Retina-like imaging and its applications: A brief review

Qun Hao; Yu Tao; Jie Cao; Mingyuan Tang; Yang Cheng; Dong Zhou; Yaqian Ning; Chun Bao; Huan Cui

doi:10.3390/app11157058

Retina-like imaging and its applications: A brief review

Qun Hao, Yu Tao, Jie Cao^*, Mingyuan Tang, Yang Cheng, Dong Zhou, Yaqian Ning, Chun Bao, Huan Cui

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文献综述 › 同行评审

12 引用（Scopus）

摘要

The properties of the human eye retina, including space-variant resolution and gaze characters, provide many advantages for numerous applications that simultaneously require a large field of view, high resolution, and real-time performance. Therefore, retina-like mechanisms and sensors have received considerable attention in recent years. This paper provides a review of stateof-the-art retina-like imaging techniques and applications. First, we introduce the principle and implementing methods, including software and hardware, and describe the comparisons between them. Then, we present typical applications combined with retina-like imaging, including threedimensional acquisition and reconstruction, target tracking, deep learning, and ghost imaging. Finally, the challenges and outlook are discussed to further study for practical use. The results are beneficial for better understanding retina-like imaging.

源语言	英语
文章编号	7058
期刊	Applied Sciences (Switzerland)
卷	11
期	15
DOI	https://doi.org/10.3390/app11157058
出版状态	已出版 - 1 8月 2021

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title = "Retina-like imaging and its applications: A brief review",

abstract = "The properties of the human eye retina, including space-variant resolution and gaze characters, provide many advantages for numerous applications that simultaneously require a large field of view, high resolution, and real-time performance. Therefore, retina-like mechanisms and sensors have received considerable attention in recent years. This paper provides a review of stateof-the-art retina-like imaging techniques and applications. First, we introduce the principle and implementing methods, including software and hardware, and describe the comparisons between them. Then, we present typical applications combined with retina-like imaging, including threedimensional acquisition and reconstruction, target tracking, deep learning, and ghost imaging. Finally, the challenges and outlook are discussed to further study for practical use. The results are beneficial for better understanding retina-like imaging.",

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author = "Qun Hao and Yu Tao and Jie Cao and Mingyuan Tang and Yang Cheng and Dong Zhou and Yaqian Ning and Chun Bao and Huan Cui",

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AU - Hao, Qun

AU - Tao, Yu

AU - Cao, Jie

AU - Tang, Mingyuan

AU - Cheng, Yang

AU - Zhou, Dong

AU - Ning, Yaqian

AU - Bao, Chun

AU - Cui, Huan

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N2 - The properties of the human eye retina, including space-variant resolution and gaze characters, provide many advantages for numerous applications that simultaneously require a large field of view, high resolution, and real-time performance. Therefore, retina-like mechanisms and sensors have received considerable attention in recent years. This paper provides a review of stateof-the-art retina-like imaging techniques and applications. First, we introduce the principle and implementing methods, including software and hardware, and describe the comparisons between them. Then, we present typical applications combined with retina-like imaging, including threedimensional acquisition and reconstruction, target tracking, deep learning, and ghost imaging. Finally, the challenges and outlook are discussed to further study for practical use. The results are beneficial for better understanding retina-like imaging.

AB - The properties of the human eye retina, including space-variant resolution and gaze characters, provide many advantages for numerous applications that simultaneously require a large field of view, high resolution, and real-time performance. Therefore, retina-like mechanisms and sensors have received considerable attention in recent years. This paper provides a review of stateof-the-art retina-like imaging techniques and applications. First, we introduce the principle and implementing methods, including software and hardware, and describe the comparisons between them. Then, we present typical applications combined with retina-like imaging, including threedimensional acquisition and reconstruction, target tracking, deep learning, and ghost imaging. Finally, the challenges and outlook are discussed to further study for practical use. The results are beneficial for better understanding retina-like imaging.

KW - Deep learning

KW - Ghost imaging

KW - Retina-like imaging

KW - Three-dimensional reconstruction

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Retina-like imaging and its applications: A brief review

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