Design of a retina-like transmitting system based on a curved lens array

Qun Hao; Lingtong Meng; Yang Cheng; Jie Cao; Sihui Li; Saad Rizvi

doi:10.1364/AO.57.008494

Design of a retina-like transmitting system based on a curved lens array

Qun Hao, Lingtong Meng, Yang Cheng, Jie Cao^*, Sihui Li, Saad Rizvi

^*Corresponding author for this work

School of Optics and Photonics

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

3 Citations (Scopus)

Abstract

In order to reduce data redundancy and improve scanning efficiency in three-dimensional imaging, a retina-like transmitting optical system based on a curved lens array (CLA) is proposed. The mathematical model for the transmitting system is developed, and associated parameters for the space-variant CLA are studied. Model testing validates that the transmitting system bears flexible scanning field of view and achieves scanning efficiency up to 80%. Imaging simulations show that the proposed scanning method utilizing the logarithmic-polar imaging characteristics efficiently detects secondary targets. Furthermore, simulation results show that the parameters of the single lens in the lens array are not fixed, but flexible, which facilitates the corresponding structural design.

Original language	English
Pages (from-to)	8494-8502
Number of pages	9
Journal	Applied Optics
Volume	57
Issue number	29
DOIs	https://doi.org/10.1364/AO.57.008494
Publication status	Published - 10 Oct 2018

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title = "Design of a retina-like transmitting system based on a curved lens array",

abstract = "In order to reduce data redundancy and improve scanning efficiency in three-dimensional imaging, a retina-like transmitting optical system based on a curved lens array (CLA) is proposed. The mathematical model for the transmitting system is developed, and associated parameters for the space-variant CLA are studied. Model testing validates that the transmitting system bears flexible scanning field of view and achieves scanning efficiency up to 80%. Imaging simulations show that the proposed scanning method utilizing the logarithmic-polar imaging characteristics efficiently detects secondary targets. Furthermore, simulation results show that the parameters of the single lens in the lens array are not fixed, but flexible, which facilitates the corresponding structural design.",

author = "Qun Hao and Lingtong Meng and Yang Cheng and Jie Cao and Sihui Li and Saad Rizvi",

note = "Publisher Copyright: {\textcopyright} 2018 Optical Society of America.",

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AU - Hao, Qun

AU - Meng, Lingtong

AU - Cheng, Yang

AU - Cao, Jie

AU - Li, Sihui

AU - Rizvi, Saad

PY - 2018/10/10

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N2 - In order to reduce data redundancy and improve scanning efficiency in three-dimensional imaging, a retina-like transmitting optical system based on a curved lens array (CLA) is proposed. The mathematical model for the transmitting system is developed, and associated parameters for the space-variant CLA are studied. Model testing validates that the transmitting system bears flexible scanning field of view and achieves scanning efficiency up to 80%. Imaging simulations show that the proposed scanning method utilizing the logarithmic-polar imaging characteristics efficiently detects secondary targets. Furthermore, simulation results show that the parameters of the single lens in the lens array are not fixed, but flexible, which facilitates the corresponding structural design.

AB - In order to reduce data redundancy and improve scanning efficiency in three-dimensional imaging, a retina-like transmitting optical system based on a curved lens array (CLA) is proposed. The mathematical model for the transmitting system is developed, and associated parameters for the space-variant CLA are studied. Model testing validates that the transmitting system bears flexible scanning field of view and achieves scanning efficiency up to 80%. Imaging simulations show that the proposed scanning method utilizing the logarithmic-polar imaging characteristics efficiently detects secondary targets. Furthermore, simulation results show that the parameters of the single lens in the lens array are not fixed, but flexible, which facilitates the corresponding structural design.

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Design of a retina-like transmitting system based on a curved lens array

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