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1.
һ�ָĽ���˫Ƶ��P������̽���������� 总被引:5,自引:4,他引:1
??????????????????????????????P????????L2????????????P?????????????P????λ/α??????1??-1??????-7??9?? ??????????????????????????????????????????????????α???·??Ч??仯??????P?????????????????????÷????? ??????α???ж?·??Ч????????仯?????????????????????????????????????????????·??????????????仯??1????????????????????Ч????????н?????? 相似文献
2.
????2008??8??~2010??9???浵??20??ENVISAT ASAR?????????PS??InSAR???????????е?????????????????????λ?????????????2008~2010??????α?????????α???????У??????????????????к?????????? 相似文献
3.
???27??ENVISAT ??????????????????????????PS??InSAR??????????????д??? ????????????????2006-2010?????α????о??????????1??????????????????????????????????????????????????????7??????????????г??????????????????????????????????????????????????????????LOS??????-27.19±5.66 mm/a??-24.65±5.14 mm /a??2?????????????????????????230 km2??3???????????????????????10.92±3.24 mm/a????????20????80????????????????????ε???????????????????4????????????????????????????????????????????????? 相似文献
4.
?????????????????DInSAR???????????????????????????????????á?????????壨PS?????????????Ч??????????????????????????SAR???????????С???????SBAS????????SAR???????????У???????????????о??????????2008??1???2010??8??????8??ENVISAT?????SAR?????????SBAS??????????????????α???????????????????С???????α????????-27.11????-55.92????-67.61 mm/a????????α?????????α???????????????????£?????????SBAS?????????е???α???????? 相似文献
5.
???????·?????Tongji-GRACE01?????????????????????????????????????????????+??????????????????????????GIA????????????仯??????????GIA??????????????仯??????о???????RMS????2003-01??2011-08????????仯???????????-128.2±34.6 Gt/a??Pau-5-AUT??????-177.9±40.2 Gt/a??W&W-4-AUT??????-92.8±31.2 Gt/a??W12a?????? 相似文献
6.
????????GM??1,1???в?????????GMRCFS ???????????????????1998-06-10-11-28??5??GPS ??????α??????????????????GM??1,1???в??????н???????????????????????????α???????? 相似文献
7.
??鷢?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????2012-07-21??????????????????????????????????????t??????λ??????IGS?????????????????????2??3 mm 相似文献
8.
С����߶ȷֽ��ڵ���Ԥ���е�Ӧ�� 总被引:1,自引:0,他引:1
??????С?????????????????????1994~1995??2002~2003???2011~2012????????????????仯???з??????1995-07-22????Ms5.8??????2003-10-25????Ms6.1???????2012-05-11????Ms4.9??????????????????о?С???????????????????????á?4??С?????????3?ε???????????????????仯???????????????????????4??С?????????и?????????????????????С??????????ж?????Σ?????? 相似文献
9.
������С�������÷����о��żҿ�-����������ܱߵ���Ӧ�䳡 总被引:1,自引:0,他引:1
????????-???????????????1999??2001??2004??2007??2008??2009??6??143??GPS?????????????????????1999??2009??????-???????????α?????????????????С???????÷???????????????????????α?????????α??????????:1???????????飬??????????仯?5~6 mm/a??2??????-?????????????2.0 mm/a??????????????????????????25~45 km??3???о???????????????3??10 -8/a?????????????????????????????? 相似文献
10.
���й�����ERA-Interim���ϼ���ZTD��ZWD�ľ��ȷ��� 总被引:2,自引:0,他引:2
??????г??????????????ECMWF??????ERA??Interim???????й????????????????????????????????????ERA??Interim????????????????????ZTD?????????ZWD??????????????????28??GPS???????????ZTD??ZWD???б?????????ECMWF???????ZTD??????????????????????-1 cm??2 cm??ZWD??BJFS??LHAS?????????????????????1 cm??1.6 cm?? 相似文献
11.
利用合成孔径雷达干涉测量(InSAR)技术对2017-06~2020-06期间获取的Sentinel-1数据集进行处理和分析,获取北京近几年地面沉降区域的时空分布特征。结果表明,北京地表形变呈现5处沉降区,最大年形变速率为-111.3 mm/a。将InSAR结果与GPS观测资料进行对比,验证了时序InSAR的有效性。对比2018年和2019年的年形变速率可知,各个沉降范围内的沉降面积均在减小,且沉降减缓的面积远大于沉降加速的面积。局部调查后发现,5处沉降区除1处仍在加速沉降外,其他4处的沉降速度均在减缓。 相似文献
12.
长江三峡库区(奉节-巴东段)移民工程遥感动态监测 总被引:2,自引:0,他引:2
在长江三峡库区移民工程中 ,我们采用 ETM+、SPOT、IKONOS等多源、多时相、多分辨率航天、航空遥感数据组合 ,监测移民工程的动态变化 ,通过对库区奉节 -巴东段移民搬迁建与安置、新开发用地分布、土地利用与土地结构变化、地质灾害及衍生地质灾害与防治、库区环境及生态平衡与改善经济结构以及移民工程遥感动态监测等 ,取得突破性进展 ,获取了一批重要成果。为三峡移民工程进一步全面、安全地实施、改进规划管理工作及库区经济可持续发展 ,提供了科学依据和决策性建议。 相似文献
13.
本文以郑洛地区为研究区域,以裴李岗文化时期、仰韶文化前期、仰韶文化后期和龙山文化时期为时间序列,对研究区域的流域盆地面积与相应的遗址点数量的关系、流域盆地面积与相应的遗址点增长速率的关系,以及各个流域盆地中遗址点分布密度的时空分布特征进行了研究。结果显示:(1)通过相关方法分析,以数字化的形式表明了流域盆地面积与分布的遗址点数量呈显著的正相关关系,且裴李岗文化时期的相关程度与其他3个文化时期相比较小;(2)对各流域盆地内遗址点的变化趋势分析发现,流域盆地面积与分布的遗址点变化趋势呈显著的正相关关系,这也解释了流域盆地黄河流域(B)、伊洛河流域(C)的变化趋势最快的缘由;(3)对各流域盆地内遗址点的分布密度进行分级可发现,在裴李岗文化时期,东部地区遗址点的分布密度大于西部地区,而其他3个文化时期是中西部地区大于东部地区。 相似文献
14.
基于覆盖上海地区2018~2020年的35景Sentinel-1A影像数据,采用PSInSAR方法获取该地区3条地铁线路的年平均沉降速率和累积沉降量,并分析沉降原因。结果表明:1)上海地区呈现不均匀沉降,沉降主要发生在上海市主城区南部的闵行区许泾村附近,最大累积沉降量达-47.3 mm;2)上海市闵行区出现明显的沉降漏斗现象,并与该地区城市基础设施建设及地下水水位变化呈正相关;3)上海市地铁5、8、16号线路均有部分路段存在明显沉降现象,地铁5号线途经闵行区周围时沉降最明显,最大沉降速率达-12.0 mm/a。最后给出上海地区以及主要地铁沿线地表沉降的时空特征和地表沉降与其影响因子之间的相互关系。 相似文献
15.
合成孔径雷达干涉测量(Interferometric Synthetic Aperture Radar,InSAR)时序分析技术,利用时域上多幅SAR图像选择时间基线、空间基线满足一定条件的干涉对进行干涉,通过建立干涉相位形变模型获取地表形变信息。InSAR时序分析技术改善了差分干涉测量中时空失相干、大气延迟等问题,广泛应用于有关形变监测的多个领域,并逐渐成为获取长期地表形变趋势的重要手段。在InSAR时序分析中,针对不同应用选取合适的高相干目标选取方法,获得可靠的高相干目标,是获取精确可靠的地表形变信息的基础。本文通过分析永久散射体(Permanent Scatterers,PS)、分布式散射体(Distributed Scatterers,DS)选取方法的理论模型及其算法,研究其适用地物目标类型的异同,并分析、归纳总结了幅度相关法、相位分析法、信号杂波比法、相干性统计法等不同的高相干目标选取方法的优缺点。最后,以阿尔金断裂带西段部分区域为研究区,分别采用具有代表性的PS、DS选取方法开展该研究区域的选点实验,结果表明该研究区域DS选取方法比PS选取方法适用。本文方法为解决在不同地理区域进行应用研究时选取合适的选点方法提供参考。 相似文献
16.
采用SBAS-InSAR技术对43景Sentinel-1A影像进行处理,获取延安新区(北区)地表形变信息,并运用经验正交函数对结果进行分解,得到研究区域的时间系数和空间分布。结果表明,延安新区(北区)的最大沉降速率为-56 mm/a,最大抬升速率为32 mm/a。从第1模态可以看出,挖方、填方是造成地表抬升和沉降的主要原因;第2模态则反映了工程建设不同时期对应的不同地表形变状态,即加速、减缓、平稳3个阶段。 相似文献
17.
针对地表沉降预测研究中单一传统方法预测精度较低、预测过程不稳定等问题,提出一种经验小波变换(EWT)与Prophet预测模型相结合的优化预测方法.以江西省上饶市德兴矿区为例,采用30景哨兵1号影像进行SBAS-InSAR沉降研究,并获取该区域研究时段内的沉降时序数据.首先对原始沉降时序数据进行EWT自适应分解,分解产生... 相似文献
18.
PS-InSAR��SBAS-InSAR���ر�����ıȽ��о� 总被引:1,自引:0,他引:1
????PS-InSAR??SBAS-InSAR??????????????????????????????2004??2010???31??ENVISAT ASAR??????????????????????????????????????PS-InSAR??SBAS-InSAR?????????к?????????Щ??????????????SBAS-InSAR??PS???α??????????????????????????????????????????????е????????????????????????????????????????????? 相似文献
19.
《山地科学学报》2019,(12)
Land creation projects have been implemented in China to expand urban space in mountainous areas. In addition to the predictable settlement brought about by filling construction,varying degrees of land subsidence and engineering failures have a demonstrated relationship to groundwater level fluctuation induced by land creation engineering. In this work, we adopted a typical large-scale land creation project, Yan'an New City in Shaanxi province, West China, as our study area. Prior to conducting the main experiment,preliminary field investigation and groundwater level monitoring were conducted to determine the groundwater fluctuation trend induced by land creation engineering. Although a blind drainage system was implemented, the depth aspect of groundwater level changes after large-scale land creation still needed to be addressed. To study the degree of impact and the settlement mechanism induced by the rising groundwater level, we conducted a Water Immersion Test(WIT) in a typical land creation site for 107 days. The rising groundwater level was simulated by injecting water from the bottom of the filling foundation. During the WIT, the soil water content, surface subsidence, and internal settlement of soil at different depths were obtained. Surface subsidence development could be categorized into four stages during the water level increase. The second stage, which is defined as the point when the groundwater level rises to 10 m,marked the critical point in the process. Furthermore,it was ascertained that the local settlement in regions that were originally composed of steep slopes is larger than that in originally flat areas. In addition, ground cracks and sinkholes in the study area were inspected;and it was determined that they would become new channels that would accelerate water infiltration and exacerbate the settlement. Based on the results from our field investigation and testing, several suggestions are proposed for land creation projects to mitigate issues associated with construction-induced groundwater level rising. 相似文献
20.
利用山东地区38个GNSS基准站2011~2016年连续6 a的观测数据,对山东地区地壳垂向形变场特征进行系统分析。结果表明,山东地区地壳垂向形变具有明显的差异性,形变量最大的区域为山东西南部地区,形变速率约为-24.0 mm/a;西北部地区形变速率较大,为-15.0 mm/a;东南部以及沿海地区沉降速率较小,为-0.5~3.0 mm/a;而在中部地区(泰山山脉)呈隆升趋势,形变速率为0.3~5.0 mm/a。 相似文献