[1] Foster J L, Chang A T C, Hall D K. Comparison of Snow Mass Estimates from a Prototype Passive Microwave Snow Algorithm, a Revised Algorithm and a Snow Depth Climatology[J]. Remote Sensing of Environment, 1997, 62(2):132-142
[2] Kelly R E, Chang A T, Tsang L, et al. A Prototype AMSR-E Global Snow Area and Snow Depth Algorithm[J]. IEEE Transactions on Geoscience and Remote Sensing, 2003, 41(2):230-242
[3] 刘艳,阮惠华,张璞,等.利用MODIS数据研究天山北麓Kriging雪深插值[J].武汉大学学报·信息科学版,2012,37(4):403-405

Liu Yan, Ruan Huihua, Zhang Pu, et al. Kriging Interpolation of Snow Depth at the North of Tianshan Mountains Assisted by MODIS Data[J]. Geomatics and Information Science of Wuhan University, 2012, 37(4):403-405
[4] 冯学智,柏延臣,史正涛,等.北疆地区积雪深度的克里格内插估计[J].冰川冻土,2000,22(4):358-361

Feng Xuezhi, Bo Yanchen, Shi Zhengtao, et al. Snow Depth in North Xinjiang Region Estimated by Kriging Interpolation[J]. Journal of Glaciology and Geocryology, 2000, 22(4):358-361
[5] Chang A T C, Foster J L, Hall D K. Nimbus-7 SMMR Derived Global Snow Cover Parameters[J]. Ann. Glaciol, 1987, 9(9):39-44
[6] Che T, Li X, Jin R, et al. Snow Depth Derived from Passive Microwave Remote-Sensing Data in China[J]. Annals of Glaciology, 2008, 49(1):145-154
[7] 车涛,李新.利用被动微波遥感数据反演我国积雪深度及其精度评价[J].遥感技术与应用,2004,19(5):301-306

Che Tao, Li Xin. Retrieval of Snow Depth in China by Passive Microwave Remote Sensing Data and Its Accuracy Assessment[J]. Remote Sensing Technology and Application, 2004, 19(5):301-306
[8] 蒋玲梅,王培,张立新,等.FY3B-MWRI中国区域雪深反演算法改进[J].中国科学:地球科学,2014,44(3):531-547

Jiang Lingmei, Wang Pei, Zhang Lixin, et al. Improvement of Snow Depth Retrieval for FY3B-MWRI in China[J]. Science China:Earth Sciences, 2014, 44(3):531-547
[9] Yamamoto J K. Correcting the Smoothing Effect of Ordinary Kriging Estimates[J]. Mathematical Geology, 2005, 37(1):69-94
[10] Wang X, Xie H, Liang T. Evaluation of MODISSnow Cover and Cloud Mask and Its Application in Northern Xinjiang, China[J]. Remote Sensing of Environment, 2008, 112(4):1497-1513
[11] Gao Y, Xie H, Lu N, et al. Toward Advanced Daily Cloud-Free Snow Cover and Snow Water Equivalent Products from Terra-Aqua MODIS and Aqua AMSR-E Measurements[J]. Journal of Hydrology, 2010, 385(1):23-35
[12] Pulliainen J. Mapping of Snow Water Equivalent and Snow Depth in Boreal and Sub-arctic Zones by Assimilating Space-Borne Microwave Radiometer Data and Ground-based Observations[J]. Remote sensing of Environment, 2006, 101(2):257-269
[13] Goovaerts P. Geostatistics for Natural Resources Evaluation[M]. New York:Oxford University Press, 1997
[14] Pebesma E J. Multivariable Geostatistics in S:the Gstat Package[J]. Computers & Geosciences, 2004, 30(7):683-691
[15] McLaughlin D. An Integrated Approach to Hydrologic Data Assimilation:Interpolation, Smoothing, and Filtering[J]. Advances in Water Resources, 2002, 25(8):1275-1286
[16] Li X, Koike T, Pathmathevan M. A Very Fast Simulated Re-annealing (VFSA) Approach for Land Data Assimilation[J]. Computers & Geosciences, 2004, 30(3):239-248
[17] Xin L, Chunlin H, Tao C, et al. Development of a Chinese Land Data Assimilation System:Its Progress and Prospects[J]. Progress in Natural Science, 2007, 17(8):881-892
[18] 马建文,秦思娴.数据同化算法研究现状综述[J].地球科学进展,2012,27(7):747-757

Ma Jianwen, Qin Sixian. Recent Advances and Development of Data Assimilation Algorithms[J]. Advances in Earth Science, 2012, 27(7):747-757
[19] Burgers G, van Leeuwen P J, Evensen G. Analysis Scheme in the Ensemble Kalman Filter[J]. Monthly Weather Review, 1998, 126(6):1719-1724
[20] 黄晓东,郝晓华,王玮,等.MODIS逐日积雪产品去云算法研究[J].冰川冻土,2012,34(5):1118-1126

Huang Xiaodong, Hao Xiaohua, Wang Wei, et al. Algorithms for Cloud Removal in MODIS Daily Snow Products[J]. Journal of Glaciology and Geocryology, 2012, 34(5):1118-1126
[21] 王宏伟,黄春林,侯金亮.一种融合遥感和地面观测资料的雪深空间插值方法[J].遥感技术与应用,2014,29(6):993-1000

Wang Hongwei, Huang Chunlin, Hou Jinliang. A Novel Spatial Interpolation Method for Snow Depth by Integrating Satellite and Ground Observations[J]. Remote Sensing Technology and Application, 2014, 29(6):993-1000