efficient communication across a range of applications. Consequently, it is often classified as either wireless carrier communication technology or baseband communication technology. UWB finds its primary application in military radar systems, high-precision positioning solutions, and communication systems designed for minimal interception and detection, highlighting its essential function in both defense and civilian sectors.

Keywords:

Ultra-Wideband (UWB), Pulse Communication, High-Precision Positioning

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References

[1]. Li, X., & Yang, H. (2016). Introduction to Internet of Things Education Project. Wuhan: Huazhong University of Science and Technology Press.

[2]. Mohd Sultan, J., Kamaruzaman, N. N., Chaudhary, A. R., Md Yusop, A., Manap, Z., & Mohd Ali, D. (2024). Precision indoor positioning with ultra-wideband (UWB) technology. Journal Name, 48, 20. https: //doi.org/10.15199/48.2024.05.20

[3]. Xiong, M., & Xiong, X. (2012). Internet of Things Technology and Application Development. Xi'an: Xi'an University of Electronic Science and Technology Press.

[4]. Zhang, Y., You, Z., & Zhong, J. (2024). Design of high precision positioning system based on UWB technology. Journal Name, Volume(Issue), Page range.

[5]. Yang, P. (2024). Application of UWB technology in precise positioning and energy efficiency management of coal mines. Journal Name, Volume(Issue), Page range.

[6]. Zheng, X., Ding, W., Huang, Y., Cai, G., Ma, Y., Liu, S., & Zhou, B. (2024). Research status of UWB radar detection of breathing and heartbeat signals in different scenarios. Journal Name, Volume(Issue), Page range.

References

[1]. Li, X., & Yang, H. (2016). Introduction to Internet of Things Education Project. Wuhan: Huazhong University of Science and Technology Press.

[3]. Xiong, M., & Xiong, X. (2012). Internet of Things Technology and Application Development. Xi'an: Xi'an University of Electronic Science and Technology Press.

[4]. Zhang, Y., You, Z., & Zhong, J. (2024). Design of high precision positioning system based on UWB technology. Journal Name, Volume(Issue), Page range.

[5]. Yang, P. (2024). Application of UWB technology in precise positioning and energy efficiency management of coal mines. Journal Name, Volume(Issue), Page range.

Cite this article

Li,H. (2025). Research on Uwb Technology and Uwb Radar. Theoretical and Natural Science,125,8-13.

Data availability

The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.

About volume

Volume title: Proceedings of CONF-APMM 2025 Symposium: Multi-Qubit Quantum Communication for Image Transmission over Error Prone Channels

ISBN: 978-1-80590-233-1(Print) / 978-1-80590-234-8(Online)

Editor: Anil Fernando

Conference website: https://2025.confapmm.org/

Conference date: 29 August 2025

Series: Theoretical and Natural Science

Volume number: Vol.125

ISSN: 2753-8818(Print) / 2753-8826(Online)

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