A new centroid computation method using dynamic tracking

Bo Li; Xin Yu; Xin Qi Hu

A new centroid computation method using dynamic tracking

Bo Li^*, Xin Yu, Xin Qi Hu

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

Disadvantages of the H-S (Hartmann-Shack) wavefront sensor in expanding the dynamic range and restraining noise are analyzed. Based on the temporal characteristics of atmosphere turbulence and through determining the scope of change of centroid motion between two adjacent sample periods, a new dynamic track centroid method of H-S wavefront sensor is proposed. Using this method, the dynamic range of wavefront sensor can be expanded when atmosphere turbulence is strong. The effect of CCD readout noise and shot noise can be reduced efficiently. The analytical demonstration and simulation results of dynamic centroid computational method are given.

Original language	English
Pages (from-to)	101-104
Number of pages	4
Journal	He Jishu/Nuclear Techniques
Volume	22
Issue number	1
Publication status	Published - 1999

Keywords

Adaptive optics
Centroid computation
Dynamic tracking
H-S wavefront sensor
Shot noise

Cite this

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title = "A new centroid computation method using dynamic tracking",

abstract = "Disadvantages of the H-S (Hartmann-Shack) wavefront sensor in expanding the dynamic range and restraining noise are analyzed. Based on the temporal characteristics of atmosphere turbulence and through determining the scope of change of centroid motion between two adjacent sample periods, a new dynamic track centroid method of H-S wavefront sensor is proposed. Using this method, the dynamic range of wavefront sensor can be expanded when atmosphere turbulence is strong. The effect of CCD readout noise and shot noise can be reduced efficiently. The analytical demonstration and simulation results of dynamic centroid computational method are given.",

keywords = "Adaptive optics, Centroid computation, Dynamic tracking, H-S wavefront sensor, Shot noise",

author = "Bo Li and Xin Yu and Hu, {Xin Qi}",

year = "1999",

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T1 - A new centroid computation method using dynamic tracking

AU - Li, Bo

AU - Yu, Xin

AU - Hu, Xin Qi

PY - 1999

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N2 - Disadvantages of the H-S (Hartmann-Shack) wavefront sensor in expanding the dynamic range and restraining noise are analyzed. Based on the temporal characteristics of atmosphere turbulence and through determining the scope of change of centroid motion between two adjacent sample periods, a new dynamic track centroid method of H-S wavefront sensor is proposed. Using this method, the dynamic range of wavefront sensor can be expanded when atmosphere turbulence is strong. The effect of CCD readout noise and shot noise can be reduced efficiently. The analytical demonstration and simulation results of dynamic centroid computational method are given.

AB - Disadvantages of the H-S (Hartmann-Shack) wavefront sensor in expanding the dynamic range and restraining noise are analyzed. Based on the temporal characteristics of atmosphere turbulence and through determining the scope of change of centroid motion between two adjacent sample periods, a new dynamic track centroid method of H-S wavefront sensor is proposed. Using this method, the dynamic range of wavefront sensor can be expanded when atmosphere turbulence is strong. The effect of CCD readout noise and shot noise can be reduced efficiently. The analytical demonstration and simulation results of dynamic centroid computational method are given.

KW - Adaptive optics

KW - Centroid computation

KW - Dynamic tracking

KW - H-S wavefront sensor

KW - Shot noise

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M3 - Article

AN - SCOPUS:73549113047

SN - 0253-3219

VL - 22

SP - 101

EP - 104

JO - He Jishu/Nuclear Techniques

JF - He Jishu/Nuclear Techniques

IS - 1

ER -

A new centroid computation method using dynamic tracking

Abstract

Keywords

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