利用 SPGD 算法在光学合成孔径成像中进行基于场景的同相色谱实验演示。

Applied optics Pub Date : 2024-05-20 DOI:10.1364/AO.522829
Makoto Hirose, Norihide Miyamura
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引用次数: 0

摘要

对基于光学合成孔径成像的大口径望远镜进行了研究,以用于最近的高分辨率空间观测。孔径合成的一项辅助技术是抑制子孔径之间活塞尖端倾斜误差的共相法。本文利用随机并行梯度下降算法(SPGD)提出了一种基于场景的共相位技术,并假定将其应用于高分辨率地球观测。SPGD 算法的一个显著优势是基于扩展场景的无模型同调能力,但基于场景的多孔径活塞倾角同步校正尚未得到证实。在本文中,我们开发了具有 37 个子孔径的桌面合成孔径成像系统,并通过同时优化 111 个执行器的应用电压,演示了基于扩展场景的活塞倾角控制。演示实验不仅使用了静态场景,还使用了时变动态场景作为观测目标。在每次测量中,所提出的基于场景的方法都减少了最初定义的活塞倾角误差,图像清晰度也显著提高,不过动态场景观测中的修正速度较慢。最后,本文讨论了场景动态对基于图像的同调的影响。
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Experimental demonstration of scene-based cophasing in optical synthetic aperture imaging using the SPGD algorithm.

Large-aperture telescopes based on optical synthetic aperture imaging are investigated for recent high-resolution spaceborne observations. An enabling technique of aperture synthesis is a cophasing method to suppress a piston-tip-tilt error between sub-apertures. This paper proposes a scene-based cophasing technique using the stochastic parallel gradient descent (SPGD) algorithm, assuming application to high-resolution Earth observation. A significant advantage of the SPGD algorithm is a model-less cophasing capability based on extended scenes, but the simultaneous scene-based piston-tip-tilt correction between multiple apertures has not been demonstrated. In this paper, we developed a tabletop synthetic aperture imaging system with 37 sub-apertures and demonstrated extended-scene-based piston-tip-tilt control by optimizing applied voltages to 111 actuators simultaneously. The demonstration experiments used not only static scenes but also a time-varying dynamic scene for observation targets. In every measurement, the proposed scene-based approach reduced the initially defined piston-tip-tilt errors, and the image sharpness significantly improved, although the correction rate in the dynamic scene observation was slower. Finally, this paper discusses the influence of scene dynamics on image-based cophasing.

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