Author Affiliations
Abstract
1 University of Central Florida, CREOL, The College of Optics and Photonics, Orlando, Florida, United States
2 Chinese Academy of Sciences, Changchun Institute of Optics, Fine Mechanics and Physics, State Key Laboratory of Luminescence and Applications, Changchun, China
We demonstrate a deep-learning-based fiber imaging system that can transfer real-time artifact-free cell images through a meter-long Anderson localizing optical fiber. The cell samples are illuminated by an incoherent LED light source. A deep convolutional neural network is applied to the image reconstruction process. The network training uses data generated by a setup with straight fiber at room temperature (~20 ° C) but can be utilized directly for high-fidelity reconstruction of cell images that are transported through fiber with a few degrees bend or fiber with segments heated up to 50°C. In addition, cell images located several millimeters away from the bare fiber end can be transported and recovered successfully without the assistance of distal optics. We provide evidence that the trained neural network is able to transfer its learning to recover images of cells featuring very different morphologies and classes that are never “seen” during the training process.
fiber imaging cell imaging deep learning microstructured optical fiber transverse Anderson localization Advanced Photonics
2019, 1(6): 066001
1 吉林大学 仪器科学与电气工程学院, 长春 130012
2 电子科技大学中山学院 电子信息学院, 广东 中山 528402
3 珠海任驰光电科技有限公司, 广东 珠海 519000
为了实现海洋水位实时监测以进行有效的海啸预警, 提出了一种全光纤干涉式水位传感系统.针对海洋水位变化范围大、变化速度快的特点, 采用基于双准直器对准的改进式干涉结构和线性调频相位解调方法, 以实现对海洋水位值的大量程、高精度、快响应测量.实验结果表明该水位传感系统的可测量程为0~109.14 m, 测量精度达±1 cm, 可实现0.01 s的响应时间, 具有较好的实时性.该系统对海洋水位监测、海啸预警具有十分积极的意义.
光纤传感 海洋水位监测 水位传感系统 双准直器结构 线性调频相位解调 Fiber optic sensing Ocean water level monitoring Water level sensing system Double collimators structure Linear frequencychirp based phase demodulation
吉林大学 仪器科学与电气工程学院, 长春 130012
为了获得更高的线性度和更强的抗干扰能力, 提出一种改进的相位生成载波解调算法.利用滤去直流量的干涉信号及其与基频相混频的信号来进行运算, 将两路信号倍频后的差分结果与其相乘后的微分结果相除来实现对被测信号的解调.该方法可有效消除光源扰动和直流分量对解调结果的影响.仿真结果验证了改进解调算法的可行性及优势, 与传统算法相比获得了更高的线性度和更强的抗干扰能力, 并打破了基频混频只适用于小信号的局限性.搭建实验系统进行验证, 结果表明改进算法的频率解调准确率较高, 且强度响应一致性较好.
光纤传感 相位解调 相位生成载波 直流分量 光源扰动 Optical fiber sensing Phase demodulation Phase generation carrier DC component Light intensity disturbance
吉林大学 仪器科学与电气工程学院, 长春 130012
基于扫频激光器和马赫-增德尔干涉结构的光纤传感系统, 针对扫频激光器的频率步进不够精细导致干涉臂长差解调结果不精确的问题, 提出了一种相似性解调方法.该方法通过在频率步进范围内进一步细分, 构造相应细分值的模拟函数, 与采集到的干涉信号进行相似性对比, 相似性最大时所对应的模拟干涉臂长差即为精确结果, 并通过仿真与实验验证了该方法的可行性.实验表明该系统中干涉臂长差的解调范围为2~17 mm, 该范围内解调结果最小分辨率为1 μm, 可以达到测试量程万分之一的分辨率, 且抗干扰能力强、精度高, 可实现信噪比大于6.87 dB时信号的解调.根据解调原理, 在不强调实时性的应用中, 可以通过提高细分的精细度, 进一步提高系统分辨率.
光纤传感 信号处理 相似性解调 干涉臂长差 马赫-增德尔干涉 Optical fiber sensing Signal processing Similarity demodulation Interference arm length difference Mach- Zehnder interference
