20181012 11002500 1.0 FALSE CreateMosaicDataset \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb orthoRegionalCumbCounty1ft2009 "PROJCS['NAD_1983_UTM_Zone_19N',GEOGCS['GCS_North_American_1983',DATUM['D_North_American_1983',SPHEROID['GRS_1980',6378137.0,298.257222101]],PRIMEM['Greenwich',0.0],UNIT['Degree',0.0174532925199433]],PROJECTION['Transverse_Mercator'],PARAMETER['False_Easting',500000.0],PARAMETER['False_Northing',0.0],PARAMETER['Central_Meridian',-69.0],PARAMETER['Scale_Factor',0.9996],PARAMETER['Latitude_Of_Origin',0.0],UNIT['Meter',1.0]];-5120900 -9998100 10000;-100000 10000;-100000 10000;0.001;0.001;0.001;IsHighPrecision" 4 8_BIT_UNSIGNED NATURAL_COLOR_RGBI "Red 630 690;Green 530 570;Blue 440 510;Infrared 770 830" RemoveRastersFromMosaicDataset \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCumbCounty1ft2009 "OBJECTID >= 0" UPDATE_BOUNDARY MARK_OVERVIEW_ITEMS DELETE_OVERVIEW_IMAGES DELETE_ITEM_CACHE REMOVE_MOSAICDATASET_ITEMS UPDATE_CELL_SIZES Rename \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCumbCounty1ft2009 \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCumbCounty2009 MosaicDataset Rename \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCumbCounty2009 \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCascoBay2009 MosaicDataset AddRastersToMosaicDataset \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCascoBay2009 "Raster Dataset" \\oit-teaqfstier2.emc.state.me.us\gisdata\megis\ras\portland_09\tiles UPDATE_CELL_SIZES UPDATE_BOUNDARY UPDATE_OVERVIEWS # 0 1500 "PROJCS['NAD_1983_UTM_Zone_19N',GEOGCS['GCS_North_American_1983',DATUM['D_North_American_1983',SPHEROID['GRS_1980',6378137.0,298.257222101]],PRIMEM['Greenwich',0.0],UNIT['Degree',0.0174532925199433]],PROJECTION['Transverse_Mercator'],PARAMETER['False_Easting',500000.0],PARAMETER['False_Northing',0.0],PARAMETER['Central_Meridian',-69.0],PARAMETER['Scale_Factor',0.9996],PARAMETER['Latitude_Of_Origin',0.0],UNIT['Meter',1.0]];-5120900 -9998100 10000;-100000 10000;-100000 10000;0.001;0.001;0.001;IsHighPrecision" # SUBFOLDERS "Allow duplicates" BUILD_PYRAMIDS CALCULATE_STATISTICS NO_THUMBNAILS # NO_FORCE_SPATIAL_REFERENCE ESTIMATE_STATISTICS # AnalyzeMosaicDataset \\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb\orthoRegionalCascoBay2009 # FOOTPRINT;FUNCTION;RASTER;PATHS;SOURCE_VALIDITY;STALE;PYRAMIDS;STATISTICS;PERFORMANCE;INFORMATION orthoRegionalMidcoast2009 file://\\stgisdataprd001.file.core.windows.net\gisprd1gisdata\svcFgdb\megis\orthoRegional.gdb Local Area Network 377997.000000 441003.000000 4798497.000000 4873503.000000 1 Projected GCS_North_American_1983 Linear Unit: Meter (1.000000) NAD_1983_UTM_Zone_19N <ProjectedCoordinateSystem xsi:type='typens:ProjectedCoordinateSystem' xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance' xmlns:xs='http://www.w3.org/2001/XMLSchema' xmlns:typens='http://www.esri.com/schemas/ArcGIS/2.6.0'><WKT>PROJCS[&quot;NAD_1983_UTM_Zone_19N&quot;,GEOGCS[&quot;GCS_North_American_1983&quot;,DATUM[&quot;D_North_American_1983&quot;,SPHEROID[&quot;GRS_1980&quot;,6378137.0,298.257222101]],PRIMEM[&quot;Greenwich&quot;,0.0],UNIT[&quot;Degree&quot;,0.0174532925199433]],PROJECTION[&quot;Transverse_Mercator&quot;],PARAMETER[&quot;False_Easting&quot;,500000.0],PARAMETER[&quot;False_Northing&quot;,0.0],PARAMETER[&quot;Central_Meridian&quot;,-69.0],PARAMETER[&quot;Scale_Factor&quot;,0.9996],PARAMETER[&quot;Latitude_Of_Origin&quot;,0.0],UNIT[&quot;Meter&quot;,1.0],AUTHORITY[&quot;EPSG&quot;,26919]]</WKT><XOrigin>-5120900</XOrigin><YOrigin>-9998100</YOrigin><XYScale>450445547.3910538</XYScale><ZOrigin>-100000</ZOrigin><ZScale>10000</ZScale><MOrigin>-100000</MOrigin><MScale>10000</MScale><XYTolerance>0.001</XYTolerance><ZTolerance>0.001</ZTolerance><MTolerance>0.001</MTolerance><HighPrecision>true</HighPrecision><WKID>26919</WKID><LatestWKID>26919</LatestWKID></ProjectedCoordinateSystem> 8 FALSE None 4 AMD TRUE continuous unsigned integer 255 4100 15000 1000 20 2048 20 87 0.01 10 600 300 Basic 1 NorthWest,Center,ByAttribute,Nadir,Viewpoint,None LZ77,None,JPEG,LERC None None,Basic,Base-Top Height,Top-Top Shadow Height,Base-Top Shadow Height,3D -1 -1 0.8 1 NorthWest,Center,LockRaster,ByAttribute,Nadir,Viewpoint,Seamline,None None,JPEG,LZ77,LERC None,Basic,Full NaturalColorRGBI Name,MinPS,MaxPS,LowPS,HighPS,Tag,GroupName,ProductName,CenterX,CenterY,ZOrder,Shape_Length,Shape_Area,DateBegin,DateEnd,DateIntBegin,DateIntEnd 43388.7681803819 21869.9999999999 0.3 437.399999999999 43388.871750625 0 DateEnd DateBegin 1 1 -1 -1 0 0 MinPS 0 Processed 20200828 08402600 20200828 8444400 150000000 5000 U.S. Geological Survey 1-800-252-4547 1-605-594-6933 1-605-594-6589 Customer Services U.S. Geological Survey EROS Data Center 47914 252nd Street Sioux Falls SD 57198-0001 US custserv@usgs.gov Monday through Friday 8:00 AM to 4:00 PM (Central Time) The above is the contact information for EROS Data Center in Sioux Falls, SD. This is the digital data storage and distribution center for the USGS. Metadata information can also be obtained through online services using The National Map Viewer, at http:/nationalmap.usgs.gov or EarthExplorer, at http://earthexplorer.usgs.gov. 20200828 ArcGIS Metadata 1.0 Maine Office of GIS GIS Coordinator 207-624-7700 207-287-3842 State House Station #174 Augusta Maine 04333 US None http://www.maine.gov/geolib/wms.htm GIS Service orthoRegionalMidcoast2009 U.S. Geological Survey U.S. Geological Survey Sioux Falls, SD remote-sensing image <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This data set consists of 0.3-meter pixel resolution (approximately 1-foot), natural color orthoimages covering the urban area footprint. An orthoimage is remotely sensed image data in which displacement of features in the image caused by terrain relief and sensor orientation have been mathematically removed. Orthoimagery combines the image characteristics of a photograph with the geometric qualities of a map. The design accuracy is estimated not to exceed 3-meter diagonal RMSE (2.12m RMSE in X or Y). Each orthoimage provides imagery over a 1500-meter by 1500-meter block on the ground. There is no image overlap between adjacent files. The projected coordinate system is UTM with a NAD83 datum. The naming convention is based on the U. S. National Grid (USNG), taking the coordinates of the SW corner of the orthoimage. Task Order Number G09PD01896. USGS Contract Number 07CRCN0014. Nominal Acquisition Altitude (AGL) was 9600'. The geoid used to reduce satellite derived elevations to orthometric heights was Geoid 03. GPS coordinates are referenced to NAD83 Universal Transverse Mercator Zone 19. The maximum differential baseline length is 69373.00 meters. The mean baseline length is 25668.18 meters. Camera sensors calibration reports are included in the project report. Calibration flights are flown regularly.</SPAN></P></DIV></DIV></DIV> This data depicts geographic features on the surface of the earth. It was created to provide easily accessible geospatial data which is readily available to enhance the capability of Federal, State, and local emergency responders, as well as plan for homeland security efforts. This data also supports The National Map. Photo Science, Inc. in combination with JWSewall. Maine Office of GIS GIS Coordinator 207-624-7700 207-287-3842 State House Station #174 Augusta Maine 04333 US U.S. Department of Commerce, 1995, Countries, dependencies, areas of special sovereignty, and their principal administrative divisions, Federal Information Processing Standard (FIPS) 10-4): Washington, D.C., National Institute of Standards and Technology. US U.S. Department of Commerce, 1987, Codes for the Identification of the States, the District of Columbia and the outlying areas of the United States, and associated areas (Federal Information Processing Standard (FIPS) 5-2): Washington, D.C., National Institute of Standards and Technology. ME Portland, ME 0.3 meter orthoimage rectified photograph rectified image orthophoto natural color orthophoto orthoimage image map imageryBaseMapsEarthCover ortho orthoimagery orthophotograraphy 2009 Maine MaineGeoLibrary <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>None. However, users should be aware that temporal changes may have occurred since this data set was collected and that some parts of this data may no longer represent actual surface conditions. Users should not use this data for critical applications without a full awareness of it's limitations. Acknowledgment of the U.S. Geological Survey would be appreciated for products derived from these data.</SPAN></P></DIV></DIV></DIV> Users must assume responsibility to determine the usability of this data for their purposes. Intergraph OrthoPro; MicroStation v7; ArcGIS 9.3; Windows XP true -70.518700 -69.731254 44.012279 43.236334 ground condition 2009-11-08 2009-11-17 1 -70.521835 -69.727804 44.012307 43.329421 All GeoTIFF tagged data and image file sizes are validated using commercial GIS software to ensure proper loading before being archived. This validation procedure ensures correct physical format and field values for tagged elements. Seamlines and tile edges are visually inspected. Seamline mismatches are not corrected unless the overall displacement exceeds one meter. Orthoimages are visually inspected for completeness to ensure that no gaps or image misplacements exist within and between adjacent images. These images are derived by mosaicking multiple images to ensure complete coverage. Source imagery is cloud free. Photography was flown during leaf-off in deciduous vegetation regions. Coastal areas and international boundary regions may have areas without images (void areas) in parts of the coverage. These void areas have a radiometric value of either zero (black) or 128 (uniform gray). Ground Control Points of known and visible points were collected and measured. Radial RMSE 1.67 Digital Elevation Models (DEMs) used were National Elevation Dataset (NEDs). The DEMs are used as-is and were not modified. 10 meter point spacing Remotely sensed imagery Aerial Photography AIRPHOTO JWSewall remote-sensing image ground condition 2009-11-08 2009-11-17 Scanned film files were orthorectified in order to create the orthophoto tiles. Scanned Imagery SCANS JWSewall raster digital data publication date 2009-12 External Orientation data was used to rectify scanned images. External Orientation EO JWSewall document publication date 2009-12 Ground control points were used to test accuracy of orthoimagery Ground Control Points GCP JWSewall ground condition 2009-12 AIRPHOTOs were scanned to create SCANS. SCANS were orthorectified with EO data in order to create rectified frames. Seamlines were manually drawn to combine rectified frames for final mosaic tiles. GCP were used to check the tiles RMSE. 2009-12 Natural color orthoimagery is organized in three color bands or channels which represent the red, green, and blue (RGB) portions of the spectrum. Each image pixel is assigned a triplet of numeric values, one for each color band. Numeric values range from 0 to 255. Areas where data is incomplete due to lack of full image coverage are represented with the numeric value of 0. U.S. Department of the Interior, U.S. Geological Survey, 1996, Standards for Digital Orthophotos: Reston, VA. EPSG 6.13(3.0.1) 2 1 0 377997.000000 4798497.000000 377997.000000 4873503.000000 441003.000000 4873503.000000 441003.000000 4798497.000000 409500.000000 4836000.000000 210020 0.300000 250020 0.300000 Red 255.000000 0.000000 8 Green 255.000000 0.000000 8 Blue 255.000000 0.000000 8 Infrared 8