A novel method to calibrate LiNbO_3-based polarization controllers

A fast and reliable method to calibrate LiNbO3-based polarization controllers （PCs） presented theoretically and experimentally. Particle swarm optimization （PSO） algorithm is used as an adaptive searching algorithm. Experimental results show that PSO algorithm is powerful in calibrating LiNbO3-based multistage PCs. Only less than one minute is spent for all stages of the PC to be calibrated thoroughly.     

High-speed polarization mode dispersion compensation in a 43-Gb/s RZ-DQPSK transmission system over 1200 km of standard single-mode fibre

This paper reports that the designed optical polarization mode dispersion compensator shows a good performance under the real-time variation of differential group delay, state of polarization and principal state of polarization in a (40 × 43)-Gb/s dense-wavelength-multiplexing, 1200-km enhanced return-to-zero differential-quadrature-phase-shift-keying (RZ-DQPSK) system. The polarization mode dispersion tolerance of the system is improved by 26 ps using the optical polarization mode dispersion compensator. The short and long time stabilities are tested with the bit error ratio recorded.vspace1mm     

Novel in-band OSNR monitoring method based on polarization interference

We propose a novel in-band optical signal-to-noise ratio （OSNR） monitoring method based on polarization interference. The method realizes a monitoring accuracy of ±0.5 dB within the range of 9 34 dB. Our results indicate that the proposed method is transparent to bitrate and modulation format, as well as independent of polarization mode dispersion and chromatic dispersion.     

基于UNet深度学习算法的东海大型漂浮藻类遥感监测

基于语义分割神经网络UNet,利用GOCI(Geostationary Ocean Color Imager)卫星传感器数据,构建出能够有效提取大型漂浮藻类的深度学习模型,实现了对大型漂浮藻类信息端到端、像素到像素的分割识别。验证结果表明:所提出的深度学习模型对验证集中大型漂浮藻类的平均识别精度达到88.54%;通过与传统的归一化植被指数法和替代型漂浮藻类指数法进行对比,发现基于UNet构建的大型漂浮藻类监测模型具有更高的准确率且受云的影响较小。利用UNet大型漂浮藻类提取模型的识别结果对2017年东海藻类暴发过程进行了分析,模型显示出很好的实用性。     

An experiment of PMD compensation in 40-Gb/s PSBT transmission system

An adaptive polarization mode dispersion （PMD） compensation experiment is reported in a 40-Gb/s phase shaped binary transmission （PSBT） communication system, with the use of a new digital signal processor （DSP）-based optical PMD compensator. PMD tolerance is found to be enhanced by 8 ps after PMD compensation with 1-dB optical signal-to-noise ratio （OSNR） penalty. Under the condition of fast change of states of polarization up to 85 rad/s in the fiber link, the performance of our PMD compensator undergoes the bit error ratio （BER） test for as long as 10 h.