Added Benefit of the Early-Morning-Orbit Satellite Fengyun-3E on the Global Microwave Sounding of the Three-Orbit Constellation

The three-orbit constellation can comprehensively increase the spatial coverage of polar-orbiting satellites,but the polar-orbiting satellites currently in operation are only mid-morning-orbit and afternoon-orbit satellites.Fengyun-3E(FY-3E)was launched successfully on 5 July 2021 in China.As an early-morning-orbit satellite,FY-3E can help form a complete three-orbit observation system together with the mid-morning and afternoon satellites in the current mainstream operational system.In this study,we investigate the added benefit of FY-3E microwave sounding observations to the midmorning-orbit Meteorological Operational satellite-B(Met Op-B)and afternoon-orbit Fengyun-3D(FY-3D)microwave observations in the Chinese Meteorological Administration global forecast system(CMA-GFS).The results show that the additional FY-3E microwave temperature sounder-3(MWTS-3)and microwave humidity sounder-2(MWHS-2)data can increase the global coverage of microwave temperature and humidity sounding data by 14.8% and 10.6%,respectively.It enables the CMA-GFS to achieve nearly 100% global coverage of microwave-sounding observations at each analysis time.Furthermore,after effective quality control and bias correction,the global biases and standard deviations of the differences between observations and model simulations are also reduced.Based on the Advanced Microwave Sounding Unit A and the Microwave Humidity Sounder onboard Met Op-B,and the MWTS-2 and MWHS-2 onboard FY-3D,adding the microwave sounding data of FY-3E can further reduce the errors of analysis results and improve the global prediction skills of CMA-GFS,especially for the southern-hemisphere forecasts within 96 hours,all of which are significant at the 95% confidence level.

Assimilation of Feng-Yun-3B Satellite Microwave Humidity Sounder Data over Land

The ECMWF has been assimilating Feng-Yun-3B （FY-3B） satellite microwave humidity sounder （MWHS） data over ocean in an operational forecasting system since 24 September 2014, It is more difficult, however, to assimilate microwave observations over land and sea ice than over the open ocean due to higher uncertainties in land surface temperature, surface emissivity and less effective cloud screening. We compare approaches in which the emissivity is retrieved dynamically from MWHS channel l [150 GHz （vertical polarization）] with the use of an evolving emissivity atlas from 89 GHz observations from the MWHS onboard NOAA and EUMETSAT satellites. The assimilation of the additional data over land improves the fit of short-range forecasts to other observations, notably ATMS （Advanced Technology Microwave Sounder） humidity channels, and the forecast impacts are mainly neutral to slightly positive over the first five days. The forecast impacts are better in boreal summer and the Southern Hemisphere. These results suggest that the techniques tested allow for effective assimilation of MWHS/FY-3B data over land.

Recent progress on space-borne microwave sounder pre-launch calibration technologies in China

The development processes and the application achievements of space-borne microwave sounder pre-launch calibration technologies in China are introduced briefly. Then, the general project plan for pre-launch calibration, the latest research achievements on the optimization and development of the microwave wide band calibration targets, emissivity measurement technologies and the system level uncertainty analysis of the laboratory, and the thermal/vacuum microwave sounder calibration system for ＂FY-3＂ meteorological satellite are reported, respectively. Finally, the key technological problems of the calibration technologies under researching are analyzed predictively.

Estimating the Correlated Observation-Error Characteristics of the Chinese FengYun Microwave Temperature Sounder and Microwave Humidity Sounder

In operational data assimilation systems, observation-error covariance matrices are commonly assumed to be diagonal.However, inter-channel and spatial observation-error correlations are inevitable for satellite radiances. The observation errors of the Microwave Temperature Sounder(MWTS) and Microwave Humidity Sounder(MWHS) onboard the FengYun-3A(FY-3A) and FY-3B satellites are empirically assigned and considered to be uncorrelated when they are assimilated into the WRF model's Community Variational Data Assimilation System(WRFDA). To assimilate MWTS and MWHS measurements optimally, a good characterization of their observation errors is necessary. In this study, background and analysis residuals were used to diagnose the correlated observation-error characteristics of the MWTS and MWHS. It was found that the error standard deviations of the MWTS and MWHS were less than the values used in the WRFDA. MWTS had small inter-channel errors, while MWHS had significant inter-channel errors. The horizontal correlation length scales of MWTS and MWHS were about 120 and 60 km, respectively. A comparison between the diagnosis for instruments onboard the two satellites showed that the observation-error characteristics of the MWTS or MWHS were different when they were onboard different satellites. In addition, it was found that the error statistics were dependent on latitude and scan positions.The forecast experiments showed that using a modified thinning scheme based on diagnosed statistics can improve forecast accuracy.

Latitudinal and Scan-dependent Biases of Microwave Humidity Sounder Measurements and Their Dependences on Cloud Ice Water Path

The relationship between differences in microwave humidity sounder(MHS)–channel biases which represent measured brightness temperatures and model-simulated brightness temperatures, and cloud ice water path(IWP) as well as the influence of the cloud liquid water path(LWP) on the relationship is examined. Seven years(2011–17) of NOAA-18 MHS-derived measured brightness temperatures and IWP/LWP data generated by the NOAA Comprehensive Large Array-data Stewardship System Microwave Surface and Precipitation Products System are used. The Community Radiative Transfer Model, version2.2.4, is used to simulate model-simulated brightness temperatures using European Center for Medium-Range Weather Forecasts reanalysis data as background fields. Scan-angle deviations of the MHS window channel biases range from-1.7 K to1.0 K. The relationships between channels 2, 4, and 5 biases and scan angle are symmetrical about the nadir. The latitudedependent deviations of MHS window channel biases are positive and range from 0–7 K. For MHS non-window channels,the latitudinal deviations between measured brightness temperatures and model-simulated brightness temperatures are larger when the detection height is higher. No systematic warm or cold deviations are found in the global spatial distribution of difference between measured brightness temperatures and model-simulated brightness temperatures over oceans after removing scan-angle and latitudinal deviations. The corrected biases of five different MHS channels decrease differently with respect to the increase in IWP. This decrease is stronger when LWP values are higher.

CFOSAT散射计海面后向散射系数误差及影响

仪器噪声(K_(pc))和地球物理噪声(K_(pg))是影响星载微波散射计后向散射系数(σ^(0))测量精度以及海面风场反演精度的关键因素.针对中法海洋卫星(CFOSAT)散射计(CSCAT),详细分析了K_(pc)和K_(pg)随海面风速、入射角、风单元网格分辨率以及离岸距离等因素变化的特征.结果表明,低风速条件下海面风场变异性较大,K_(pg)为σ^(0)测量误差的主导因素,而且风单元网格越大、海面风场的不均匀性越强,K_(pg)也就越大,而在高风速条件下,海面风场变异性较小,K_(pc)与K_(pg)贡献相当.此外,σ^(0)测量误差总体上随着离岸距离的减小而增大,表明近海岸区域的K_(pg)为散射计观测不可忽略的影响因子.研究结果揭示了星载微波散射计σ^(0)测量误差的影响因素,对CSCAT近海岸风场反演具有重要的指导意义.

微波治疗仪联合针对性护理在乳腺癌术后患者中的应用

目的探讨微波治疗仪联合针对性护理应用于乳腺癌术后患者的临床效果。方法选取2021年5月至2023年5月我院收治的64例乳腺癌手术患者,随机分为两组各32例。在常规护理的基础上,对照组给予针对性护理,观察组给予针对性护理联合微波治疗仪干预。比较两组的上肢水肿发生率和生活质量。结果干预期间,观察组的上肢水肿发生率为18.75%,显著低于对照组的43.75%(P<0.05)。干预1个月,观察组的功能领域得分显著高于对照组,症状领域得分显著低于对照组(P<0.05)。结论微波治疗仪联合针对性护理能够降低乳腺癌手术患者的术后上肢水肿发生率,提高其生活质量。

The deconvolution of lunar brightness temperature based on the maximum entropy method using Chang'e-2 microwave data

A passive and multi-channel microwave sounder onboard the Chang＇e-2 orbiter has successfully acquired microwave observations of the lunar surface and subsurface structure. Compared with the Chang＇e-1 orbiter, the Chang＇e-2 orbiter obtained more accurate and comprehensive microwave brightness temperature data, which are helpful for further research. Since there is a close relationship between mi- crowave brightness temperature data and some related properties of the lunar regolith, such as the thickness, temperature and dielectric constant, precise and high resolution brightness temperature data are necessary for such research. However, through the detection mechanism of the microwave sounder, the brightness temperature data ac- quired from the microwave sounder are weighted by the antenna radiation pattern, so the data are the convolution of the antenna radiation pattern with the lunar brightness temperature. In order to obtain the real lunar brightness temperature, a deconvolution method is needed. The aim of this paper is to solve the problem associated with per- forming deconvolution of the lunar brightness temperature. In this study, we introduce the maximum entropy method （MEM） to process the brightness temperature data and achieve excellent results. The paper mainly includes the following aspects： first, we introduce the principle of the MEM; second, through a series of simulations, the MEM has been verified as an efficient deconvolution method; and third, the MEM is used to process the Chang＇e-2 microwave data and the results are significant.

Assessment and Assimilation of FY-3 Humidity Sounders and Imager in the UK Met Office Global Model

China＇s FengYnn 3 （FY-3） polar orbiting satellites axe set to become an important sonrce of observational data for nu- merical weather prediction （NWP）, atmospheric reanalyses, and climate monitoring studies over the next two decades. As part of the Climate Science for Service Partnership China （CSSP China） prograln, FY-3B Microwave Humidity Sounder 1 （MWHS-1） and FY-3C MWHS-2 observations have been thoroughly assessed and prepared for operational assimilation. This represents the first time observations from China＇s polar orbiting satellites have been used in the UK＇s global NWP model. Since 2016, continuous data quality monitoring has shown occasional bias changes found to be correlated to changes in the energy supply scheme regulating the platform heating system and other transient anomalies. Nonetheless, MWHS-1 and MWHS-2 significantly contribute to the 24-h forecast error reduction by 0.3% and 0.6%, respectively, and the combination of both instruments is shown to improve the fit to the model background of independent sounders by up to 1%. The observations from the Microwave Radiation Imager （MWRI） also are a potentially significant source of benefits for NWP models, but a solar-dependent bias observed in the instrument half-orbits has prevented their assimilation. This paper presents the bases of a correction scheme developed at the Met Office for the purpose of a future assimilation of MWRI data.

MICROWAVE SENSOR DEVELOPMENT IN RECENT TWO YEARS IN CHINA

The development of microwave sensors in recent two years in China are in troduced with an emphasis on spaceborne sensors without the applications in cluded. The microwave sensors as the main payloads to be boarded on the future operational satellites, such as FY-3 meteorological satellites and HY-2 marine satellite are introduced with much in detail. Besides these, four new sensors are outlined, i.e. the imaging radar altimeter,synthetic aperture radiometer, and polarimetric radiometer. Two recently conducted flight experiment campaigns are also introduced with results shown.

Data processing and error analysis for the CE-1 Lunar microwave radiometer

The microwave radiometer （MRM） onboard the Chang＇ E-1 （CE-I） lu- nar orbiter is a 4-frequency microwave radiometer, and it is mainly used to obtain the brightness temperature （TB） of the lunar surface, from which the thickness, temperature, dielectric constant and other related properties of the lunar regolith can be derived. The working mode of the CE-1 MRM, the ground calibration （including the official calibration coefficients）, as well as the acquisition and processing of the raw data are introduced. Our data analysis shows that TB increases with increasing frequency, decreases towards the lunar poles and is significantly affected by solar illumination. Our analysis also reveals that the main uncertainty in TB comes from ground calibration.

应用风云三号D星微波数据估算北极海冰面积和边缘线的精度评估

风云三号D星搭载的微波成像仪(microwave radiation imager,MWRI)可提供被动微波数据以实现全北极尺度的海冰面积和海冰边缘线研究。基于MWRI数据获取北极海冰面积和海冰边缘线的相关研究较少,且精度验证工作不足。使用基于6种算法的MWRI数据的海冰密集度结果,提取北极的海冰面积和海冰边缘线,将专用传感器微波成像仪/探测仪(special sensor microwave imager/sounder,SSMIS)和先进微波扫描辐射计(advanced microwave scanning radiometer 2,AMSR2)数据作为对比,使用中分辨率成像光谱仪(Moderate-Resolution Imaging Spectroradiometer,MODIS)融合产品(2019年8月26日—12月31日)评估精度。结果表明,MWRI数据的海冰面积随时间变化的趋势与MODIS融合产品基本保持一致。MWRI提取的海冰边缘线相比SSMIS更接近MODIS融合产品获得的结果,均方根误差约为20~30 km。这些差异主要和数据间时空分辨率有关。总之,MWRI具有较优的性能,在北极海冰参数的监测研究中极具潜力。

微波治疗仪在小儿肺炎辅助治疗中的临床效果及对患儿症状改善时间的影响

目的探究对肺炎患儿应用微波治疗仪进行辅助治疗的临床效果及对患儿症状改善时间的影响。方法选择2021年8月至2022年8月在本院接受治疗的90例肺炎患儿纳入此次前瞻性研究,按照随机数字表法将其分别纳入对照组(45例)与观察组(45例)。对照组采取静脉用药、拍背排痰等对症治疗,观察组在对照组基础上应用微波治疗仪开展辅助治疗。比较两组症状改善时间,依据症状改善效率、X线影像评估疗效,并对比治疗前、治疗7 d后的炎症相关因子及血常规指标水平。结果观察组治疗总有效率为95.56%,高于对照组的80.00%(P<0.05)。观察组咳嗽消退、体温复常、肺部啰音消失时间短于对照组(P<0.05)。治疗7 d后,两组降钙素原(PCT)、C反应蛋白(CRP)水平低于治疗前,且观察组PCT、CRP水平低于对照组同期检测数据(P<0.05);两组白细胞计数(WBC)、中性粒细胞计数(NEUT)水平低于治疗前,且观察组WBC、NEUT水平低于对照组同期检测数据(P<0.05)。结论对肺炎患儿应用微波治疗仪进行辅助治疗,可减弱肺部炎性反应,改善肺部微循环,对缩短症状改善时间、提升疗效均有重要影响。

保妇康栓联合微波治疗仪应用于子宫颈糜烂患者的临床观察

目的:探讨采用微波治疗仪结合保妇康栓治疗子宫颈糜烂的临床效果。方法:选取2021年12月—2022年4月钟祥市中医院收治的90例子宫颈糜烂患者为研究对象,按随机数表法将其分成参照组和研究组,参照组45例采用微波治疗仪进行治疗,研究组45例采用保妇康栓联合微波治疗仪。比较两组治疗效果、症状持续时间、症候积分、血清学指标及不良反应发生情况。结果:研究组治疗总有效率高于参照组,不良反应发生率低于参照组,差异有统计学意义(P<0.05)。研究组白带异常、疼痛、接触性出血持续时间均短于参照组,差异有统计学意义(P<0.05)。治疗后,研究组各项症候积分明显低于参照组,差异有统计学意义(P<0.05)。治疗后,两组白细胞介素-1β(IL-1β)、白细胞介素-6(IL-6)和肿瘤坏死因子-α(TNF-α)水平均低于治疗前,且研究组均低于参照组,差异有统计学意义(P<0.05)。结论:保妇康栓联合微波治疗仪治疗子宫颈糜烂的效果确切,安全性高,可以有效提高生活质量。

风云气象卫星微波大气探测回顾与展望

基于风云三号(FY-3)三个批次极轨气象卫星微波湿度计的研制历程,取得的技术突破与研制进展,涵盖关键技术实现以及关键技术指标的设计与测试评估,微波湿度计在数值天气预报、台风暴雨等灾害性天气预报与监测等方面的科学应用,阐述了星载被动微波大气探测技术的提升。分析微波大气探测的研究现状与发展趋势,重点展望了极轨气象卫星微波大气探测在气象参数探测能力、探测精度、时空分辨率、应用效能等方面的潜力。对标世界气象组织(WMO)2040年愿景规划,针对中国风云五号新一代极轨气象卫星,提出了具有跨代表征的高性能新体制微波大气综合探测系统——高光谱微波大气探测仪,简要陈述了在轨定量化提升的技术途径与应用前景,为风云五号气象卫星微波大气探测载荷研制奠定基础。

中药熏蒸联合微波治疗仪治疗类风湿关节炎的临床观察

目的探讨类风湿关节炎患者采用中药熏蒸联合微波治疗仪的临床应用价值。方法选取2019年6月—2021年6月郑州市骨科医院收治的类风湿关节炎患者86例,以随机数字表法形式分为试验组和对照组各43例。对照组采用常规治疗联合微波治疗仪,试验组在对照组治疗基础上联合中药熏蒸治疗,均连续治疗1个月。比较两组临床疗效、治疗前后炎症指标(类风湿因子[RF]、血沉[ESR]、C-反应蛋白[CRP])、临床症状及Barthel指数(BI)评分。结果治疗后,试验组总有效率高于对照组(P<0.05);两组RF、ESR、CRP均低于治疗前,试验组均低于对照组(P<0.05);两组压痛关节数、晨僵时间及肿胀关节数均低于治疗前,试验组均低于对照组(P<0.05);两组BI评分均高于治疗前,试验组高于对照组(P<0.05)。结论中药熏蒸联合微波治疗仪治疗类风湿关节炎具有良好临床疗效,可有效降低炎症水平,提高生活质量。

微波治疗仪联合甲硝唑治疗盆腔炎的效果及对TNF-α、MCP-1、GM-CSF水平的影响

目的观察微波治疗仪联合甲硝唑治疗盆腔炎的临床效果。方法选取2020年1月至2021年5月我院接收的100例盆腔炎患者为研究对象,根据治疗方案不同将其分为对照组和观察组,各50例。对照组给予甲硝唑治疗,观察组在对照组基础上给予微波治疗仪治疗。比较两组的治疗效果。结果治疗后,观察组的肿瘤坏死因子-α(TNF-α)、单核细胞趋化蛋白-1(MCP-1)、粒细胞-巨噬细胞集落刺激因子(GM-CSF)、白细胞介素-1β(IL-1β)、白细胞介素-8(IL-8)水平低于对照组,差异具有统计学意义(P<0.05)。治疗后,观察组的白细胞分化抗原4阳性(CD4^(+))、白细胞分化抗原8阳性(CD8^(+))、CD4^(+)/CD8^(+)优于对照组,差异具有统计学意义(P<0.05)。观察组的治疗总有效率高于对照组,差异具有统计学意义(P<0.05)。随访后,观察组的36条简明健康调查量表(SF-36)各维度评分高于对照组,差异具有统计学意义(P<0.05)。结论微波治疗仪联合甲硝唑治疗盆腔炎的效果显著,能有效降低机体炎性因子水平,改善免疫功能,消除或缓解临床症状,提高生活质量。

微波治疗仪对慢性盆腔炎患者康复预后的影响

目的探讨微波治疗仪对慢性盆腔炎患者康复预后的影响。方法采用随机数字表法将萍乡市湘东区中医院于2021年1月至2022年1月收治的62例慢性盆腔炎患者分为两组,各31例。对照组接受药物(头孢唑林钠联合甲硝唑)治疗,观察组则在药物治疗基础上接受微波治疗仪治疗。比较两组的治疗效果、症状体征(腰腹部疼痛、白带异常、疲乏无力)消失时间及治疗前后血清炎症因子[血清超敏C反应蛋白(hs-CRP)、白细胞介素-6(IL-6)、白细胞介素-10(IL-10)]水平、生活质量[采用36条简明健康状况调查表(SF-36)评估],随访6个月并记录两组复发率。结果观察组治疗总有效率为93.55%,高于对照组的74.19%,差异有统计学意义(P<0.05)。观察组腰腹部疼痛、白带异常、疲乏无力的消失时间均短于对照组,差异有统计学意义(P<0.05)。观察组治疗后血清hs-CRP、IL-6、IL-10水平均低于对照组,差异有统计学意义(P<0.05)。观察组治疗后SF-36各维度评分均高于对照组,差异有统计学意义(P<0.05)。两组均完成6个月的随访,观察组复发率为3.23%,低于对照组的19.35%,差异有统计学意义(P<0.05)。结论微波治疗仪能够改善慢性盆腔炎患者的康复预后,促进症状改善,减轻炎症反应,提高生活质量,避免复发。

土壤三普指定方法测砷汞与行业标准比对探讨

时隔40年,我国终于在2022年迎来了全国第三次土壤普查,这40年来,我国经历了快越式发展,城乡加速融合,但是由于这40年来的不合理开发,环境也受到了巨大的影响,为全面掌握土壤资源状况,国家将全面展开第三次土壤普查。本次将根据土壤三普测定砷和汞指定用国家标准《土壤质量总汞、总砷、总铅的测定原子荧光法》(GB/T 22105-2008)和行业标准《土壤和沉积物砷、汞、硒、锑、铋的测定微波消解/原子荧光法》(HJ 680-2013)进行一次方法比较,寻求效益更好的科学技术,以便于之后使用。

土壤三普指定方法测砷和汞与行业标准比对探讨

为了全面掌握土壤资源状况,我国将全面展开第三次土壤普查。本次普查将根据土壤三普测定砷和汞指定用国家标准《土壤质量总汞、总砷、总铅的测定原子荧光法》(GB/T 22105-2008)和行业标准《土壤和沉积物汞、砷、硒、铋、锑的测定微波消解/原子荧光法》(HJ 680-2013)进行一次方法比较,以寻求效益更好的技术方法,方便今后的使用。