Keywords Cloud

Research Outputs

Co-authors[TOP 5]

Usage Statistics


  Total Views
 705

  Access Source
    internal: 4
    External: 701
    Domestic: 590
    Abroad: 115

  Annual Views
 253

  Access Source
    internal: 0
    External: 253
    Domestic: 219
    Abroad: 34

  Monthly Views
 5

  Access Source
    internal: 0
    External: 5
    Domestic: 4
    Abroad: 1

Visits

Visits

1. 特大城市群地区城镇化与生态环境交互耦合效应解析的理论框架及技术路径 [270]
2. 继承先生遗志 实现跨越发展——纪念黄秉维先生诞辰100周年 [195]
3. Bi-national research and education cooperation in the US-China Eco.. [134]
4. 长江经济带建设的若干问题与建议 [114]
5. 长江经济带国土空间开发结构解析 [105]
6. 长江经济带城市群可持续发展战略问题与分级梯度发展重点 [85]
7. 新冠肺炎疫情大数据分析与区域防控政策建议 [79]
8. A proportional odds model of human mobility and migration patterns [71]
9. Analysis of factors affecting urban park service area in Beijing: .. [57]
10. Model Simulation and Prediction of Decadal Mountain Permafrost Dis.. [52]
11. Assessing Spatiotemporal Characteristics of Urbanization Dynamics .. [51]
12. Multiscale adaptive reconstruction of missing information for remo.. [50]
13. A quantitative model to simulate the vertical errors of SRTM3 DEM .. [49]
14. The geographical characteristics of Nansha Islands in the South Ch.. [48]
15. Predicting soil organic carbon content in croplands using crop rot.. [46]
16. 基于地貌分区的1990-2015年中国耕地时空特征变化分析 [43]
17. Spatio-temporal distribution and transformation of cropland in geo.. [41]
18. Estimation of urban crowd flux based on mobile phone location data.. [40]
19. Spatio-temporal evolution and the influencing factors of PM2.5 in .. [39]
20. Evaluation of conditioned Latin hypercube sampling for soil mappin.. [39]
21. Applications of Satellite Remote Sensing of Nighttime Light Observ.. [35]
22. 中国无人机遥感技术突破与产业发展综述 [35]
23. Urban landscape extraction and analysis in the mega-city of China'.. [34]
24. Algebraic encoding scheme for aperture 3 hexagonal discrete global.. [34]
25. A systems dynamic model of a coal-based city with multiple adaptiv.. [32]
26. Spatial differentiation and morphologic characteristics of China's.. [31]
27. Performance comparison among typical open global DEM datasets in t.. [30]
28. 利用anns的空间信息处理服务智能集成算法 [28]
29. Understanding Terrestrial Water Storage Declining Trends in the Ye.. [28]
30. A WTLS-based rational function model for orthorectification of rem.. [27]
31. Sensing multiple semantics of urban space from crowdsourcing posit.. [26]
32. China's improving inland surface water quality since 2003 [26]
33. 煤炭资源型城市多适应性情景动力学模型研究以鄂尔多斯市为例 [25]
34. 基于Srtm-DEM与遥感的长白山基本地貌类型提取方法 [25]
35. 中国地貌区划理论与分区体系研究 [23]
36. Using MLR to model the vertical error distribution of ASTER GDEM V.. [22]
37. Geomorphological regionalization theory system and division method.. [22]
38. Tracking the evolution processes and behaviors of mesoscale eddies.. [20]
39. 地理大数据挖掘的本质 [20]
40. 西南地区山洪灾害时空分布特征及其影响因素 [20]
41. Pollution exacerbates China's water scarcity and its regional ineq.. [20]
42. Big geodata mining: Objective, connotations and research issues [20]
43. The Spatiotemporal Distribution of Flash Floods and Analysis of Pa.. [19]
44. An Iterative Black Top Hat Transform Algorithm for the Volume Esti.. [19]
45. An auto-tracking algorithm for mesoscale eddies using global neare.. [19]
46. Air pollution exposure associates with increased risk of neonatal .. [19]
47. 简单多边形顶点凹凸性判断算法综述 [19]
48. 利用RADARSAT SWA SAR和LANDSAT TM的互补信息确定洪水水体范围 [19]
49. Comparision of Methods for Polarimetric SAR Tomography with Small .. [19]
50. Difference of urban development in China from the perspective of p.. [18]
51. 论新时代我国城市地下空间高质量开发和可持续利用 [18]
52. Building a Series of Consistent Night-Time Light Data (1992-2018) .. [18]
53. Mapping Spatiotemporal Changes in Vegetation Growth Peak and the R.. [18]
54. Semantic-Geographic Trajectory Pattern Mining Based on a New Simil.. [17]
55. A Sparse Dictionary Learning-Based Adaptive Patch Inpainting Metho.. [17]
56. Uncovering the Directional Heterogeneity of an Aggregated Mobile P.. [17]
57. 多尺度数字地貌等级分类方法 [17]
58. 基于语义的gp服务多层次发现算法 [17]
59. 计算机环境下地貌晕渲图制作的探讨 [16]
60. 新疆土地耕作适宜性的多自然地理要素评价方法 [16]
61. Automatic mapping of lunar landforms using DEM-derived geomorphome.. [15]
62. 荆江河段防洪预警信息发布系统的构建与应用 [15]
63. 三孔六边形全球离散格网系统代数编码方法 [15]
64. 基于土地利用变化模型的退耕还林还草决策分析 --以通辽地区为例 [15]
65. 海洋地理信息系统理论基础及其关键技术研究 [15]
66. 面向全空间信息系统的多粒度时空对象数据模型描述框架 [15]
67. Improving prediction of soil organic carbon content in croplands u.. [15]
68. Jointly Learning of Visual and Auditory: A New Approach for RS Ima.. [15]
69. GDP Spatialization and Economic Differences in South China Based o.. [14]
70. spatiotemporaldistributionandtransformationofcroplandingeomorpholo.. [14]
71. An Efficient Contrast Enhancement Method for Remote Sensing Images [13]
72. 基于数学形态学的地震带图像识别分析 [13]
73. thegeographicalcharacteristicsofnanshaislandsinthesouthchinasea [13]
74. 华北地区强震时空相关性特征分析 [13]
75. A data-driven approach to generate past GRACE-like terrestrial wat.. [13]
76. A proposal for the theoretical analysis of the interactive coupled.. [12]
77. 不同海岸地貌背景下的南海周边岸带35年建设用地扩张分析 [12]
78. asystemsdynamicmodelofacoalbasedcitywithmultipleadaptivescenariosa.. [12]
79. 基于XML和CORBA的网络虚拟GIS设计 [12]
80. 东海区鱼类资源时空变化 [12]
81. Anomalies of dwellers' collective geotagged behaviors in response .. [12]
82. 新疆阿克苏河流域降水空间变异特征分析 [11]
83. 无人机遥感众创时代 [11]
84. aproposalforthetheoreticalanalysisoftheinteractivecoupledeffectsbe.. [11]
85. 基于分形的中国大陆海岸线尺度效应研究 [11]
86. waveheightestimationfromsarimagery [11]
87. comparisionofmethodsforpolarimetricsartomographywithsmallnumberofb.. [11]
88. A self-training semi-supervised machine learning method for predic.. [11]
89. 利用SAR图像计算内波深度和振幅的可行性研究 [10]
90. Research on Safety of Fisheries and Countermeasures in Nansha Isla.. [9]
91. 中国陆地土壤有机碳库的估算 [9]
92. spatiotemporalevolutionandtheinfluencingfactorsofpm25inchinabetwee.. [9]
93. Can we 'feel' the temperature of knowledge? Modelling scientific p.. [9]
94. 贵州森林的空间格局及组成结构 [8]
95. changesininlandlakesonthetibetanplateauoverthepast40years [8]
96. algebraicencodingschemeforaperture3hexagonaldiscreteglobalgridsyst.. [8]
97. 基于周期表的时空关联规则挖掘方法与实验 [8]
98. Mapping urban dynamics (1992-2018) in Southeast Asia using consist.. [8]
99. Extracting knowledge from legacy maps to delineate eco-geographica.. [8]
100. A new approach to modeling the fade-out threshold of coronavirus d.. [8]