GILCHING (Germany)

Hello, on this zip file you have :


LAIeff Map retrieved using Robust Regression on Reflectance between high resolution reflectance image and ground measurements
Image used to determine regression coefficients: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: Samples : 153
Image used to apply the regression: Lines : 160
Projection of the image : UTM 32, North, WGS-84,

Description of the LAIeff map file :
Samples : 153
Lines : 160
Center location (units=meters) : Latitude 5328018.1210; Longitude 672798.8021
Projection : UTM 32, North, WGS-84
Pixel Size (Easting&Northing): 20 meters
Generic Binary array file
Data format is an unsigned integer (2 bytes) for LAIeff
LAIeffMap = DIGITAL COUNT / 1000
Data format is an unsigned integer (1 byte) for LAIeffFlag
LAIeffFlag Map = DIGITAL COUNT, 0= value obtained by averaging over some ESUs belonging to one class for which too few ESU were available , 1= pixel inside the strict convex hull, 2=pixel inside the large convex hull, 3= pixel outside the convex hull



LAItrue Map retrieved using Robust Regression on Reflectance between high resolution reflectance image and ground measurements
Image used to determine regression coefficients: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: Samples : 153
Image used to apply the regression: Lines : 160
Projection of the image : UTM 32, North, WGS-84,

Description of the LAItrue map file :
Samples : 153
Lines : 160
Center location (units=meters) : Latitude 5328018.1210; Longitude 672798.8021
Projection : UTM 32, North, WGS-84
Pixel Size (Easting&Northing): 20 meters
Generic Binary array file
Data format is an unsigned integer (2 bytes) for LAItrue
LAItrueMap = DIGITAL COUNT / 1000
Data format is an unsigned integer (1 byte) for LAItrueFlag
LAItrueFlag Map = DIGITAL COUNT, 0= value obtained by averaging over some ESUs belonging to one class for which too few ESU were available , 1= pixel inside the strict convex hull, 2=pixel inside the large convex hull, 3= pixel outside the convex hull



LAI57eff Map retrieved using Robust Regression on Reflectance between high resolution reflectance image and ground measurements
Image used to determine regression coefficients: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: Samples : 153
Image used to apply the regression: Lines : 160
Projection of the image : UTM 32, North, WGS-84,

Description of the LAI57eff map file :
Samples : 153
Lines : 160
Center location (units=meters) : Latitude 5328018.1210; Longitude 672798.8021
Projection : UTM 32, North, WGS-84
Pixel Size (Easting&Northing): 20 meters
Generic Binary array file
Data format is an unsigned integer (2 bytes) for LAI57eff
LAI57effMap = DIGITAL COUNT / 1000
Data format is an unsigned integer (1 byte) for LAI57effFlag
LAI57effFlag Map = DIGITAL COUNT, 0= value obtained by averaging over some ESUs belonging to one class for which too few ESU were available , 1= pixel inside the strict convex hull, 2=pixel inside the large convex hull, 3= pixel outside the convex hull



LAI57true Map retrieved using Robust Regression on Reflectance between high resolution reflectance image and ground measurements
Image used to determine regression coefficients: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: Samples : 153
Image used to apply the regression: Lines : 160
Projection of the image : UTM 32, North, WGS-84,

Description of the LAI57true map file :
Samples : 153
Lines : 160
Center location (units=meters) : Latitude 5328018.1210; Longitude 672798.8021
Projection : UTM 32, North, WGS-84
Pixel Size (Easting&Northing): 20 meters
Generic Binary array file
Data format is an unsigned integer (2 bytes) for LAI57true
LAI57trueMap = DIGITAL COUNT / 1000
Data format is an unsigned integer (1 byte) for LAI57trueFlag
LAI57trueFlag Map = DIGITAL COUNT, 0= value obtained by averaging over some ESUs belonging to one class for which too few ESU were available , 1= pixel inside the strict convex hull, 2=pixel inside the large convex hull, 3= pixel outside the convex hull



fCover Map retrieved using Robust Regression on Reflectance between high resolution reflectance image and ground measurements
Image used to determine regression coefficients: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: Samples : 153
Image used to apply the regression: Lines : 160
Projection of the image : UTM 32, North, WGS-84,

Description of the fCover map file :
Samples : 153
Lines : 160
Center location (units=meters) : Latitude 5328018.1210; Longitude 672798.8021
Projection : UTM 32, North, WGS-84
Pixel Size (Easting&Northing): 20 meters
Generic Binary array file
Data format is an unsigned integer (2 bytes) for fCover
fCoverMap = DIGITAL COUNT / 1000
Data format is an unsigned integer (1 byte) for fCoverFlag
fCoverFlag Map = DIGITAL COUNT, 0= value obtained by averaging over some ESUs belonging to one class for which too few ESU were available , 1= pixel inside the strict convex hull, 2=pixel inside the large convex hull, 3= pixel outside the convex hull



fAPAR Map retrieved using Robust Regression on Reflectance between high resolution reflectance image and ground measurements
Image used to determine regression coefficients: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: SPOTGilching020708_3x3TOA.bil
Image used to apply the regression: Samples : 153
Image used to apply the regression: Lines : 160
Projection of the image : UTM 32, North, WGS-84,

Description of the fAPAR map file :
Samples : 153
Lines : 160
Center location (units=meters) : Latitude 5328018.1210; Longitude 672798.8021
Projection : UTM 32, North, WGS-84
Pixel Size (Easting&Northing): 20 meters
Generic Binary array file
Data format is an unsigned integer (2 bytes) for fAPAR
fAPARMap = DIGITAL COUNT / 1000
Data format is an unsigned integer (1 byte) for fAPARFlag
fAPARFlag Map = DIGITAL COUNT, 0= value obtained by averaging over some ESUs belonging to one class for which too few ESU were available , 1= pixel inside the strict convex hull, 2=pixel inside the large convex hull, 3= pixel outside the convex hull