Ultra-wideband signal generation and fusion algorithm for high-resolution terahertz FMCW radar imaging

Weidong Hu; Zhihao Xu; Zhongde Han; Huanyu Jiang; Yang Liu; Yuyao Lu; Leo P. Ligthart

doi:10.1364/OE.450985

Ultra-wideband signal generation and fusion algorithm for high-resolution terahertz FMCW radar imaging

Weidong Hu, Zhihao Xu^*, Zhongde Han, Huanyu Jiang, Yang Liu, Yuyao Lu, Leo P. Ligthart

^*Corresponding author for this work

School of Integrated Circuits and Electronics

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

12 Citations (Scopus)

Abstract

The terahertz frequency modulated continuous wave (THz FMCW) imaging has proved to be a novel nondestructive testing (NDT) technology for non-metal materials, and the large bandwidth is usually required to meet high range resolution demands in many applications such as multilayer sample under test (SUT). However, broadband THz hardware is difficult to design. In this paper, an ultra-wideband THz FMCW generation method is proposed, which provides frequency modulation bandwidths of up to 386 GHz by time-division multiplexing. Furthermore, an ultra-wideband signal fusion algorithm (USFA) is also proposed and significantly improves the range resolution to 0.46 mm in air. Results from the artificially constructed multilayer structure demonstrate the superiority and effectiveness of our method quantitatively.

Original language	English
Pages (from-to)	9814-9822
Number of pages	9
Journal	Optics Express
Volume	30
Issue number	6
DOIs	https://doi.org/10.1364/OE.450985
Publication status	Published - 14 Mar 2022

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title = "Ultra-wideband signal generation and fusion algorithm for high-resolution terahertz FMCW radar imaging",

abstract = "The terahertz frequency modulated continuous wave (THz FMCW) imaging has proved to be a novel nondestructive testing (NDT) technology for non-metal materials, and the large bandwidth is usually required to meet high range resolution demands in many applications such as multilayer sample under test (SUT). However, broadband THz hardware is difficult to design. In this paper, an ultra-wideband THz FMCW generation method is proposed, which provides frequency modulation bandwidths of up to 386 GHz by time-division multiplexing. Furthermore, an ultra-wideband signal fusion algorithm (USFA) is also proposed and significantly improves the range resolution to 0.46 mm in air. Results from the artificially constructed multilayer structure demonstrate the superiority and effectiveness of our method quantitatively.",

author = "Weidong Hu and Zhihao Xu and Zhongde Han and Huanyu Jiang and Yang Liu and Yuyao Lu and Ligthart, {Leo P.}",

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AU - Hu, Weidong

AU - Xu, Zhihao

AU - Han, Zhongde

AU - Jiang, Huanyu

AU - Liu, Yang

AU - Lu, Yuyao

AU - Ligthart, Leo P.

PY - 2022/3/14

Y1 - 2022/3/14

N2 - The terahertz frequency modulated continuous wave (THz FMCW) imaging has proved to be a novel nondestructive testing (NDT) technology for non-metal materials, and the large bandwidth is usually required to meet high range resolution demands in many applications such as multilayer sample under test (SUT). However, broadband THz hardware is difficult to design. In this paper, an ultra-wideband THz FMCW generation method is proposed, which provides frequency modulation bandwidths of up to 386 GHz by time-division multiplexing. Furthermore, an ultra-wideband signal fusion algorithm (USFA) is also proposed and significantly improves the range resolution to 0.46 mm in air. Results from the artificially constructed multilayer structure demonstrate the superiority and effectiveness of our method quantitatively.

AB - The terahertz frequency modulated continuous wave (THz FMCW) imaging has proved to be a novel nondestructive testing (NDT) technology for non-metal materials, and the large bandwidth is usually required to meet high range resolution demands in many applications such as multilayer sample under test (SUT). However, broadband THz hardware is difficult to design. In this paper, an ultra-wideband THz FMCW generation method is proposed, which provides frequency modulation bandwidths of up to 386 GHz by time-division multiplexing. Furthermore, an ultra-wideband signal fusion algorithm (USFA) is also proposed and significantly improves the range resolution to 0.46 mm in air. Results from the artificially constructed multilayer structure demonstrate the superiority and effectiveness of our method quantitatively.

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Ultra-wideband signal generation and fusion algorithm for high-resolution terahertz FMCW radar imaging

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