GPU-accelerated fast near-field millimeter-wave imaging technique for planar scanning of one-dimensional nonuniform sparse arrays
To reduce hardware costs, our previous work proposed a near-field millimeter-wave imaging technique for one-dimensional nonuniform sparse array planar scanning systems, featuring the innovative range migration back-projection algorithm (RMBPA). This hybrid algorithm applies the range migration algor...
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| Published in | Journal of electronic imaging Vol. 34; no. 4; p. 043035 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Society of Photo-Optical Instrumentation Engineers
07.08.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1017-9909 1560-229X |
| DOI | 10.1117/1.JEI.34.4.043035 |
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| Abstract | To reduce hardware costs, our previous work proposed a near-field millimeter-wave imaging technique for one-dimensional nonuniform sparse array planar scanning systems, featuring the innovative range migration back-projection algorithm (RMBPA). This hybrid algorithm applies the range migration algorithm in uniformly sampled vertical and range dimensions while employing the back-projection algorithm in nonuniformly sampled horizontal dimensions, achieving high-quality imaging for sparse array configurations. However, the CPU-based RMBPA implementation required 49 s for image reconstruction, which far exceeded the practical engineering requirements. This paper introduces a GPU-accelerated solution, which achieves a reconstruction time of 0.13 s, representing a 370 times speedup compared with the original method while preserving the same level of performance. We first detail the implementation methodology for GPU-accelerated image reconstruction in one-dimensional sparse array systems, employing the cuFFT library for fast Fourier transform acceleration and specifically optimizing the computationally intensive interpolation and back-projection operations. Resolution tests and human subject experiments then validate the technique’s capabilities. The key results indicate that the method achieves a 5 mm spatial resolution, which is on par with the CPU-based results (MAE <1.7 dB) while realizing a significant reduction in reconstruction time. In addition, security-screening trials have successfully detected a variety of concealed threats, such as ceramic knives and mock firearms, under clothing, thereby verifying the practical applicability of the proposed technique. The proposed solution delivers an efficient, high-precision, and cost-effective imaging approach for millimeter-wave security systems, with significant engineering application value. |
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| AbstractList | To reduce hardware costs, our previous work proposed a near-field millimeter-wave imaging technique for one-dimensional nonuniform sparse array planar scanning systems, featuring the innovative range migration back-projection algorithm (RMBPA). This hybrid algorithm applies the range migration algorithm in uniformly sampled vertical and range dimensions while employing the back-projection algorithm in nonuniformly sampled horizontal dimensions, achieving high-quality imaging for sparse array configurations. However, the CPU-based RMBPA implementation required 49 s for image reconstruction, which far exceeded the practical engineering requirements. This paper introduces a GPU-accelerated solution, which achieves a reconstruction time of 0.13 s, representing a 370 times speedup compared with the original method while preserving the same level of performance. We first detail the implementation methodology for GPU-accelerated image reconstruction in one-dimensional sparse array systems, employing the cuFFT library for fast Fourier transform acceleration and specifically optimizing the computationally intensive interpolation and back-projection operations. Resolution tests and human subject experiments then validate the technique’s capabilities. The key results indicate that the method achieves a 5 mm spatial resolution, which is on par with the CPU-based results (MAE <1.7 dB) while realizing a significant reduction in reconstruction time. In addition, security-screening trials have successfully detected a variety of concealed threats, such as ceramic knives and mock firearms, under clothing, thereby verifying the practical applicability of the proposed technique. The proposed solution delivers an efficient, high-precision, and cost-effective imaging approach for millimeter-wave security systems, with significant engineering application value. |
| Author | Hu, Shiping Xu, Huimin Shi, Yang An, Deyue Zhu, Lian Yao, Qingfeng |
| Author_xml | – sequence: 1 givenname: Deyue orcidid: 0009-0001-0992-5478 surname: An fullname: An, Deyue email: andeyue@ustc.edu.cn organization: University of Science and Technology of China, The School of Physical Sciences, Hefei, China – sequence: 2 givenname: Shiping surname: Hu fullname: Hu, Shiping email: hushipingxhm@163.com organization: Anhui Business and Technology College, The School of Intelligent Manufacturing and Automotive, Hefei, China – sequence: 3 givenname: Yang orcidid: 0000-0002-8570-6322 surname: Shi fullname: Shi, Yang email: yshi@mail.ustc.edu.cn organization: Anhui Business and Technology College, The School of Intelligent Manufacturing and Automotive, Hefei, China – sequence: 4 givenname: Huimin surname: Xu fullname: Xu, Huimin email: huiminxu111@163.com organization: Anhui Business and Technology College, The School of Intelligent Manufacturing and Automotive, Hefei, China – sequence: 5 givenname: Lian surname: Zhu fullname: Zhu, Lian email: zhu_lian1981@163.com organization: Anhui Business and Technology College, The School of Intelligent Manufacturing and Automotive, Hefei, China – sequence: 6 givenname: Qingfeng surname: Yao fullname: Yao, Qingfeng email: 13855178380@163.com organization: Anhui Business and Technology College, The School of Intelligent Manufacturing and Automotive, Hefei, China |
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| Copyright | The Authors. Published by SPIE under a Creative Commons Attribution 4.0 International License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI. |
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| Keywords | planar scanning millimeter wave imaging GPU-accelerated range migration and back-projection algorithm millimeter wave imaging synthetic aperture imaging |
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| Title | GPU-accelerated fast near-field millimeter-wave imaging technique for planar scanning of one-dimensional nonuniform sparse arrays |
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