Photon Counting Detector Array Algorithms for Deep Space Optical Communications

机译：用于深空光通信的光子计数检测器阵列算法

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For deep-space optical communications systems utilizing an uplink optical beacon, a single-photon-counting detector array on the flight terminal can be used to simultaneously perform uplink tracking and communications as well as accurate downlink pointing at photon-starved (pW/m~2) power levels. In this paper, we discuss concepts and algorithms for uplink signal acquisition, tracking, and parameter estimation using a photon-counting camera. Statistical models of detector output data and signal processing algorithms are presented, incorporating realistic effects such as Earth background and detector/readout blocking. Analysis and simulation results are validated against measured laboratory data using state-of-the-art commercial photon-counting detector arrays, demonstrating sub-microradian tracking errors under channel conditions representative of deep space optical links.

机译：对于使用上行链路信标的深空光通信系统，飞行终端上的单光子计数检测器阵列可用于同时执行上行链路跟踪和通信，以及指向光子匮乏（pW / m〜 2）功率水平。在本文中，我们讨论了使用光子计数相机进行上行链路信号采集，跟踪和参数估计的概念和算法。提出了探测器输出数据的统计模型和信号处理算法，并结合了诸如地球背景和探测器/读数阻隔等现实效果。使用最先进的商用光子计数检测器阵列，针对测量的实验室数据验证了分析和仿真结果，证明了在代表深空光学链路的信道条件下的亚微弧度跟踪误差。

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《Free-space laser communication and atmospheric propagation XXVIII》|2016年|97390X.1-97390X.16|共16页
会议地点 San Francisco CA(US)
作者
Meera Srinivasan; Kenneth S. Andrews; William H. Farr; Andre Wong;
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作者单位

Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA, USA;

Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA, USA;

Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA, USA;

Jet Propulsion Laboratory, California Institute of Technology, 4800 Oak Grove Drive, Pasadena, CA, USA;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Optical communications; photon counting; beacon tracking;

机译：光通信；光子计数信标追踪;

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专利

1. Signal Acquisition With Photon-Counting Detector Arrays in Free-Space Optical Communications [J] . Bashir Muhammad Salman, Alouini Mohamed-Slim IEEE transactions on wireless communications . 2020,第4期

机译：用光子计数探测器阵列在自由空间光通信中的信号采集
2. Design of an Optical Photon Counting Array Receiver System for Deep-Space Communications [J] . Mendenhall J.A., Candell L.M., Hopman P.I., Proceedings of the IEEE . 2007,第10期

机译：用于深空通信的光子计数阵列接收器系统的设计
3. 781 Mbit/s photon-counting optical communications using a superconducting nanowire detector [J] . Bryan S. Robinson, Andrew J. Kerman, Eric A. Dauler, Optics Letters . 2006,第4期

机译：使用超导纳米线探测器的781 Mbit / s光子计数光通信
4. Photon Counting Detector Array Algorithms for Deep Space Optical Communications [C] . Meera Srinivasan, Kenneth S. Andrews, William H. Farr, Conference on free-space laser communication and atmospheric propagation XXVIII . 2016

机译：光子计数探测器阵列阵列深空光通信
5. Estimation and detection of signals in a turbulent free space optical communications channel using array detectors. [D] . Cole, Michael. 2006

机译：使用阵列检测器估算和检测湍流自由空间光通信信道中的信号。
6. Photon-counting hexagonal pixel array CdTe detector: Spatial resolution characteristics for image-guided interventional applications [O] . Srinivasan Vedantham, Suman Shrestha, Andrew Karellas, -1

机译：光子计数六角像素阵列CdTe检测器：图像引导介入应用的空间分辨率特性
7. Robust Beam Position Estimation with Photon Counting Detector Arrays in Free-Space Optical Communications [O] . Muhammad Salman Bashir, Ming-Cheng Tsai, Mohamed-Slim Alouini 2020

机译：具有光子计数探测器阵列的鲁棒光束位置估计在自由空间光通信中

Photon Counting Detector Array Algorithms for Deep Space Optical Communications

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