Improved Nonlinear Statistical Photocalibration of Photodetectors Without Calibrated Light Sources

IF 1.3 4区 工程技术 Q2 ENGINEERING, AEROSPACE Journal of Aerospace Information Systems Pub Date : 2023-10-18 DOI:10.2514/1.i011211
Stephen C. Cain
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Abstract

The calibration of charge coupled device arrays is commonly conducted using dark frames. Nonabsolute calibration techniques only measure the relative response of the detectors. A recent attempt at creating a procedure for calibrating a photodetector using the underlying Poisson nature of the photodetection statistics that relied on a nonlinear model was shown to be successful but was highly susceptible to the readout noise present in the measurement. This effort produced the nonlinear statistical nonuniformity calibration (NLSNUC) algorithm, which demonstrated an ability to better model the output of photodetector array elements than similar techniques that relied on a linear model. In this paper, a modified three-point NLSNUC photocalibration procedure is defined that requires only first and second moments of the measurements and allows the response to be modeled using a nonlinear function over the dynamic range of the detector. The modified NLSNUC technique is applied to image data containing a light source with a known output power. Estimates of the number of photoelectrons measured by the detector are shown to be superior to those obtained by the original NLSNUC algorithm as well as other statistical calibration techniques that do not utilize a calibrated light source.
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无标定光源光电探测器的改进非线性统计光定标
电荷耦合器件阵列的校准通常使用暗帧进行。非绝对校准技术只测量探测器的相对响应。最近的一项尝试是,利用光电探测统计的潜在泊松特性(依赖于非线性模型)创建一种校准光电探测器的程序,该程序被证明是成功的,但极易受到测量中存在的读出噪声的影响。这项工作产生了非线性统计非均匀性校准(NLSNUC)算法,该算法证明了比依赖线性模型的类似技术更好地模拟光电探测器阵列元素输出的能力。在本文中,定义了一种改进的三点NLSNUC光校准程序,该程序只需要测量的第一和第二时刻,并允许使用检测器动态范围内的非线性函数对响应进行建模。将改进的NLSNUC技术应用于含有已知输出功率光源的图像数据。探测器测量的光电子数的估计值优于原始NLSNUC算法以及其他不使用校准光源的统计校准技术。
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来源期刊
CiteScore
3.70
自引率
13.30%
发文量
58
审稿时长
>12 weeks
期刊介绍: This Journal is devoted to the dissemination of original archival research papers describing new theoretical developments, novel applications, and case studies regarding advances in aerospace computing, information, and networks and communication systems that address aerospace-specific issues. Issues related to signal processing, electromagnetics, antenna theory, and the basic networking hardware transmission technologies of a network are not within the scope of this journal. Topics include aerospace systems and software engineering; verification and validation of embedded systems; the field known as ‘big data,’ data analytics, machine learning, and knowledge management for aerospace systems; human-automation interaction and systems health management for aerospace systems. Applications of autonomous systems, systems engineering principles, and safety and mission assurance are of particular interest. The Journal also features Technical Notes that discuss particular technical innovations or applications in the topics described above. Papers are also sought that rigorously review the results of recent research developments. In addition to original research papers and reviews, the journal publishes articles that review books, conferences, social media, and new educational modes applicable to the scope of the Journal.
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