Geometrically corrected products which have had terrain correction applied, may also contain a digital elevation model (DEM) header file and a DEM File containing the terrain model used to correct the product.
-----------------------
| Image Header File |
-----------------------
------------------------
| Image File (Band 1)| <----- Each image file contains only
------------------------ one band. The image file sequence
* begins with the lowest band number.
* The number of bands present
* depends on the product ordered.
------------------------
| Image File (Band N)|
------------------------
-----------------------
| Work Order Report |
-----------------------
--------------------------
| History and Processing |
| Parameters |
--------------------------
-----------------------
| DEM Header File | <-----
----------------------- | Optional
| Files
----------------------- |
| DEM File | <-----
-----------------------
-----------------------
| Image Header File |
-----------------------
-----------------------
| Image File | <------ The file contains each band
----------------------- in interleaved order.
The first line of band 1 is
----------------------- present, followed by the first
| Work Order Report | line of band n, the second
----------------------- line of band 1, and so on.
The number of bands present
-------------------------- depends on the product ordered.
| History and Processing |
| Parameters |
--------------------------
-----------------------
| DEM Header File | <-----
----------------------- | Optional
| Files
----------------------- |
| DEM File | <-----
-----------------------
--------------------- --------------------- ---------------------
| Image Header File | | Image Header File | | Work Order Report |
--------------------- --------------------- ---------------------
--------------------- --------------------- --------------------------
|Image File (Band 1)| |Image File (Band N)| | History and Processing |
--------------------- --------------------- | Parameters |
--------------------------
---------------------- ----------------------- ----------------------
| Image File (Band 2)| |Image File (Band N+1)| | DEM Header File |
---------------------- ----------------------- ----------------------
----------------------
| DEM File |
----------------------
The characters "," and ";" serve as value and entry delimiters respectively whereas "=" separates the keyword field from value field(s). Thus, these are special characters and they are not to be used in keyword and value fields. In rare instances when these special characters are required in keyword and value fields, the desired field must be enclosed in double quotes (i.e.,"<field>", where the <field> contains the above-mentioned special character(s)).
In the rare event that the double quote character is required in a field, it is represented by a backslash, followed by a double quote (e.g., "\""). A backslash in a field is denoted by two consecutive backslashs (e.g., "\\").
The first and last characters of keywords and values are non-blank characters. <Keywords> are unique and are single tokens. Words in keyword fields are connected by underscores. An example of a keyword is "BITS_PER_PIXEL".
Where possible, each entry in the <value> field is a single token. The keyword in the first entry of the header is "NDF_REVISION". All other header entries can appear in any order, except for the keyword "END_OF_HDR", which has no parameters and represents the end of a header. This entry is also terminated by a semicolon.
Each keyword starts at the beginning of a new line. Any number, including zero, or white spaces may appear outside the keyword and value fields. White spaces refer to space, tab, carriage-return (CR), and line-feed (LF) characters.
Only required parameters are entered in the file. Those parameters that are not required may not be included. For example, NDF file containing mosaicked DEM data will probably not have BAND1_RADIOMETRIC_GAINS/BIAS entries. A parameter with a specified default value may not be included if it is to take on its default value.
All header files include the parameters listed in Table 1-1, except for parameters that are to be set to their default values. Header files for MSS and TM image data also contain the parameters specified in Table 1-2. Header files for DEM data also contain the parameters specified in Table 1-3.
Within the parameter tables, the following notation is used:
+----------------------+----------------------------------------------------+ | Keywords | Description of keywords and appropriate values | +----------------------+----------------------------------------------------+ +----------------------+----------------------------------------------------+ |NDF_REVISION | Format version code <m>"."<nn>. This document | | | describes version "1.00" | |----------------------|----------------------------------------------------| |PRODUCT_NUMBER | Product order number in <NNNYYMMDDSSSSdddd> | | | format with NNN = Node, YY = year, MM = month, | | | DD = day, SSSS = Sequence Number, and dddd = | | | unit number. | |----------------------|----------------------------------------------------| |DATA_FILE_INTERLEAVING| Interleaving type. Valid values are: "BIL","BSQ". | |----------------------|----------------------------------------------------| |TAPE_SPANNING_FLAG | Tape spanning flag for images that span multiple | | | volumes in <n>"/"<m> format, where | | | <n> is the current volume number and <m> | | | is the total number of volumes. | |----------------------|----------------------------------------------------| |START_LINE_NUMBER | First data/image line number on this volume (for | | | multiple volumes). Integer format. | |----------------------|----------------------------------------------------| |START_DATA_FILE | First data file number on this volume (for | | | multiple volumes). Integer format. | |----------------------|----------------------------------------------------| |BLOCKING_FACTOR | Blocking factor. Number of data records per block. | | | Integer format. Default is "1". | |----------------------|----------------------------------------------------| |MAP_PROJECTION_NAME | Map projection name, as specified in GCTP | | | documentationa. | |----------------------|----------------------------------------------------| |USGS_PROJECTION_NUMBER| USGS supported projection number, as specified | | | in GCTP documentationa. | |----------------------|----------------------------------------------------| |USGS_MAP_ZONE | USGS map zone code, for UTM and State Plane | | | Cartographic System. (Negative numbers are used | | | to indicate southern hemisphere for UTM zone). | |----------------------|----------------------------------------------------| |USGS_PROJECTION_ | USGS map projection parametersa. There are 15 | |PARAMETERS | parameters, all with the same format (D26.15). | |----------------------|----------------------------------------------------| |HORIZONTAL_DATUM | Name of the horizontal datum usedb. | | | See Appendix A. | |----------------------|----------------------------------------------------| |EARTH_ELLIPSOID_ | Semi-major axis of Earth ellipsoid. F11.3 | |SEMI-MAJOR_AXIS | format, in meters. | |----------------------|----------------------------------------------------| |EARTH_ELLIPSOID_ | Semi-minor axis of Earth ellipsoid. F11.3 | |SEMI-MINOR_AXIS | format, in meters. | |----------------------|----------------------------------------------------| |EARTH_ELLIPSOID_ | <x-offset>","<y-offset>","<z-offset> | |ORIGIN_OFFSET | x-, y- & z-offsets of Earth ellipsoid in meters. | | | F11.3 format. | |----------------------|----------------------------------------------------| |EARTH_ELLIPSOID_ | <x-plane offset>","<y-plane offset>", | |ROTATION_OFFSET | "<z-plane offset> Angular offset from | | | x-plane, y-plane & z-plane of Earth ellipsoid | | | in degrees. F9.6 format. | |----------------------|----------------------------------------------------| |PRODUCT_SIZE | Valid values are: "FULL_SCENE", "SUBSCENE", | | | "MULTI_SCENE". | |----------------------|----------------------------------------------------| |RESAMPLING | Resampling kernel. Valid values are: "NN", | | | "BL", "CC", "KD16","SINC8", "SINC16", "NONE", | | | <user-defined>, where <user-defined> | | | is an unique name for an user-definable kernel. | |----------------------|----------------------------------------------------| |PROCESSING_DATE/TIME | Processing date/time <MMDDYY>"/" | | | <hhmmssxx> format, in local system time. | |----------------------|----------------------------------------------------| |PROCESSING_SOFTWARE | Processing software version: "NLAPS_"<xx>" | | | where xx = software version number. | |----------------------|----------------------------------------------------| |DATA_SET_TYPE | Type of data. Format of data type: | | | <producer>"_"<sensor>|<data type>[FMT<nnn>] | | | Valid types are: "EDC_MSS","EDC_TM","NLAPS_DEM" | |----------------------|----------------------------------------------------| |PIXEL_FORMAT | Format of pixel. Valid values are: "BIT", "BYTE", | | | "2BYTEINT", "4BYTEINT", "REAL", "DOUBLE". | | | Note that integers may be signed or unsigned. | |----------------------|----------------------------------------------------| |PIXEL_ORDER | Valid values are: "NOT_INVERTED", | | | "[<n>-]BYTE_INVERTED", | | | "[<n>-]BIT_INVERTED". | | | An example is: "BYTE_INVERTED". | | | Default value is "NOT_INVERTED". | |----------------------|----------------------------------------------------| |BITS_PER_PIXEL | Number of bits per pixel. Integer format. | |----------------------|----------------------------------------------------| |PIXELS_PER_LINE | Number of pixels per line. Integer format. | |----------------------|----------------------------------------------------| |LINES_PER_DATA_FILE | Number of data lines for each data/image file. | | | For example, for a 3-band BIL imagery data file. | | | the value of LINES_PER_DATA_FILE will equal the | | | number of lines in each band multiplied by 3. | | | Integer format. For BSQ imagery, the value of | | | LINES_PER_DATA_FILE will equal the number of | | | lines in each band. | |----------------------|----------------------------------------------------| |DATA_ORIENTATION | Data orientation in <position>"/" | | | <direction> formatc. | | | Valid values are: | | | "UPPER_LEFT/RIGHT", "UPPER_LEFT/BOT", | | | "UPPER_RIGHT/LEFT", "UPPER_RIGHT/BOT", | | | "BOTTOM_LEFT/RIGHT", "BOTTOM_LEFT/TOP", | | | "BOTTOM_RIGHT/LEFT", "BOTTOM_RIGHT/TOP". | |----------------------|----------------------------------------------------| |NUMBER_OF_DATA_FILES | Total number of image/data files. Header, work | | | order report and history files are excluded. | | | Integer format. | |----------------------|----------------------------------------------------| |LINES_PER_VOLUME | Number of data lines on this volume (for multiple | | | volumes). Integer format. | |----------------------|----------------------------------------------------| |RECORD_SIZE | Length of physical record in bytes. Integer format.| |----------------------|----------------------------------------------------| |UPPER_LEFT_CORNER | <Longitude>"," <Latitude>"," <Easting>", | | | "<Northing> where Longitude and Latitude | | | represent geodetic coordinates in <DDDMMSS> | | | "."<SSSSC> format with DDD = degrees, | | | MM = minutes, SS.SSSS = seconds, and | | | C = "N", "S", "E" or "W". Easting and Northing | | | are expressed in meters, in F13.3 format. These | | | 4 measurements are taken at the center of the | | | upper-left-most pixel. An example of longitude: | | | 5 degrees, 13 min., 12.7 sec. west of prime | | | meridian will be expressed as "0051312.7000W". | | | An example of latitude: 18 degrees, 12 min., | | | 54.7 sec. north of the equator will be expressed | | | as "0181254.7000N". | |----------------------|----------------------------------------------------| |UPPER_RIGHT_CORNER | <Longitude>"," <Latitude>", | | | "<Easting>","<Northing>. The format | | | is similar to that of UPPER_LEFT_CORNER. These | | | 4 measurements are taken at the center of the | | | upper-right-most pixel. | |----------------------|----------------------------------------------------| |LOWER_RIGHT_CORNER | <Longitude>"," <Latitude>", | | | "<Easting>","<Northing>. The format | | | is similar to that of UPPER_LEFT_CORNER. These | | | 4 measurements are taken at the center of the | | | lower-right-most pixel. | |----------------------|----------------------------------------------------| |LOWER_LEFT_CORNER | <Longitude>"," <Latitude>", | | | "<Easting>","<Northing>. The format | | | similar to that of UPPER_LEFT_CORNER. These 4 | | | measurements are taken at the center of the | | | lower-left-most pixel. | |----------------------|----------------------------------------------------| |REFERENCE_POINT | Valid values are: | | | "SCENE_CENTER", "NONE". | |----------------------|----------------------------------------------------| |REFERENCE_POSITION | <Longitude>","<Latitude>", | | | "<Easting>", "<Northing>", | | | "<Pixel #>","<Line #>. Used to | | | geographically reference the image to the ground. | | | The longitude, latitude, easting and northing | | | formats are the same as those in UPPER_LEFT_CORNER.| | | Pixel # and Line # refer to reference point pixel | | | and line numbers respectively, with the first | | | pixel in the image being 1,1. They both have | | | F9.2 formats and can be negative. Integer | | | line/pixel numbers correspond to the center | | | of a pixel. | |----------------------|----------------------------------------------------| |REFERENCE_OFFSET | <x-offset>","<y-offset>. Horizontal | | | offset of the true reference point from the | | | nominal WRS scene center in units of whole | | | pixels. Both are F9.2 format. | |----------------------|----------------------------------------------------| |ORIENTATION | Orientation angle in degrees measured clockwise | | | from grid (map) North. May be negative. | | | F11.6 format. | |----------------------|----------------------------------------------------| |WRS | WRS Path/Row in <ppp>"/"<rrr.n> format, | | | where n is the fractional row value. | |----------------------|----------------------------------------------------| |ACQUISITION_DATE/ | Date and time of acquisition of reference point | |TIME | in <MMDDYY>"/"<hhmmssxx> format, | | | in GMT. | |----------------------|----------------------------------------------------| |SATELLITE | Satellite number. Valid values are | | | "LANDSAT_"<n>, where n is an integer from | | | 1 through 5. | |----------------------|----------------------------------------------------- |SATELLITE_INSTRUMENT | Instrument type: <SSSSSS>[mm][nn], where | | | <SSSSSS> is the sensor type, [mm] the mode | | | number, and [nn] the multiplexor. | | | Valid values are: "MSS", "TM". | |----------------------|----------------------------------------------------| |PIXEL_SPACING | <Horizontal pixel size>","<vertical | | | pixel size>. Horizontal and vertical pixel | | | size in PIXEL_SPACING_UNITS. F9.4 format. | |----------------------|----------------------------------------------------| |PIXEL_SPACING_UNITS | Units of measure: "METERS" | |----------------------|----------------------------------------------------| |PROCESSING_LEVEL | Processing level. For TM & MSS, valid values | | | are: "01", "02", "03", "04", "05", "06", "07", | | | "08", "09", "10". These correspond to the | | | standard LANDSAT processing levelsc. | |----------------------|----------------------------------------------------| |SUN_ELEVATION | Sun elevation in degrees at the reference point | | | (acquisition time). F6.2 format. | |----------------------|----------------------------------------------------| |SUN_AZIMUTH | Sun azimuth in degrees at the reference point | | | (acquisition time). F6.2 format. | |----------------------|----------------------------------------------------| |NUMBER_OF_BANDS_ | Number of bands in the volume. Integer format. | |IN_VOLUME | | +----------------------+----------------------------------------------------+
b. For a listing of the Horizontal Datum names, a datum name's default ellipsoid/Earth model, and a brief geographical reference, see Appendix A.
c. For a listing of the General Cartographic Transformation Package (GCTP) map projection names, map projection numbers, and map projection parameters, see Table B-1 and Table B-2 in Appendix B.
d. For a listing of the standard Landsat processing level definitions, see Table B-3 in Appendix B.
+----------------------+----------------------------------------------------+
| Keywords | Description of keywords and appropriate values |
+----------------------+----------------------------------------------------+
+----------------------+----------------------------------------------------+
|BAND1_NAME | Name of first band. For example: "TM_Band_3". |
| Format: string. |
|----------------------|----------------------------------------------------|
|BAND1_WAVELENGTHS | <start of range>","<end of range> |
| | Range of wavelength of first band in the volume |
| | in micrometers. F6.2 format. |
|----------------------|----------------------------------------------------|
|BAND1_RADIOMETRIC | <Gain>","<bias> Gain and bias values |
|_GAINS/BIAS | for first band. F16.7 format. (Not applied) |
|----------------------|----------------------------------------------------|
|... | ... |
|----------------------|----------------------------------------------------|
|... | ... |
|----------------------|----------------------------------------------------|
|BAND<n>_NAME | Name of last band in the volume, where <n> |
| | is the number of bands present. Format: string. |
|----------------------|----------------------------------------------------|
|BAND<n>_WAVELENGTHS | <start of range> "," <end of range> |
| | Range of wavelength of last band in the volume |
| | in micrometers. F6.2 format. |
|----------------------|----------------------------------------------------|
| BAND<n>_RADIOMETRIC_ | <Gain> "," <bias> Gain and bias values for |
| GAINS/BIAS | last band. F16.7 format. (Not applied) |
+----------------------+----------------------------------------------------+
+----------------------+----------------------------------------------------+ | Keywords | Description of keywords and appropriate values | +----------------------+----------------------------------------------------+ +----------------------+----------------------------------------------------+ |DEM_NAME | Name of DEM. | |----------------------|----------------------------------------------------| |UNIT_OF_ELEVATION_ | Valid value is "METERS". | |MEASURE | | |----------------------|----------------------------------------------------| |VERTICAL_DATUM | Name of vertical datum that elevations in the | | | DEM are relative to. Format: string. | +----------------------+----------------------------------------------------+
Two different example headers are listed below to demonstrate how the metadata appears in the first file of each digital product.
TM precision terrain corrected image header example:
NDF_REVISION=0.00;
PRODUCT_NUMBER=01197050500800002;
DATA_FILE_INTERLEAVING=BSQ;
TAPE_SPANNING_FLAG=1/1;
START_LINE_NUMBER=1;
START_DATA_FILE=1;
BLOCKING_FACTOR=1;
MAP_PROJECTION_NAME=ALBERS_EQUAL_AREA;
USGS_PROJECTION_NUMBER=3;
USGS_MAP_ZONE=62;
USGS_PROJECTION_PARAMETERS=6378206.400000000400000,6356583.799999999800000,55000
000.000000000000000,65000000.000000000000000,-154000000.000000000000000,50000000
.000000000000000,0.000000000000000,0.000000000000000,0.000000000000000,0.0000000
00000000,0.000000000000000,0.000000000000000,0.000000000000000,0.000000000000000
,0.000000000000000;
HORIZONTAL_DATUM=NAD27;
EARTH_ELLIPSOID_SEMI-MAJOR_AXIS=6378206.400;
EARTH_ELLIPSOID_SEMI-MINOR_AXIS=6356583.800;
EARTH_ELLIPSOID_ORIGIN_OFFSET=-4.461,127.402,159.669;
EARTH_ELLIPSOID_ROTATION_OFFSET=0.000000,0.000000,0.000000;
PRODUCT_SIZE=FULL_SCENE;
RESAMPLING=NN;
PROCESSING_DATE/TIME=050897/15444300;
PROCESSING_SOFTWARE=NLAPS_3_0_3;
DATA_SET_TYPE=EDC_TM;
PIXEL_FORMAT=BYTE;
PIXEL_ORDER=NOT_INVERTED;
BITS_PER_PIXEL=8;
PIXELS_PER_LINE=8599;
LINES_PER_DATA_FILE=8165;
DATA_ORIENTATION=UPPER_LEFT/RIGHT;
NUMBER_OF_DATA_FILES=7;
LINES_PER_VOLUME=57155;
RECORD_SIZE=8599;
UPPER_LEFT_CORNER=1640910.5567W,0691228.4628N,-406050.000,2168910.000;
UPPER_RIGHT_CORNER=1574342.8359W,0692709.6574N,-148110.000,2168910.000;
LOWER_RIGHT_CORNER=1572443.5142W,0671421.7268N,-148110.000,1923990.000;
LOWER_LEFT_CORNER=1631804.7741W,0670101.1617N,-406050.000,1923990.000;
REFERENCE_POINT=SCENE_CENTER;
REFERENCE_POSITION=1603900.8801W,0681514.8302N,-277080.000,2046450.000,4300.00,4
083.00;
REFERENCE_OFFSET=-219.30,-130.52;
ORIENTATION=0.000000;
WRS=080/012.0;
ACQUISITION_DATE/TIME=073192/21281666;
SATELLITE=LANDSAT_4;
SATELLITE_INSTRUMENT=TM;
PIXEL_SPACING=30.0000,30.0000;
PIXEL_SPACING_UNITS=METERS;
PROCESSING_LEVEL=10;
SUN_ELEVATION=38.70;
SUN_AZIMUTH=156.42;
NUMBER_OF_BANDS_IN_VOLUME=7;
BAND1_NAME=TM_BAND_1;
BAND1_WAVELENGTHS=0.45,0.52;
BAND1_RADIOMETRIC_GAINS/BIAS=0.6024314,-1.5200000;
BAND2_NAME=TM_BAND_2;
BAND2_WAVELENGTHS=0.52,0.60;
BAND2_RADIOMETRIC_GAINS/BIAS=1.1750981,-2.8399999;
BAND3_NAME=TM_BAND_3;
BAND3_WAVELENGTHS=0.63,0.69;
BAND3_RADIOMETRIC_GAINS/BIAS=0.8057647,-1.1700000;
BAND4_NAME=TM_BAND_4;
BAND4_WAVELENGTHS=0.76,0.90;
BAND4_RADIOMETRIC_GAINS/BIAS=0.8145490,-1.5100000;
BAND5_NAME=TM_BAND_5;
BAND5_WAVELENGTHS=1.55,1.75;
BAND5_RADIOMETRIC_GAINS/BIAS=0.1080784,-0.3700000;
BAND6_NAME=TM_BAND_6;
BAND6_WAVELENGTHS=10.40,12.50;
BAND6_RADIOMETRIC_GAINS/BIAS=0.0551582,1.2377996;
BAND7_NAME=TM_BAND_7;
BAND7_WAVELENGTHS=2.08,2.35;
BAND7_RADIOMETRIC_GAINS/BIAS=0.0569804,-0.1500000;
END_OF_HDR;
Digital elevation model header example:
NDF_REVISION=0.00; PRODUCT_NUMBER=00095070400010017; DATA_FILE_INTERLEAVING=BSQ; TAPE_SPANNING_FLAG=1/1; START_LINE_NUMBER=1; START_DATA_FILE=1; BLOCKING_FACTOR=1; MAP_PROJECTION_NAME=UTM; USGS_PROJECTION_NUMBER=1; USGS_MAP_ZONE=12; USGS_PROJECTION_PARAMETERS=0.000000000000000,0.000000000000000,0.00000 0000000000,0.000000000000000,0.000000000000000,0.000000000000000,0.000 000000000000,0.000000000000000,0.000000000000000,0.000000000000000,0.0 00000000000000,0.000000000000000,0.000000000000000,0.000000000000000,0 .000000000000000; HORIZONTAL_DATUM=NAD83; EARTH_ELLIPSOID_SEMI-MAJOR_AXIS=6378135.000; EARTH_ELLIPSOID_SEMI-MINOR_AXIS=6356750.321; EARTH_ELLIPSOID_ORIGIN_OFFSET=0.000,0.000,0.000; EARTH_ELLIPSOID_ROTATION_OFFSET=0.000000,0.000000,0.000000; PRODUCT_SIZE=FULL_SCENE; RESAMPLING=CC; PROCESSING_DATE/TIME=091995/12464300; PROCESSING_SOFTWARE=NLAPS_00; DATA_SET_TYPE=NLAPS_DEM; DEM_NAME=DEM; PIXEL_FORMAT=2BYTEINT; PIXEL_ORDER=NOT_INVERTED; BITS_PER_PIXEL=16; PIXELS_PER_LINE=23056; LINES_PER_DATA_FILE=21585; DATA_ORIENTATION=UPPER_LEFT/RIGHT; LINES_PER_VOLUME=21585; RECORD_SIZE=23056; UPPER_LEFT_CORNER=1150117.8748W,0411631.3141N,163150.000,4577130.000; UPPER_RIGHT_CORNER=1121613.6580W,0412019.1855N,393700.000,4577130.000; LOWER_RIGHT_CORNER=1121404.0810W,0392340.4716N,393700.000,4361290.000; LOWER_LEFT_CORNER=1145428.8608W,0392007.6361N,163150.000,4361290.000; REFERENCE_POINT=SCENE_CENTER; REFERENCE_POSITION=1133631.5861W,0402038.5814N,278425.000,4469210.000,11528.50,10793.00; REFERENCE_OFFSET=637.41,137.60; ORIENTATION=-0.029488; NUMBER_OF_BANDS_IN_VOLUME=1; PIXEL_SPACING=10.0000,10.0000; PIXEL_SPACING_UNITS=METERS; UNIT_OF_ELEVATION_MEASURE=METERS; VERTICAL_DATUM=SEA_LEVEL; END_OF_HDR;
If the image has BSQ scan line organization, the scan lines are sequentially written for each band to the same image file as shown in Figure 1-4. If the image has BIL scan line organization then the scan lines are sequenced by interleaving all bands as shown in Figure 1-5.
-----------------------
| Line 1 Band 1 |
-----------------------
-----------------------
| Line 2 Band 1 |
-----------------------
*
*
*
-----------------------
| Line N Band 1 |
-----------------------
-----------------------
| Line 1 Band 2 |
-----------------------
*
*
*
-----------------------
| Line M Band N |
-----------------------
-----------------------
| Line 1 Band 1 |
-----------------------
-----------------------
| Line 1 Band 2 |
-----------------------
*
*
*
*
-----------------------
| Line 1 Band N |
-----------------------
-----------------------
| Line 2 Band 1 |
-----------------------
*
*
*
*
-----------------------
| Line M Band N |
-----------------------
The Work Order Report File provides a record of the work executed in to a DORRAN Product Order. This file is in ASCII format and contains information relative to the processing performed and the parameters used (e.g., latitude, longitude, heights, dates).
Multiple processing stage examples are listed below to display how the work order file appears in a product file.,
NOTE:
Latitudes and longitudes are specified in degrees.
Heights are specified in meters.
Northings and eastings are specified in meters with respect to the map
origin.
Dates are in MM/DD/YY format.
==============================================================================
PRODUCT ORDER
==============================================================================
format_version = 001
order_nbr = 0119705050080
unit_nbr = 0002
message_date = 05/05/97
message_type = ORD
product_code = N400
product_assign = P
priority_code = 4
date_due = 05/16/97
satellite = 4
sensor = TM
input_media_type = DT
input_media_fmt = BR
storage_loc = BE1869
dct_id = 9603804TMR
nbr_scenes = 01
scene_info:
new_scene_id scene_addr_id_1 scene_addr_id_2
LT4080012009221310 3225401 3425521
geo_corr_level = MAP
rad_calib_meth = NASA
terrain_corr = FULL
output_prod_spc = WRS_SCENE
output_prod_loc:
out_prod_path = 080
out_prod_row = 12.0
image_orientation = MAP
map_projection:
projection_code = 3
projection_params:
parm1 = 6378206.4
parm2 = 6356583.8
parm3 = +055000000
parm4 = +065000000
parm5 = -154000000
parm6 = +050000000
parm7 = 0.0
parm8 = 0.0
parm9 =
parm10 =
parm11 =
parm12 =
parm13 =
parm14 =
parm15 =
zone = 62
horizontal_datum = NAD27
prod_pixel_height = 30.00 meters
prod_pixel_width = 30.00 meters
resamp_method = 1P2D
resamp_tech = NN
base_elevation = 0
rad_enhancement = NONE
nbr_dems = 21
dem_info:
dem_stor_loc dem_file_id dem_media_type dem_format
DTED101 dted/w164/n69.dt1 CD DTED
DTED101 dted/w164/n67.dt1 CD DTED
DTED101 dted/w164/n68.dt1 CD DTED
DTED101 dted/w159/n67.dt1 CD DTED
DTED101 dted/w160/n67.dt1 CD DTED
DTED101 dted/w161/n67.dt1 CD DTED
DTED101 dted/w162/n67.dt1 CD DTED
DTED101 dted/w163/n67.dt1 CD DTED
DTED101 dted/w158/n67.dt1 CD DTED
DTED101 dted/w159/n68.dt1 CD DTED
DTED101 dted/w159/n69.dt1 CD DTED
DTED101 dted/w160/n68.dt1 CD DTED
DTED101 dted/w160/n69.dt1 CD DTED
DTED101 dted/w161/n68.dt1 CD DTED
DTED101 dted/w161/n69.dt1 CD DTED
DTED101 dted/w162/n68.dt1 CD DTED
DTED101 dted/w162/n69.dt1 CD DTED
DTED101 dted/w163/n68.dt1 CD DTED
DTED101 dted/w163/n69.dt1 CD DTED
DTED101 dted/w158/n68.dt1 CD DTED
DTED101 dted/w158/n69.dt1 CD DTED
retain_dem_f = Y
nbr_maps = 8
map_info:
map_quad_name state id ctr_lat ctr_lon scale
BAIRD MTS AK D-6 67.87515 -161.75125 63360
BAIRD MTS AK C-6 67.62515 -161.75125 63360
BAIRD MTS AK B-3 67.37516 -160.25122 63360
DE LONG MTS AK A-2 68.12523 -162.90149 63360
MISHEGUK MTN AK D-5 68.87521 -161.70156 63360
MISHEGUK MTN AK C-3 68.62522 -160.50153 63360
MISHEGUK MTN AK B-2 68.37522 -159.90153 63360
MISHEGUK MTN AK A-1 68.12523 -159.30149 63360
inp_image_quick_look_req = N
rad_corr_quick_look_req = N
deband_quick_look_req = N
despike_quick_look_req = N
resam_img_quick_look_req = N
verify_req_f = Y
spectral_bands = 1234567
product_format = NDF
data_organization = BSQ
==============================================================================
INGEST STAGE
==============================================================================
Start Time = Wed May 7 08:10:13 1997
End Time = Wed May 7 09:50:19 1997
Input Media = DCRSi
Input Data Format = R
Volume Information:
Storage Location | SceneIdList
-----------------+---------------------------
BE1869 | LT4080012009221310
Total Swaths = 1149
Input Center:
Date = 07/31/92
Time = 21:28:17.331
Sync Losses = 0
Bands Ingested = 1, 2, 3, 4, 5, 6, 7
==============================================================================
PRECISION MODELLING STAGE
==============================================================================
NOTE:
All error measurements are in meters.
Start Time = Wed May 7 09:50:28 1997
End Time = Thu May 8 08:33:38 1997
Number of CPs in model: 12
Error Mean Error RMS Error Std Dev Error
----------------------------------------------------------------
Along Track 0.05 14.36 14.36
Across Track 0.04 12.61 12.61
Height 0.00 1.17 1.17
Combined 0.06 19.15 19.15
CONTROL POINT SUMMARY
---------------------
CP# Lat Long Height
--------------------------------------------
1761 68.39428 -160.81073 416.2
1900 65.84476 -161.26330 83.8
1757 66.04878 -163.18753 5.4
1749 66.44256 -164.91038 5.2
1772 68.71724 -159.80461 615.7
1867 67.09000 -160.48211 14.8
1747 67.70850 -163.67470 141.9
1870 66.87875 -162.37753 8.3
1773 68.31944 -162.69128 321.1
3067 67.63941 -159.80809 188.4
3045 68.80425 -158.57369 496.1
2919 68.19158 -158.40685 511.1
CP# Auto- Type Along Across Height Combined
marked? Track Track
-----------------------------------------------------------------------
1761 Y RCP -12.88 13.89 -0.27 18.95
1900 Y RCP -23.12 -1.97 -0.21 23.20
1757 Y RCP 11.58 -14.27 0.10 18.38
1749 Y RCP 2.47 0.15 -0.03 2.48
1772 Y RCP 14.45 1.97 0.05 14.59
1867 Y RCP 10.03 15.38 1.44 18.42
1747 Y RCP -9.20 7.71 -1.07 12.05
1870 Y RCP -1.15 1.60 -0.02 1.97
1773 Y RCP -2.19 -5.31 0.66 5.78
3067 Y RCP 22.50 -12.56 -1.23 25.80
3045 N RCP -24.07 -25.44 -2.04 35.08
2919 N RCP 12.16 19.32 2.61 22.97
==============================================================================
DEM INGEST STAGE
==============================================================================
Start Time = Thu May 8 08:34:11 1997
End Time = Thu May 8 11:45:48 1997
DEM Source Format = DTED
DEM Pixel Spacing = 60.000 tenths of seconds
==============================================================================
DEM PROCESSING STAGE
==============================================================================
Start Time = Thu May 8 11:46:02 1997
End Time = Thu May 8 12:00:52 1997
==============================================================================
APPLY DESPIKE FILTER STAGE
==============================================================================
Start Time =
End Time =
==============================================================================
APPLY DEBAND FILTER STAGE
==============================================================================
Start Time =
End Time =
==============================================================================
IMAGE CORRECTION STAGE
==============================================================================
Start Time = Thu May 8 12:01:01 1997
End Time = Thu May 8 13:42:17 1997
Map Projection = ALBCONEQ
Datum (Earth Spheroid) = NAD27
Geometric Correction Level = map-projected
Image Orientation = 0.00000 degrees
Resampling Method = 1 PASS
Resampling Kernel = NearestNeighbor
Radiometric Correction:
------------------------
Radiometric Calibration Algorithm = NASA
Band | Reference DN to Radiance Default Absolute
| Detector Gain Offset Calibration?
-----+--------------------------------------------------------
1 | 6 0.602431 -1.520000 N
2 | 10 1.175100 -2.840000 Y
3 | 4 0.805765 -1.170000 N
4 | 13 0.814549 -1.510000 N
5 | 11 0.108078 -0.370000 Y
6 | 2 0.055158 1.237800 N
7 | 15 0.056980 -0.150000 N
Destriping gains/offsets for band: 1
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 0.78433 0.29926 0.78433 0.29926
2 | 0.77905 0.03200 0.77905 0.03200
3 | 0.77170 0.36095 0.77170 0.36095
4 | 0.77223 0.05781 0.77223 0.05781
5 | 0.77337 0.50945 0.77337 0.50945
6 | 0.76821 -0.04249 0.76821 -0.04249
7 | 0.77253 0.37804 0.77253 0.37804
8 | 0.76391 0.13617 0.76391 0.13617
9 | 0.76821 0.35678 0.76821 0.35678
10 | 0.75941 0.16086 0.75941 0.16086
11 | 0.76450 0.40036 0.76450 0.40036
12 | 0.77114 0.27287 0.77114 0.27287
13 | 0.77645 0.39795 0.77645 0.39795
14 | 0.77946 0.22023 0.77946 0.22023
15 | 0.77247 0.20965 0.77247 0.20965
16 | 0.76960 0.77496 0.76960 0.77496
Destriping gains/offsets for band: 2
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 0.92263 0.11176 0.92263 0.11176
2 | 0.95739 0.00318 0.95739 0.00318
3 | 0.94097 0.05991 0.94097 0.05991
4 | 0.94543 0.03197 0.94543 0.03197
5 | 0.92423 0.02186 0.92423 0.02186
6 | 0.92992 0.04379 0.92992 0.04379
7 | 0.93282 -0.05269 0.93282 -0.05269
8 | 0.93854 0.01889 0.93854 0.01889
9 | 0.93533 0.09538 0.93533 0.09538
10 | 0.93502 0.07684 0.93502 0.07684
11 | 0.94839 0.18911 0.94839 0.18911
12 | 0.95575 0.07295 0.95575 0.07295
13 | 1.00000 0.00000 1.00000 0.00000
14 | 0.93213 0.14986 0.93213 0.14986
15 | 0.93873 0.09908 0.93873 0.09908
16 | 0.95294 0.53281 0.95294 0.53281
Destriping gains/offsets for band: 3
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 0.82449 0.34040 0.82449 0.34040
2 | 0.84720 -0.02824 0.84720 -0.02824
3 | 0.84019 0.27483 0.84019 0.27483
4 | 0.84096 0.00256 0.84096 0.00256
5 | 0.83539 0.15796 0.83539 0.15796
6 | 0.82960 -0.11024 0.82960 -0.11024
7 | 0.83059 0.26347 0.83059 0.26347
8 | 0.83795 0.07642 0.83795 0.07642
9 | 0.82686 0.16029 0.82686 0.16029
10 | 0.83344 0.10596 0.83344 0.10596
11 | 0.83908 0.19398 0.83908 0.19398
12 | 0.84280 0.08144 0.84280 0.08144
13 | 0.83041 0.00622 0.83041 0.00622
14 | 0.83686 0.29333 0.83686 0.29333
15 | 0.83508 0.19984 0.83508 0.19984
16 | 0.85172 0.54368 0.85172 0.54368
Destriping gains/offsets for band: 4
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 0.91243 0.78473 0.91243 0.78473
2 | 0.90396 0.58161 0.90396 0.58161
3 | 0.91308 0.74759 0.91308 0.74759
4 | 0.92598 0.49815 0.92598 0.49815
5 | 0.91395 0.63062 0.91395 0.63062
6 | 0.90429 0.76309 0.90429 0.76309
7 | 0.94953 0.71035 0.94953 0.71035
8 | 0.91031 0.78870 0.91031 0.78870
9 | 0.91206 0.69160 0.91206 0.69160
10 | 0.91552 0.71569 0.91552 0.71569
11 | 0.91866 0.83250 0.91866 0.83250
12 | 0.90992 0.57046 0.90992 0.57046
13 | 0.91390 0.47232 0.91390 0.47232
14 | 0.92592 0.87141 0.92592 0.87141
15 | 0.91068 0.63165 0.91068 0.63165
16 | 0.92488 1.22867 0.92488 1.22867
Destriping gains/offsets for band: 5
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 0.85795 0.03722 0.85795 0.03722
2 | 0.84215 -0.00703 0.84215 -0.00703
3 | 0.85177 0.15527 0.85177 0.15527
4 | 0.85629 0.12461 0.85629 0.12461
5 | 0.86646 0.08615 0.86646 0.08615
6 | 0.86618 0.06877 0.86618 0.06877
7 | 0.83467 0.22678 0.83467 0.22678
8 | 0.84995 0.10107 0.84995 0.10107
9 | 0.85498 0.27205 0.85498 0.27205
10 | 0.85660 0.19841 0.85660 0.19841
11 | 0.84681 0.19363 0.84681 0.19363
12 | 0.83132 0.10948 0.83132 0.10948
13 | 0.83979 0.19199 0.83979 0.19199
14 | 1.00000 0.00000 1.00000 0.00000
15 | 0.84190 0.15905 0.84190 0.15905
16 | 0.84185 0.26782 0.84185 0.26782
Destriping gains/offsets for band: 6
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 1.04060 -77.8645 1.04060 -77.8645
2 | 0.97885 -73.8671 0.97885 -73.8671
3 | 1.02156 -75.7902 1.02156 -75.7902
4 | 1.00733 -76.1533 1.00733 -76.1533
Destriping gains/offsets for band: 7
| Forward Backward
Detector | Gain Offset Gain Offset
---------+----------------------------------------------------
1 | 0.83130 0.64723 0.83130 0.64723
2 | 0.80734 0.38493 0.80734 0.38493
3 | 0.81515 0.67353 0.81515 0.67353
4 | 0.81802 0.44890 0.81802 0.44890
5 | 0.82714 0.67058 0.82714 0.67058
6 | 0.82208 0.54472 0.82208 0.54472
7 | 0.80749 0.72788 0.80749 0.72788
8 | 0.82814 0.47885 0.82814 0.47885
9 | 0.79715 0.82045 0.79715 0.82045
10 | 0.81734 0.50298 0.81734 0.50298
11 | 0.81766 0.74890 0.81766 0.74890
12 | 0.81512 0.53721 0.81512 0.53721
13 | 0.82515 0.62419 0.82515 0.62419
14 | 0.83117 0.61081 0.83117 0.61081
15 | 0.82455 0.55252 0.82455 0.55252
16 | 0.83596 0.93135 0.83596 0.93135
==============================================================================
GEOMETRIC QUALITY ASSESSMENT STAGE
==============================================================================
Start Time = Thu May 8 13:56:32 1997
End Time = Thu May 8 15:43:57 1997
QA POINT SUMMARY
---------------------
NOTE:
All error measurements are in meters.
Number of QA points: 11
Error Mean Error RMS Error Std Dev Error
-----------------------------------------------------------------
Along Track 8.18 26.85 25.57
Across Track -0.32 11.19 11.19
Height 0.00 0.00 0.00
Combined 8.19 29.09 27.91
CP# Lat Long Height
--------------------------------------------
1844 67.43051 -159.79999 96.3
1832 67.43153 -160.38900 275.2
2912 68.17039 -158.32567 413.6
1779 67.90176 -160.48251 183.5
1769 67.94361 -160.85264 153.4
1764 68.03363 -163.03726 169.3
1726 67.97121 -161.80174 120.1
1774 68.69891 -161.73276 418.4
1763 68.32228 -162.08651 309.6
1728 68.46604 -159.92139 358.7
1734 68.88445 -161.37935 419.2
CP# Auto- Type Along Across Height Combined
marked? Track Track
-----------------------------------------------------------------------
1844 Y RCP -3.22 1.62 0.00 3.60
1832 N RCP 14.99 15.14 0.00 21.30
2912 N RCP 29.73 -2.12 0.00 29.81
1779 N RCP 73.64 -18.51 0.00 75.93
1769 N RCP 15.19 -14.63 0.00 21.09
1764 Y RCP -8.33 5.43 0.00 9.95
1726 N RCP 0.27 -15.08 0.00 15.09
1774 N RCP -0.01 0.01 0.00 0.01
1763 Y RCP 8.40 -0.82 0.00 8.44
1728 N RCP -30.06 14.18 0.00 33.23
1734 Y RCP -10.59 11.28 0.00 15.47
BAND-TO-BAND CORRELATION POINT SUMMARY
--------------------------------------
NOTE:
All error measurements are in output pixels.
Number of correlation points:
Error Mean Error RMS Error Std Dev Error
----------------------------------------------------------------
Lines
Pixels
Combined
Band Number | Location Error
Correlation Reference | Line Pixel Line Pixel
----------------------------+--------------------------------------------
|
==============================================================================
RADIOMETRIC QUALITY ASSESSMENT STAGE
==============================================================================
NOTE:
Mean, Std.Dev, Striping are in DN's (Digital Numbers).
Start Time = Thu May 8 13:56:18 1997
End Time = Thu May 8 13:56:24 1997
Band Chip Location Chip Size Mean Std Dev Striping
Line Pixel Line Pixel
-------------------------------------------------------------------------
1 3671 1268 128 128 96.64 0.57 0.16
1 7341 2535 128 128 78.69 1.20 0.21
1 11012 3802 128 128 78.66 3.60 0.32
1 14682 5069 128 128 69.21 3.18 0.35
2 3671 1268 128 128 34.81 0.31 0.10
2 7341 2535 128 128 29.14 2.64 0.48
2 11012 3802 128 128 29.27 1.74 0.13
2 14682 5069 128 128 22.57 2.39 0.29
3 3671 1268 128 128 39.84 0.34 0.12
3 7341 2535 128 128 32.95 0.92 0.12
3 11012 3802 128 128 33.20 2.64 0.20
3 14682 5069 128 128 23.44 3.71 0.41
4 3671 1268 128 128 66.14 0.54 0.12
4 7341 2535 128 128 64.66 3.00 0.26
4 11012 3802 128 128 56.09 4.94 0.58
4 14682 5069 128 128 33.60 14.83 1.64
5 3671 1268 128 128 90.94 1.71 0.27
5 7341 2535 128 128 88.64 2.10 0.18
5 11012 3802 128 128 83.41 8.02 0.46
5 14682 5069 128 128 43.82 21.01 2.41
6 918 318 128 128 113.85 1.78 0.39
6 1836 636 128 128 122.11 2.48 0.32
6 2753 953 128 128 126.92 1.70 0.21
6 3671 1271 128 128 117.36 5.91 0.57
7 3671 1268 128 128 30.85 0.80 0.13
7 7341 2535 128 128 32.24 2.68 0.29
7 11012 3802 128 128 35.22 4.71 0.27
7 14682 5069 128 128 15.52 6.76 0.75
==============================================================================
PRODUCT FORMATTING STAGE
==============================================================================
Start Time = Thu May 8 15:44:23 1997
End Time = Thu May 8 15:52:47 1997
Output Format = NDF
Image Organization = BSQ
Output Pixel Height = 30.000 meters
Output Pixel Width = 30.000 meters
Bands Processed = 1, 2, 3, 4, 5, 6, 7
Product Scene Center:
Date = 07/31/92
Time = 21:28:16.667
Latitude = 68.25412
Longitude = -160.65024
Image Extent:
Lat: 69.20791-------------------------- Lat: 69.45268
Long: -164.15293 Long: -157.72857
North: 2168910.00 North: 2168910.00
East: -406050.00 East: -148110.00
| |
| |
| |
| |
| |
| |
Lat: 67.01699 Lat: 67.23937
Long: -163.30133 Long: -157.41209
North: 1923990.00 North: 1923990.00
East: -406050.00---------------------------East: -148110.00
State Vectors:
Date Time | Orbit State
| Lat Long Radius
| (meters)
--------------------------+---------------------------------------
07/31/92 21:27:36.344 | 70.36254 -157.68079 7074689.500
07/31/92 21:28:16.667 | 68.12403 -160.66732 7074671.511
07/31/92 21:28:58.104 | 65.78255 -163.21253 7074673.563
Date Time | Attitude State (radians)
| Roll Pitch Yaw
--------------------------+-------------------------------------
07/31/92 21:27:36.344 | 0.000152 -0.000257 0.000569
07/31/92 21:28:16.667 | 0.000129 -0.000302 0.000562
07/31/92 21:28:58.104 | 0.000108 -0.000328 0.000569
==============================================================================
SUMMARY INFO
==============================================================================
Work Order Start:
Date = 05/07/97
Time = 08:09:51
Work Order End:
Date = 05/08/97
Time = 15:54:28
Total CPU Time = 7561.44 seconds
A history and processing parameters file is found in each NLAPS data product. This file provides documentation about the original customer request and the processing parameters used to produce the NLAPS digital product.
*****************************************************************
=================================================================
= Processing History for Work Order: 01197051500440001
=================================================================
*****************************************************************
=================================================================
= Mail Header:
=================================================================
From ordact@dg2 Thu May 15 16:10:34 1997
Received: from dg2.cr.usgs.gov by edcsgs5 via SMTP (950911.SGI.8.6.12.PATCH825/930416.SGI)
for
Table A-1. USGS horizontal datums.
--------------------------------------------------------------------------------------------------------------------
Column 1 | Column 2 | Column 3
--------------------|---------------------------|-------------------------------------------------------------------
Datum name Default elipsoid Geographical Area
--------------------------------------------------------------------------------------------------------------------
ADINDAN_BURKI | Clarke 1880 | Adindan, Burkina Faso
ADINDAN_CAMER | Clarke 1880 | Adindan, Cameroon
ADINDAN_ETHIO | Clarke 1880 | Adindan, Ethiopia
ADINDAN_MALI | Clarke 1880 | Adindan, Mali
ADINDAN_MEAN | Clarke 1880 | Adindan, MEAN FOR Ethiopia
ADINDAN_SENEG | Clarke 1880 | Adindan, Senegal
ADINDAN_SUDAN | Clarke 1880 | Adindan, Sudan
AFGOOYE_SOMAL | KRASSOVSKY 1940 | Afgooye, Somalia
AIN_EL_ABD_BAHRA | International1924 | Ain el Abd 1970, Bahrain
AIN_EL_ABD_SAUDI | International1924 | Ain el Abd 1970, Saudi Arabia
AMERICAN_S_AMERI | Clarke1866 | American Samoa 1962, American Samoa Islands
ANNA_1_AST_COCOS | AustralianNationalSpheroid| Anna 1 Astro 1965, Cocos Islands
ANTIGUA_IS_ANTIG | Clarke 1880 | Antigua Island Astro 1943, Antigua (Leeward Islands)
ARC_1950_BOTSW | Clarke 1880 | Arc 1950, Botswana
ARC_1950_BURUN | Clarke 1880 | Arc 1950, Burundi
ARC_1950_LESOT | Clarke 1880 | Arc 1950, Lesotho
ARC_1950_MALAW | Clarke 1880 | Arc 1950, Malawi
ARC_1950_MEAN | Clarke 1880 | Arc 1950, MEAN FOR Botswana
ARC_1950_SWAZI | Clarke 1880 | Arc 1950, Swaziland
ARC_1950_ZAIRE | Clarke 1880 | Arc 1950, Zaire
ARC_1950_ZAMBI | Clarke 1880 | Arc 1950, Zambia
ARC_1950_ZIMBA | Clarke 1880 | Arc 1950, Zimbabwe
ARC_1960_MEAN | Clarke 1880 | Arc 1960, MEAN FOR Kenya
ASCENSION_ASCEN | International1924 | Ascension Island 1958, Ascension Island
ASTRONOMIC_MARCU | International1924 | Astronomical Station 1952, Marcus Island
ASTRO_BEAC_IWO_J | International1924 | Astro Beacon E 1945, Iwo Jima
ASTRO_DOS_ST_HE | International1924 | Astro DOS 71/4, St Helena Island
ASTRO_TERN_TERN | International1924 | Astro Tern Island (FRIG) 1961, Tern Island
AUSTGEO66_AUSTR | AustralianNationalSpheroid| AustGeo66, Australia
AUSTGEO84_AUSTR | AustralianNationalSpheroid| AustGeo84, Australia
AYABELLE_L_DJIBO | Clarke 1880 | Ayabelle Lighthouse, Djibouti
BELLEVUE_EFATE | International1924 | Bellevue (IGN), Efate & Erromango Islands
BERMUDA_19_BERMU | Clarke1866 | Bermuda 1957, Bermuda
BISSAU_GUINE | International1924 | Bissau, Guinea-Bissau
BOGOTA_OBS_COLOM | International1924 | Bogota Observatory, Colombia
BRAZIL_GEOID | International1967 |
BUKIT_RIMP_INDON | Bessel1841 | Bukit Rimpah, Indonesia (Bangka & Belitung Ids)
CAMPO_INCH_ARGEN | International1924 | Campo Inchauspe, Argentina
CAMP_AREA_ANTAR | International1924 | Camp Area Astro, Antarctica (McMurdo Camp Area)
CANTON_AST_PHOEN | International1924 | Canton Astro 1966, Phoenix Islands
CAPE_CANAV_BAHAM | Clarke1866 | Cape Canaveral, Bahamas
CAPE_SOUTH | Clarke 1880 | Cape, South Africa
CARTHAGE_TUNIS | Clarke 1880 | Carthage, Tunisia
CHATHAM_IS_NEW_Z | International1924 | Chatham Island Astro 1971, New Zealand (Chatham Island)
CHUA_ASTRO_PARAG | International1924 | Chua Astro, Paraguay
CORREGO_AL_BRAZI | International1924 | Corrego Alegre, Brazil
DABOLA_GUINE | Clarke 1880 | Dabola, Guine
DECEPTION_DECEP | Clarke 1880 | Deception Island, Deception Island
DJAKARTA_INDON | Bessel1841 | Djakarta (Batavia), Indonesia (Sumatra)
DOS_1968_NEW_G | International1924 | DOS 1968, New Georgia Islands (Gizo Island)
EASTER_ISL_EASTE | International1924 | Easter Island 1967, Easter Island
ESTONIA | BESSEL 1841 | NAMIBIA Estonia
EURO_1950_AUSTR | International1924 | Euro 1950, Austria
EURO_1950_BELGI | International1924 | Euro 1950, Belgium
EURO_1950_CHANN | International1924 | Euro 1950, Channel Islands
EURO_1950_CYPRU | International1924 | Euro 1950, Cyprus
EURO_1950_EGYPT | International1924 | Euro 1950, Egypt
EURO_1950_ENGLA | International1924 | Euro 1950, England Euro 1950
EURO_1950_FINLA | International1924 | Euro 1950, Finland
EURO_1950_GREEC | International1924 | Euro 1950, Greece
EURO_1950_IRAN | International1924 | Euro 1950, Iran
EURO_1950_IRAQ | International1924 | Euro 1950, Iraq
EURO_1950_MALTA | International1924 | Euro 1950, Malta
EURO_1950_PORTU | International1924 | Euro 1950, Portugal
EURO_1950_SARDI | International1924 | Euro 1950, Sardinia
EURO_1950_SICIL | International1924 | Euro 1950, Sicily
EURO_1950_TUNIS | International1924 | Euro 1950, Tunisia
EURO_1979_MEAN | International1924 | Euro 1979, MEAN FOR Austria
FORT_THOMA_NEVIS | Clarke 1880 | Fort Thomas 1955, Nevis
GAN_1970_REPUB | International1924 | Gan 1970, Republic of Maldives
GEODETIC_D_NEW_Z | International1924 | Geodetic Datum 1949, New Zealand
GRACIOSA_B_AZORE | International1924 | Graciosa Base SW 1948, Azores (Faial
GRACIOSA_B_SAO | International1924 | Graciosa Base SW 1948, Sao Jorge
GUAM_1963_GUAM | Clarke1866 | Guam 1963, Guam
GUNUNG_SEG_INDON | Bessel1841 | Gunung Segara, Indonesia (Kalimantan)
GUX_1_ASTR_GUADA | International1924 | GUX 1 Astro, Guadalcanal Island
HERAT_NORT_AFGHA | International1924 | Herat, North Afghanistan
HERMANNSKOGEL | BESSEL 1841 | NAMIBIA Croatia,Serbia,Bosnia-Herzegovina,Slovenia
HJORSEY_19_ICELA | International1924 | Hjorsey 1955, Iceland
HONG_KON_HONG | International1924 | Hong Kong 1963, Hong Kong
HU_TZU_SHA_TAIWA | International1924 | Hu-Tzu-Shan, Taiwan
INDIAN_54_THAIL | Everest1830_1937Adjustment| Indian 54, Thailand
INDIAN_60_CON_S | Everest1830_1937Adjustment| Indian 60, Con Son Island
INDIAN_60_VIETN | Everest1830_1937Adjustment| Indian 60, Vietnam (Near 16=B0N)
INDIAN_75_THAIL | Everest1830_1937Adjustment| Indian 75, Thailand
INDIAN_BANGL | Everest1830_1937Adjustment| Indian, Bangladesh
INDIAN_INDIA | Everest1830_1975Definition| Indian, India
INDONESIAN 1974 | IndonesianNationalSpheroid| Indian, Pakistan
INDONESIAN_INDON | IndonesianNationalSpheroid| Indonesian 1974, Indonesia
IRELAND_19_IRELA | AiryModified1849 | Ireland 1965, Ireland
ISTS_061_A_SOUTH | International1924 | ISTS 061 Astro 1968, South Georgia Islands
ISTS_073_A_DIEGO | International1924 | ISTS 073 Astro 1969, Diego Garcia
JOHNSTON_I_JOHNS | International1924 | Johnston Island 1961, Johnston Island
KANDAWALA_SRI_L | Everest1830_1937Adjustment| Kandawala, Sri Lanka
KERGUELEN_KERGU | International1924 | Kerguelen Island 1949, Kerguelen Island
KERTAU_194_WEST | Clarke 1880 | Kertau 1948, West Malaysia & Singapore
KOREAN | GRS 1980 | South Korea
KUSAIE_AST_CAROL | International1924 | Kusaie Astro 1951, Caroline Islands
LEIGON_GHANA | Clarke 1880 | Leigon, Ghana
LIBERIA_19_LIBER | Clarke 1880 | Liberia 1964, Liberia
LUZON_MINDA | Clarke1866 | Luzon, (Mindanao)
LUZON_PHILI | Clarke1866 | Luzon, Philippines (Excluding Mindanao)
L_C_5_AS_CAYMA | Clarke1866 | L. C. 5 Astro 1961, Cayman Brac Island
MAHE_1971_MAHE | Clarke 1880 | Mahe 1971, Mahe Island
MASSAWA_ETHIO | Bessel1841 | Massawa, Ethiopia (Eritrea)
MERCHICH_MOROC | Clarke 1880 | Merchich, Morocco
MIDWAY_AST_MIDWA | International1924 | Midway Astro 1961, Midway Islands
MINNA_CAMER | Clarke 1880 | Minna, Cameroon
MINNA_NIGER | Clarke 1880 | Minna, Nigeria
MONTSERRAT_MONTS | Clarke 1880 | Montserrat Island Astro 1958, Montserrat (Leeward Islands)
M_PORALOKO_GABON | Clarke 1880 | M'Poraloko, Gabon
NAD27 | Clarke 1866 | North America
NAD27_ALASKA | Clarke 1866 | Alaska (Excluding Aleutian Ids)
NAD27_BAHAMAS | Clarke 1866 | Bahamas (Except San Salvador Id)
NAD27_CANAL_ZO | Clarke 1866 | Canal Zone
NAD27_CENT_AME | Clarke 1866 | Mean for Central America
NAD27_CE_CANAD | Clarke 1866 | Canada (Manitoba, Ontario)
NAD27_CONUS | Clarke 1866 | Mean for Conus
NAD27_CUBA | Clarke 1866 | Cuba
NAD27_EA_CANAD | Clarke 1866 | Canada (New Brunswick,Newfoundland, Nova Scotia, Quebec)
NAD27_E_OF_180 | Clarke 1866 | Alaska (Aleutian Ids East of 180W)
NAD27_GREENLAN | Clarke 1866 | Greenland (Hayes Peninsula)
NAD27_ME_CANAD | Clarke 1866 | Mean for Canada
NAD27_NW_CANAD | Clarke 1866 | Canada (Northwest Territories)
NAD27_SAN_SALV | Clarke 1866 | Bahamas (San Salvador Island)
NAD27_WE_CANAD | Clarke 1866 | Canada (Alberta, British Columbia)
NAD27_W_OF_180 | Clarke 1866 | Alaska (Aleutian Ids West of 180W)
NAD27_YU_CANAD | Clarke 1866 | Canada (Yukon)
NAD83 | GRS1980 | North America
NAHRWAN_OMAN | Clarke 1880 | Nahrwan, Oman (Masirah Island)
NAHRWAN_SAUDI | Clarke 1880 | Nahrwan, Saudi Arabia
NAHRWAN_UNITE | Clarke 1880 | Nahrwan, United Arab Emirates
NAPARIMA_B_TRINI | International1924 | Naparima BWI, Trinidad & Tobago
NORTHAM_27_MEANE | Clarke1866 | NorthAm 27, MEANEast of Mississippi
NORTHAM_27_MEANW | Clarke1866 | NorthAm 27, MEANWest of Mississippi
NORTHAM_83_ALASK | GRS1980 | NorthAm 83, Alaska (Excluding Aleutian Ids)
NORTHAM_83_ALEUT | GRS1980 | NorthAm 83, Aleutian Islands
NORTHAM_83_CANAD | GRS1980 | NorthAm 83, Canada
NORTHAM_83_CONUS | GRS1980 | NorthAm 83, CONUS
NORTHAM_83_HAWAI | GRS1980 | NorthAm 83, Hawaii
NORTHAM_83_MEXIC | GRS1980 | NorthAm 83, Mexico
NORTH_SAHA_ALGER | Clarke 1880 | North Sahara 1959, Algeria
OBSERVATOR_AZORE | International1924 | Observatorio Meteorologico 1939, Azores (Corvo & Flores Is
OLD_EGYPTI_EGYPT | Helmert1906 | Old Egyptian 1907, Egypt
OLD_HAWAII_HAWAI | Clarke1866 | Old Hawaiian, Hawaii
OLD_HAWAII_INTH | HAYFORD 1924 | Hawaii
OLD_HAWAII_INTM | HAYFORD 1924 | Maui
OLD_HAWAII_INTO | HAYFORD 1924 | Oahu
OLD_HAWAII_KAUAI | Clarke1866 | Old Hawaiian, Kauai
OLD_HAWAII_MAUI | Clarke1866 | Old Hawaiian, Maui
OLD_HAWAII_MEAN | Clarke1866 | Old Hawaiian, MEAN FOR Hawaii
OLD_HAWAII_OAHU | Clarke1866 | Old Hawaiian, Oahu
OMAN_OMAN | Clarke 1880 | Oman, Oman
OSGRTBRT36_ENGLA | Airy1830 | OSGrtBrt36, England
OSGRTBRT36_MEAN | Airy1830 | OSGrtBrt36, MEAN FOR England
OSGRTBRT36_SCOTL | Airy1830 | OSGrtBrt36, Scotland
OSGRTBRT36_WALES | Airy1830 | OSGrtBrt36, Wales
PICO_DE_LA_CANAR | International1924 | Pico de las Nieves , Canary Islands
PITCAIRN_A_PITCA | International1924 | Pitcairn Astro 1967, Pitcairn Island
POINTE_NOI_CONGO | Clarke 1880 | Pointe Noire 1948, Congo
POINT_58_MEAN | Clarke 1880 | Point 58, MEAN FOR Burkina Faso & Niger
PORTO_SANT_PORTO | International1924 | Porto Santo 1936, Porto Santo
PROSOAM_56_BOLIV | International1924 | ProSoAm 56, Bolivia
PROSOAM_56_CHILN | International1924 | ProSoAm 56, ChilNorthern
PROSOAM_56_CHILS | International1924 | ProSoAm 56, ChilSouthern
PROSOAM_56_COLOM | International1924 | ProSoAm 56, Colombia
PROSOAM_56_ECUAD | International1924 | ProSoAm 56, Ecuador
PROSOAM_56_GUYAN | International1924 | ProSoAm 56, Guyana
PROSOAM_56_MEAN | International1924 | ProSoAm 56, MEAN FOR Bolivia
PROSOAM_56_PERU | International1924 | ProSoAm 56, Peru
PROSOAM_56_VENEZ | International1924 | ProSoAm 56, Venezuela
PROSOCH_63_CHILE | International1924 | ProSoCh 63, Chile (Near 53 1/2 S) (Hito XVIII)
PUERTO_RIC_PUERT | Clarke1866 | Puerto Rico, Puerto Rico
PULKOVO_19_RUSSI | KRASSOVSKY 1940 | Pulkovo 1942, Russia
QATAR_NATI_QATAR | International1924 | Qatar, National Qatar
QORNOQ_GREEN | International1924 | Qornoq, Greenland (South)
REUNION_MASCA | International1924 | Reunion, Mascarene Islands
ROME_1940_ITALY | International1924 | Rome 1940, Italy (Sardinia)
SANTO_DOS_ESPIR | International1924 | Santo (DOS) 1965, Espirito Santo Island
SAO_BRAZ_AZORE | International1924 | Sao Braz, Azores (Sao Miguel)
SAPPER_HIL_EAST | International1924 | Sapper Hill 1943, East Falkland Island
SCHWARZECK_NAMIB | BesselNamibia | Schwarzeck, Namibia
SELVAGEM_G_SALVA | International1924 | Selvagem Grande 1938, Salvage Islands
SGRTBRT36_ISLE | Airy1830 | OSGrtBrt36, Isle of Man
SIERRA_LEONE_60 | Clarke 1880 | Sierra Leone
SOUTHAM_69_ARGEN | SOUTH AMERICAN 1969 | SouthAm 69, Argentina
SOUTHAM_69_BALTR | SOUTH AMERICAN 1969 | SouthAm 69, Baltra
SOUTHAM_69_BOLIV | SOUTH AMERICAN 1969 | SouthAm 69, Bolivia
SOUTHAM_69_BRAZI | SOUTH AMERICAN 1969 | SouthAm 69, Brazil
SOUTHAM_69_CHILE | SOUTH AMERICAN 1969 | SouthAm 69, Chile
SOUTHAM_69_COLOM | SOUTH AMERICAN 1969 | SouthAm 69, Colombia
SOUTHAM_69_ECUAD | SOUTH AMERICAN 1969 | SouthAm 69, Ecuador
SOUTHAM_69_GUYAN | SOUTH AMERICAN 1969 | SouthAm 69, Guyana
SOUTHAM_69_MEAN | SOUTH AMERICAN 1969 | SouthAm 69, MEAN FOR Argentina
SOUTHAM_69_PARAG | SOUTH AMERICAN 1969 | SouthAm 69, Paraguay
SOUTHAM_69_PERU | SOUTH AMERICAN 1969 | SouthAm 69, Peru
SOUTHAM_69_TRINI | SOUTH AMERICAN 1969 | SouthAm 69, Trinidad & Tobago
SOUTHAM_69_VENEZ | SOUTH AMERICAN 1969 | SouthAm 69, Venezuela
SOUTH_ASIA_SINGA | Modified Fischer 1960 | South Asia, Singapore
S_42_PULK_ALB | KRASOVSKY | Albania
S_42_PULK_CZECH | KRASOVSKY | Czechoslavakia
S_42_PULK_HUNGA | KRASSOVSKY 1940 | S-42 (Pulkovo 1942) Hungary
S_42_PULK_KAZAK | KRASOVSKY | Kazakhstan
S_42_PULK_LATVI | KRASOVSKY | Latvia
S_42_PULK_POLAN | KRASOVSKY | Poland
S_42_PULK_ROMAN | KRASOVSKY | Romania
S_JTSK_CZECH | Bessel1841 | S-JTSK, Czechoslavakia (Prior 1 JAN 1993)
TANANARIVE_MADAG | International1924 | Tananarive Observatory 1925, Madagascar
TIMBALAI_1_BRUNE | Everest1830_1967Definition| Timbalai 1948, Brunei
TOKYO_JAPAN | Bessel1841 | Tokyo, Japan
TOKYO_MEAN | Bessel1841 | Tokyo, MEAN FOR Japan
TOKYO_OKINA | Bessel1841 | Tokyo, Okinawa
TOKYO_SOUTH | Bessel1841 | Tokyo, South Korea
TRISTAN_AS_TRIST | International1924 | Tristan Astro 1968, Tristan da Cunha
VITI_LEV_FIJI | Clarke 1880 | Viti Levu 1916, Fiji (Viti Levu Island)
VOIROL_196_ALGER | Clarke 1880 | Voirol 1960, Algeria
WAKE_ENIWE_MARSH | Hough 1960 | Wake-Eniwetok 1960, Marshall Islands
WAKE_ISLAN_WAKE | International1924 | Wake Island Astro 1952, Wake Atoll
WGS 1972 | NWL10D | Global
WGS 66 | NWL9D | Global
WGS84 | WGS84 | Global
WGS_1972_GLOBA | NWL10D | WGS 1972 Global Definition
WGS_1984_GLOBA | WGS84 | WGS 1984 Global Definition
YACARE_URUGU | International1924 | Yacare, Uruguay
ZANDERIJ_SURIN | International1924 | Zanderij, Suriname
Table B-1. USGS projection parameters (array elements 1-8).
+----------------------------------------------------------------------------+ | | Array Element | |Code and Projection Name|---------------------------------------------------+ | | 1 | 2 | 3 | 4 | 5 | 6 |7 | 8| +----------------------------------------------------------------------------+ | 0 Geographic | | | | | | | | | | 1 UTM |SMajor|SMinor| | | | | | | | 2 State Plane | | | | | | | | | | 3 Albers Equal Area |SMajor|SMinor|STDPR1|STDPR2|CentMer|OriginLat|FE|FN| | 4 Lambert Conform. Con.|SMajor|SMinor|STDPR1|STDPR2|CentMer|OriginLat|FE|FN| | 5 Mercator |SMajor|SMinor| | |CentMer|TrueScale|FE|FN| | 6 Polar Stereographic |SMajor|SMinor| | |LongPol|TrueScale|FE|FN| | 7 Polyconic |SMajor|SMinor| | |CentMer|OriginLat|FE|FN| | 8 Equid. Conic A |SMajor|SMinor|STDPAR| |CentMer|OriginLat|FE|FN| | Equid. Conic B |SMajor|SMinor|STDPR1|STDPR2|CentMer|OriginLat|FE|FN| | 9 Transverse Mercator |SMajor|SMinor|Factor| |CentMer|OriginLat|FE|FN| |10 Stereographic |Sphere| | | |CentLon|CenterLat|FE|FN| |11 Lambert Azimuthal |Sphere| | | |CentLon|CenterLat|FE|FN| |12 Azimuthal Equidistant|Sphere| | | |CentLon|CenterLat|FE|FN| |13 Gnomonic |Sphere| | | |CentLon|CenterLat|FE|FN| |14 Orthographic |Sphere| | | |CentLon|CenterLat|FE|FN| |15 Gen. Vert. Near Per. |Sphere| |Height| |CentLon|CenterLat|FE|FN| |16 Sinusoidal |Sphere| | | |CentMer| |FE|FN| |17 Equirectangular |Sphere| | | |CentMer|TrueScale|FE|FN| |18 Miller Cylindrical |Sphere| | | |CentMer| |FE|FN| |19 Van der Grinten |Sphere| | | |CentMer|OriginLat|FE|FN| |20 Hotin Oblique Merc. A|SMajor|SMinor|Factor| | |OriginLat|FE|FN| | Hotin Oblique Merc. B|SMajor|SMinor|Factor|AziAng|AzmthPt|OriginLat|FE|FN| |21 Robinson |Sphere| | | |CentMer| |FE|FN| |22 Space Oblique Merc. A|SMajor|SMinor| |IncAng|AscLong| |FE|FN| | Space Oblique Merc. B|SMajor|SMinor|Satnum|Path | | |FE|FN| |23 Alaska Conformal |SMajor|SMinor| | | | |FE|FN| |24 Goodes Homolosine |Sphere| | | | | | | | |25 Mollweide |Sphere| | | |CentMer| |FE|FN| |26 Interrupt Mollweide |Sphere| | | | | | | | |27 Hammer |Sphere| | | |CentMer| |FE|FN| |28 Wagner IV |Sphere| | | |CentMer| |FE|FN| |29 Wagner VII |Sphere| | | |CentMer| |FE|FN| |30 Oblated Equal Area |Sphere| |Shapem|Shapen|CentLon|CenterLat|FE|FN| +----------------------------------------------------------------------------+Table B-2. USGS projection parameters (array elements 9-15). +---------------------------------------------------+ | | Array Element | |Code and Projection Name|--------------------------+ | | 9 | 10 | 11 | 12 | 13 | +---------------------------------------------------+ | 0 Geographic | | | | | | | 1 UTM | | | | | | | 2 State Plane | | | | | | | 3 Albers Equal Area | | | | | | | 4 Lambert Conform. Con.| | | | | | | 5 Mercator | | | | | | | 6 Polar Stereographic | | | | | | | 7 Polyconic | | | | | | | 8 Equid. Conic A |zero | | | | | | Equid. Conic B |one | | | | | | 9 Transverse Mercator | | | | | | |10 Stereographic | | | | | | |11 Lambert Azimuthal | | | | | | |12 Azimuthal Equidistant| | | | | | |13 Gnomonic | | | | | | |14 Orthographic | | | | | | |15 Gen. Vert. Near Per. | | | | | | |16 Sinusoidal | | | | | | |17 Equirectangular | | | | | | |18 Miller Cylindrical | | | | | | |19 Van der Grinten | | | | | | |20 Hotin Oblique Merc. A|Long1|Lat1|Long2|Lat2|zero| | Hotin Oblique Merc. B| | | | |one | |21 Robinson | | | | | | |22 Space Oblique Merc. A|PSRev|LRat|PFlag| |zero| | Space Oblique Merc. B| | | | |one | |23 Alaska Conformal | | | | | | |24 Goodes Homolosine | | | | | | |25 Mollweide | | | | | | |26 Interrupt Mollweide | | | | | | |27 Hammer | | | | | | |28 Wagner IV | | | | | | |29 Wagner VII | | | | | | |30 Oblated Equal Area |Angle| | | | | +---------------------------------------------------+ where SMajor Semi-major axis of ellipsoid. If zero, Clarke 1866 in meters is assumed. SMinor Eccentricity squared of the ellipsoid if less than zero; if zero, a spherical form is assumed, or if greater than zero, the semi-minor axis of ellipsoid. Sphere Radius of reference sphere. If zero, 6370997 meters is used. STDPAR Latitude of the standard parallel. STDPR1 Latitude of the first standard parallel. STDPR2 Latitude of the second standard parallel. CentMer Longitude of the central meridian. OriginLat Latitude of the projection origin. FE False easting in the same units as the semi-major axis. FN False northing in the same units as the semi-major axis. TrueScale Latitude of true scale. LongPol Longitude down below pole of map. Factor Scale factor at central meridian (Transverse Mercator) or center of projection (Hotine Oblique Mercator). CentLon Longitude of center of projection. CenterLat Latitude of center of projection. Height Height of perspective point. Long1 Longitude of first point on center line (Hotine Oblique Mercator, format A). Long2 Longitude of second point on center line (Hotine Oblique Mercator, format A). Lat1 Latitude of first point on center line (Hotine Oblique Mercator, format A). Lat2 Latitude of second point on center line (Hotine Oblique Mercator, format A). AziAng Azimuth angle east of north of center line (Hotine Oblique Mercator, format B). AzmthPt Longitude of point on central meridian where azimuth occurs (Hotine Oblique Mercator, format B). IncAng Inclination of orbit at ascending node, counter-clockwise from equator (Space Oblique Mercator, format A). AscLong Longitude of ascending orbit at equator (Space Oblique Mercator, format A). PSRev Period of satellite revolution in minutes (Space Oblique Mercator, format A). LRat Landsat ratio to compensate for confusion at northern end of orbit (Space Oblique Mercator, format A -- use 0.5201613). PFlag End of path flag for Landsat: 0 = start of path, 1 = end of path (Space Oblique Mercator, format A). Satnum Landsat Satellite Number (Space Oblique Mercator, format B). Path Landsat Path Number (Use WRS-1 for Landsat 1, 2 and 3 and WRS-2 for Landsat 4, 5 and 6.) (Space Oblique Mercator, format B). Shapem Oblated Equal Area oval shape parameter m. Shapen Oblated Equal Area oval shape parameter n. Angle Oblated Equal Area oval rotation angle.
The following notes apply to the Space Oblique Mercator A projection.
When Landsat-1, -2, -3 orbits are being used, use the following values for the specified parameters:
Parameter 4 099005031.2
Parameter 5 128.87 degrees - (360/251 * path number)
in packed DMS format
Parameter 9 103.2669323
Parameter 10 0.5201613
Parameter 4 098012000.0
Parameter 5 129.3 degrees - (360/233 * path number)
in packed DMS format
Parameter 9 98.884119
Parameter 10 0.5201613
Table B-3. Landsat processing levels.
+-----------+---------------------------------------------------------------+ | Level | Definition | +-----------+---------------------------------------------------------------+ +-----------|---------------------------------------------------------------+ | 0 | "Raw" Uncorrected, radiometrically and geometrically raw | | | scan lines reversed and nominally aligned. | |-----------|---------------------------------------------------------------| | 1 | Radiometrically corrected (calibration applied). Scan line | | | reversed and nominally aligned. | |-----------|---------------------------------------------------------------| | 2 | Radiometrically raw, along-scan line geometric correction | | | tables appended. | |-----------|---------------------------------------------------------------| | 3 | "Bulk corrected" radiometrically raw, along-scan line | | | geometric corrections applied | |-----------|---------------------------------------------------------------| | 4 | "Bulk corrected" radiometrically corrected, along-scan | | | line geometric corrections applied. | |-----------|---------------------------------------------------------------| | 5 | Radiometrically corrected, two dimensional resampling, | | | SOM or map projection, no ground control point. | |-----------|---------------------------------------------------------------| | 6 | Radiometrically and geometrically corrected, with two | | | dimensional resampling, ground control points and SOM | | | or map projection. | |-----------|---------------------------------------------------------------| | 7 | Radiometrically and geometrically corrected, with two | | | dimensional resampling, ground control points, SOM or | | | map projection and digital terrain model | |-----------|---------------------------------------------------------------| | 8 | "Systematically corrected". Radiometrically and | | | geometrically corrected using the satellite model and | | | platform/ephemeris information. Rotated and aligned to | | | the user defined map projection. | |-----------|---------------------------------------------------------------| | 9 | "Precision corrected". Radiometrically and geometrically | | | corrected using the satellite model and platform/ephemeris | | | information. Rotated and aligned to the user defined map | | | projection using ground control points to improve the | | | satellite model. | |-----------|---------------------------------------------------------------| | 10 | "Terrain corrected". Radiometrically and geometrically | | | corrected using the satellite model and platform/euphemeris | | | information. Rotated and aligned to the user defined map | | | projection using ground control points and digital terrain | | | model to improve the satellite model and remove the geodetic | | | inaccuracy caused by the parallax error that occurs because | | | of local terrain elevation. | +-----------+---------------------------------------------------------------+