机译:利用机载遥感系统中的多光谱图像对土壤和作物冠层覆盖范围进行建模和预测的空间建模和变异性分析
Yanbo Huang, ASABE Member Engineer, Agricultural Engineer, USDA-ARS Crop Production Systems Research Unit, Stoneville, Mississippi;
Yubin Lan, ASABE Member Engineer, Agricultural Engineer, USDA-ARS Areawide Pest Management Research Unit, College Station, Texas;
Yufeng Ge, ASABE Member Engineer, Assistant Research Engineer, Department of Crop and Soil Sciences, Texas A&
M University, College Station, Texas Wesley C. Hoffmann, ASABE Member Engineer, Agricultural Engineer, USDA-ARS Areawide Pest Management Research Unit, College Station, Texas;
and Steven J. Thomson, ASABE Member Engineer, Agricultural Engineer, USDA-ARS Crop Production Systems Research Unit, Stoneville, Mississippi. Corresponding author: Yanbo Huang, USDA-ARS Crop Production Systems Research Unit, 141 Experiment Station Rd., Stoneville, MS 38776;
Aerial multispectral imagery; Crop management; Geostatistics; Image processing; Spatial regression;
机译:使用机载遥感系统的多光谱图像对土壤和作物冠层覆盖范围进行建模和预测的空间建模和变异性分析。
机译:利用人工神经网络和多光谱机载遥感影像对土壤热通量进行建模
机译:将卫星遥感全锐化图像纳入数字化土壤预测和制图模型,以表征小农田的土壤性质变异性
机译:了解使用遥感数据和仿真模型对印度旁遮普邦的气候变化的裁剪系统应对空间变化
机译:主成分分析和空间回归技术,通过辐射校准的多时相和多光谱数字航空影像对玉米和大豆的产量变异性进行建模和映射
机译:基于植被和土壤特性因子的玉米田土壤呼吸空间格局的遥感和地理信息系统建模
机译:基于人工神经网络和多光谱机载遥感影像的土壤热通量模拟