Optical stabilization system based on deformable mirrors for retina-like sensors

Qun Hao; Fan Fan; Xuemin Cheng; Dongdong Wang; Yang Jiang

doi:10.1364/AO.55.005623

Optical stabilization system based on deformable mirrors for retina-like sensors

Qun Hao, Fan Fan, Xuemin Cheng^*, Dongdong Wang, Yang Jiang

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

This paper presents an optical stabilization system based on deformable mirrors (DMs) for retina-like sensors. This system achieves image stabilization by changing the reflective plate of the DM's compensating tilt angle. The mathematical model is constructed with relative parameters, and the simulation experiments and parameter analysis are discussed to verify the system's reliability. The experimental results show that this system achieved optical image stabilization. The maximum relative error of the compensation angle is 8.78%. The system is close to the diffraction limit, and the distortion is less than 0.33%. This study presents an image stabilization system and offers possible improvement in the aberrations in the system, which will provide great support to retina-like sensors.

Original language	English
Pages (from-to)	5623-5629
Number of pages	7
Journal	Applied Optics
Volume	55
Issue number	21
DOIs	https://doi.org/10.1364/AO.55.005623
Publication status	Published - 20 Jul 2016

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title = "Optical stabilization system based on deformable mirrors for retina-like sensors",

abstract = "This paper presents an optical stabilization system based on deformable mirrors (DMs) for retina-like sensors. This system achieves image stabilization by changing the reflective plate of the DM's compensating tilt angle. The mathematical model is constructed with relative parameters, and the simulation experiments and parameter analysis are discussed to verify the system's reliability. The experimental results show that this system achieved optical image stabilization. The maximum relative error of the compensation angle is 8.78%. The system is close to the diffraction limit, and the distortion is less than 0.33%. This study presents an image stabilization system and offers possible improvement in the aberrations in the system, which will provide great support to retina-like sensors.",

author = "Qun Hao and Fan Fan and Xuemin Cheng and Dongdong Wang and Yang Jiang",

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AU - Hao, Qun

AU - Fan, Fan

AU - Cheng, Xuemin

AU - Wang, Dongdong

AU - Jiang, Yang

PY - 2016/7/20

Y1 - 2016/7/20

N2 - This paper presents an optical stabilization system based on deformable mirrors (DMs) for retina-like sensors. This system achieves image stabilization by changing the reflective plate of the DM's compensating tilt angle. The mathematical model is constructed with relative parameters, and the simulation experiments and parameter analysis are discussed to verify the system's reliability. The experimental results show that this system achieved optical image stabilization. The maximum relative error of the compensation angle is 8.78%. The system is close to the diffraction limit, and the distortion is less than 0.33%. This study presents an image stabilization system and offers possible improvement in the aberrations in the system, which will provide great support to retina-like sensors.

AB - This paper presents an optical stabilization system based on deformable mirrors (DMs) for retina-like sensors. This system achieves image stabilization by changing the reflective plate of the DM's compensating tilt angle. The mathematical model is constructed with relative parameters, and the simulation experiments and parameter analysis are discussed to verify the system's reliability. The experimental results show that this system achieved optical image stabilization. The maximum relative error of the compensation angle is 8.78%. The system is close to the diffraction limit, and the distortion is less than 0.33%. This study presents an image stabilization system and offers possible improvement in the aberrations in the system, which will provide great support to retina-like sensors.

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Optical stabilization system based on deformable mirrors for retina-like sensors

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