卫星重力与卫星测高的研究进展
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摘要
该文介绍了GRACE和GOCE重力卫星在地球重力场模型以及局部变化等方面的研究成果,介绍了卫星测高的检核与校验、全球和局部海平面变化监测、内陆湖和水库水位变化监测等方面的研究进展,对综合利用卫星重力、卫星测高以及合成孔径雷达差分干涉测量(DInSAR)等技术方法监测冰川和冰盖变化的成果进行了介绍,重点介绍了南极冰盖变化监测的研究成果。对综合卫星重力、卫星测高、DInSAR、GNSS/水准、GNSS等多种技术在冰川冰盖、局部形变监测等方面的应用进行了展望。
The progress in applications of gravity recovery and climate experiment(GRACE)and gravity field and steady-state ocean circulation explorer(GOCE)gravity satellite in the earth's gravity field models and local mass change was introduced in this paper.The validation/calibration of satellite altimeter data and satellite gradiometry was also introduced,meanwhile progress in global and local sea level change monitoring,inland lake and reservoir water level change monitoring by using satellite gravimetry and satellite altimetry was reviewed.The changes of inland glacier and ice sheet derived by satellite gravity,satellite altimetry,differential interferometric synthetic aperture radar(DInSAR)are introduced.The integration of different techniques,such as satellite gravity,satellite altimetry,DInSAR,GNSS/leveling,GNSS in monitoring of inland glacier,ice sheet,and local deformation was prospected.
The progress in applications of gravity recovery and climate experiment(GRACE)and gravity field and steady-state ocean circulation explorer(GOCE)gravity satellite in the earth's gravity field models and local mass change was introduced in this paper.The validation/calibration of satellite altimeter data and satellite gradiometry was also introduced,meanwhile progress in global and local sea level change monitoring,inland lake and reservoir water level change monitoring by using satellite gravimetry and satellite altimetry was reviewed.The changes of inland glacier and ice sheet derived by satellite gravity,satellite altimetry,differential interferometric synthetic aperture radar(DInSAR)are introduced.The integration of different techniques,such as satellite gravity,satellite altimetry,DInSAR,GNSS/leveling,GNSS in monitoring of inland glacier,ice sheet,and local deformation was prospected.
引文
[1]VISHWAKARMA B D,DEVARAJU B,SNEEUW N.What is the spatial resolution of grace satellite products for hydrology?[J].Remote Sensing,2018,10(6):852.
[2]FORESTA L,GOURMELEN N,WEISSGERBER F,et al.Heterogeneous and rapid ice loss over the Patagonian Ice Fields revealed by CryoSat-2swath radar altimetry[J].Remote Sensing of Environment,2018,211:441-455.
[3]徐天河,杨元喜.利用现有重力场模型求定CHAMP卫星加速度计修正参数[J].测绘学报,2004,33(3):200-204.(XU Tianhe,YANG Yuanxi.Calibration for CHAMP accelerometry data based on known earth gravity field model[J].Journal of Surveying and Mapping,2004,33(3):200-204.)
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[5]徐新禹,赵永奇,魏辉,等.利用先验重力场模型对GOCE卫星重力梯度观测值进行校准分析[J].测绘学报,2015,44(11):1196-1201.(XU Xinyu,ZHAOYongqi,WEI Hui,et al.Calibration and analysis of SGG observations of GOCE based on prior gravity models[J].Acta Geodaetica et Cartographica Sinica,2015,44(11):1196-1201.)
[6]VISSER P N A M,VAN DEN IJEESL J A A.Calibration and validation of individual GOCE accelerometers by precise orbit determination[J].Journal of Geodesy,2016,90(1):1-13.
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[8]瞿庆亮,常晓涛,于胜文,等.利用先验重力场模型求定GOCE卫星重力梯度仪校准参数[J].测绘学报,2019,48(2):176-184.(QU Qingliang,CHANG Xiaotao,YUShengwen,et al.Calibration for GOCE gradiometer data based on the prior gravity models[J].Acta Geodaetica et Cartographica Sinica,2019,48(2):176-184.)
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[12]FECHER T,PAIL R,GRUBER T,et al.GOCO05c:a new combined gravity field model based on full normal equations and regionally varying weighting[J].Surveys in Geophysics,2017,38(3):571-590.
[13]DREWES H,KUGLITSCH F,ADM J,et al.The geodesists handbook[J].Journal of Geodesy,2016,90(10):907-1205.
[14]程鹏飞,文汉江,刘焕玲,等.卫星大地测量学的研究现状及发展趋势[J].武汉大学学报(信息科学版),2019,44(1):48-54.(CHENG Pengfei,WEN Hanjiang,LIU Huanling,et al.Research situation and future development of satellite geodesy[J].Geomatics and Information Science of Wuhan University,2019,44(1):48-54.)
[15]SNCHEZ L,ˇCUNDERLK R,DAYOUB N,et al.Aconventional value for the geoid reference potential W0[J].Journal of Geodesy,2016,90(9):815-835.
[16]KLEES R,REVTOVA E A,GUNTER B C,et al.The design of an optimal filter for monthly GRACE gravity models[J].Geophysical Journal International,2008,175(2):417-432.
[17]JEKELI C.Alternative methods to smooth the earth’s gravity field[R].Columbus:Department of Geodesy and Science and Surveying,Ohio State University,1981.
[18]KUSCHE J.Approximate decorrelation and nonisotropic smoothing of time-variable GRACE-type gravity field models[J].Journal of Geodesy,2007,81(11):733-749.
[19]HAMMOND W C,BURGETTE R J,JOHNSON KM,et al.Uplift of the Western Transverse Ranges and Ventura Area of Southern California:a four-technique geodetic study combining GPS,InSAR,leveling and tide gauges[J].Journal of Geophysical Research(Solid Earth),2018,123(1):836-858.
[20]KING M A,BINGHAM R J,MOORE P,et al.Lower satellite-gravimetry estimates of Antarctic sea-level contribution[J].Nature,2012,491(7425):586-589.
[21]VELICOGNA I,SUTTERLEY T C,VAN DENBROEKE M R.Regional acceleration in ice mass loss from Greenland and Antarctica using GRACE timevariable gravity data[J].Geophysical Research Letters,2014,41(22):8130-8137.
[22]SCHRAMA E J O,WOUTERS B,RIETBROEK R.Amascon approach to assess ice sheet and glacier mass balances and their uncertainties from GRACE data[J].Journal of Geophysical Research(Solid Earth),2014,119(7):6048-6066.
[23]JEAN Y,MEYER U,JGGI A.Combination of GRACE monthly gravity field solutions from different processing strategies[J].Journal of Geodesy,2018,92(11):1313-1328.
[24]HIRT C,REXER M,SCHEINERT M,et al.A new degree-2190(10km resolution)gravity field model for Antarctica developed from GRACE,GOCE and Bedmap2data[J].Journal of Geodesy,2016,90(2):105-127.
[25]WINGHAM D,SHEPHERD A P,MUIR A,et al.Mass balance of the Antarctic ice sheet[J].Philosophical Transactions of the Royal Society A:Mathematical,Physical and Engineering Sciences,2006,364(1844):1627-1635.
[26]KRAAIJENBRINK P D A,BIERKENS M F P,LUTZA F,et al.Impact of a global temperature rise of 1.5degrees Celsius on Asia’s glaciers[J].Nature,2017,549(7671):257-260.
[27]NISHIMURA T,MUNEKANE H,YARAI H.The2011off the Pacific coast of Tohoku Earthquake and its aftershocks observed by GEONET[J].Earth Planets&Space,2011,63(7):631-363.
[28]MATSUO K,HEKI K.Coseismic gravity changes of the 2011Tohoku-Oki earthquake from satellite gravimetry[J].Geophysical Research Letters,2011,38(7):L00G12.
[29]HAN S C,SAUBER J,LUTHCKE S.Regonal gravity decrease after the 2010 Maule(Chile)earthquake indicates large-scale mass redistribution[J].Geophysical Research Letters,2010,37(23):L23307.
[30]FUCHS M,HOOPER A,BROERSE T,et al.Distributed fault slip model for the 2011Tohoku-Oki earthquake from GNSS and GRACE/GOCE satellite gravimetry[J].Journal of Geophysical Research(Solid Earth),2015,121(2):1114-1130.
[31]ZHOU Y S,LI Z W,LI J,et al.Glacier mass balance in the Qinghai-Tibet Plateau and its surroundings from the mid-1970sto 2000based on Hexagon KH-9and SRTM DEMs[J].Remote Sensing of Environment,2018,210:96-112.
[2]FORESTA L,GOURMELEN N,WEISSGERBER F,et al.Heterogeneous and rapid ice loss over the Patagonian Ice Fields revealed by CryoSat-2swath radar altimetry[J].Remote Sensing of Environment,2018,211:441-455.
[3]徐天河,杨元喜.利用现有重力场模型求定CHAMP卫星加速度计修正参数[J].测绘学报,2004,33(3):200-204.(XU Tianhe,YANG Yuanxi.Calibration for CHAMP accelerometry data based on known earth gravity field model[J].Journal of Surveying and Mapping,2004,33(3):200-204.)
[4]徐新禹,李建成,王正涛,等.利用参考重力场模型基于能量法确定GRACE加速度计校准参数[J].武汉大学学报(信息科学版),2008,33(1):72-75.(XU Xinyu,LI Jiancheng,WANG Zhengtao,et al.Calibration of GRACE accelerometer using reference gravity field model based on energy balance approach[J].Geomatics and Information Science of Wuhan University,2008,33(1):72-75.)
[5]徐新禹,赵永奇,魏辉,等.利用先验重力场模型对GOCE卫星重力梯度观测值进行校准分析[J].测绘学报,2015,44(11):1196-1201.(XU Xinyu,ZHAOYongqi,WEI Hui,et al.Calibration and analysis of SGG observations of GOCE based on prior gravity models[J].Acta Geodaetica et Cartographica Sinica,2015,44(11):1196-1201.)
[6]VISSER P N A M,VAN DEN IJEESL J A A.Calibration and validation of individual GOCE accelerometers by precise orbit determination[J].Journal of Geodesy,2016,90(1):1-13.
[7]VAN DER MEIJDE M,PAIL R,BINGHAM R,et al.GOCE data,models,and applications:a review[J].International Journal of Applied Earth Observation and Geoinformation,2015,35:4-15.
[8]瞿庆亮,常晓涛,于胜文,等.利用先验重力场模型求定GOCE卫星重力梯度仪校准参数[J].测绘学报,2019,48(2):176-184.(QU Qingliang,CHANG Xiaotao,YUShengwen,et al.Calibration for GOCE gradiometer data based on the prior gravity models[J].Acta Geodaetica et Cartographica Sinica,2019,48(2):176-184.)
[9]BLOBFELD M,RUDENKO S,KEHM A,et al.Consistent estimation of geodetic parameters from SLRsatellite constellation measurements[J].Journal of Geodesy,2018,92(9):1003-1021.
[10]FLECHTNER F.Combined satellite gravity field model GOCO01Sderived from GOCE and GRACE[J].Geophysical Research Letters,2010,37(20):L20314.
[11]MAYER-GRR T,PAIL R,FECHER R,et al.The combined satellite gravity field model GOCO05S[C]∥EGU General Assembly Conference.[S.l.]:[s.n.],2015.
[12]FECHER T,PAIL R,GRUBER T,et al.GOCO05c:a new combined gravity field model based on full normal equations and regionally varying weighting[J].Surveys in Geophysics,2017,38(3):571-590.
[13]DREWES H,KUGLITSCH F,ADM J,et al.The geodesists handbook[J].Journal of Geodesy,2016,90(10):907-1205.
[14]程鹏飞,文汉江,刘焕玲,等.卫星大地测量学的研究现状及发展趋势[J].武汉大学学报(信息科学版),2019,44(1):48-54.(CHENG Pengfei,WEN Hanjiang,LIU Huanling,et al.Research situation and future development of satellite geodesy[J].Geomatics and Information Science of Wuhan University,2019,44(1):48-54.)
[15]SNCHEZ L,ˇCUNDERLK R,DAYOUB N,et al.Aconventional value for the geoid reference potential W0[J].Journal of Geodesy,2016,90(9):815-835.
[16]KLEES R,REVTOVA E A,GUNTER B C,et al.The design of an optimal filter for monthly GRACE gravity models[J].Geophysical Journal International,2008,175(2):417-432.
[17]JEKELI C.Alternative methods to smooth the earth’s gravity field[R].Columbus:Department of Geodesy and Science and Surveying,Ohio State University,1981.
[18]KUSCHE J.Approximate decorrelation and nonisotropic smoothing of time-variable GRACE-type gravity field models[J].Journal of Geodesy,2007,81(11):733-749.
[19]HAMMOND W C,BURGETTE R J,JOHNSON KM,et al.Uplift of the Western Transverse Ranges and Ventura Area of Southern California:a four-technique geodetic study combining GPS,InSAR,leveling and tide gauges[J].Journal of Geophysical Research(Solid Earth),2018,123(1):836-858.
[20]KING M A,BINGHAM R J,MOORE P,et al.Lower satellite-gravimetry estimates of Antarctic sea-level contribution[J].Nature,2012,491(7425):586-589.
[21]VELICOGNA I,SUTTERLEY T C,VAN DENBROEKE M R.Regional acceleration in ice mass loss from Greenland and Antarctica using GRACE timevariable gravity data[J].Geophysical Research Letters,2014,41(22):8130-8137.
[22]SCHRAMA E J O,WOUTERS B,RIETBROEK R.Amascon approach to assess ice sheet and glacier mass balances and their uncertainties from GRACE data[J].Journal of Geophysical Research(Solid Earth),2014,119(7):6048-6066.
[23]JEAN Y,MEYER U,JGGI A.Combination of GRACE monthly gravity field solutions from different processing strategies[J].Journal of Geodesy,2018,92(11):1313-1328.
[24]HIRT C,REXER M,SCHEINERT M,et al.A new degree-2190(10km resolution)gravity field model for Antarctica developed from GRACE,GOCE and Bedmap2data[J].Journal of Geodesy,2016,90(2):105-127.
[25]WINGHAM D,SHEPHERD A P,MUIR A,et al.Mass balance of the Antarctic ice sheet[J].Philosophical Transactions of the Royal Society A:Mathematical,Physical and Engineering Sciences,2006,364(1844):1627-1635.
[26]KRAAIJENBRINK P D A,BIERKENS M F P,LUTZA F,et al.Impact of a global temperature rise of 1.5degrees Celsius on Asia’s glaciers[J].Nature,2017,549(7671):257-260.
[27]NISHIMURA T,MUNEKANE H,YARAI H.The2011off the Pacific coast of Tohoku Earthquake and its aftershocks observed by GEONET[J].Earth Planets&Space,2011,63(7):631-363.
[28]MATSUO K,HEKI K.Coseismic gravity changes of the 2011Tohoku-Oki earthquake from satellite gravimetry[J].Geophysical Research Letters,2011,38(7):L00G12.
[29]HAN S C,SAUBER J,LUTHCKE S.Regonal gravity decrease after the 2010 Maule(Chile)earthquake indicates large-scale mass redistribution[J].Geophysical Research Letters,2010,37(23):L23307.
[30]FUCHS M,HOOPER A,BROERSE T,et al.Distributed fault slip model for the 2011Tohoku-Oki earthquake from GNSS and GRACE/GOCE satellite gravimetry[J].Journal of Geophysical Research(Solid Earth),2015,121(2):1114-1130.
[31]ZHOU Y S,LI Z W,LI J,et al.Glacier mass balance in the Qinghai-Tibet Plateau and its surroundings from the mid-1970sto 2000based on Hexagon KH-9and SRTM DEMs[J].Remote Sensing of Environment,2018,210:96-112.
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