Bidirectional intensity modulated/direct detection optical OFDM WDM-PON system

In this paper, we have evaluated a bidirectional wavelength division multiplexing passive optical network(WDM-PON) employing intensity modulated/direct detection optical orthogonal frequency division multiplexing(IM/DD-OFDM). The proposed system employs 100 Gbit/s 16 quadrature amplitude modulation(16-QAM) downstream and 5 Gbit/s on-off keying(OOK) upstream wavelengths, respectively. The proposed system is considered low-cost as non-coherent IM/DD OFDM technology and a simple reflective semiconductor optical amplifier(RSOA) colorless transmitter are employed and no dispersion compensating fiber(DCF) is needed. Based on the bit error rate(BER) results of WDM signals, the proposed WDM-PON system can achieve up to 1.6 Tbit/s(100 Gbit/s/λ × 16 wavelengths) downstream transmission over a 30 km single mode fiber(SMF).

Ghost-Retina Net:Fast Shadow Detection Method for Photovoltaic Panels Based on Improved Retina Net

Based on the artificial intelligence algorithm of RetinaNet,we propose the Ghost-RetinaNet in this paper,a fast shadow detection method for photovoltaic panels,to solve the problems of extreme target density,large overlap,high cost and poor real-time performance in photovoltaic panel shadow detection.Firstly,the Ghost CSP module based on Cross Stage Partial(CSP)is adopted in feature extraction network to improve the accuracy and detection speed.Based on extracted features,recursive feature fusion structure ismentioned to enhance the feature information of all objects.We introduce the SiLU activation function and CIoU Loss to increase the learning and generalization ability of the network and improve the positioning accuracy of the bounding box regression,respectively.Finally,in order to achieve fast detection,the Ghost strategy is chosen to lighten the size of the algorithm.The results of the experiment show that the average detection accuracy(mAP)of the algorithm can reach up to 97.17%,the model size is only 8.75 MB and the detection speed is highly up to 50.8 Frame per second(FPS),which can meet the requirements of real-time detection speed and accuracy of photovoltaic panels in the practical environment.The realization of the algorithm also provides new research methods and ideas for fault detection in the photovoltaic power generation system.

Enhanced asymmetrically clipped DC biased optical OFDM for intensity-modulated direct-detection systems

In this paper,we propose an EADO-OFDM(Enhanced Asymmetrically Clipped DC Biased Optical Orthogonal Frequency Division Multiplexing)method for IM/DD(Intensity-Modulated DirectDetection)optical systems,in which the AV-DCO-OFDM(Absolute Valued DC Biased Optical OFDM)symbols on the even subcarriers and ACO-OFDM(Asymmetrically Clipped Optical OFDM)symbols on the odd subcarriers are combined for simultaneous transmission.Moreover,we discuss the PDF(Probability Density Function)and electrical SNR(Signal to Noise Ratio)of the symbols,which are utilized to estimate the BER(Bit Error Ratio)performance and overall performance of EADO-OFDM.The Monte Carlo simulation results have validated the theoretical analysis and have also confirmed the EADO-OFDM is attractive considering the following benefits.Firstly,EADO-OFDM is more energy efficient compared to the power-efficient DCO-OFDM(DC Biased Optical OFDM),since the required DC bias is smaller when appropriate constellation size combinations are chosen.In addition,EADO-OFDM performs better than the conventional ADO-OFDM(Asymmetrically Clipped DC Biased Optical OFDM),because the absolute value operation causes no clipping distortion.

Weakly-coupled mode division multiplexing over conventional multi-mode fiber with intensity modulation and direct detection

Multi-mode fiber(MMF)links are expected to greatly enhance capacity to cope with rapidly increasing data traffic in optical short-reach systems and networks.Recently,mode division multiplexing(MDM)over MMF has been proposed,in which different modes in MMF are utilized as spatial channels for data transmission.Stronglycoupled MDM techniques utilizing coherent detection and multiplex-input-multiplex-output(MIMO)digital signal processing(DSP)are complex and expensive for shortreach transmission.So the weakly-coupled approach by significantly suppressing mode coupling in the fiber and optical components has been proposed.In this way,the signals in each mode can be independently transmitted and received using conventional intensity modulation and direct detection(IM-DD).In this paper,we elaborate the key technologies to realize weakly-coupled MDM transmission over conventional MMF,including mode characteristic in MMF and weakly-coupled mode multiplexer/ demultiplexer(MUX/DEMUX).We also present the upto-date experimental results for weakly-coupled MDM transmission over conventional OM3 MMF.We show that weakly-coupled MDM scheme is promising for high-speed optical interconnections and bandwidth upgrade of already-deployed MMF links.

W-band radio-over-fiber transmission system with delta-sigma modulation and direct detection

We experimentally built a W-band photonics-aided millimeter-wave radio-over-fiber transmission system and demonstrated the delivery of up to 8192-ary quadrature amplitude modulation[QAM] signal.Discrete multitone signals are converted into 1-bit data streams through delta-sigma modulation and then modulated onto a 76.2 GHz carrier.An envelope detector is used at the receiver side for direct detection.The results prove that our proposed system can support 2048QAM and 8192QAM transmission while meeting the hard decision forward error correction threshold of 3.8×10^(-3)and the soft decision forward error correction threshold of 4.2×10^(-2),respectively.We believe this cost-effective scheme is a promising candidate for future high-order QAM millimeter-wave downlink transmission.

食道病灶检测的多尺度细节增强金字塔网络

针对食道卢戈染色内窥镜(Lugol’s chromoendoscopy,LCE)检查图像中病变类间相似度高和类内尺度变化大等问题,提出了一种以Sparse R-CNN作为基底网络并搭载多尺度细节增强金字塔网络(multi-scale detail enhancement pyramid network,MDEPN)结构的多类食道病灶检测方法。为了改善Sparse R-CNN中的特征金字塔网络(feature pyramid network,FPN)结构在对多尺度特征进行融合时存在的信息丢失和语义差异问题,MDEPN结构首先使用Gabor调制卷积模块对不同尺度特征进行增强,利用Gabor对方向和尺度的强关注度提高了特征图中纹理信息的表达能力;其次使用方向通道池化模块提取不同尺度特征的局部特征方向相似性和局部与全局特征的相关性,减轻了不同尺度特征融合时的语义差异。在自建的多类食道LCE病灶数据集上进行测试,结果表明该方法的mAP0.50检测精度达到了65.0%,相同条件下,比基准模型Sparse R-CNN提升了2.4个百分点,并超过了对比的其余主流检测方法。所设计的MDEPN模块可作为一种独立的结构融入其他检测模型中以提升性能,具有一定的通用性。

基于单PD直接检测Twin-SSB-QPSK信号的光纤通信系统

针对孪生单边带正交相移键控(Twin-SSB-QPSK)信号在光传输过程中的高成本问题,提出了一种在接收端采用单光电探测器(PD)直接检测Twin-SSB-QPSK信号的光纤通信系统。在接收端不需要采用光带通滤波器(OBPF)对Twin-SSB-QPSK信号的两路光单边带信号进行分离,而是利用直接检测的拍频效应,通过单PD直接检测孪生的两路光单边带QPSK信号产生相干叠加的单路16阶正交幅度调制(16QAM)信号。仿真演示了两路56 Gbit/s的QPSK信号叠加为一路112 Gbit/s的16QAM信号,并与传统的单路16QAM信号传输方案进行了仿真对比。仿真结果表明,该方案在降低系统器件要求和部署成本的同时并没有带来额外的功率代价。

基于60 GHz毫米波雷达室内人员检测方法

针对室内人员检测场景,提出了一种基于调频连续波(FMCW)毫米波雷达的人体空间位置信息检测的方法。通过构建多快拍信号,在方位角和俯仰角分别使用又称最小方差无失真响应(MVDR,Capon)法和常规波束形成(CBF)的波达方向(DOA)估计的方法,提高角度估计的性能;采用生命体特征检测方法辅助跟踪由动态转变为静态的目标,实现对目标的持续追踪。实验结果表明:采用该测角方法,雷达系统具有良好的检测精度和实时性;增加生命体特征检测流程,可提高雷达系统对静态目标的跟踪能力。

双注意力机制与双向特征加权融合的车辆目标检测

公路监控视频中的车辆检测场景复杂多样,存在干扰严重、目标尺寸小、尺寸变化大等情况。已有基于深度神经网络的目标检测模型效率不高,且存在不同程度的错检及漏检问题。文章提出了一种基于通道-空间双注意力机制与双向特征加权融合的车辆目标检测模型,它与YOLOv5网络相结合,不仅提高了目标检测精度,还在满足实时性的前提下有效减少了模型计算量和参数。实验结果表明,模型的平均检测精度mAP由YOLOv5m的85.1%提升至91.5%,而计算量和参数量分别为YOLOv5m的44.3%与53.6%,同时检测速度略有提升,实现了简单、快速的车辆目标检测。

BTM功放输出实时检测模块的设计与实现

基于现场应答器传输单元故障检测需求,为实现对功放输出异常、电缆短路、电缆断路、运行正常4种不同状态的检测,在现有BTM功放单元上研发检测模块。根据传输线理论和矢量网络法,采用定向耦合器提取功放输出信号耦合电压和反射电压,经计算获得不同特征状态判定参数;获取实验室和现场不同测量条件下不同特征状态的参数分布范围,采用阻抗作为判定参数时,因特征状态参数区间存在部分重叠,以不误报、不漏报为原则,最终选取耦合电压和反射电压作为判定参数。经过多次动态测试验证,该模块可为现场BTM设备功放输出状态的实时检测提供可靠依据,提高BTM设备故障排查自动化水平和效率。

交流电弧直读原子发射光谱法在矿石中定量和半定量分析的应用

采用内标法以对数坐标进行拟合曲线,光谱可定量的元素是标准曲线线性较好的,可计算矿石中元素的准确含量,光谱不可定量的元素,在摄谱时获得了这些元素的谱线强度(即为黑度),用目视法与一起摄谱的标样比较谱线的黑度,确定这些元素大致质量分数范围,实现了矿石中定量和半定量元素的分析检测,一次摄谱可以同时测定31个元素,满足客户需求,同时也是试验室对于矿石盲样分析不可缺少的分析手段之一。

A novel modulation and direct detection scheme of optical phase shift keying

This paper introduces a new modulation and direct detection scheme of optical phase shift keying (PSK) which is simple and practical in fiber optical communication. A phase modulator is used to modulate a continuous wave (CW) laser source and return-to-zero (RZ) signal that is changed from the initial transmitting information is used to control a phase modulator to form a optical PSK signal. In the receiver terminal, just add a signal delayed a half of one bit to itself so that the initial information can be restored.

基于可调谐半导体激光吸收光谱的氧气浓度高灵敏度检测研究

可调谐半导体激光吸收光谱(TDLAS)是近年发展起来的一种激光光谱气体检测技术,相比于常见的电化学、离子导电陶瓷等技术,其具有选择性强、灵敏度高、响应快、可在线测量、抗背景光谱干扰能力强等优点,适用于复杂环境中气体的长期在线检测。氧气(O_(2))是人类生存环境中的重要气体,O_(2)浓度的检测在生产生活各个领域应用广泛、意义重大。基于此,本文采用TDLAS技术对空气中的O_(2)进行高灵敏度测量。采用输出波长为760 nm的半导体激光器作为光源,直接吸收光谱法获得环境中的氧气浓度为20.56%,最小检测极限为5.53×10^(-3)。在波长调制方法中,优化了激光波长调制深度,得到了完整的二次谐波波形,可用于标定氧气浓度。此系统的信噪比为380.74,最小检测极限约为540×10^(-6)。本文的传感系统具有良好的O_(2)检测能力,可广泛用于各个领域中的O_(2)浓度检测。

基于协同注意力与特征融合的无人机小目标检测

针对现有无人机检测领域存在小目标检测困难以及特征提取效果不佳的问题,提出了一种基于协同注意力模块与双向特征融合结构的无人机小目标检测网络。通过设计协同注意力单元,与骨干网络形成协同注意力模块,显著提升模型特征表达能力;同时借鉴路径聚合网络的思想,设计双向特征融合结构,引入自底向上的特征融合路径,实现浅层特征与深层特征的深度融合,提高小目标检测精度。实验结果表明,所提算法在无人机小目标数据集上的平均精度优于其他网络,显著提升了无人机场景下小目标的检测性能。

基于量子级联激光吸收光谱技术的NH_(3)吸附性测量研究(特邀)

选择中心波长为8.91μm的量子级联激光器作为光源,结合波长调制光谱技术和小体积长光程的光学多通池,开发了一套氨气浓度检测系统。进行不同压力下氨气的直接吸收测量,结果表明谱线选择正确,以及系统搭建可行。配制不同浓度的氨气进行波长调制测量,得到二次谐波信号峰峰值与浓度之间呈现很好的线性关系,其拟合系数为99.50%。氨气浓度在0~100 ppm范围内,二次谐波的平均误差小于3%,其中在较高浓度10~100 ppm范围内,相对误差小于1%,灵敏度为10.35 ppm/V。配制浓度为6.25 ppm的氨气,并通入多通池检测,对系统进行Allan方差分析,系统在最佳积分时间为195 s时的探测极限为121.58 ppb。同时,从管道材料、温度两个方面出发,探究氨气脱附的效果。

相敏检测调制深度对受激拉曼信号强度及信噪比影响研究

受激拉曼散射是相干拉曼散射中的一种,其产生的信号在三阶非线性效应下得到了显著地增强,且没有非共振背景的干扰,光谱与自发拉曼光谱几乎完全一致。因此,基于受激拉曼散射的显微成像技术具有无标记、高特异性、非侵入等优点,已成功运用在生物细胞成像中并取得了许多重大的成就。受激拉曼信号与激发光的波长相同,易受到激发光背景噪声的干扰,为解决该难题,常采用光学调制与相敏检测相结合的方法对其进行检测。检测过程中,调制深度对受激拉曼信号强度和信噪比有重要影响。针对此,基于相关理论深入分析了调制深度对受激拉曼信号强度及信噪比的影响。同时考虑到在生物光谱成像等应用中,细胞光损伤阈值对两束激发光功率之和的限制,分析了不同调制深度下,获取最大信号强度及最佳信噪比的激发光功率配置方法。通过搭建受激拉曼实验系统,以二甲基亚砜为研究对象,进行实验验证。研究结果表明,在光损伤阈值的限制条件下进行受激拉曼损耗检测时,同一调制深度下,当泵浦光与斯托克斯光光功率比为1:1时信号强度达到最强,比值为1∶2时信号的信噪比达到最佳。在泵浦光与斯托克斯光光功率比相同的条件下,受激拉曼信号强度和信噪比均随调制深度的降低而降低且近似呈线性相关。实验得到的二甲基亚砜受激拉曼光谱图也验证了在实际样品的光谱检测中,调制深度越高得到的光谱信号越强,信噪比越佳,整体的光谱质量也越好。该研究结果是对受激拉曼显微技术在信号调制与检测方面的完善,可为受激拉曼光谱检测和细胞成像实验做出参考性指导。

基于强度调制的光纤激光折射率传感器

提出了一种基于光纤布喇格光栅与多模凹锥光纤级联结构的低探测极限光纤激光折射率传感器。采用光纤环形激光器内腔调制技术,获得了稳定、高边模抑制比和窄半峰全宽的激光信号,量化研究了有源结构下凹锥直径与液体折射率变化间响应关系。当凹锥直径为30.53μm时,最大折射率灵敏度可达-128.636 dB/RIU。考虑3σ噪声条件,实际探测极限可达8.49×10-4RIU。该传感器具有输出稳定和低温度串扰的优点,在生化传感和环境监测等方面具有潜在的应用前景。

集群金刚石NV色心量子自旋定向激发磁传感增强方法

为满足工业磁传感器高灵敏度、高信噪比(SNR)测量需求,基于自制的共聚焦磁检测系统,提出一种基于脉冲幅度调制技术的集群金刚石氮空位(NV)色心量子自旋定向激发(QSDE)方法。利用任意波形发生器构建sin型QSDE脉冲光探测磁共振序列,抑制传感体系中对微波敏感的Ns杂质与NV色心产生耦合效应带来的线宽展宽与噪声,提升谱线对比度的同时降低了线宽与噪声,突破微波强度对灵敏度和SNR的限制。经实验验证,相较连续波光探测磁共振(CW-ODMR)方法,该方法可将磁传感灵敏度和信噪比分别大约提升5倍和20 dB,为量子精密测量领域开辟了全新的技术路径和研究思路。

用于带限DML-IMDD系统中的深度神经网络均衡器简化方案

为提升基于带限光电器件及直接调制激光器(DML)的强度调制直接检测(IMDD)系统性能,解决传统均衡器计算复杂度过高的问题,提出深度神经网络(DNN)均衡器简化方案。首先,利用自适应动量估计(Adam)算法更新DNN的权重系数,优化了传统梯度下降算法的迭代速度和收敛性能;然后,在此基础上引入丢弃层和剪切操作以降低DNN的高计算复杂度,减少网络结构的冗余连接,并避免过拟合现象的产生。最后,在80 Gb/s带限DML-IMDD仿真系统中验证了DNN均衡器简化方案的有效性和可行性。

基于带宽受限的100 GPON先进调制格式比较

随着云业务、视频业务和移动互联业务的快速发展,5G光接入网对于传输容量的需求日益迫切。接入网段日益增长的带宽需求不仅要求更高的传输速度,还需要保持较低的系统成本。但是成熟的商用低成本光电器件的带宽通常是有限的,当传输速率很高时,带宽明显小于信号的波特率。考虑到低成本光学器件的有限带宽,采用具有高频谱效率的先进调制格式,如PAM,CAP以及DMT是很有潜力的选择。主要针对光接入网器件带宽受限的问题,在带宽受限的100 G无源光网络中,仿真对比了三种先进调制格式的性能,分析了三种调制格式传输20 km SSMF后的接收灵敏度和功率预算,还讨论了他们的热噪声性能和抗色散性能。