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/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/045_090/SLDEM2015_512_30N_60N_045_090_FLOAT.LBL + /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/045_090/SLDEM2015_512_30N_60N_045_090_FLOAT.IMG +Size is 23040, 15360 +Coordinate System is: +PROJCRS["SIMPLE_CYLINDRICAL MOON", + BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",180, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-4093652.307456000242382,1819401.025536000030115) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30N_60N_045_090_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-4093652.307, 1819401.026) ( 45d 0' 0.00"E, 60d 0' 0.00"N) +Lower Left (-4093652.307, 909700.513) ( 45d 0' 0.00"E, 30d 0' 0.00"N) +Upper Right (-2729101.538, 1819401.026) ( 90d 0' 0.00"E, 60d 0' 0.00"N) +Lower Right (-2729101.538, 909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"N) +Center (-3411376.923, 1364550.769) ( 67d30' 0.00"E, 45d 0' 0.00"N) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..f5a49c0b5dce68bb36dfde2864489ec2ef88bcc0 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30N_60N_090_135_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30N_60N_090_135_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30N_60N_090_135_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 3.531 + MINIMUM = -6.858 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 30 + WESTERNMOST_LONGITUDE = 90 + EASTERNMOST_LONGITUDE = 135 + LINE_PROJECTION_OFFSET = 30719.5 + SAMPLE_PROJECTION_OFFSET = 46079.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..ea4ce71dfd49d583f780352a234426a764a2d2b9 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.json @@ -0,0 +1,257 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL", + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.IMG" + ], + "size":[ + 23040, + 15360 + ], + "coordinateSystem":{ + "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant 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+ "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_090_135_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + -2729101.538, + 1819401.026 + ], + "lowerLeft":[ + -2729101.538, + 909700.513 + ], + "lowerRight":[ + -1364550.769, + 909700.513 + ], + "upperRight":[ + -1364550.769, + 1819401.026 + ], + "center":[ + -2046826.154, + 1364550.769 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + 90.0, + 60.0 + ], + [ + 90.0, + 30.0 + ], + [ + 135.0, + 30.0 + ], + [ + 135.0, + 60.0 + ], + [ + 90.0, + 60.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + "noDataValue":-3.4028227e+38, + "offset":1737.4, + "scale":1.0, + "metadata":{} + } + ], + "stac":{ + "proj:shape":[ + 23040, + 15360 + ], + "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant Cylindrical\",\n METHOD[\"Equidistant Cylindrical\",\n ID[\"EPSG\",1028]],\n PARAMETER[\"Latitude of 1st standard parallel\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8823]],\n PARAMETER[\"Longitude of natural origin\",180,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8802]],\n PARAMETER[\"False easting\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8806]],\n PARAMETER[\"False northing\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8807]]],\n CS[Cartesian,2],\n AXIS[\"(E)\",east,\n ORDER[1],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]],\n AXIS[\"(N)\",north,\n ORDER[2],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -2729101.5383040001615882, + 59.2252938, + 0.0, + 1819401.0255360000301152, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..93e5e2f7c5d1b5e1b8f5c83b37028bea1145630d --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/090_135/SLDEM2015_512_30N_60N_090_135_FLOAT.LBL + 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-2729101.538304000161588,1819401.025536000030115) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30N_60N_090_135_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-2729101.538, 1819401.026) ( 90d 0' 0.00"E, 60d 0' 0.00"N) +Lower Left (-2729101.538, 909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"N) +Upper Right (-1364550.769, 1819401.026) (135d 0' 0.00"E, 60d 0' 0.00"N) +Lower Right (-1364550.769, 909700.513) (135d 0' 0.00"E, 30d 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{"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30N_60N_135_180_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30N_60N_135_180_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 5.629 + MINIMUM = -3.969 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 30 + WESTERNMOST_LONGITUDE = 135 + EASTERNMOST_LONGITUDE = 180 + LINE_PROJECTION_OFFSET = 30719.5 + SAMPLE_PROJECTION_OFFSET = 23039.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..b7d7e473e0a2eaeb3a86965106a1ade54a850f18 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.json @@ -0,0 +1,257 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL", + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.IMG" + ], + "size":[ + 23040, + 15360 + ], + "coordinateSystem":{ + "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant 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+ "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_135_180_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + -1364550.769, + 1819401.026 + ], + "lowerLeft":[ + -1364550.769, + 909700.513 + ], + "lowerRight":[ + 0.0, + 909700.513 + ], + "upperRight":[ + 0.0, + 1819401.026 + ], + "center":[ + -682275.385, + 1364550.769 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + 135.0, + 60.0 + ], + [ + 135.0, + 30.0 + ], + [ + 180.0, + 30.0 + ], + [ + 180.0, + 60.0 + ], + [ + 135.0, + 60.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + 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1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -1364550.7691520000807941, + 59.2252938, + 0.0, + 1819401.0255360000301152, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..87bb7695c933a5a0b0d1dfcb066b66624b9ff5e0 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.LBL + /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/135_180/SLDEM2015_512_30N_60N_135_180_FLOAT.IMG +Size is 23040, 15360 +Coordinate System is: +PROJCRS["SIMPLE_CYLINDRICAL MOON", + BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",180, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-1364550.769152000080794,1819401.025536000030115) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30N_60N_135_180_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-1364550.769, 1819401.026) (135d 0' 0.00"E, 60d 0' 0.00"N) +Lower Left (-1364550.769, 909700.513) (135d 0' 0.00"E, 30d 0' 0.00"N) +Upper Right ( 0.000, 1819401.026) (180d 0' 0.00"E, 60d 0' 0.00"N) +Lower Right ( 0.000, 909700.513) (180d 0' 0.00"E, 30d 0' 0.00"N) +Center ( -682275.385, 1364550.769) (157d30' 0.00"E, 45d 0' 0.00"N) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..5badb961a19be971b9173a27ad2cc89babf80d04 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30N_60N_180_225_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30N_60N_180_225_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30N_60N_180_225_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 6.991 + MINIMUM = -3.622 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 30 + WESTERNMOST_LONGITUDE = 180 + EASTERNMOST_LONGITUDE = 225 + LINE_PROJECTION_OFFSET = 30719.5 + SAMPLE_PROJECTION_OFFSET = -0.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/180_225/SLDEM2015_512_30N_60N_180_225_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..10dd6da5e1c5d668db8716e26b2f1e98138a627b --- /dev/null +++ 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MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30N_60N_225_270_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30N_60N_225_270_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 6.350 + MINIMUM = -4.852 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 30 + WESTERNMOST_LONGITUDE = 225 + EASTERNMOST_LONGITUDE = 270 + LINE_PROJECTION_OFFSET = 30719.5 + SAMPLE_PROJECTION_OFFSET = -23040.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..a4231ab1a8e1351c001098a7a64c4c45cb6237fc --- /dev/null +++ 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1819401.0255360000301152, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..92bc8836fc4e54eb4399b60fbcf47fa8c9cee24b --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/225_270/SLDEM2015_512_30N_60N_225_270_FLOAT.LBL + 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (1364550.769152000080794,1819401.025536000030115) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30N_60N_225_270_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 1364550.769, 1819401.026) (135d 0' 0.00"W, 60d 0' 0.00"N) +Lower Left ( 1364550.769, 909700.513) (135d 0' 0.00"W, 30d 0' 0.00"N) +Upper Right ( 2729101.538, 1819401.026) ( 90d 0' 0.00"W, 60d 0' 0.00"N) +Lower Right ( 2729101.538, 909700.513) ( 90d 0' 0.00"W, 30d 0' 0.00"N) +Center ( 2046826.154, 1364550.769) (112d30' 0.00"W, 45d 0' 0.00"N) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..a8f41434c0d32623a55f7979d1ac0b90b54798c0 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30N_60N_270_315_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30N_60N_270_315_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30N_60N_270_315_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 2.114 + MINIMUM = -5.292 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 30 + WESTERNMOST_LONGITUDE = 270 + EASTERNMOST_LONGITUDE = 315 + LINE_PROJECTION_OFFSET = 30719.5 + SAMPLE_PROJECTION_OFFSET = -46080.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..3270f3a369c8a2722cdc79811e6950c695468567 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.json @@ -0,0 +1,257 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL", + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.IMG" + ], + "size":[ + 23040, + 15360 + ], + "coordinateSystem":{ + "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant 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+ "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_270_315_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + 2729101.538, + 1819401.026 + ], + "lowerLeft":[ + 2729101.538, + 909700.513 + ], + "lowerRight":[ + 4093652.307, + 909700.513 + ], + "upperRight":[ + 4093652.307, + 1819401.026 + ], + "center":[ + 3411376.923, + 1364550.769 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + -90.0, + 60.0 + ], + [ + -90.0, + 30.0 + ], + [ + -45.0, + 30.0 + ], + [ + -45.0, + 60.0 + ], + [ + -90.0, + 60.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + "noDataValue":-3.4028227e+38, + "offset":1737.4, + "scale":1.0, + "metadata":{} + } + ], + "stac":{ + "proj:shape":[ + 23040, + 15360 + ], + "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant Cylindrical\",\n METHOD[\"Equidistant Cylindrical\",\n ID[\"EPSG\",1028]],\n PARAMETER[\"Latitude of 1st standard parallel\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8823]],\n PARAMETER[\"Longitude of natural origin\",180,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8802]],\n PARAMETER[\"False easting\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8806]],\n PARAMETER[\"False northing\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8807]]],\n CS[Cartesian,2],\n AXIS[\"(E)\",east,\n ORDER[1],\n 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1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + 2729101.5383040001615882, + 59.2252938, + 0.0, + 1819401.0255360000301152, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..abedd9a9330ff250be30cac452c7e4d40a5abdc2 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/270_315/SLDEM2015_512_30N_60N_270_315_FLOAT.LBL + 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (2729101.538304000161588,1819401.025536000030115) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30N_60N_270_315_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 2729101.538, 1819401.026) ( 90d 0' 0.00"W, 60d 0' 0.00"N) +Lower Left ( 2729101.538, 909700.513) ( 90d 0' 0.00"W, 30d 0' 0.00"N) +Upper Right ( 4093652.307, 1819401.026) ( 45d 0' 0.00"W, 60d 0' 0.00"N) +Lower Right ( 4093652.307, 909700.513) ( 45d 0' 0.00"W, 30d 0' 0.00"N) +Center ( 3411376.923, 1364550.769) ( 67d30' 0.00"W, 45d 0' 0.00"N) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..76fb0d70e561c443636825736fe77fd3f7447d03 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30N_60N_315_360_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30N_60N_315_360_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30N_60N_315_360_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 1.159 + MINIMUM = -5.092 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 30 + WESTERNMOST_LONGITUDE = 315 + EASTERNMOST_LONGITUDE = 360 + LINE_PROJECTION_OFFSET = 30719.5 + SAMPLE_PROJECTION_OFFSET = -69120.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..76b429ad6d40b25bef8eab8d378cd4ef657df7c5 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.json @@ -0,0 +1,257 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL", + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.IMG" + ], + "size":[ + 23040, + 15360 + ], + "coordinateSystem":{ + "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant 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+ "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_30N_60N_315_360_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + 4093652.307, + 1819401.026 + ], + "lowerLeft":[ + 4093652.307, + 909700.513 + ], + "lowerRight":[ + 5458203.077, + 909700.513 + ], + "upperRight":[ + 5458203.077, + 1819401.026 + ], + "center":[ + 4775927.692, + 1364550.769 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + -45.0, + 60.0 + ], + [ + -45.0, + 30.0 + ], + [ + 0.0, + 30.0 + ], + [ + 0.0, + 60.0 + ], + [ + -45.0, + 60.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + "noDataValue":-3.4028227e+38, + "offset":1737.4, + "scale":1.0, + "metadata":{} + } + ], + "stac":{ + "proj:shape":[ + 23040, + 15360 + ], + "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant Cylindrical\",\n METHOD[\"Equidistant Cylindrical\",\n ID[\"EPSG\",1028]],\n PARAMETER[\"Latitude of 1st standard parallel\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8823]],\n PARAMETER[\"Longitude of natural origin\",180,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8802]],\n PARAMETER[\"False easting\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8806]],\n PARAMETER[\"False northing\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8807]]],\n CS[Cartesian,2],\n AXIS[\"(E)\",east,\n ORDER[1],\n 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1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + 4093652.3074560002423823, + 59.2252938, + 0.0, + 1819401.0255360000301152, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..7cf26866f7eecdcc9e24603f9f4cd9a74813671d --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.LBL + /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30N_60N/315_360/SLDEM2015_512_30N_60N_315_360_FLOAT.IMG +Size is 23040, 15360 +Coordinate System is: +PROJCRS["SIMPLE_CYLINDRICAL MOON", + BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",180, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (4093652.307456000242382,1819401.025536000030115) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30N_60N_315_360_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 4093652.307, 1819401.026) ( 45d 0' 0.00"W, 60d 0' 0.00"N) +Lower Left ( 4093652.307, 909700.513) ( 45d 0' 0.00"W, 30d 0' 0.00"N) +Upper Right ( 5458203.077, 1819401.026) ( 0d 0' 0.00"E, 60d 0' 0.00"N) +Lower Right ( 5458203.077, 909700.513) ( 0d 0' 0.00"E, 30d 0' 0.00"N) +Center ( 4775927.692, 1364550.769) ( 22d30' 0.00"W, 45d 0' 0.00"N) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..baa5973552e98941333381cfd23cafbdcd9ed483 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30S_00S_000_045_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_000_045_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_000_045_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 4.832 + MINIMUM = -4.944 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 0 + EASTERNMOST_LONGITUDE = 45 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = 92159.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/000_045/SLDEM2015_512_30S_00S_000_045_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..8f1e87190a0cd0ba7069c28fea13510f3ba3f552 --- /dev/null +++ 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MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_045_090_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_045_090_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 3.300 + MINIMUM = -5.887 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 45 + EASTERNMOST_LONGITUDE = 90 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = 69119.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/045_090/SLDEM2015_512_30S_00S_045_090_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..53dfa3042a7f7baecc7c174939b4ecbf94758d41 --- /dev/null +++ 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MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_090_135_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_090_135_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 5.651 + MINIMUM = -5.749 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 90 + EASTERNMOST_LONGITUDE = 135 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = 46079.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/090_135/SLDEM2015_512_30S_00S_090_135_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..af171f5b3cfa04662ecd1a82a5ab971d69e2f8a6 --- /dev/null +++ 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-2729101.538304000161588,0.000000000000000) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30S_00S_090_135_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-2729101.538, 0.000) ( 90d 0' 0.00"E, 0d 0' 0.01"N) +Lower Left (-2729101.538, -909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"S) +Upper Right (-1364550.769, 0.000) (135d 0' 0.00"E, 0d 0' 0.01"N) +Lower Right (-1364550.769, -909700.513) (135d 0' 0.00"E, 30d 0' 0.00"S) +Center (-2046826.154, -454850.256) (112d30' 0.00"E, 15d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..e8beff3d9bb30b4f2f216e1cc592bdd72cd446c7 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30S_00S_135_180_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_135_180_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_135_180_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 7.562 + MINIMUM = -6.702 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 135 + EASTERNMOST_LONGITUDE = 180 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = 23039.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..a90677d4057c5ad284bc2210d791ccfd7ce5ff50 --- /dev/null +++ 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AXIS[\"(N)\",north,\n ORDER[2],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -1364550.7691520000807941, + 59.2252938, + 0.0, + 0.0, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..a282bcde6c3b4a34f3fd8ba0a11919e3273d5303 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.LBL + /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/135_180/SLDEM2015_512_30S_00S_135_180_FLOAT.IMG +Size is 23040, 15360 +Coordinate System is: +PROJCRS["SIMPLE_CYLINDRICAL MOON", + BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",180, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-1364550.769152000080794,0.000000000000000) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30S_00S_135_180_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-1364550.769, 0.000) (135d 0' 0.00"E, 0d 0' 0.01"N) +Lower Left (-1364550.769, -909700.513) (135d 0' 0.00"E, 30d 0' 0.00"S) +Upper Right ( 0.0000000, 0.0000000) (180d 0' 0.00"E, 0d 0' 0.01"N) +Lower Right ( 0.000, -909700.513) (180d 0' 0.00"E, 30d 0' 0.00"S) +Center ( -682275.385, -454850.256) (157d30' 0.00"E, 15d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/180_225/SLDEM2015_512_30S_00S_180_225_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/180_225/SLDEM2015_512_30S_00S_180_225_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..44c24118a92b29530e0358c4bbab20eeec0fc0c0 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/180_225/SLDEM2015_512_30S_00S_180_225_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30S_00S_180_225_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_180_225_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_180_225_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 9.337 + MINIMUM = -6.102 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 180 + EASTERNMOST_LONGITUDE = 225 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = -0.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/180_225/SLDEM2015_512_30S_00S_180_225_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/180_225/SLDEM2015_512_30S_00S_180_225_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..62bb689db10cd5371bde1bb9b4bf88c539b00c4e --- /dev/null +++ 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LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + 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+ BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",180, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-0.000000000000000,0.000000000000000) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30S_00S_180_225_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 0.0000000, 0.0000000) (180d 0' 0.00"E, 0d 0' 0.01"N) +Lower Left ( 0.000, -909700.513) (180d 0' 0.00"E, 30d 0' 0.00"S) +Upper Right ( 1364550.769, 0.000) (135d 0' 0.00"W, 0d 0' 0.01"N) +Lower Right ( 1364550.769, -909700.513) (135d 0' 0.00"W, 30d 0' 0.00"S) +Center ( 682275.385, -454850.256) (157d30' 0.00"W, 15d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/225_270/SLDEM2015_512_30S_00S_225_270_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/225_270/SLDEM2015_512_30S_00S_225_270_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..0ae0344effb652b9492bc136d9cb989e67b97e5f --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/225_270/SLDEM2015_512_30S_00S_225_270_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30S_00S_225_270_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_225_270_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_225_270_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 9.460 + MINIMUM = -4.810 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 225 + EASTERNMOST_LONGITUDE = 270 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = -23040.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/225_270/SLDEM2015_512_30S_00S_225_270_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/225_270/SLDEM2015_512_30S_00S_225_270_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..3623589cee677482ac225b70711b1b8a58d60168 --- /dev/null +++ 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+ MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_270_315_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_270_315_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 4.797 + MINIMUM = -4.168 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 270 + EASTERNMOST_LONGITUDE = 315 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = -46080.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/270_315/SLDEM2015_512_30S_00S_270_315_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/270_315/SLDEM2015_512_30S_00S_270_315_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..0aba6df573bf9765b2d7368a84b09114a272b57a --- /dev/null +++ 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (2729101.538304000161588,0.000000000000000) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_30S_00S_270_315_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 2729101.538, 0.000) ( 90d 0' 0.00"W, 0d 0' 0.01"N) +Lower Left ( 2729101.538, -909700.513) ( 90d 0' 0.00"W, 30d 0' 0.00"S) +Upper Right ( 4093652.307, 0.000) ( 45d 0' 0.00"W, 0d 0' 0.01"N) +Lower Right ( 4093652.307, -909700.513) ( 45d 0' 0.00"W, 30d 0' 0.00"S) +Center ( 3411376.923, -454850.256) ( 67d30' 0.00"W, 15d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..43dfd5acef76d33af659a9718177fb3f1935ba9f --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_30S_00S_315_360_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_30S_00S_315_360_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_30S_00S_315_360_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 2.399 + MINIMUM = -5.043 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = 0 + MINIMUM_LATITUDE = -30 + WESTERNMOST_LONGITUDE = 315 + EASTERNMOST_LONGITUDE = 360 + LINE_PROJECTION_OFFSET = -0.5 + SAMPLE_PROJECTION_OFFSET = -69120.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..b61da57d5af1471111df69faec392e1993ed2d68 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT_gdalinfo.json @@ -0,0 +1,257 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.LBL", + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.IMG" + ], + "size":[ + 23040, + 15360 + ], + "coordinateSystem":{ + "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant 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"INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_30S_00S_315_360_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + 4093652.307, + 0.0 + ], + "lowerLeft":[ + 4093652.307, + -909700.513 + ], + "lowerRight":[ + 5458203.077, + -909700.513 + ], + "upperRight":[ + 5458203.077, + 0.0 + ], + "center":[ + 4775927.692, + -454850.256 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + -45.0, + 0.0 + ], + [ + -45.0, + -30.0 + ], + [ + 0.0, + -30.0 + ], + [ + 0.0, + 0.0 + ], + [ + -45.0, + 0.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + 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LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]],\n AXIS[\"(N)\",north,\n ORDER[2],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + 4093652.3074560002423823, + 59.2252938, + 0.0, + 0.0, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..87a5e398ff401b7c789a5ef83ea83fe5194a1c16 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/30S_00S/315_360/SLDEM2015_512_30S_00S_315_360_FLOAT.LBL + 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+ MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_000_045_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_000_045_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 4.448 + MINIMUM = -5.286 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 0 + EASTERNMOST_LONGITUDE = 45 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = 92159.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/000_045/SLDEM2015_512_60S_30S_000_045_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/000_045/SLDEM2015_512_60S_30S_000_045_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..d4a3b8af08bee4a145908bb8b0b91fa95716d53c --- /dev/null +++ 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0' 0.00"S) +Center (-4775927.692,-1364550.769) ( 22d30' 0.00"E, 45d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/045_090/SLDEM2015_512_60S_30S_045_090_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/045_090/SLDEM2015_512_60S_30S_045_090_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..4471d725cd902ab8a5a9fa80915d33240d4e3acf --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/045_090/SLDEM2015_512_60S_30S_045_090_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_60S_30S_045_090_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_045_090_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_045_090_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 3.112 + MINIMUM = -5.482 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 45 + EASTERNMOST_LONGITUDE = 90 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = 69119.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/045_090/SLDEM2015_512_60S_30S_045_090_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/045_090/SLDEM2015_512_60S_30S_045_090_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..d64f1bcb806aa2f0927f5ba119811ad6dfada651 --- /dev/null +++ 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{"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_090_135_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_090_135_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 6.149 + MINIMUM = -5.098 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 90 + EASTERNMOST_LONGITUDE = 135 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = 46079.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/090_135/SLDEM2015_512_60S_30S_090_135_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/090_135/SLDEM2015_512_60S_30S_090_135_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..2c3f5a899ec2253253e5f2edbafb8c7fd3e9519d --- /dev/null +++ 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-2729101.5383040001615882, + 59.2252938, + 0.0, + -909700.5127680000150576, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/090_135/SLDEM2015_512_60S_30S_090_135_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/090_135/SLDEM2015_512_60S_30S_090_135_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..6ae69dcc7b1d845a6e868061522541e08984f3a3 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/090_135/SLDEM2015_512_60S_30S_090_135_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/090_135/SLDEM2015_512_60S_30S_090_135_FLOAT.LBL + 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-2729101.538304000161588,-909700.512768000015058) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_60S_30S_090_135_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-2729101.538, -909700.513) ( 90d 0' 0.00"E, 30d 0' 0.00"S) +Lower Left (-2729101.538,-1819401.026) ( 90d 0' 0.00"E, 60d 0' 0.00"S) +Upper Right (-1364550.769, -909700.513) (135d 0' 0.00"E, 30d 0' 0.00"S) +Lower Right (-1364550.769,-1819401.026) (135d 0' 0.00"E, 60d 0' 0.00"S) +Center (-2046826.154,-1364550.769) (112d30' 0.00"E, 45d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/135_180/SLDEM2015_512_60S_30S_135_180_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/135_180/SLDEM2015_512_60S_30S_135_180_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..8878dd84a6bb779ddad8031515104ab979329c78 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/135_180/SLDEM2015_512_60S_30S_135_180_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_60S_30S_135_180_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_135_180_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_135_180_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 5.679 + MINIMUM = -7.910 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 135 + EASTERNMOST_LONGITUDE = 180 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = 23039.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/135_180/SLDEM2015_512_60S_30S_135_180_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/135_180/SLDEM2015_512_60S_30S_135_180_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..ffd38b78d20dec6f80016a82112c71071ab69cc9 --- /dev/null +++ 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+ "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_60S_30S_135_180_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + -1364550.769, + -909700.513 + ], + "lowerLeft":[ + -1364550.769, + -1819401.026 + ], + "lowerRight":[ + 0.0, + -1819401.026 + ], + "upperRight":[ + 0.0, + -909700.513 + ], + "center":[ + -682275.385, + -1364550.769 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + 135.0, + -30.0 + ], + [ + 135.0, + -60.0 + ], + [ + 180.0, + -60.0 + ], + [ + 180.0, + -30.0 + ], + [ + 135.0, + -30.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + 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1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -1364550.7691520000807941, + 59.2252938, + 0.0, + 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-1364550.769152000080794,-909700.512768000015058) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_60S_30S_135_180_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-1364550.769, -909700.513) (135d 0' 0.00"E, 30d 0' 0.00"S) +Lower Left (-1364550.769,-1819401.026) (135d 0' 0.00"E, 60d 0' 0.00"S) +Upper Right ( 0.000, -909700.513) (180d 0' 0.00"E, 30d 0' 0.00"S) +Lower Right ( 0.000,-1819401.026) (180d 0' 0.00"E, 60d 0' 0.00"S) +Center ( -682275.385,-1364550.769) (157d30' 0.00"E, 45d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..de5d6ab8df60fc19e3e48bf2b4c3c2043d28c4f3 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_60S_30S_180_225_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_180_225_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_180_225_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 6.541 + MINIMUM = -8.719 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 180 + EASTERNMOST_LONGITUDE = 225 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = -0.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..3da8e0771270bd743cae227166b3f20bb2275318 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT_gdalinfo.json @@ -0,0 +1,257 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.LBL", + "/teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.IMG" + ], + "size":[ + 23040, + 15360 + ], + "coordinateSystem":{ + "wkt":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant 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"INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-09-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_512_60S_30S_180_225_FLOAT\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17", + "STOP_TIME":"2013-07-18T00:10:56", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + 0.0, + -909700.513 + ], + "lowerLeft":[ + 0.0, + -1819401.026 + ], + "lowerRight":[ + 1364550.769, + -1819401.026 + ], + "upperRight":[ + 1364550.769, + -909700.513 + ], + "center":[ + 682275.385, + -1364550.769 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + 180.0, + -30.0 + ], + [ + 180.0, + -60.0 + ], + [ + -135.0, + -60.0 + ], + [ + -135.0, + -30.0 + ], + [ + 180.0, + -30.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 23040, + 1 + ], + "type":"Float32", + "colorInterpretation":"Undefined", + "noDataValue":-3.4028227e+38, + "offset":1737.4, + "scale":1.0, + "metadata":{} + } + ], + "stac":{ + "proj:shape":[ + 23040, + 15360 + ], + "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant Cylindrical\",\n METHOD[\"Equidistant Cylindrical\",\n ID[\"EPSG\",1028]],\n PARAMETER[\"Latitude of 1st standard parallel\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8823]],\n PARAMETER[\"Longitude of natural origin\",180,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8802]],\n PARAMETER[\"False easting\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8806]],\n PARAMETER[\"False northing\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8807]]],\n CS[Cartesian,2],\n AXIS[\"(E)\",east,\n ORDER[1],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]],\n AXIS[\"(N)\",north,\n ORDER[2],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":180, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -0.0, + 59.2252938, + 0.0, + -909700.5127680000150576, + 0.0, + -59.2252938 + ], + "raster:bands":[ + { + "data_type":"float32", + "nodata":null, + "scale":null, + "offset":null + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Undefined" + } + ] + } +} \ No newline at end of file diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT_gdalinfo.txt b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..5ff30b08e51d88fe314afdd7d69a1c6a5fd1a41d --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT_gdalinfo.txt @@ -0,0 +1,67 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.LBL + /teamspace/studios/this_studio/test_1/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/180_225/SLDEM2015_512_60S_30S_180_225_FLOAT.IMG +Size is 23040, 15360 +Coordinate System is: +PROJCRS["SIMPLE_CYLINDRICAL MOON", + BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",180, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-0.000000000000000,-909700.512768000015058) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_60S_30S_180_225_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 0.000, -909700.513) (180d 0' 0.00"E, 30d 0' 0.00"S) +Lower Left ( 0.000,-1819401.026) (180d 0' 0.00"E, 60d 0' 0.00"S) +Upper Right ( 1364550.769, -909700.513) (135d 0' 0.00"W, 30d 0' 0.00"S) +Lower Right ( 1364550.769,-1819401.026) (135d 0' 0.00"W, 60d 0' 0.00"S) +Center ( 682275.385,-1364550.769) (157d30' 0.00"W, 45d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/225_270/SLDEM2015_512_60S_30S_225_270_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/225_270/SLDEM2015_512_60S_30S_225_270_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..613ee364cac46d2c775ab45f60a824fca4b99f70 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/225_270/SLDEM2015_512_60S_30S_225_270_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_60S_30S_225_270_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_225_270_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_225_270_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 6.740 + MINIMUM = -7.601 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 225 + EASTERNMOST_LONGITUDE = 270 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = -23040.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/225_270/SLDEM2015_512_60S_30S_225_270_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/225_270/SLDEM2015_512_60S_30S_225_270_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..a02c5e6b2ca1b74477a790a5204fd0db0fb7a7d7 --- /dev/null +++ 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AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (1364550.769152000080794,-909700.512768000015058) +Pixel Size = (59.225293800000003,-59.225293800000003) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-09-15T00:00:00 + PRODUCT_ID="SLDEM2015_512_60S_30S_225_270_FLOAT" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17 + STOP_TIME=2013-07-18T00:10:56 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left ( 1364550.769, -909700.513) (135d 0' 0.00"W, 30d 0' 0.00"S) +Lower Left ( 1364550.769,-1819401.026) (135d 0' 0.00"W, 60d 0' 0.00"S) +Upper Right ( 2729101.538, -909700.513) ( 90d 0' 0.00"W, 30d 0' 0.00"S) +Lower Right ( 2729101.538,-1819401.026) ( 90d 0' 0.00"W, 60d 0' 0.00"S) +Center ( 2046826.154,-1364550.769) (112d30' 0.00"W, 45d 0' 0.00"S) +Band 1 Block=23040x1 Type=Float32, ColorInterp=Undefined + NoData Value=-3.4028227e+38 + Offset: 1737.4, Scale:1 diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/270_315/SLDEM2015_512_60S_30S_270_315_FLOAT.LBL b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/270_315/SLDEM2015_512_60S_30S_270_315_FLOAT.LBL new file mode 100644 index 0000000000000000000000000000000000000000..3cb8ad0e542a949072fc6333f61095faae7d6a68 --- /dev/null +++ b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/270_315/SLDEM2015_512_60S_30S_270_315_FLOAT.LBL @@ -0,0 +1,103 @@ +PDS_VERSION_ID = "PDS3" + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_512_60S_30S_270_315_FLOAT" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_270_315_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_270_315_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 5.969 + MINIMUM = -3.455 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 270 + EASTERNMOST_LONGITUDE = 315 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = -46080.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/270_315/SLDEM2015_512_60S_30S_270_315_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/270_315/SLDEM2015_512_60S_30S_270_315_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..b24cfa5b7cee90316e27e9b83e7d663a7afc0a25 --- /dev/null +++ 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{"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17 +STOP_TIME = 2013-07-18T00:10:56 +PRODUCT_CREATION_TIME = 2015-09-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a rectangular subsection + (tile) of a lunar digital elevation model (DEM) covering latitudes + equatorward of +/- 60 degrees at a horizontal resolution of 512 pixels + per degree (~60 meters at the equator). The DEM uses data acquired by the + LOLA instrument through mission phase LRO_ES_09, which have been + coregistered with Kaguya's SELENE terrain camera data. LOLA data have been + geolocated using the gravity field GRGM900B derived using data from the + GRAIL mission [ZUBERETAL2013,LEMOINEETAL2014]. + + The map is in the form of a binary table with + one row for each 0.0019531250 degrees of latitude, pixel registered. + Map values are relative to a radius of 1737.4 km. + + This label describes an IMG file in the form of a binary resampling + to pixel registration. +" + +OBJECT = UNCOMPRESSED_FILE +FILE_NAME = "SLDEM2015_512_60S_30S_315_360_FLOAT.IMG" +RECORD_TYPE = FIXED_LENGTH +FILE_RECORDS = 15360 +RECORD_BYTES = 92160 +^IMAGE = "SLDEM2015_512_60S_30S_315_360_FLOAT.IMG" + + + OBJECT = IMAGE + NAME = HEIGHT + DESCRIPTION = "Each sample represents height relative to a + reference radius (OFFSET) and is generated using LOLA data + and Kaguya's SELENE Terrain Camera data as refined by the LOLA and + TC teams, respectively." + LINES = 15360 + LINE_SAMPLES = 23040 + MAXIMUM = 2.426 + MINIMUM = -6.111 + SAMPLE_TYPE = PC_REAL + SAMPLE_BITS = 32 + UNIT = KILOMETER + SCALING_FACTOR = 1 + OFFSET = 1737.4 + +/* Conversion from Digital Number to HEIGHT (elevation in kilometers) is: */ +/* HEIGHT = (DN * SCALING_FACTOR). */ +/* The conversion from Digital Number to PLANETARY_RADIUS in meters is: */ +/* PLANETARY_RADIUS = (DN * SCALING_FACTOR) + OFFSET */ +/* where OFFSET is the radius of a reference sphere. */ +/* The planetopotential TOPOGRAPHY is PLANETARY_RADIUS - GEOID_RADIUS, */ +/* where GEOID_RADIUS is derived from a gravitational equipotential model. */ +/* By convention, the average GEOID_RADIUS at the equator is OFFSET. */ + + END_OBJECT = IMAGE +END_OBJECT = UNCOMPRESSED_FILE + + +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 512 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 180. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 23040 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.0592252938 + MAXIMUM_LATITUDE = -30 + MINIMUM_LATITUDE = -60 + WESTERNMOST_LONGITUDE = 315 + EASTERNMOST_LONGITUDE = 360 + LINE_PROJECTION_OFFSET = -15360.5 + SAMPLE_PROJECTION_OFFSET = -69120.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/315_360/SLDEM2015_512_60S_30S_315_360_FLOAT_gdalinfo.json b/TILES/FLOAT_IMG/TILES/FLOAT_IMG/512/60S_30S/315_360/SLDEM2015_512_60S_30S_315_360_FLOAT_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..4af686de3b3837a6e96376e15ef73a6582ce9cda --- /dev/null +++ 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+ + + + z + -13710 + 7813 + -2916.826426559 + 2412.247641453 + + + diff --git a/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2.LBL b/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2.LBL new file mode 100644 index 0000000000000000000000000000000000000000..3918582df3340e1544f33ba0d9c9bcdac4425d45 --- /dev/null +++ b/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2.LBL @@ -0,0 +1,104 @@ +PDS_VERSION_ID = "PDS3" + +/*** This label describes a compressed image file, its corresponding XML */ +/*** file, and map projection information. */ +/*** The files described have the same name as this label but different */ +/*** extensions. They are: */ +/*** .JP2 - A compressed image file corresponding to the uncompressed IMG*/ +/*** file, stored with JPEG2000 compression */ +/*** .XML - An auxiliary text file in XML, provided to aid display of */ +/*** the JPEG2000 image with certain image processing software */ +/*** The map projection information includes parameters that are specific */ +/*** to this image. They are intended to be used with the general map */ +/*** projection descriptions in the file indicated by the keyword */ +/*** ^DATA_SET_MAP_PROJECTION. That file is found in the CATALOG directory */ +/*** of this archive. */ + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_256_0N_60N_000_120" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17.246 +STOP_TIME = 2013-07-18T00:00:00 +PRODUCT_CREATION_TIME = 2015-07-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a shape map (radius) + of the Moon at a resolution of 256 pix/deg by 256 pix/deg, + between 60S and 60N. + + The DEM uses data acquired by the LOLA instrument through mission phase + LRO_ES_09, which have been coregistered with Kaguya's SELENE terrain + camera data [BARKERETAL2015]. LOLA data have been geolocated using the + gravity field GRGM900B derived using data from the GRAIL mission + [ZUBERETAL2013, LEMOINEETAL2014]. + + Map values are relative to a radius of 1737.4 km. + + This label describes two objects. The first is a JP2 file of + the corresponding uncompressed .IMG file. A jpeg 2000 compression + is used to render the image. The second is an auxiliary xml file + that contains extensible markup language that is interpreted by + GDAL readers (www.gdal.org). +" + +OBJECT = COMPRESSED_FILE +FILE_NAME = "SLDEM2015_256_0N_60N_000_120.JP2" + RECORD_TYPE = UNDEFINED + FILE_RECORDS = UNK + ENCODING_TYPE = "JP2" + INTERCHANGE_FORMAT = BINARY + UNIT = METER + SCALING_FACTOR = 0.5 + OFFSET = 1737400. + UNCOMPRESSED_FILE_NAME = "SLDEM2015_256_0N_60N_000_120_FLOAT.IMG" + REQUIRED_STORAGE_BYTES = "274893288" + ^DESCRIPTION = "JP2INFO.TXT" +END_OBJECT = COMPRESSED_FILE + +OBJECT = AUX_FILE + FILE_NAME = "SLDEM2015_256_0N_60N_000_120_AUX.XML" + RECORD_TYPE = STREAM + FILE_RECORDS = UNK + DESCRIPTION = "This is an auxiliary file accompanying + the JPEG2000 file. It contains metadata in XML format that + is useful for displaying the image using a GDAL supported tool." +END_OBJECT = AUX_FILE +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 256 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 0. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 30720 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.1184505876 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 0 + WESTERNMOST_LONGITUDE = -180 + EASTERNMOST_LONGITUDE = -60 + LINE_PROJECTION_OFFSET = 15359.5 + SAMPLE_PROJECTION_OFFSET = 46079.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2_gdalinfo.json b/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..2dd177512038de4f409faf6f60e1eccd6ba0ad97 --- /dev/null +++ b/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2_gdalinfo.json @@ -0,0 +1,287 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2.LBL", + "/teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120.JP2" + ], + "size":[ + 30720, + 15360 + ], + "coordinateSystem":{ + 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2 + ] + }, + "geoTransform":[ + -5458203.0766080003231764, + 118.4505876, + 0.0, + 1819401.0255360000301152, + 0.0, + -118.4505876 + ], + "metadata":{ + "":{ + "BANDWIDTH":"", + "CENTER_FILTER_WAVELENGTH":"", + "DATA_SET_ID":"\"LRO-L-LOLA-4-GDR-V1.0\"", + "FILTER_NAME":"", + "INSTRUMENT_ID":"\"LOLA\"", + "INSTRUMENT_NAME":"\"LUNAR ORBITER LASER ALTIMETER\"", + "MISSION_NAME":"", + "NOTE":"", + "PRODUCER_INSTITUTION_NAME":"\"GODDARD SPACE FLIGHT CENTER\"", + "PRODUCT_CREATION_TIME":"2015-07-15T00:00:00", + "PRODUCT_ID":"\"SLDEM2015_256_0N_60N_000_120\"", + "PRODUCT_TYPE":"", + "SPACECRAFT_NAME":"", + "START_TIME":"2009-07-13T17:33:17.246", + "STOP_TIME":"2013-07-18T00:00:00", + "TARGET_NAME":"MOON" + } + }, + "cornerCoordinates":{ + "upperLeft":[ + -5458203.077, + 1819401.026 + ], + "lowerLeft":[ + -5458203.077, + 0.0 + ], + "lowerRight":[ + -1819401.026, + 0.0 + ], + "upperRight":[ + -1819401.026, + 1819401.026 + ], + "center":[ + -3638802.051, + 909700.513 + ] + }, + "extent":{ + "type":"Polygon", + "coordinates":[ + [ + [ + 180.0, + 60.0 + ], + [ + 180.0, + 0.0 + ], + [ + -60.0, + 0.0 + ], + [ + -60.0, + 60.0 + ], + [ + 180.0, + 60.0 + ] + ] + ] + }, + "bands":[ + { + "band":1, + "block":[ + 1024, + 1024 + ], + "type":"Int16", + "colorInterpretation":"Gray", + "overviews":[ + { + "size":[ + 15360, + 7680 + ] + }, + { + "size":[ + 7680, + 3840 + ] + }, + { + "size":[ + 3840, + 1920 + ] + }, + { + "size":[ + 1920, + 960 + ] + }, + { + "size":[ + 960, + 480 + ] + } + ], + "metadata":{ + "IMAGE_STRUCTURE":{ + "COMPRESSION":"JPEG2000" + } + } + } + ], + "stac":{ + "proj:shape":[ + 30720, + 15360 + ], + "proj:wkt2":"PROJCRS[\"SIMPLE_CYLINDRICAL MOON\",\n BASEGEOGCRS[\"GCS_MOON\",\n DATUM[\"D_MOON\",\n ELLIPSOID[\"MOON\",1737400,0,\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]],\n PRIMEM[\"Reference_Meridian\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433,\n ID[\"EPSG\",9122]]]],\n CONVERSION[\"Equidistant Cylindrical\",\n METHOD[\"Equidistant Cylindrical\",\n ID[\"EPSG\",1028]],\n PARAMETER[\"Latitude of 1st standard parallel\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8823]],\n PARAMETER[\"Longitude of natural origin\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8802]],\n PARAMETER[\"False easting\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8806]],\n PARAMETER[\"False northing\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8807]]],\n CS[Cartesian,2],\n AXIS[\"(E)\",east,\n ORDER[1],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]],\n AXIS[\"(N)\",north,\n ORDER[2],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -5458203.0766080003231764, + 118.4505876, + 0.0, + 1819401.0255360000301152, + 0.0, + -118.4505876 + ], + "raster:bands":[ + { + "data_type":"int16" + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Gray" + } + ] + } +} \ No newline at end of file diff --git a/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2_gdalinfo.txt b/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2_gdalinfo.txt new file mode 100644 index 0000000000000000000000000000000000000000..582801209e4878f665583ca635e72a823d27cecc --- /dev/null +++ b/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2_gdalinfo.txt @@ -0,0 +1,69 @@ +Driver: PDS/NASA Planetary Data System +Files: /teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120_JP2.LBL + /teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/000_120/SLDEM2015_256_0N_60N_000_120.JP2 +Size is 30720, 15360 +Coordinate System is: +PROJCRS["SIMPLE_CYLINDRICAL MOON", + BASEGEOGCRS["GCS_MOON", + DATUM["D_MOON", + ELLIPSOID["MOON",1737400,0, + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]], + PRIMEM["Reference_Meridian",0, + ANGLEUNIT["degree",0.0174532925199433, + ID["EPSG",9122]]]], + CONVERSION["Equidistant Cylindrical", + METHOD["Equidistant Cylindrical", + ID["EPSG",1028]], + PARAMETER["Latitude of 1st standard parallel",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8823]], + PARAMETER["Longitude of natural origin",0, + ANGLEUNIT["degree",0.0174532925199433], + ID["EPSG",8802]], + PARAMETER["False easting",0, + LENGTHUNIT["metre",1], + ID["EPSG",8806]], + PARAMETER["False northing",0, + LENGTHUNIT["metre",1], + ID["EPSG",8807]]], + CS[Cartesian,2], + AXIS["(E)",east, + ORDER[1], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]], + AXIS["(N)",north, + ORDER[2], + LENGTHUNIT["metre",1, + ID["EPSG",9001]]]] +Data axis to CRS axis mapping: 1,2 +Origin = (-5458203.076608000323176,1819401.025536000030115) +Pixel Size = (118.450587600000006,-118.450587600000006) +Metadata: + BANDWIDTH= + CENTER_FILTER_WAVELENGTH= + DATA_SET_ID="LRO-L-LOLA-4-GDR-V1.0" + FILTER_NAME= + INSTRUMENT_ID="LOLA" + INSTRUMENT_NAME="LUNAR ORBITER LASER ALTIMETER" + MISSION_NAME= + NOTE= + PRODUCER_INSTITUTION_NAME="GODDARD SPACE FLIGHT CENTER" + PRODUCT_CREATION_TIME=2015-07-15T00:00:00 + PRODUCT_ID="SLDEM2015_256_0N_60N_000_120" + PRODUCT_TYPE= + SPACECRAFT_NAME= + START_TIME=2009-07-13T17:33:17.246 + STOP_TIME=2013-07-18T00:00:00 + TARGET_NAME=MOON +Corner Coordinates: +Upper Left (-5458203.077, 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+ + + + z + -11280 + 21562 + 4044.4428617732 + 4283.9916388663 + + + diff --git a/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2.LBL b/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2.LBL new file mode 100644 index 0000000000000000000000000000000000000000..6f27d227b21ed975ae23c1b6a10f509580d6eb2b --- /dev/null +++ b/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2.LBL @@ -0,0 +1,104 @@ +PDS_VERSION_ID = "PDS3" + +/*** This label describes a compressed image file, its corresponding XML */ +/*** file, and map projection information. */ +/*** The files described have the same name as this label but different */ +/*** extensions. They are: */ +/*** .JP2 - A compressed image file corresponding to the uncompressed IMG*/ +/*** file, stored with JPEG2000 compression */ +/*** .XML - An auxiliary text file in XML, provided to aid display of */ +/*** the JPEG2000 image with certain image processing software */ +/*** The map projection information includes parameters that are specific */ +/*** to this image. They are intended to be used with the general map */ +/*** projection descriptions in the file indicated by the keyword */ +/*** ^DATA_SET_MAP_PROJECTION. That file is found in the CATALOG directory */ +/*** of this archive. */ + +/*** GENERAL DATA DESCRIPTION PARAMETERS ***/ +PRODUCT_VERSION_ID = "V2.0" +DATA_SET_ID = "LRO-L-LOLA-4-GDR-V1.0" +PRODUCT_ID = "SLDEM2015_256_0N_60N_120_240" +INSTRUMENT_HOST_NAME = "LUNAR RECONNAISSANCE ORBITER" +INSTRUMENT_NAME = "LUNAR ORBITER LASER ALTIMETER" +INSTRUMENT_ID = "LOLA" +MISSION_PHASE_NAME = {"COMMISSIONING","NOMINAL MISSION","SCIENCE + MISSION","EXTENDED SCIENCE MISSION"} +TARGET_NAME = MOON +START_TIME = 2009-07-13T17:33:17.246 +STOP_TIME = 2013-07-18T00:00:00 +PRODUCT_CREATION_TIME = 2015-07-15T00:00:00 +PRODUCER_ID = LRO_LOLA_TEAM +PRODUCER_FULL_NAME = "DAVID E. SMITH" +PRODUCER_INSTITUTION_NAME = "GODDARD SPACE FLIGHT CENTER" +DESCRIPTION = "This data product is a shape map (radius) + of the Moon at a resolution of 256 pix/deg by 256 pix/deg, + between 60S and 60N. + + The DEM uses data acquired by the LOLA instrument through mission phase + LRO_ES_09, which have been coregistered with Kaguya's SELENE terrain + camera data [BARKERETAL2015]. LOLA data have been geolocated using the + gravity field GRGM900B derived using data from the GRAIL mission + [ZUBERETAL2013, LEMOINEETAL2014]. + + Map values are relative to a radius of 1737.4 km. + + This label describes two objects. The first is a JP2 file of + the corresponding uncompressed .IMG file. A jpeg 2000 compression + is used to render the image. The second is an auxiliary xml file + that contains extensible markup language that is interpreted by + GDAL readers (www.gdal.org). +" + +OBJECT = COMPRESSED_FILE +FILE_NAME = "SLDEM2015_256_0N_60N_120_240.JP2" + RECORD_TYPE = UNDEFINED + FILE_RECORDS = UNK + ENCODING_TYPE = "JP2" + INTERCHANGE_FORMAT = BINARY + UNIT = METER + SCALING_FACTOR = 0.5 + OFFSET = 1737400. + UNCOMPRESSED_FILE_NAME = "SLDEM2015_256_0N_60N_120_240_FLOAT.IMG" + REQUIRED_STORAGE_BYTES = "276288569" + ^DESCRIPTION = "JP2INFO.TXT" +END_OBJECT = COMPRESSED_FILE + +OBJECT = AUX_FILE + FILE_NAME = "SLDEM2015_256_0N_60N_120_240_AUX.XML" + RECORD_TYPE = STREAM + FILE_RECORDS = UNK + DESCRIPTION = "This is an auxiliary file accompanying + the JPEG2000 file. It contains metadata in XML format that + is useful for displaying the image using a GDAL supported tool." +END_OBJECT = AUX_FILE +OBJECT = IMAGE_MAP_PROJECTION + ^DATA_SET_MAP_PROJECTION = "DSMAP.CAT" + MAP_PROJECTION_TYPE = "SIMPLE CYLINDRICAL" + MAP_RESOLUTION = 256 + A_AXIS_RADIUS = 1737.4 + B_AXIS_RADIUS = 1737.4 + C_AXIS_RADIUS = 1737.4 + FIRST_STANDARD_PARALLEL = 'N/A' + SECOND_STANDARD_PARALLEL = 'N/A' + POSITIVE_LONGITUDE_DIRECTION = "EAST" + CENTER_LATITUDE = 0. + CENTER_LONGITUDE = 0. + REFERENCE_LATITUDE = 'N/A' + REFERENCE_LONGITUDE = 'N/A' + LINE_FIRST_PIXEL = 1 + LINE_LAST_PIXEL = 15360 + SAMPLE_FIRST_PIXEL = 1 + SAMPLE_LAST_PIXEL = 30720 + MAP_PROJECTION_ROTATION = 0.0 + MAP_SCALE = 0.1184505876 + MAXIMUM_LATITUDE = 60 + MINIMUM_LATITUDE = 0 + WESTERNMOST_LONGITUDE = -60 + EASTERNMOST_LONGITUDE = 60 + LINE_PROJECTION_OFFSET = 15359.5 + SAMPLE_PROJECTION_OFFSET = 46079.5 + COORDINATE_SYSTEM_TYPE = "BODY-FIXED ROTATING" + COORDINATE_SYSTEM_NAME = "MEAN EARTH/POLAR AXIS OF DE421" +END_OBJECT = IMAGE_MAP_PROJECTION + +END diff --git a/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2_gdalinfo.json b/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2_gdalinfo.json new file mode 100644 index 0000000000000000000000000000000000000000..fb4cb16a9f11b50cb2ef61d703fcc90717d884a1 --- /dev/null +++ b/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2_gdalinfo.json @@ -0,0 +1,287 @@ +{ + "description":"/teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2.LBL", + "driverShortName":"PDS", + "driverLongName":"NASA Planetary Data System", + "files":[ + "/teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240_JP2.LBL", + "/teamspace/studios/this_studio/test_1/TILES/JP2/TILES/JP2/256/0N_60N/120_240/SLDEM2015_256_0N_60N_120_240.JP2" + ], + "size":[ + 30720, + 15360 + ], + "coordinateSystem":{ + 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ID[\"EPSG\",1028]],\n PARAMETER[\"Latitude of 1st standard parallel\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8823]],\n PARAMETER[\"Longitude of natural origin\",0,\n ANGLEUNIT[\"degree\",0.0174532925199433],\n ID[\"EPSG\",8802]],\n PARAMETER[\"False easting\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8806]],\n PARAMETER[\"False northing\",0,\n LENGTHUNIT[\"metre\",1],\n ID[\"EPSG\",8807]]],\n CS[Cartesian,2],\n AXIS[\"(E)\",east,\n ORDER[1],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]],\n AXIS[\"(N)\",north,\n ORDER[2],\n LENGTHUNIT[\"metre\",1,\n ID[\"EPSG\",9001]]]]", + "proj:epsg":null, + "proj:projjson":{ + "$schema":"https://proj.org/schemas/v0.7/projjson.schema.json", + "type":"ProjectedCRS", + "name":"SIMPLE_CYLINDRICAL MOON", + "base_crs":{ + "name":"GCS_MOON", + "datum":{ + "type":"GeodeticReferenceFrame", + "name":"D_MOON", + "ellipsoid":{ + "name":"MOON", + "radius":1737400 + }, + "prime_meridian":{ + "name":"Reference_Meridian", + "longitude":0 + } + }, + "coordinate_system":{ + "subtype":"ellipsoidal", + "axis":[ + { + "name":"Latitude", + "abbreviation":"lat", + "direction":"north", + "unit":"degree" + }, + { + "name":"Longitude", + "abbreviation":"lon", + "direction":"east", + "unit":"degree" + } + ] + } + }, + "conversion":{ + "name":"Equidistant Cylindrical", + "method":{ + "name":"Equidistant Cylindrical", + "id":{ + "authority":"EPSG", + "code":1028 + } + }, + "parameters":[ + { + "name":"Latitude of 1st standard parallel", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8823 + } + }, + { + "name":"Latitude of natural origin", + "value":0, + "unit":{ + "type":"Unit", + "name":"", + "conversion_factor":1 + }, + "id":{ + "authority":"EPSG", + "code":8801 + } + }, + { + "name":"Longitude of natural origin", + "value":0, + "unit":"degree", + "id":{ + "authority":"EPSG", + "code":8802 + } + }, + { + "name":"False easting", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8806 + } + }, + { + "name":"False northing", + "value":0, + "unit":"metre", + "id":{ + "authority":"EPSG", + "code":8807 + } + } + ] + }, + "coordinate_system":{ + "subtype":"Cartesian", + "axis":[ + { + "name":"Easting", + "abbreviation":"E", + "direction":"east", + "unit":"metre" + }, + { + "name":"Northing", + "abbreviation":"N", + "direction":"north", + "unit":"metre" + } + ] + } + }, + "proj:transform":[ + -5458203.0766080003231764, + 118.4505876, + 0.0, + 1819401.0255360000301152, + 0.0, + -118.4505876 + ], + "raster:bands":[ + { + "data_type":"int16" + } + ], + "eo:bands":[ + { + "name":"b1", + "description":"Gray" + } + ] + } +} \ No newline at end of file