共查询到17条相似文献,搜索用时 109 毫秒
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利用GOCE重力场模型确定全球稳态海面地形及表层地转流 总被引:1,自引:0,他引:1
稳态海面地形(MDT)是大地测量学家和海洋学家共同关心的一个重要物理量.该文基于WHU2009全球平均海面高模型和GO_CONS_GCF_2_TIM_R3纯GOCE重力场模型,采用几何法经高斯滤波处理后确定了全球稳态海面地形,与CLS09及DTU10 MDTs相比,其差值均方根RMS均小于8 cm,表明该文结果具有较高的精度;根据地转流方程计算了相应的表层地转流,与GRACE重力场模型GGM03S结果相比,GOCE重力场模型所确定的表层地转流在墨西哥湾流、黑潮及厄加勒斯海流等海域均体现了更强的流速和更多的细部特征,验证了GOCE在洋流探测中的优势. 相似文献
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稳态海面地形(MDT)是大地测量学家和海洋学家共同关心的一个重要物理量。该文基于WHU2009全球平均海面高模型和GO_CONS_GCF_2_TIM_R3纯GOCE重力场模型,采用几何法经高斯滤波处理后确定了全球稳态海面地形,与CLS09及DTU10M DTs相比,其差值均方根RMS均小于8 cm,表明该文结果具有较高的精度;根据地转流方程计算了相应的表层地转流,与GRACE重力场模型GGM03S结果相比,GOCE重力场模型所确定的表层地转流在墨西哥湾流、黑潮及厄加勒斯海流等海域均体现了更强的流速和更多的细部特征,验证了GOCE在洋流探测中的优势。 相似文献
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卫星测高在确定地球重力场中的应用 总被引:2,自引:1,他引:2
根据测高所得的几何量与地球重力场物理量之间的关系,探讨了卫星测高数据在确定地球重力场参数中的应用,主要包括利用卫星测高数据确定海洋大地水准面、确定海洋重力异常和改善地球重力场模型。 相似文献
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5 最新全球重力场模型EGM96介绍与分析 如前所述,最近几年地面和海面观测数据无论是覆盖范围还是观测密度和精度都取得了很大的进展,联合应用最新的卫星观测数据、测高资料、地面重力和高程数据确定一个新的位模型自然提到议事日程,为了这个目的,美国宇航局(NASA)哥达德航空飞行中心(GSFC)和国防制图局(DMA,现改名为国家影像制图局NIMA),于1994年4月签署一个有关共同研究重力场模型的理解备忘录,其主要目的就是要改善地球重力场模型(EGM)和精化全球大地水准面结构,以满足地球和 相似文献
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分析了重力卫星数据构建的地球重力场模型EIGEN-CHAMP03S(140)、ITG-Grace2010s(180)、GO_CONS(240)、GOCO02s(250)的内符合精度,还与综合性地球重力场模型(EGM2008)进行了比较。然后,选用我国范围内854个AB级GPS/水准点,检核各模型分阶次确定的高程异常与实测值之间的差异,以体现其外符合精度。结果表明:以重力卫星数据构建地球重力场模型能以较高精度来表征重力场的中长波部分,与EGM2008模型的精度相当。在我国范围内,计算似大地水准面都能够达到米级精度,其中GOCO02s(250)模型精度最好,能达到0.5m的精度。 相似文献
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利用卫星测高技术确定海洋重力场,垂线偏差数据作为导出观测量在实际工作中被普遍采用。利用物理大地测量边值问题的定义以及扰动位在球面边界条件下的解,给出了由垂线偏差计算大地水准面高、重力异常和扰动重力的公式。分析了不同积分计算公式在重力场阶谱表达形式下对垂线偏差误差的抑制作用,也分析了不同积分核函数的变化特性,得出基本结论:在利用卫星测高数据求解海洋重力场时,当以格网化海面垂线偏差数据计算重力场参数时,求解的大地水准面高的有效性和稳定性优于重力异常和扰动重力。 相似文献
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Wenyan Sui Junru Guo Jun Song Zhiliang Liu Meng Wang Xibin Li Yanzhao Fu Yongquan Li Yu Cai Linhui Wang Lingli Li Xiaofang Guo Wenting Zuo 《海洋学报(英文版)》2021,40(3):142-152
The new gravity field models of gravity field and steady-state ocean circulation explorer(GOCE), TIM_R6 and DIR_R6, were released by the European Space Agency(ESA) in June 2019. The sixth generation of gravity models have the highest possible signal and lowest error levels compared with other GOCE-only gravity models, and the accuracy is significantly improved. This is an opportunity to build high precision geostrophic currents. The mean dynamic topography and geostrophic currents have been calculated by the 5 th(TIM_R5 and DIR_R5), 6 th(TIM_R6 and DIR_R6) release of GOCE gravity field models and ITSG-Grace2018 of GRACE gravity field model in this study. By comparison with the drifter results, the optimal filtering lengths of them have been obtained(for DIR_R5, DIR_R6, TIM_R5 and TIM_R6 models are 1° and for ITSG-Grace2018 model is 1.1°). The filtered results show that the geostrophic currents obtained by the GOCE gravity field models can better reflect detailed characteristics of ocean currents. The total geostrophic speed based on the TIM_R6 model is similar to the result of the DIR_R6 model with standard deviation(STD) of 0.320 m/s and 0.321 m/s, respectively. The STD of the total velocities are 0.333 m/s and 0.325 m/s for DIR_R5 and TIM_R5. When compared with ITSG-Grace2018 results, the STD(0.344 m/s) of total geostrophic speeds is larger than GOCE results, and the accuracy of geostrophic currents obtained by ITSG-Grace2018 is lower. And the absolute errors are mainly distributed in the areas with faster speeds, such as the Antarctic circumpolar circulation, equatorial region, Kuroshio and Gulf Stream areas. After the remove-restore technique was applied to TIM_R6 MDT, the STD of total geostrophic speeds dropped to 0.162 m/s. 相似文献
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Satellite altimetry observations, including the upcoming Surface Water and Ocean Topography mission, provide snapshots of the global sea surface high anomaly field. The common practice in analyzing these surface elevation data is to convert them into surface velocity based on the geostrophic approximation. With increasing horizontal resolution in satellite observations, sea surface elevation data will contain many dynamical signals other than the geostrophic velocity. A new physical quantity, th... 相似文献
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提高海洋表层流的精度与分辨率对于相关应用领域至关重要。研究引入海表面温度(sea surface temperature,SST)信息对高度计导出流场的改进效果,计算了2018年每日无间隔的全球海洋表层流速度。通过增加热量守恒方程约束,引入卫星测温产品,在地转流基础上生成表层流产品,并与现场漂流浮标速度比较,评估了使用多源卫星遥感获取海流的质量。研究表明,本文方法在不改变沿等温线的切向流速分量的前提下,沿等温线的法向流速分量得到了改进,方法能充分利用海表温度信息提取流场特征信息;方法不适用于海表面温度梯度较小区域,在梯度较大区域可获得明显改进;优化流场能更好地刻画海面海流变化,证明结合卫星测高与卫星测温可改善海洋表层流动;存在强烈中尺度活动和热梯度区域,增加SST观测能够弥补测高资料的不足。 相似文献
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Sean L. Bruinsma Christoph Förste Sandrine Mulet Marie-Hélène Rio Oleg Abrikosov Jean-Charles Marty 《Marine Geodesy》2016,39(3-4):238-255
The impact of GOCE Satellite Gravity Gradiometer data on gravity field models was tested. All models were constructed with the same Laser Geodynamics Satellite (LAGEOS) and Gravity Recovery and Climate Experiment (GRACE) data, which were combined with one or two of the diagonal gravity gradient components for the entire GOCE mission (November 2009 to October 2013). The Stokes coefficients were estimated by solving large normal equation (NE) systems (i.e., the direct numerical approach). The models were evaluated through comparisons with the European Space Agency's (ESA) gravity field model DIR-R5, by GPS/Leveling, GOCE orbit determination, and geostrophic current evaluations. Among the single gradient models, only the model constructed with the vertical ZZ gradients gave good results that were in agreement with the formal errors. The model based only on XX gradients is the least accurate. The orbit results for all models are very close and confirm this finding. All models constructed with two diagonal gradient components are more accurate than the ZZ-only model due to doubling the amount of data and having two complementary observation directions. This translates also to a slower increase of model errors with spatial resolution. The different evaluation methods cannot unambiguously identify the most accurate two-component model. They do not always agree, emphasizing the importance of evaluating models using many different methods. The XZ gravity gradient gives a small positive contribution to model accuracy. 相似文献
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卫星重力估计陆地水和冰川对全球海平面变化的贡献 总被引:2,自引:0,他引:2
重力场恢复与气候试验(GRACE)卫星为高分辨率地监测全球海洋质量变化提供了一种新的手段。利用2003年1月至2014年12月Level-2 RL05的GRACE产品,进行去相关误差滤波、高斯滤波和海洋-陆地信号泄漏改正后,得到了全球陆地和海水质量变化,并分析了陆地水和冰川的质量变化对海平面长期变化的贡献。研究表明,全球陆地水和冰川的质量变化对海平面的贡献约为(2.09±0.54)mm/a,与卫星测高扣除海洋温盐数据比热容变化得到的海水质量长期变化(2.07±0.62)mm/a有着很好的一致性,其中全球陆地水储量对全球质量项海平面变化的贡献为(0.15±0.25)mm/a,南极冰盖对全球质量项海平面变化的贡献为(0.59±0.10)mm/a,格陵兰岛冰盖对全球质量项海平面变化的贡献为(0.72±0.12)mm/a,山地冰川对全球质量项海平面变化的贡献为(0.63±0.09)mm/a。并进一步讨论了不同分析中心GRACE重力场系数,一阶项系数和二阶项对质量项海平面变化的影响。结果表明,一阶项对质量项海平面的影响为(0.10±0.08)mm/a,二阶项对质量项海平面的影响为(0.16±0.04)mm/a,美国德克萨斯大学空间研究中心和德国地学研究中心分析结果较为一致,而美国国家航空航天局喷气推进实验室的结果则稍稍偏小。 相似文献
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With the advent of satellite altimetry in 1973, new scientific applications became available in oceanography, climatology, and marine geosciences. Moreover, satellite altimetry provides a significant source of information facilitated in the geoid determination with a high accuracy and spatial resolution. The information from this approach is a sufficient alternate for marine gravity data in the high-frequency modeling of the marine gravity field quantities. The gravity gradient tensor, consisting of the second-order partial derivatives of the gravity potential, provides more localized information than gravity measurements. Marine gravity observations always carry a high noise level due to environmental effects. Moreover, it is not possible to model the high frequencies of the Earth's gravity field in a global scale using these observations. In this article, we introduce a novel approach for a determination of the gravity gradient tensor at sea level using satellite altimetry. Two numerical techniques are applied and compared for this purpose. In particular, we facilitate the radial basis functions (RBFs) and the harmonic splines. As a case study, the gravitational gradient tensor is determined and results presented in the Persian Gulf. Validation of results reveals that the solution of the harmonic spline approach has a better agreement with a theoretical zero-value of the trace of the Marussi gravitational gradient tensor. However, the data-adaptive technique in the RBF approach allows more efficient selection of the parameters and 3-D configuration of RBFs compared to a fixed parameterization by the harmonic splines. 相似文献
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由于卫星高度计数据分辨率高、观测范围广的特点,我们使用该数据开展了黑潮流的研究。在之前的研究中,卫星绝对地转流都被用于对黑潮流域的表层流场的时空变化特征进行研究,并采用了一些探测方法提取了黑潮流轴和流路。然而,海面绝对地转流是由绝对动力地形估计得到,应该被当做实际流场的地转分量,在实际应用中并不能代表真实流场。在本研究中,建立了气候态绝对地转流与网格平均的漂流浮标流场间的数学校验关系,以此对卫星绝对地转流场进行修正,即便这两种数据的性质存在些许偏差。因此,基于主成分探测法,修正后的卫星绝对地转流被用于探测黑潮流轴和流路。对比结果表明,由修正后的卫星地转流场探测得到的黑潮流轴和流路均要好于地转流和表层流估计结果。修正后的地转流有助于开展更加准确的黑潮流轴和流路的逐日探测。 相似文献