共查询到19条相似文献,搜索用时 156 毫秒
1.
利用GRACE时变重力位模型反演了2004年至2008年共60个月的全球陆地水存储量变化,并采用滑动年平均,对全球陆地水储量的长期性变化情况进行了分析,同时也推求了全球陆地水储量的季节性变化。研究表明,使用滑动年平均对GRACE重力位模型数据进行处理,可以较好地揭示全球陆地水储量的长期和季节性变化情况,其监测能力足以揭示几cm的等效水高变化。 相似文献
2.
利用GRACE 数据监测中亚地区陆地水储量动态变化的研究? 总被引:1,自引:0,他引:1
利用2003年1月至2013年1月10 yr 间的GRACE (Gravity Recovery And Climate Experiment)重力场恢复与气候实验重力卫星数据,辅以 TRMM (Tropical Rainfall Measuring Mission)/CMAP (Climate Prediction Center’s Merged Analysis of Precipitation)降水量数、NDVI (Normalized Difference Vegetation Index)数据、DEM (Digital Elevation Model)数据等多种数据源及诸多GIS (Geographic Information System)手段,分析了121个月内研究区陆地水储量的动态变化情况。研究结果表明:⑴自东向西研究区陆地水储量变化程度由微弱逐步变化为非常剧烈;⑵巴尔喀什湖域外流区、鄂毕河流域以及部分叶尼塞河中下游地区的陆地水储量持续增长趋势显著;⑶锡尔河流域、阿姆河流域的交界处、幼发拉底-底格里斯河流域和里海西南海岸交界范围内,陆地水储量呈现了急剧降低的趋势;⑷降水量、蒸散发、地表植被的覆盖变化、地形因素等自然因素均对陆地水储量产生影响作用;⑸陆地水储量最大值出现的时间滞后于降水量最大值出现的时间。 相似文献
3.
大气、陆地水储量和海水质量分布变化与地球低阶引力场球谐系数的关系 总被引:4,自引:1,他引:3
大气、固体地球及海洋组成了一个复杂、变化的地球动力学系统,这一系统中的任一质量分布变化都将产生地球引力场变化。采用全球7000多个地面气象台站的月平均降水及温度资料、NCEP提供气压月均值、TOPEX/Poseidon卫星测高资料和WOA98海水温度及盐度模型计算了大气、陆地水储量和海水质量分布变化引起地球低阶引力场系数变化。比较综合大气、陆地水储量和海水质量分布变化对带谐项J2,J3,J4影响的计算结果和人卫激光卫星的测定结果,可以看出,大气、陆地水储量和海水质量分布变化是引起地球低阶引力场系数周年变化的重要激发源。 相似文献
4.
GRACE重力计划在揭示地球系统质量重新分布中的应用 总被引:3,自引:0,他引:3
2002年3月成功发射的美德合作卫星重力计划GRACE(Gravity Recovery And ClimateExperiment),即将提供空间分辨率约为200 km而时间分辨率为1个月的时变地球重力场模型序列。GRACE计划的星座由两颗相距约220 km,高度保持为300-500 km、倾角保持约90°的近极轨卫星组成。由于采用星载GPS和非保守力加速度计等高精度定轨技术,以及高精度的星一星跟踪数据反演地球重力场,在几百公里和更大空间尺度上, GRACE重力场的精度大大超过此前的卫星重力计划。根据GRACE时变重力场反演的地球系统质量重新分布,将对固体地球物理、海洋物理、气候学以及大地测量等应用有重要的意义。虽然其设计寿命只有5 yr,但研究表明GRACE的结果可用于研究北极冰长期时间尺度的变化,并进而研究极冰融化对全球气候变化,特别是对海平面长期变化的影响。在季节性时间尺度上,利用GRACE重力场反演的质量重新分布足以揭示平均小于1 cm的地表水变化,或小于1 mbar。的海底压强变化。除了巨大的社会效益和经济效益外,这些变化对了解地球系统的物质循环(主要是水循环)和能量循环有非常重要的意义。介绍GRACE重力场揭示的地球系统质量重新分布,为理解其地球物理应用提供必需的准备;同时针对我国大陆和沿海地区的地球物理应用提出初步的设想。 相似文献
5.
《天文学报》2015,(2)
在小行星探测任务中,航天器轨道设计需要充分考虑到小行星的非球形引力场的影响.太阳系中大部分小行星具有形状不规则、密度不均匀的特点,因此,在没有绕飞轨道数据的情况下,精确计算其引力场非常困难.利用不规则小行星的多面体模型,采用体积离散方法通过直接积分计算小行星引力场球谐系数和表面重力场分布情况.将该方法与多面体方法进行了比较,并以(433)Eros为例,通过该方法计算得到的结果与NEAR(Near-Earth Asteroid Rendezvous)探测器的轨道数据反演结果比较,C20项误差不超过2%,使用该方法对我国小行星探测任务拟探测的(1996)FG3小行星的重力场进行了计算.以嫦娥二号探测器飞越的(4179)Toutatis小行星为例,结合相应的雷达观测数据提供的小行星形状模型,计算其表面引力势情况,为通过飞越任务获取的光学图像分析其表壤的分布、流向等提供了相应的理论依据.该方法适用于密度不均匀天体,可为小行星探测任务轨道设计和着陆提供可靠的小行星引力场数据. 相似文献
6.
全球陆地水储量对地球自转变化的激发作用 总被引:5,自引:2,他引:3
用美国环境预测中心和美国大气研究中心(NCEP/NCAR)40年重新分析计划气候数据同化系统(CDAS)所得到的全球陆地水储量(土壤湿度和积雪水当量)数据,对地球自转变化(极移和日长)的激发作用作了分析.结果表明,陆地水储量对周年地极移动正频分量的激发为17.8mas,与大气激发相当,相位滞后约48°.其中,积雪水当量的激发结果与用人卫遥感技术所得到的积雪水当量激发的正、负频率分量的振幅和相位都符合得很好.
用陆地水储量数据得到对日长变化周年分量的激发作用约49μs,约占观测激发的15%,相位滞后约23°;对日长变化半年分量的激发作用约9μs,约占观测激发的3%,相位滞后约122°. 相似文献
7.
GIM在LEO卫星单频GPS定轨中的应用 总被引:1,自引:0,他引:1
电离层延迟误差是单频GPS(Global Positioning System)数据最主要的误差源,为提高基于单频GPS数据的LEO(Low Earth Orbiting)卫星定轨精度,必须消除/减弱GPS观测数据中电离层延迟影响.研究了全球电离层模型GIM(Global IonosphericMaps)在基于单频GPS伪距数据的低轨卫星运动学和动力学定轨中的应用,并通过估算电离层尺度因子的方法消除C/A码伪距观测量中电离层延迟影响.由于LEO卫星星载GPS信号受电离层延迟影响与卫星轨道高度相关,选取了轨道高度在300~800 km的CHAMP(CHAllenging Mini-satellite Payload)、GRACE(Gravity Recovery AndClimate Experiment)、TerraSAR-X及SAC-C等LEO卫星C/A码伪距观测量作为试算数据.CHAMP等卫星实测数据计算结果表明:以JPL(Jet Propulsion Laboratory)发布的GIM模型作为背景模型,通过电离层比例因子法能很好地消除C/A码伪距观测量中电离层延迟影响,提高LEO卫星运动学和动力学定轨精度,其中,CHAMP卫星轨道最低,受电离层延迟影响最严重,定轨精度提高最显著,分别为55.6%和47.6%;SAC-C卫星轨道高度最高,受电离层延迟影响最小,相应的定轨精度提高幅度也最低,分别为47.8%和38.2%. 相似文献
8.
运动学定轨是星载GPS特有的定轨方法,该方法不依赖于任何力学模型(地球重力场、大气阻力及太阳辐射压等),尤其适用于受大气阻力影响严重的低轨卫星定轨.基于双频星载GPS数据,研究了运动学定轨原理,讨论了数据预处理方法,建立了一套非差运动学定轨算法.并以GRACE (Gravity Recovery And Climate Experiment)-A、B卫星2008年2月实测数据作为试算验证了本研究方法的有效性和可靠性.GRACE 卫星实测数据计算结果表明:运动学定轨能达到5 cm精度(相对于SLR (Satellite Laser Ranging)),与动力学和简化动力学定轨精度相当. 相似文献
9.
《天文学报》2015,(5)
地球引力场模型是人造卫星轨道计算中最重要的动力学模型之一.近年来国际上空间重力卫星计划取得了极大成功,相继推出了一系列新的引力场模型.从近地卫星轨道计算的角度检验了2种传统引力场模型(JGM3,EGM96)和4种新引力场模型(EIGENCHAMP05S,GGM03S,GOCE02S,EGM2008)的精度,利用4颗近地卫星的激光测距资料进行精密定轨预报,统计比较了不同模型的定轨残差和预报误差.结果表明:(1)4种新引力场模型精度基本在同一水平,对于近地卫星定轨精度普遍优于9 cm,最高达到5cm,相对于JGM3和EGM96模型有明显改善;(2)以JGM3模型为基准,EGM96模型的精度有所提高,2000年以后的4种新模型的精度则普遍提高了12%~47%(定轨)和63%(预报).70阶之前定轨精度随着模型阶次增大而提高,70阶以后定轨精度基本保持稳定,这表明对于近地卫星轨道计算而言,70阶的引力场已经能够满足厘米级的精度需求. 相似文献
10.
11.
The inversion of the variation in the land water storage in Southwest China is carried out by taking advantage of the data obtained by the earth gravity satellite GRACE (Gravity Recovery and Climate Experiment) for 64 months from January 2005 to April 2010. The result shows that by selecting an appropriate Gauss radius (R = 600 km) and taking the average gravitational field of the adopted data as the back-ground gravitational field, the land water storage in Southwest China inverted on the basis of the GRACE data reflects the drought in Southwest China at the beginning of 2010 very well. 相似文献
12.
卫星跟踪卫星模式中轨道参数需求分析 总被引:8,自引:0,他引:8
首次基于半解析法利用GRACE(Gravity Recovery and Climate Experiment)双星K波段星间速度误差、GPS接收机轨道误差和加速度计非保守力误差影响累计大地水准面精度的联合模型开展了卫星跟踪卫星模式中轨道参数的需求分析.建议我国将来首颗重力卫星的平均轨道高度设计为400 km和平均星间距离设计为220 km较优.此研究不仅为我国将来卫星重力测量计划中轨道参数的优化选取以及全球重力场精度的有效和快速估计提供了理论基础和计算保证,同时对将来国际GRACE Follow-On地球重力测量计划和GRAIL(Gravity Recovery and Interior Laboratory)月球重力探测计划的发展方向具有一定的指导意义. 相似文献
13.
太阳选址全国日照条件分析 总被引:1,自引:0,他引:1
利用国家气象信息中心气象资料室整编的中国756个基本、基准气象站在1971~2000年间的日照时数和日照百分率年值、月值数据集,研究了全国范围的日照条件,结合1951~2008年间我国云量、水汽要素资料,分析了影响日照的因素.研究结果表明,我国日照时数和日照百分率的分布形势一致,东南少而西北多,从东南向西北递增.在我国东部地区日照时数由南向北逐步递增,西部地区日照条件整体好于东部,符合常规.藏西南狮泉河一带日照条件最优;40°N纬度带附近和藏南地区次之,江南华南、四川盆地以及云贵高原东部地区的日照条件较差;其余地区日照条件居中.日照时数受云量、水汽要素的影响,呈负相关关系. 相似文献
14.
《Global and Planetary Change》2006,50(1-2):112-126
Signatures between monthly global Earth gravity field solutions obtained from GRACE satellite mission data are analyzed with respect to continental water storage variability. GRACE gravity field models are derived in terms of Stokes' coefficients of a spherical harmonic expansion of the gravitational potential from the analysis of gravitational orbit perturbations of the two GRACE satellites using GPS high–low and K-band low–low intersatellite tracking and on-board accelerometry. Comparing the GRACE observations, i.e., the mass variability extracted from temporal gravity variations, with the water mass redistribution predicted by hydrological models, it is found that, when filtering with an averaging radius of 750 km, the hydrological signals generated by the world's major river basins are clearly recovered by GRACE. The analyses are based on differences in gravity and continental water mass distribution over 3- and 6-month intervals during the period April 2002 to May 2003. A background model uncertainty of some 35 mm in equivalent water column height from one month to another is estimated to be inherent in the present GRACE solutions at the selected filter length. The differences over 3 and 6 months between the GRACE monthly solutions reveal a signal of some 75 mm scattering with peak values of 400 mm in equivalent water column height changes over the continents, which is far above the uncertainty level and about 50% larger than predicted by global hydrological models. The inversion method, combining GRACE results with the signal and stochastic properties of a hydrological model as ‘a priori’ in a statistical least squares adjustment, significantly reduces the overall power in the obtained water mass estimates due to error reduction, but also reflects the current limitations in the hydrological models to represent total continental water storage change in particular for the major river basins. 相似文献
15.
Basilevsky A. T. Litvak M. L. Mitrofanov I. G. Boynton W. V. Saunders R. S. Head J. W. 《Solar System Research》2003,37(5):387-397
Analysis of the distribution of the epithermal and fast neutron fluxes from the Martian surface within the ±60° latitude zone measured by the High-Energy Neutron Detector (HEND) from mid-February through mid-June 2002 has revealed regional neutron-flux variations outside the zones of climatic effects, which appear to be attributable to the presence of chemically bound water. With the exception of the epithermal neutron fluxes in Arabia and southwest of Olympus Mons (Medusae Fossae), these variations show no correlation with the geologic structure of the terrain at the level of global geologic maps. The lack of such a correlation probably implies that to the formation depth of the epithermal neutron flux (1–2 m), let alone the fast neutron flux (20–30 cm), much of Mars is covered by a surface material that bears little relation in composition to local bedrocks. Clearly, this is an aeolian cover whose fine-grain component was mixed by dust storms in the geologic time on the scale of large regions. The decrease in the flux of epithermal neutrons in Arabia and southwest of Olympus Mons (Medusae Fossae) appears to be attributable to an enhanced concentration of materials containing chemically bound water (clay minerals, palagonite, hydroxides, and hydrosalts) in the surface layers of these regions. 相似文献
16.
Efficient Determination of Global Gravity Field from Satellite-to-satellite Tracking Mission 总被引:2,自引:0,他引:2
Shin-Chan Han 《Celestial Mechanics and Dynamical Astronomy》2004,88(1):69-102
The gravity field dedicated satellite missions like CHAMP, GRACE, and GOCE are supposed to map the Earth's global gravity field with unprecedented accuracy and resolution. New models of the Earth's static and time-variable gravity fields will be available every month as one of the science products from GRACE. A method for the efficient gravity field recovery is presented using in situ satellite-to-satellite observations at altitude and results on static as well as temporal gravity field recovery are shown. Considering the energy relationship between the kinetic energy of the satellite and the gravitational potential, the disturbing potential observations can be computed from the orbital state vector, using high-low GPS tracking data, low–low satellite-to-satellite GRACE measurements, and data from 3-axis accelerometers. The solution method is based on the conjugate gradient iterative approach to efficiently recover the gravity field coefficients and approximate error covariance up to degree and order 120 every month. Based on the monthly GRACE noise-only simulation, the geoid was obtained with an accuracy of a few cm and with a resolution (half wavelength) of 160 km. However, the geoid accuracy can become worse by a factor of 6–7 because of spatial aliasing. The approximate error covariance was found to be a very good accuracy measure of the estimated coefficients, geoid, and gravity anomaly. The temporal gravity field, representing the monthly mean continental water mass redistribution, was recovered in the presence of measurement noise and high frequency temporal variation. The resulting recovered temporal gravity fields have about 0.3 mm errors in terms of geoid height with a resolution of 670 km. 相似文献
17.
反常折射引起的地面天文观测残差的周年变化 总被引:1,自引:0,他引:1
我国光学天文观测有相当长历史,观测精度也较高,但是与国际系统相比。无论是测时还是测纬,所有仪器残差都有类似的周年变化,本文作者认为部分原因是由于我国季节变化引起的大气等密度层倾斜,从而产生的反常折射所引起的,文中对反常折射的规律进行了研究,导出了由于气象参数变化而引起的反常折射公式,并与测时,测纬的残差周年项进行了对比,结果表明用反常折射可以部分地解释我国天文观测残差的周年变化。 相似文献
18.
The complete sample of theGreenwich Photoheliographic Results (GPR) for the years 1874–1976 was used for the investigation of the growth and decay of sunspot groups. The results were compared with similar findings from the Mt. Wilson sunspot data for the years 1917–1985, which were recently published by R. F. Howard. The results of the absolute umbral area changes are about the same for both sets of data. The main difference between the sets of data occurs for the percentage increase of the umbral areas as a function of latitude. The mean values from the Mt. Wilson data are bigger by a factor of 5 to 7 and show a dependence on the latitude, while the increase of the Greenwich data does not depend on the latitude. The decrease of sunspot areas as a function of latitude is only available from the Greenwich data. There occur higher values for the decrease for higher latitudes from 2.5 up to 42.5 deg 相似文献
19.
After GRACE and GOCE there will still be need and room for improvement of the knowledge (1) of the static gravity field at
spatial scales between 40 km and 100 km, and (2) of the time varying gravity field at scales smaller than 500 km. This is
shown based on the analysis of spectral signal power of various gravity field components and on the comparison with current
knowledge and expected performance of GRACE and GOCE. Both, accuracy and resolution can be improved by future dedicated gravity
satellite missions. For applications in geodesy, the spectral omission error due to the limited spatial resolution of a gravity
satellite mission is a limiting factor. The recommended strategy is to extend as far as possible the spatial resolution of
future missions, and to improve at the same time the modelling of the very small scale components using terrestrial gravity
information and topographic models.We discuss the geodetic needs in improved gravity models in the areas of precise height
systems, GNSS levelling, inertial navigation and precise orbit determination. Today global height systems with a 1 cm accuracy
are required for sea level and ocean circulation studies. This can be achieved by a future satellite mission with higher spatial
resolution in combination with improved local and regional gravity field modelling. A similar strategy could improve the very
economic method of determination of physical heights by GNSS levelling from the decimeter to the centimeter level. In inertial
vehicle navigation, in particular in sub-marine, aircraft and missile guidance, any improvement of global gravity field models
would help to improve reliability and the radius of operation. 相似文献