LAPPED TRANSFORM DOMAIN INTERFERENCE EXCISION USING MODIFIED MEDIAN FILTER

A novel communication receiver which uses lapped transform(LT) incorporating modified median filter(MMF) algorithm was designed for narrow band interference(NBI) excision.Comparing to traditional Fourier Transform,LT has longer basis vectors,less spectral leakage,thus better frequency resolution.The LT domain MMF algorithm takes full advantages of the direct sequence spread spectrum signal,as well as the characteristics of LT,performs the transform domain filtering twice.The first filtering locates the position of interference and mitigates most of them.The second filtering is performed in a small neighborhood of the located interference.So LT domain MMF algorithm can completely mitigate the interference without distorting the desired signal.The simulation results demonstrate the improved BER(Bit Error Rate)performance and increased robustness of our receiver.

Modulated Lapped Biorthogonal Transform for Non-orthogonal Narrowband Interference Excision in Spread Spectrum Communications

Traditional lapped transform domain excision techniques obtain good performance at the expense of increased processing delay. Extension of transform domain filtering techniques to the lapped biorthogonal transform domain can help solve the problem. By incorporating biorthogonality into the lapped transforms, more flexibility is obtained in the design of windows. Thus transform bases with better stopband attenuation can be generated by designing windows, but not by increasing the overlapping factor. In this paper, a new modulated lapped biorthogonal transform (MLBT) with optimized windows is introduced for efficient compression of multi-tone interfering signal energy. The bit error rate (BER) performance of the receiver employing the proposed MLBT excision technique is analyzed and compared with that of the lapped transform domain excision-based receivers. Simulation results demonstrate the improved performance and increased robustness of the proposed technique.

Experimental investigation of subsurface damage depth of lapped optics by fluorescent method

Subsurface defects were fluorescently tagged with nanoscale quantum dots and scanned layer by layer using confocal fluorescence microscopy to obtain images at various depths. Subsurface damage depths of fused silica optics were characterized quantitatively by changes in the fluorescence intensity of feature points. The fluorescence intensity vs scan depth revealed that the maximum fluorescence intensity decreases sharply when the scan depth exceeds a critical value. The subsurface damage depth could be determined by the actual embedded depth of the quantum dots. Taper polishing and magnetorheological finishing were performed under the same conditions to verify the effectiveness of the nondestructive fluorescence method. The results indicated that the quantum dots effectively tagged subsurface defects of fused-silica optics, and that the nondestructive detection method could effectively evaluate subsurface damage depths.

Strengthening strategy for high-performance friction stir lap welded joints based on 5083 Al alloy

During aircraft,ship,and automobile manufacturing,lap structures are frequently produced among Al alloy skins,wall panels,and stiffeners.The occurrence of welding defects severely decreases mechanical properties during friction stir lap welding(FSLW).This study focuses on investigating the effects of rotation rate,multipass welding,and cooling methods on lap defect formation,microstructural evolution,and mechanical properties.Hook defects were eliminated by decreasing welding speed,applying two-pass FLSW with a small welding tool,and introducing additional water cooling,thus leading to a remarkable increase in effective sheet thickness and lap width.This above strategy yielded defect-free joints with an ultrafine-grained microstructure and increased tensile shear force from 298 to 551 N/mm.The fracture behavior of FSLW joints was systematically studied,and a fracture factor of lap joints was proposed to predict their fracture mode.By reducing the rotation rate,using two-pass welding,and employing additional water cooling strategies,an enlarged,strengthened,and defect-free lap zone with refined ultrafine grains was achieved with a quality comparable to that of lap welds based on 7xxx Al alloys.Importantly,this study provides a valuable FSLW method for eliminating hook defects and improving joint performance.

TGF-β潜态相关肽及其截短体抑制TGF-β1诱导的LX-2细胞纤维化研究

目的转化生长因子β(transforming growth factor-β,TGF-β)潜态相关肽(latent assotiated peptide,LAP)及其截短体抑制TGF-β1诱导的LX-2细胞纤维化研究。方法LAP全长命名为LAP-F,LAP截短体命名为LAP-B。用TGF-β1对LX-2处理进行纤维化模型的建立。分组后分别加入LAP-F和LAP-B多肽。control组:在正常情况下进行培养;TGF-β组:加入终浓度10 ng/mL的TGF-β1;TGF-β+LAP-F组:造模后加入终浓度60μg/mL的LAP-F;TGF-β+LAP-B组:造模后加入终浓度60μg/mL的LAP-B多肽。通过Western blot进行纤维化指标FN和α-SMA的蛋白水平检测。细胞免疫荧光实验检测细胞中FN和α-SMA的蛋白水平。结果Western blot结果显示,与control组细胞相比,TGF-β组细胞中纤维化相关蛋白FN的蛋白表达水平明显升高(P<0.001),纤维化相关蛋白α-SMA的蛋白表达也明显升高(P<0.01)。与TGF-β组相比,TGF-β+LAP-B组细胞中FN的蛋白表达明显降低(P<0.01),α-SMA的蛋白表达也明显降低(P<0.01)。与TGF-β组相比,TGF-β+LAP-F组细胞中FN的蛋白表达水平明显降低(P<0.01),α-SMA的蛋白表达水平明显降低(P<0.01)。与TGF-β组相比,TGF-β+LAP-F组细胞中FN和α-SMA蛋白荧光强度更低。免疫荧光的结果显示与control组细胞相比,TGF-β组细胞中FN和α-SMA的蛋白荧光强度更高,这意味着纤维化相关蛋白表达增多。与TGF-β组相比,TGF-β+LAP-B组细胞中FN和α-SMA蛋白荧光强度更低。与TGF-β组相比,TGF-β+LAP-F组细胞中FN和α-SMA蛋白荧光强度更低。结论LAP-F和LAP-B两种多肽都具有抗LX-2细胞纤维化能力,为后续研究提供基础。

Photo-responsive Carboxymethyl Chitosan/Laponite Hydrogel as a Potential Spinal Cord Injury Scaffold:Characterization and Cytocompatibility Study

We synthesized photo-responsive carboxymethyl chitosan(CMC-MA)via free radical polymerization and utilized nanoclay laponite(LAP)as an inorganic crosslinking agent to develop an injectable and 3D-printable CMC-MA/LAP hydrogel.We determined the optimal ratio of 2.5 w/v%CMC-MA/7.5 w/v%LAP based on injection molding,compression modulus,swelling properties,rheological properties,and 3D printing properties of the hydrogel system.In-vitro cytocompatibility experiments showed that both CMC-MA and CMC-MA/LAP hydrogel had no inhibitory effect on cell proliferation and can promote cell growth when cultured on the surface of the hydrogel matrix.Moreover,the hydrogel containing LAP particles significantly facilitated cell adhesion(>60%)compared with the hydrogel without LAP(20%).Our findings demonstrate that the CMC-MA/LAP hydrogel has great potential for tissue repair in neural tissue engineering.

Bulging Distortion of Austenitic Stainless Steel Sheet on the Partially Penetrated Side of Non-Penetration Lap Laser Welding Joint

Non-penetration laser welding of lap joints in austenitic stainless steel sheets is commonly preferred in fields where the surface quality is of utmost importance.However,the application of non-penetration welded austenitic stainless steel parts is limited owing to the micro bulging distortion that occurs on the back surface of the partial penetration side.In this paper,non-penetration lap laser welding experiments,were conducted on galvanized and SUS304 austenitic stainless steel plates using a fiber laser,to investigate the mechanism of bulging distortion.A comparative experiment of DC01 galvanized steel-Q235 carbon steel lap laser welding was carried out,and the deflection and distortion profile of partially penetrated side of the sheets were measured using a noncontact laser interferometer.In addition,the cold-rolled SUS304 was subjected to heat holding at different temperatures and water quenching after bending to characterize its microstructure under tensile and compressive stress.The results show that,during the heating stage of the thermal cycle of laser lap welding,the partial penetration side of the SUS304 steel sheet generates compressive stress,which extrudes the material in the heat-affected zone to the outside of the back of the SUS304 steel sheet,thereby forming a bulge.The findings of these experiments can be of great value for controlling the distortion of the partial penetrated side of austenitic stainless steel sheet during laser non-penetration lap welding.

Model of Mediating Determinants of Time Differences in INDYCAR

The IndyCar series distinguishes itself by providing the same design and operation of the single-seater to its pilots.The difference in times is then attributable to the skills of the drivers,but considering the data from the races could test this assumption.The objective of this work was to establish a trajectory model to predict race times.A cross-sectional,correlational,and explanatory work was carried out with a sample of 18,474 records in the period from 2020 to 2023 of the IndyCar series.The results show that the time span predicts the time differences.In relation to the studies of acceptance of the technology,the adjustment of this to human capacities to explain the time differences in the series of racing cars is discussed.

Structural Design of Roadbed and Pavement in Transition Section of Roads and Bridges

As the lifeline of social development,road and bridge projects are the main channel to realize resource transportation and economic circulation.Ensuring the quality of road and bridge project construction is crucial for the development of society,the economy,and people’s livelihoods.This paper studies the design of roadbed pavement structures in road and bridge transition sections.It aims to provide technical references and significance for China’s road and bridge engineering design and construction units,promoting scientific and standardized design in these actions.This will contribute to the safety and stable operation of road and bridge projects,offering effective technical support.Furthermore,it seeks to foster the sustainable and healthy development of China’s road and bridge engineering on a macro level.

中国南方暴雨野外试验中尺度气象分析场的建立及其质量评估

利用武汉暴雨研究所从美国引进的LAPS中尺度分析系统,将2008年和2009年5—7月中国南方暴雨野外科学试验(SCHeREX)中所采集的观测资料进行融合、同化,生成了华南、华中、江淮和长江三角洲4个观测区的空间分辨为5 km、时间分辨为3 h的SHCeREX中尺度气象分析场。文中从两方面对SCHeREX中尺度分析场的质量进行了评估分析。首先,根据野外试验期间在4个观测区出现的暴雨日,结合观测的雷达回波和卫星云图云顶亮温(TBB)资料与SCHeREX中尺度分析资料进行统计分析与比较,结果表明,SCHeREX中尺度分析资料对中尺度强对流系统具有很强的再现能力。同时,以探空观测资料为基准,分析计算了SCHeREX中尺度分析场的平均偏差、平均均方根误差及其随高度的分布,分析结果表明SCHeREX中尺度分析场的位势高度、温度、相对湿度、风向和风速的分析误差均在观测误差范围内,尤其是SCHeREX中尺度分析场700—925 hPa位势高度的平均分析误差为45 gpm,温度的平均分析误差为1.0-1.1℃,相对湿度的平均分析误差不超过20%,风速的平均误差为1.5—2.0m/s,风向为20°—25°。

中尺度分析系统LAPS应用雷达资料的个例研究

武汉暴雨所引进国际先进的中尺度分析系统LAPS,经成功本地移植后,该系统能融合华中区域多种非常规观测资料,提供包含丰富中尺度信息的高分辨率中尺度分析场。针对一次梅雨期强降水过程,利用LAPS系统进行中尺度分析,通过对比该系统融合多普勒雷达资料前后各种物理量场的差异,研究了多普勒雷达资料在该系统中的作用。结果表明,LAPS融合雷达径向风后,对风场的改善比较明显,能揭示流场的中尺度信息。融合多种资料后的LAPS中尺度分析场比NCEP再分析场更接近实况,能清楚地反映中尺度特征,可作为分析此次强降水过程发生、发展的工具。融合雷达资料反射率后,LAPS云分析能提供与实况接近的较细致的云信息,有利于了解暴雨过程中云参数的演变,同时也为数值模式热启动提供条件。

尿mAlb/Cr、NAG、LAP检测对早期糖尿病肾病的诊断价值

目的研究糖尿病患者的尿液微量白蛋白/肌酐(mAlb/Cr)、N-乙酰-β-D氨基葡萄糖苷酶(NAG)、亮氨酸氨基肽酶(LAP)与早期糖尿病肾病(DN)的诊断价值关系。方法将216例糖尿病患者分为两组:糖尿病无肾病组与早期糖尿病肾病组,采用免疫比浊法测定尿微量白蛋白/肌酐,采用速率法检测尿NAG及LAP值,并与49例健康对照组比较。结果糖尿病肾病患者尿mAlb/Cr、NAG、LAP明显高于对照组(P<0.01),且尿微量白蛋白/肌酐与NAG,LAP成正相关(r=0.909,r=0.410,P<0.01)。结论检测尿mAlb/Cr、NAG、LAP有助于尿蛋白阴性的糖尿病肾病的早期诊断。

基于卫星资料同化和LAPS-WRF模式系统的云天太阳辐射数值模拟改进方法

太阳能光伏发电已成为仅次于水电和风能的第三大可再生能源,光伏发电受云量时空变化的影响较大,因此准确模拟云天太阳辐射的时空变化对电网安全运行至关重要。围绕如何减小中尺度气象模式的云初始场误差,进而改进云天的太阳辐射模拟这一关键科学问题,本文通过研究基于卫星资料同化的LAPS(Local Analysis Prediction System)多时间层三维云分析同化方法,改进三维云结构,并将LAPS模式输出结果作为WRF(Weather Research and Forecasting)模式的初始场,模拟了2008年1月及夏季(6~8月)北京地区的总云量和总辐射的时空分布,重点分析了多云和有降水天气过程总辐射的模拟改进效果及其原因。结果表明,同化前后的总云量模拟值与观测值的时间变化趋势基本一致,但大部分时次总云量的模拟值低于观测值;大部分多云及降水时段同化后总云量模拟值较接近于实测值。1月晴天、多云天以及夏季晴天同化前后总辐射模拟值与实测值的时间变化趋势较一致,但同化前后两者的相关性差异不明显;晴天条件下同化前后总辐射模拟值均低于实测值,1月多云条件下多数时段同化后总辐射模拟误差减小不明显,与总云量的改进效果不显著有关。夏季多云、有降水及6月典型降水三种天气条件下同化前后总辐射模拟值与观测值的相关性稍差,同化后两者的相关性较同化前有所改进,尤其是6月典型降水过程改进效果较明显;同化前总辐射模拟误差较大,而同化后误差显著减小,尤其是6月典型降水过程同化后均方根误差和平均相对误差较同化前分别减小了102.6 W m^(-2)和355.9%,最大相对误差减小更显著;同化后总辐射模拟误差小于同化前的比例高达75%,即大部分时刻同化后模拟误差小于同化前。多云和有降水天气过程总辐射模拟效果的显著改进与总云量的改进密切相关,即同化后总云量模拟值增加,云的反射和散射作用增强,导致模拟总辐射减小,即更接近于实测总辐射值。研究结果对于多云和降水天气条件下太阳辐射的模拟效果改进、太阳能资源客观评估以及光伏电站的发电量预测具有一定的科学和实际应用价值。

AREM模式的热启动数值模拟——以2007年7月13日暴雨过程为例

在成功移植LAPS云分析系统的基础上,实现了AREM暴雨中尺度数值预报模式的有云状态运行,并以2007年7月13日我国中部地区的一场大暴雨过程为例,进行了AREM模式冷、热启动的数值试验研究。结果表明:(1)模式冷启动0～6h内模拟的降水强度明显偏弱,通常只有不足5mm的降水产生;而模式热启动在模式积分的初始阶段就产生出较强的降水,改善了模式的SPIN-UP问题。(2)模式热启动对0～6h内云和降水预报的影响比较显著,之后影响减小,但对6～24h降水预报仍具有正影响。(3)在暖云方案下,云水初值比雨水初值对降水预报的影响更为显著。

LAPS分析场资料在暴雨中尺度分析中的应用

利用常规地面探测、高密度自动雨量站、高空探测资料,并且融合多普勒雷达拼图产品,LAPS可输出比较精细的分析场。针对2008年6月21～22日一次暴雨天气过程,基于LAPS不同时空分辨率的中尺度分析场,分析了雷达回波、风场、高度场以及物理量场,比较不同时空分辨率LAPS分析场之间的差异。结果表明:(1)此次强降水过程可划分为2个阶段。第一阶段雨量集中在沿淮地区,呈纬向带状分布;第二阶段集中在大别山地区,其雨强更大,是中尺度局地性降水。(2)大别山区的地形抬升对低涡增强或减弱的演变具有重要影响,是低涡增强、发展的触发机制。当低涡接近大别山区时,低涡明显加强;当低涡逐渐远离大别山区时,低涡则减弱。(3)第一阶段有风的切变线,第二阶段有风的辐合,说明风场的辐合和切变促进云和降水的发生、发展,因此它们是产生暴雨的触发条件。(4)高分辨率的LAPS结果对于风场和云的变化刻画地更为细致。雷达回波发生在风的切变线处,或者风场辐合处;大别山区暴雨过程中,在其西侧有闭合性的涡旋,低涡缓慢东移,回波位于涡旋东侧,强降水发生在低涡东侧。(5)K指数、沙氏指数、整层可降水量与这次大别山地区暴雨过程具有较好的对应关系,与暴雨落区基本相同。这些指数在暴雨落区预报与应用方面具有一定参考价值。

基于LAPS分析的WRF模式逐时气温精细化预报释用

为了满足湖北电力和华中电力系统对逐时气温预报的需求,开展气温精细化预报服务,基于局地分析预报系统(LAPS)分析融合的WRF模式精细化数值预报产品,对2011年4月1日至7月20日湖北省内及周边区域站点的逐时气温进行精细化预报释用。比较几种模式释用方案,结果表明:WRF模式预报趋势较好,预报准确率评分50%左右,日间08-20时预报误差小于夜间,最高气温(T_(max))评分54%,最低气温(T_(mm))评分为44%。通过模式释用,提高了预报准确率,可使预报评分提高到60%～70%,对T_(max)评分达到57%,对T_(mm)评分最高达到74%。分时刻建立MOS方程能够有效降低夜间20-07时的预报误差。将实况最高气温引入Kalman滤波方程能进一步提高预报准确率。

珠峰地区大气边界层结构的一次观测研究

利用2005年8月31日～9月5日中国科学院珠穆朗玛峰综合观测研究站的LAP3000风廓线仪的观测资料，分析了该地区气温日变化和大气边界层风廓线结构。结果表明，该地区1500m以下大气边界层主要受高原山地地形及珠峰地区冰川环境的影响，冰川风可能是引起观测期间下午强风天气的主要原因；1500m以上高空受西风气流影响程度增大，但东南风仍占有一定比例。

LAPS与STMAS地面气温融合效果对比试验

利用局地分析和预报系统LAPS(Local Analysis and Prediction System)和多时空尺度分析系统STMAS(Space Time Multiscale Analysis System)对北京、华北和中国3个不同区域的区域自动站观测资料和全球预报系统GFS(Global Forecast System)背景场资料,在1,5,10和20 km等4种分辨率的网格上进行融合试验,从算法的角度对比分析LAPS和STMAS在融合效果上的差异,并利用国家级自动站数据对LAPS和STMAS一年内逐时融合结果进行独立性检验。结果表明,在东部观测密集区,LAPS和STMAS都有不错的表现,STMAS能够解析出观测中细小的特征,融合结果更接近实际观测,相对而言LAPS则平滑作用明显,容易损失观测信息;在资料稀疏地区,STMAS的优势更为明显,由粗网格到细网格逐层分尺度进行分析,使粗网格尺度的误差得到快速修正,避免不同尺度观测信息的混淆,青藏高原等地区的融合结果得到有效改善。此外,地形高度调整的不合理性对LAPS、STMAS在山区的融合效果有所影响。

LAPS同化GPS/PWV资料在暴雨预报中的应用研究

利用LAPS(Local Analysis and Prediction System)系统同化GPS(Global Positioning System)/PWV(Precipitable Water Vapor)资料,分析GPS/PWV资料对LAPS输出场的影响,并结合WRF模式,将LAPS输出场作为其初始场进行降水预报,进一步考察GPS/PWV资料对降水预报的作用。选取2009年6月28日湖北地区的一次强降水过程,设计三种方案进行试验。结果表明:同化GPS/PWV资料后对LAPS湿度场有显著的改善,而对高度场及风场的作用则不明显;GPS/PWV资料对区域平均可降水量的影响比雷达资料大一个量级;与此同时,利用多种评分方法对6 h累计降水做了检验,分析结果表明同化GPS/PWV资料能够有效地改进WRF模式的初始场,增加丰富的中小尺度信息,并对随后的确定性预报产生正影响。

多源观测数据在LAPS三维云量场分析中的应用

该文将我国FY-2C气象卫星通道数据、地面观测数据、雷达数据融合进入LAPS(Local Analysis PredictionSystem)三维数据分析系统中,获得了三维云量场分布,并采用北京地区2009年11月9日08:00(北京时,下同)和华南地区2008年6月12日14:00个例,设计了5种试验对LAPS融合的云量场进行分析。结果表明:LAPS云分析中,地面观测对云底结构起主要订正作用,雷达观测对云中、低部信息起主要订正作用,而卫星云图数据对云顶分布订正效果显著,卫星资料是获得客观三维云量场不可或缺的数据。