Statistical analysis of turbulent distortions of optical radiation in closed loop of the adaptive optics system

The reconstruction of a wave front containing random phase distortions of the light field is considered. The reconstruction is performed by a Hartmann method based on the approximation of the wave function by Zernike polynomials using estimates of local slopes. The slope values depend on the algorithms by which they are determined. The number of slopes is proportional to the number of focal spots recorded in the plane of the receiving device, which varies depending not only on the raster dimension, but also on the parameters of turbulence, design features of the receiving devices, as well as being restricted by the orthogonality of Zernike polynomials. Results of numerical experiments are given, which will be taken into account when creating adaptive optics systems for correcting strong turbulent distortions of the optical radiation.

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Wavefront response matrix for closed-loop adaptive optics system based on non-modulation pyramid wavefront sensor

Optics Communications ◽

10.1016/j.optcom.2012.02.026 ◽

2012 ◽

Vol 285 (12) ◽

pp. 2814-2820

Author(s):

Jianxin Wang ◽

Fuzhong Bai ◽

Yu Ning ◽

Fei Li ◽

Wenhan Jiang

Keyword(s):

Adaptive Optics ◽

Closed Loop ◽

Wavefront Sensor ◽

Response Matrix ◽

Adaptive Optics System

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Experimental analysis of diffraction effects from a segmented MEMS deformable mirror for a closed loop adaptive optics system

10.1117/12.861544 ◽

2010 ◽

Author(s):

Katia Shtyrkova ◽

Loretta Arguello ◽

Denis Oesch ◽

Darryl J. Sanchez ◽

Patrick Kelly ◽

...

Keyword(s):

Adaptive Optics ◽

Experimental Analysis ◽

Closed Loop ◽

Deformable Mirror ◽

Diffraction Effects ◽

Adaptive Optics System

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LMI-Based Decentralized PID Controller Design With Application to the Shape Control of Magnetic Fluid Deformable Mirrors

Volume 8: Dynamic Systems and Control, Parts A and B ◽

10.1115/imece2010-40215 ◽

2010 ◽

Cited By ~ 1

Author(s):

Zhizheng Wu ◽

Azhar Iqbal ◽

Foued Ben Amara

Keyword(s):

Adaptive Optics ◽

Output Feedback ◽

Pid Controller ◽

Control Algorithm ◽

Closed Loop ◽

Controller Design ◽

Design Method ◽

Pid Controller Design ◽

Static Output ◽

Adaptive Optics System

In this paper, a decentralized robust PID controller design method is proposed for multi-input multi-output systems. The system model is first decoupled in the low frequency range, and only the diagonal entries in the DC-decoupled plant model are retained. To deal with the resulting unmodeled high frequency dynamics, a decentralized robust PID controller design method is proposed, where the robust stability and transient response performance of the resulting closed loop system are formulated as a multi-objective H∞/H2 static output feedback problem. The desired parameters of the PID controller are determined by solving a static output feedback problem using linear matrix inequalities (LMIs). Finally, the performance of the proposed control algorithm is experimentally evaluated on the adaptive optics system involving a prototype magnetic fluid deformable mirror (MFDM). The experimental results illustrate the effectiveness of the proposed control algorithm for the MFDM surface shape tracking in the closed loop adaptive optics system.

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