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Autori principali: Li, Yadong, Zhang, Dongheng, Geng, Ruixu, Wu, Jincheng, Hu, Yang, Sun, Qibin, Chen, Yan
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2405.02023
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author Li, Yadong
Zhang, Dongheng
Geng, Ruixu
Wu, Jincheng
Hu, Yang
Sun, Qibin
Chen, Yan
author_facet Li, Yadong
Zhang, Dongheng
Geng, Ruixu
Wu, Jincheng
Hu, Yang
Sun, Qibin
Chen, Yan
contents Recent advancements have showcased the potential of handheld millimeter-wave (mmWave) imaging, which applies synthetic aperture radar (SAR) principles in portable settings. However, existing studies addressing handheld motion errors either rely on costly tracking devices or employ simplified imaging models, leading to impractical deployment or limited performance. In this paper, we present IFNet, a novel deep unfolding network that combines the strengths of signal processing models and deep neural networks to achieve robust imaging and focusing for handheld mmWave systems. We first formulate the handheld imaging model by integrating multiple priors about mmWave images and handheld phase errors. Furthermore, we transform the optimization processes into an iterative network structure for improved and efficient imaging performance. Extensive experiments demonstrate that IFNet effectively compensates for handheld phase errors and recovers high-fidelity images from severely distorted signals. In comparison with existing methods, IFNet can achieve at least 11.89 dB improvement in average peak signal-to-noise ratio (PSNR) and 64.91% improvement in average structural similarity index measure (SSIM) on a real-world dataset.
format Preprint
id arxiv_https___arxiv_org_abs_2405_02023
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle IFNet: Deep Imaging and Focusing for Handheld SAR with Millimeter-wave Signals
Li, Yadong
Zhang, Dongheng
Geng, Ruixu
Wu, Jincheng
Hu, Yang
Sun, Qibin
Chen, Yan
Computer Vision and Pattern Recognition
Recent advancements have showcased the potential of handheld millimeter-wave (mmWave) imaging, which applies synthetic aperture radar (SAR) principles in portable settings. However, existing studies addressing handheld motion errors either rely on costly tracking devices or employ simplified imaging models, leading to impractical deployment or limited performance. In this paper, we present IFNet, a novel deep unfolding network that combines the strengths of signal processing models and deep neural networks to achieve robust imaging and focusing for handheld mmWave systems. We first formulate the handheld imaging model by integrating multiple priors about mmWave images and handheld phase errors. Furthermore, we transform the optimization processes into an iterative network structure for improved and efficient imaging performance. Extensive experiments demonstrate that IFNet effectively compensates for handheld phase errors and recovers high-fidelity images from severely distorted signals. In comparison with existing methods, IFNet can achieve at least 11.89 dB improvement in average peak signal-to-noise ratio (PSNR) and 64.91% improvement in average structural similarity index measure (SSIM) on a real-world dataset.
title IFNet: Deep Imaging and Focusing for Handheld SAR with Millimeter-wave Signals
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2405.02023