Coherent optical frequency transfer via 972-km fiber link

We demonstrate coherent optical frequency dissemination over a distance of 972 km by cascading two spans where the phase noise is passively compensated for.Instead of employing a phase discriminator and a phase locking loop in the conventional active phase control scheme,the passive phase noise cancellation is realized by feeding double-trip beat-note frequency to the driver of the acoustic optical modulator at the local site.This passive scheme exhibits fine robustness and reliability,making it suitable for long-distance and noisy fiber links.An optical regeneration station is used in the link for signal amplification and cascaded transmission.The phase noise cancellation and transfer instability of the 972-km link is investigated,and transfer instability of 1.1×10^(-19)at 10^(4)s is achieved.This work provides a promising method for realizing optical frequency distribution over thousands of kilometers by using fiber links.

Robust free-space optical frequency transfer in time-varying link distances conditions

Future inter-satellite clock comparison on high orbit will require optical time and frequency transmission technology between moving objects.Here,we demonstrate robust optical frequency transmission under the condition of variable link distance.This variable link is accomplished by the relative motion of a single telescope fixed on the experimental platform to a corner-cube reflector(CCR)installed on a sliding guide.Two acousto–optic modulators with different frequencies are used to separate forward signal from backward signal.With active phase noise suppression,when the CCR moves back and forth at a constant velocity of 20 cm/s and an acceleration of 20 cm/s^(2),we achieve the best frequency stability of 1.9×10^(-16) at 1 s and 7.9×10^(-19) at 1000 s indoors.This work paves the way for future studying optical frequency transfer between ultra-high-orbit satellites.

Cascaded optical frequency transfer over 500-km fiber link using regenerative amplifier

We demonstrate a 300-km+200-km cascaded coherent phase transfer via fiber link.The transfer is divided into a 300-km span and a 200-km span with independent phase locking loops,aiming to extend the phase control bandwidth of the whole link.The phase noise and transfer instability of the cascaded transmission are investigated and compared with those in the case of a single-span 500-km transfer.We achieve the transfer instabilities of 1.8×10^-14 at 1 s,8.9×10^-20 at 104 s for the 300-km+200-km cascaded transmission,and 2.7×10^-14 at 1 s for the 500-km single-span transfer.

Transmission Performance of the Optical Millimeter-wave Up-conversion Link Using a Phase Modulator

Numerically analyzed is the transmission performance of the optical millimeter （mm）-wave generated by frequency up-conversion via a phase modulator along the dispersive fiber. 60 GHz ram-wave subcarrier（SC） signals can be obtained after fiber transmission, simultaneously, the phase-modulated signals can be converted to the intensity-modulated ones. The numerical results show that the optical ram-wave at fading loops has better performance, and the eye diagram still keeps open when optical mm-wave signal is transmitted over 98 km.

Design of Bore Diameter Measuring System with Optical Fiber Link

The principle of amplitude modulation type bore diameter measuring system with optical fiber link is described and a realized method is given.

Coherent Transfer of Optical Frequency over 112 km with Instability at the 10^(-20) Level

We demonstrate optical-carrier transfer over a 112-km single-span urban fiber link, By actively compensating the phase noise induced along the fiber link, a noise suppression of 55 dB at 1 Hz is obtained. A fractional frequency instability of 2.5× 10^-16 at i s is achieved, and reaching 7.5× 10^-20 at 10000 s. The system is stable and able to run for a long time. This work will contribute to optical frequency distribution and remote comparison among atomic clocks.

Study on the optical property and biocompatibility of a tissue engineering cornea

AIM: To study the optical property and biocompatibility of a tissue engineering cornea. METHODS: The cross-linker of N- (3-Dimethylaminoropyl)-N'ethylcarbodiimide hydrochloride (EDC)/ N-Hydroxysuccinimide (NHS) was mixed with Type I collagen at 10% (weight/volume). The final solution was molded to the shape of a corneal contact lens. The collagen concentrations of 10%, 12.5%, 15%, 17.5% and 20% artificial corneas were tested by UV/vis-spectroscopy for their transparency compared with normal rat cornea. 10-0 sutures were knotted on the edges of substitute to measure the corneal buttons's mechanical properties. Normal rat corneal tissue primary culture on the collagen scaffold was observed in 4 weeks. Histopathologic examinations were performed after 4 weeks of in vitro culturing. RESULTS: The collagen scaffold appearance was similar to that of soft contact lens. With the increase of collagen concentration, the transparency of artificial corneal buttons was diminished, but the toughness of the scaffold was enhanced. The scaffold transparency in the 10% concentration collagen group resembled normal rat cornea. To knot and embed the scaffold under the microscope, 20% concentration collagen group was more effective during implantation than lower concentrations of collagen group. In the first 3 weeks, corneal cell proliferation was highly active. The shapes of cells that grew on the substitute had no significant difference when compared with the cells before they were moved to the scaffold. However, on the fortieth day, most cells detached from the scaffold and died. Histopathologic examination of the primary culture scaffold revealed well grown corneal cells tightly attached to the scaffold in the former culturing. CONCLUSION: Collagen scaffold can be molded to the shape of soft contact corneal lens with NHS/EDC. The biological stability and biocompatibility of collagen from animal species may be used as material in preparing to engineer artificial corneal scaffold.

基于边缘计算的高速光纤通信链路时延估计研究

由于未对接收信号进行去噪处理,导致光纤通信链路时延估计存在估计误差大、准确率低的问题,为了解决方法中存在的问题,提出基于边缘计算的高速光纤通信链路时延估计方法。通过边缘计算设计了高速光纤通信网络架构,基于网络架构中的边缘计算层,通过直射链路的方式构建高速光纤通信链路模型,接收光信号,并使用广义相关算法对接收到的信号进行去噪处理,根据去噪处理结果,结合卡尔曼滤波方法与Round-trip算法估计信号时延。实验结果表明,所提方法的高速光纤通信链路时延估计准确率高、效果好,具有较高的实际应用价值。

低轨卫星激光载荷配置及快速建链方法的研究

为了适应未来低轨卫星轻量化和低成本的发展趋势,满足星间激光快速建链的使用需求,对星间激光配置原则进行了分析,采用转台式激光载荷和固定式激光载荷相结合的载荷配置方式,分别用于异轨道面间和同轨道面内的星间建链,设计了基于在轨恒星标校、信标光辅助建链和光轴一致性的激光载荷快速星间建链方案,并介绍了全流程。结果表明,星间激光载荷建链时间小于30 s,可实现长时间的星间激光稳定跟踪通信。该研究结果有助于推动星间激光通信的发展和大规模在轨应用。

基于非相干光频域反射的多芯光纤网络链路缺陷智能检测

为了保证通信安全稳定、数据传输完整,提出了一种基于非相干光频域反射的多芯光纤网络链路缺陷智能检测。先构建多芯光纤网络数学模型,约束光纤节点映射和频谱分配,使频谱数量最少的同时占用的频隙数最大。然后利用分簇检测建立数据传输链路模型,得出通信传输函数,根据相关匹配滤波器调整链路,通过波特间隔均衡完成链路数据采集。最后运用非相干光频域反射步进频率调制产生的瑞利散射光波,结合傅里叶逆变换获得网络健康状况空间分布位置,实现多芯光纤网络链路缺陷智能检测。实验结果表明,所提方法能够准确检测出链路缺陷,对链路阻塞缺陷检测、链路平均故障风险检测率、链路频谱利用率缺陷检测误差分别小于0.4%、0.2%和0.5,且检测时长控制在1.5 s以内,可帮助网络及时恢复运行。

FSLASIK联合快速角膜交联术后角膜透明度的临床观察

目的研究飞秒激光辅助准分子激光原位角膜磨镶术(FSLASIK)联合快速角膜交联手术(CXL)矫正近视手术术后患者早期的角膜光密度(CD)、视力、屈光度的变化特点。方法回顾性临床研究。本研究筛选了2019年至2021年在本院行FSLASIK联合快速角膜交联手术矫正近视和散光的30例(60只眼)患者,进行回顾性的分析,分别于术前、术后1个月、术后3个月进行常规检查,检查项目包括屈光度、裸眼视力(UCVA)、裂隙灯检查和Pentacam眼前节分析仪。观察记录手术前后角膜光密度的变化;观察记录等效球镜度数(SE)的变化,数据统计完成后,采用IBM SPSS 24.0统计软件进行分析,通过KolmogorovSmirnov测试对各组数据进行正态性检验。对符合正态分布的数据进行重复方差检验,进一步两两比较采用LSDt检验,对于不符合正态分布的采用Friedman检验分析。结果(1)术后1个月UCVA与术前最佳矫正视力(BCVA)相比,略微降低(P<0.05)。术后3个月UCVA与术后1个月UCVA相比差异无统计学意义(P>0.05)。术后3个月UCVA与术前BCVA相比,差异无统计学意义(P>0.05)。(2)术后等效球镜度明显降低,较术前差异有统计学意义(P<0.05),术后1个月与术后3个月的SE之间差异无统计学意义(P>0.05)。(3)从整体光密度上看,术后1个月的角膜光密度与术前相比差异无统计学意义。术后3个月的角膜光密度与术前相比略微降低(P<0.05),术后3个月与术后1月相比略微降低(P<0.05)。(4)从不同直径范围的角膜光密度上看,术后1个月,角膜直径0~2 mm、2~6 mm区域内的角膜光密度与术前相比略微提高(均P<0.05),角膜直径6~10 mm内的角膜光密度与术前相比略降低(P<0.05);术后3个月,在角膜直径0~2 mm、2~6 mm区域内的角膜光密度与术前比差异均无统计学意义;角膜直径6~10 mm区域内的角膜光密度与术前相比略微降低(P<0.05)。(5)从不同分层的角膜光密度上看,术后1个月,角膜前层(前120μm)和角膜后层(后60μm)的角膜光密度与术前相比差异无统计学意义(P>0.05);角膜中央层的角膜光密度与术前相比略微降低(P<0.05)。术后3个月,角膜前层、中央层、后层角膜光密度与术前相比均略微降低(均P<0.05)。结论FSLASIK Xtra术后早期可以维持较好的角膜透明度,具有较好的安全性、有效性与准确性。

基于异步FIFO的Camera Link数字图像光纤传输技术

为满足数字图像的远距离传输需求,设计用于传输Camera Link接口数字图像的光纤通讯系统。系统分为发送和接收两个部分,分别负责Camera Link数字图像到光信号的转化以及相应的逆变换过程。采用Cyclone I EP1C12 FPGA作为发送和接收板卡的逻辑控制核心。在发送板卡的FPGA内设计逻辑控制模块,操纵两个异步FIFO(先入先出队列),将接收到的数字图像缓存,用本地时钟读取后再进行串行化转换。在不改变数字图像时序关系的前提下,用本地时钟替换原有的像素时钟,消除像素时钟不稳定性对后续传输影响。实验表明,利用该技术可以有效提升光纤传输系统的适应性、稳定性,改善、消除由像素时钟抖动造成的传输图像抖动现象。

红外Cameralink相机合成信号源设计

光电跟踪设备与控制舱之间图像数据和控制信息的传输对光电设备正常工作是至关重要的。为了在实验室完成对光电跟踪设备的传输系统的模拟调试,设计了图像数据和附加信息的合成信号源。本设计基于CameraLink接口的相机,以Altera公司的FPGA为核心,配合CameraLink接口电路、附加信息的串口转换电路完成硬件设计;FPGA采用两个内部DPRAM配合工作,均使用不同读写时钟,通过控制读写使能和地址变换完成图像数据和附加信息的逻辑设计。结果显示系统在外同步信号控制下,正确完成信息合成,可由图像采集卡正确采集和显示。

基于融合中间特征网络的视盘和视杯联合分割

针对视盘和视杯联合分割中视杯分割精度较差的问题,提出了一种融合编码与解码中间特征的U型网络(encode-decode middle feature fusion U-Net,EMFF-Net)。EMFF-Net使用预训练的ResNet34作为编码结构,在编码结构后加入密集空洞卷积和金字塔池化模块以产生复合感受域的特征,并使用交叉注意力连接替换U型网络结构中的跳跃连接。交叉注意力连接融合了编码特征与解码特征,通过通道注意力模块和空间注意力模块提取融合特征的信息用于强化解码特征,减小了解码特征与编码特征的语义沟壑。强化后的解码特征与编码特征再次融合后,通过解码结构输出视盘和视杯的联合分割结果。实验结果表明,与其他常用的分割方法相比,EMFF-Net的视盘和视杯联合分割效果较好,视杯分割性能有明显提升。

持续性灾害下风险感知的光网络业务恢复算法

【目的】地震等自然灾害具有持续性和大范围的特性。灾害在发生过程中会持续性损伤光网络的链路资源,造成其链路风险不断变化。面对持续变化的链路风险,业务恢复规划不当可能导致恢复业务再次发生故障。从业务角度来看,重复故障将导致数据传输的多次中断,且随着灾害发生,后续的链路状态损伤加剧可能导致无法恢复此业务。从网络管控方面来看,重复恢复会造成算路资源浪费,占用其他业务的恢复资源。同时,由于业务传输的数据重要性不同,不同业务对传输可靠性的需求存在差异,在发生故障时,高重要度业务应优先恢复。因此,在大规模持续性灾害场景下,综合考虑灾害对链路风险的持续性影响以及不同业务对路径可靠性需求的差异性进行业务恢复是一个值得研究的问题。文章针对此问题提出了一种持续性灾害下基于链路风险感知的业务恢复算法——动态链路风险重路由算法(DLRRA)。【方法】首先,针对业务重要度和链路风险,文章建立了业务重要度与链路风险评估模型,并在此基础上提出了优化目标路由可靠度。DLRRA结合优化目标充分考虑了灾害对链路持续性影响造成的链路风险度变化,通过优先为高重要度的故障业务分配低风险的恢复资源,避免了在灾害持续发生过程中同一高重要度业务发生2次故障的风险。【结果】仿真结果表明,DLRRA恢复的首次业务较传统算法的2次故障概率降低了11%,且在高负载下的平均重要度提高了10%。【结论】因此,该算法有效避免了持续性故障造成的业务多次中断带来的损失,保证了重要业务在灾害环境中的持续稳定运行。

基于Aurora及CameraLink的高速数字图像传输

以光纤为载体,采用Aurora协议,接收远端的高速红外视频图像数据,并对接收数据进行解码、转换为Camera Link接口规范的信号格式,实现高帧频、高分辨率的图像数据的接收、解码和重编码,完成视频图像的传输、采集与显示。并用IBERT对光纤通讯通道进行测试,误码率达到10-12以下,完全满足系统的需求。

OMRON Control Link总线和PLC在隧道群监控系统中的实现

以云南元(江)磨(黑)高速公路段隧道群监控系统的实践为例,介绍了OMRON Control Link总线和PLC在高速公路隧道群监控系统中的一种实现方案。

基于DLP Link的3D统一帧序光通信同步技术

主动快门式3D技术的关键在于左右眼帧序的同步,尤其在无线及多人观看的条件下,帧序同步仍存在着很多问题。提出了一种在DLP Link 3D投影显示平台上利用红外光通信实现统一帧序同步的解决方案,旨在进一步提高DLP Link主动快门3D技术的易用性和灵活性。

基于G-Link的实验数据采集传输系统

详细介绍了一个基于G-Link的高速光纤数据传输系统;分析了以HDMP-1022/HDMP-1024为核心的光纤链路的基本构成和配置、激光管驱动电路、CIMT编码等内容。并利用G-Link设计了一个应用在风洞实验中的16通道数据采集和传输系统。

基于子波变换的相干光通信链路窄带干扰信号辨识研究

光通信链路上除了窄带干扰信号外,还存在其他噪声干扰源,这些噪声信号可能会掩盖或干扰窄带干扰信号的特征,增加了辨识的困难,为此提出基于子波变换的相干光通信链路窄带干扰信号辨识方法。通过光通信链路函数获取光通信信号,并对采集到的信号展开子波变换处理,去除信号噪声的同时保证通信信号质量。根据干扰类型建立干扰信号的专家知识图谱,利用卷积神经网络构建干扰信号辨识模型,将子波变换处理后的通信信号输入干扰信号辨识模型中开展特征提取,并根据提取特征结合专家知识图谱判断信号属于窄带干扰信号的概率,从而完成光通信链路窄带干扰信号的精准辨识。实验结果表明,利用该方法开展光通信链路窄带干扰信号辨识时,辨识精度高、辨识性能好,具有较高的实际应用价值。