EarthData International 20040428 remote-sensing image SDECREATOR.DOQQ2004_NATURAL_COLOR Reston, VA 22092 USGS withheld 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. This task consists of two components, digital image acquisition and digital orthophoto production, covering the Southwest Florida Water Management District in Florida. The Southwest Florida Water Management District (SWFWMD) project area is comprised of approximately 10,589 square miles. Aerial imagery was collected in panchromatic, Red, Green, Blue and Near Infrared which yielded a natural color and false color infrared version of the completed digital orthophotography. Imagery was collected at an approximate altitude of 23,600 feet above mean terrain. The ADS40 digital camera system used in this project incorporates the latest in sensor technology, optics, electronics, data transfer, and storage. The ADS40 imagery is generated from seven parallel sensor lines in the focal plane of a single lens system, three panchromatic (forward, nadir, backward), red, green, and blue lines placed next to each other, and one infrared. Each panchromatic channel consists of two lines, each with 12,000 pixels, staggered (shifted with respect to each other) by 0.5 pixels. The viewing angles and characteristics of the sensor are as follows - Focal length 62.5mm Pixel size 6.5mm PAN 2 arrays 12,000 pixels each R,G,B and NIR,R,G 12,000 pixels Forward to nadir stereo angle 28.3 degrees Backward to nadir stereo angle -14.1 degrees Near infrared to nadir stereo angle -2.05 degrees Dynamic Range of CCD - 12-bits for all arrays All ADS40 camera systems used for this project were equipped with the narrow angle infrared configuration that facilitates production of a natural color and false color infrared composite. For this dataset, the natural color and color infrared orthoimages were produced at 1.0-meter pixel resolution. The accuracy has been designed to meet NMAS for 1:12,000 maps. Each digital orthorectified quarter quad provides imagery for a nominal 3.75 by 3.75 minute area corresponding to the USGS quarter quad boundaries. The projected coordinate system is UTM with a NAD83 datum. The naming convention is based on the state of Florida DOQQ naming convention. Deliverables include - 24-Bit (8-bit) Natural Color in GeoTIFF format 24-Bit (8-bit) False Color Infrared in GeoTIFF format 48-Bit (16-bit) Natural Color in GeoTIFF format 48-Bit (16-bit) False Color Infrared in GeoTIFF format These data have been created as a result of the need for having geospatial data immediately available and easily accessible in order to enhance the capability of the USGS and the Southwest Florida Water Management District (SWFWMD). en 2004 ground condition In-Complete Annually -82.908263 -81.431869 29.573913 26.740054 315130.000000 457058.000000 2958994.000000 3271655.000000 none rectified imagery orthophoto Digital Orthophoto Quarter Quad (DOQQ) Natural Color DOQQ None Southwest Florida Water Management District SWFWMD ArcIMS Metadata Server Theme Codes imageryBaseMapsEarthCover None None ESRI ArcCatalog 8.3.0.800 Southwest Florida Water Management District Mapping and GIS Section mailing and physical address Brooksville FL 34604-6899

2379 Broad Street (U.S. 41 South)

(352) 796-7211 (352) 540-6018 8:00 am - 5:00 pm The digital imagery for each acquisition sortie is differentially rectified to produce orthophotography for the Red, Green, and Blue and near infrared channels at a resolution of 1.0-meter per pixel. As a part of the ISTAR workflow, the data from the color channels is edge sharpened using the nadir panchromatic channel. The orthophoto mosaics are inspected for accuracy issues that fall in the following categories - Aerotriangulation related DSM related Accuracy issues will be investigated through review an correction of the DSM or triangulation adjustment. Once the imagery has passed quality control review, final radiometric adjustments are performed to create a uniform overall appearance. Compliance with the accuracy standard was ensured by the placement of photo identifiable ground control points and the collection of airborne GPS data. Using several tools that are part of the ISTAR workflow, the existing digital elevation model data from the USGS archive was ingested into the ISTAR workflow for use in the differential rectification of the updated DOQQs. The ISTAR correlation algorithm computes the X,Y,Z value for each DSM post utilizing every stereo angle that is available. A series of DSM files were created for each acquisition block, one for each stereo look angle. A mosaic was then created from the separate DSM files where the best vertical value for each posting was selected from all look angles compared against the aerotriangulation adjustment which is incorporated into the mosaic. EarthData then edited the surface to the level required to support the orthophoto production. An RMS value was calculated based on the imagery utilized in the production of the tile by comparing the AT X and Y coordinates. This value represents an estimate of the accuracy of the horizontal coordinate measurements in the tile expressed in meters. The Highlands Ridge area is being re-flown. It is not found in this dataset. Compliance with the accuracy standard was ensured by the placement of photo identifiable ground control points and the collection of airborne GPS data. The horizontal accuracy of the orthorectified images is mainly determined by the accuracy of the aerotriangulation and digital surface model (DSM). For each rectified image (lift), an RMSE value for all of the standard errors of the tie/pass/control points located in that image (lift) and computed by the aerotriangulation solution was calculated. The DSM accuracy assessment was achieved by comparing the aerotriangulation-derived elevation with the elevation of the DSM. In addition, visual examination was employed to assess all tiles and its relative edge match. All results were examined for consistency and its compliance with the NMAS accuracy standard. 0.364219 The horizontal accuracy of the orthorectified images is mainly determined by the accuracy of the aerotriangulation and digital surface model (DSM). For each rectified image (lift), an RMSE value for all of the standard errors of the tie/pass/control points located in that image (lift) and computed by the aerotriangulation solution was calculated. The DSM accuracy assessment was achieved by comparing the aerotriangulation-derived elevation with the elevation of the DSM. In addition, visual examination was employed to assess all tiles and its relative edge match. All results were examined for consistency and its compliance with the NSSDA accuracy standard. EarthData International of Maryland, LLC 2004 1:115,385 digital tape media 20040416 ground condition imagery1 Digital source imagery for tile production EarthData International of Maryland, LLC 2004 1:115,385 digital 20040428 ground condition imagery2 Digital source imagery for tile production U.S. Geological Survey 2004 digital tape media 20040930 Publication date Digital Surface Model Used to provide ground elevations for the orthorectification process. N/A 3001, Inc. 2004 digital 20040428 publication date GPS ground control The control provides a means for referencing the project source imagery to a geodetic reference frame. N/A Source Imagery - ADS40 Digital Camera Imagery. Control - Airborne GPS/IMU supplemented with photo identifiable field control Aerotriangulation - ISTAR software package Elevation Model - ISTAR software package Radiometric Balancing - ISTAR software package and COTS Software (PhotoShop). Orthorectification - ISTAR software package. Mosaic - ISTAR software package and Z/I Imaging OrthoPro software package. The following section describes the ISTAR digital image production sequence. This is a mature, stable workflow and incorporates all production components into an integrated series of tools to accomplish photogrammetric mensuration, aerotriangulation, elevation model development, ortho production and finishing. Production processes are fully documented in accordance with ISO9001 mandates. The following is a step-by-step description of the ISTAR workflow to develop digital orthophoto quarter quads to support the Florida DOQQ update program: Step 1 The unprocessed ADS40 data and accompanying GPS and IMU data for one or more sorties was downloaded from the portable hard disks and checked to verify that no files were corrupted and that all data could be downloaded. Digital aerial imagery that was used for this project includes the Red, Green, Blue, Near Infrared channels as well as the S1 pan, S2 pan and nadir green channels. Sample segments of the imagery were inspected in an uncorrected state to verify the integrity of each data sortie. Step 2 The GPS/IMU parameters for each sortie were optimized using the ground control points and the error calibration map. The horizontal and vertical positions of all ground control points in the block were observed in each channel (R,G,B, IR, R, G, S1 Pan, S2 Pan). Step 3 Aerotriangulation was accomplished using the CLB tool that is a component of the ISTAR process. The ground control, GPS and IMU information were ingested and tie points between strips were identified. Normally, only 3 tie points are needed between adjacent flight lines. Step 4 CLB produces a bundle adjustment for each data sortie. The results of the adjustment were verified through the development of a sub-sampled panchromatic mosaic for the data sortie. The mosaic was corrected using the aerotriangulation points only. This mosaic was inspected by the photogrammetric technician to identify any gross errors in the adjustment as well as the identification of any voids or image quality problems. Step 5 The existing digital elevation model data from the USGS archive was used to create the updated DOQQ map tiles. The data was inventoried and ingested into the ISTAR workflow for use in the differential rectification of the updated DOQQs. Step 6 The digital imagery for each acquisition sortie was differentially rectified to produce digital orthophoto mosaics in natural color and false color infrared renditions at a resolution of 1-meter per pixel. The orthophoto mosaics were inspected for accuracy issues that fall in the following categories: Aerotriangulation related DSM related Accuracy issues were investigated through review and correction of the DEM or triangulation adjustment. Once the imagery passed quality control review, final radiometric adjustments were performed to create a uniform overall appearance. The final DOQQ tiles were organized for nominal 3.75 by 3.75 minute areas corresponding to the USGS quarter quad boundaries and were clipped out with the specified overage of a minimum of 30 meters beyond the quarter quad boundaries. Imagery was output in GeoTIFF format in the following renditions: 24-bit natural color 24-bit false color infrared 48-bit natural color 48-bit false color infrared 1. 8-bit natural color and color infrared DOQQs are being delivered as 24-bit GeoTIFF images. Each image was radiometrically balanced to adjacent DOQQs to the highest extent practically achievable given image collection conditions. The data is being delivered as two separate three-band images (Natural Color - Blue, Green, Red; Color Infrared - Green, Red, Near Infrared). 2. 16-bit color natural color and color infrared DOQQs are being delivered as 48-bit GeoTIFF images. The data is being delivered as two separate three-band images (Natural Color - Blue, Green, Red; Color Infrared - Green, Red, Near Infrared). This product is being delivered to support scientific analysis, therefore post processing will be limited to atmospheric modeling and CCD electronic normalization. GeoTIFF files will include the following GeoTIFF tags and keys - Model Tiepoint Tag Model Pixel Scale Tag GT Model Type Geo Key GT Raster Type Geo Key Projected CST Type Geo Key PCS Citation Geo Key Proj Linear Units Geo Key Step 7 The completed digital orthophotos were checked for image quality. Minor artifacts were corrected using Adobe Photoshop in an interactive editing session. Digital files were assigned final names in accordance with the state of Florida DOQQ naming convention. Step 8 Project level and file level metadata describing the orthophoto production process was developed to support the task. File level metadata is being delivered in xml format. 20040930 withheld withheld withheld EarthData International mailing and physical address Frederick MD 21704

7320 Executive Way

(301) 963-2064 (301) 948-8550 Microsoft Windows 2000 Version 5.0 (Build 2195) Service Pack 4; ESRI ArcCatalog 8.3.0.800 withheld mailing and physical address

2379 Broad Street (U.S. 41 South)

Brooksville FL 34604-6899 (352) 796-7211 (352) 540-6018 8:00 am - 5:00 pm Southwest Florida Water Management District Mapping and GIS Section Microsoft Windows 2000 Version 5.0 (Build 2195) Service Pack 4; ESRI ArcCatalog 8.3.0.800 An image catalog consisting of all of the 24 bit (8 bit) natural color geotiffs was created. In ArcMap, the image catalog was scanned for any inconsistencies or incomplete areas. These areas were sent back to EarthData for re-imaging. Once the QC process was done, the individual geotiffs were loaded into a single raster mosaic in the District's enterprise SDE using ArcCatalog. The tile size is 128 with a 50% JPEG compression. Pyramids were built after all of the geotiffs were loaded. Statistics was not done. 20041227 row and column 1.000000 1.000000 meters North American Datum of 1983 Geodetic Reference System 80 6378137.000000 298.257222 GCS_North_American_1983 NAD_1983_UTM_Zone_17N 20050223 Southwest Florida Water Management District Mapping and GIS Section mailing and physical address

2379 Broad Street (U.S. 41 South)

Brooksville FL 34604-6899 (352) 796-7211 (352) 540-6018 8:00 am - 5:00 pm FGDC Content Standards for Digital Geospatial Metadata FGDC-STD-001-1998 en local time 20200130 14363000 20050223 14395200 FALSE 20200130 14363000 {D0CACD64-2B5A-4AB7-95FF-09BD3A14ECF0} Aerials2004 372801.762603 495550.859689 1173647.861990 1424946.569436 1 Projected GCS_North_American_1983 Linear Unit: Foot_US (0.304801) NAD_1983_StatePlane_Florida_West_FIPS_0902_Feet <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/10.6'><WKT>PROJCS[&quot;NAD_1983_StatePlane_Florida_West_FIPS_0902_Feet&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;,656166.6666666665],PARAMETER[&quot;False_Northing&quot;,0.0],PARAMETER[&quot;Central_Meridian&quot;,-82.0],PARAMETER[&quot;Scale_Factor&quot;,0.9999411764705882],PARAMETER[&quot;Latitude_Of_Origin&quot;,24.33333333333333],UNIT[&quot;Foot_US&quot;,0.3048006096012192],AUTHORITY[&quot;EPSG&quot;,2237]]</WKT><XOrigin>-17791300</XOrigin><YOrigin>-41645400</YOrigin><XYScale>137249422.94257641</XYScale><ZOrigin>-100000</ZOrigin><ZScale>10000</ZScale><MOrigin>-100000</MOrigin><MScale>10000</MScale><XYTolerance>0.0032808333333333331</XYTolerance><ZTolerance>0.001</ZTolerance><MTolerance>0.001</MTolerance><HighPrecision>true</HighPrecision><WKID>102659</WKID><LatestWKID>2237</LatestWKID></ProjectedCoordinateSystem> 8 FALSE None 3 AMD TRUE continuous unsigned integer 4100 15000 1000 20 2048 20 75 0.01 10 600 300 Basic 1 NorthWest,Center,LockRaster,ByAttribute,Nadir,Viewpoint,Seamline,None None,JPEG,LZ77,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 NaturalColor Name,MinPS,MaxPS,LowPS,HighPS,Tag,GroupName,ProductName,CenterX,CenterY,ZOrder,Shape_Length,Shape_Area 3.28083333333333 1062.99 53149.5 0 1 1 0 -1 0 Name 0 20200130 Version 6.2 (Build 9200) ; Esri ArcGIS 10.6.1.9328 Aerials2004 315130 457058 3271655 2958994 1 -82.908263 -81.431869 29.573913 26.740054 1 1 -82.880161 -82.495745 28.252806 27.559736 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. This task consists of two components, digital image acquisition and digital orthophoto production, covering the Southwest Florida Water Management District in Florida. The Southwest Florida Water Management District (SWFWMD) project area is comprised of approximately 10,589 square miles. Aerial imagery was collected in panchromatic, Red, Green, Blue and Near Infrared which yielded a natural color and false color infrared version of the completed digital orthophotography. Imagery was collected at an approximate altitude of 23,600 feet above mean terrain. The ADS40 digital camera system used in this project incorporates the latest in sensor technology, optics, electronics, data transfer, and storage. The ADS40 imagery is generated from seven parallel sensor lines in the focal plane of a single lens system, three panchromatic (forward, nadir, backward), red, green, and blue lines placed next to each other, and one infrared. Each panchromatic channel consists of two lines, each with 12,000 pixels, staggered (shifted with respect to each other) by 0.5 pixels. The viewing angles and characteristics of the sensor are as follows - Focal length 62.5mm Pixel size 6.5mm PAN 2 arrays 12,000 pixels each R,G,B and NIR,R,G 12,000 pixels Forward to nadir stereo angle 28.3 degrees Backward to nadir stereo angle -14.1 degrees Near infrared to nadir stereo angle -2.05 degrees Dynamic Range of CCD - 12-bits for all arrays All ADS40 camera systems used for this project were equipped with the narrow angle infrared configuration that facilitates production of a natural color and false color infrared composite. For this dataset, the natural color and color infrared orthoimages were produced at 1.0-meter pixel resolution. The accuracy has been designed to meet NMAS for 1:12,000 maps. Each digital orthorectified quarter quad provides imagery for a nominal 3.75 by 3.75 minute area corresponding to the USGS quarter quad boundaries. The projected coordinate system is UTM with a NAD83 datum. The naming convention is based on the state of Florida DOQQ naming convention. Deliverables include - 24-Bit (8-bit) Natural Color in GeoTIFF format 24-Bit (8-bit) False Color Infrared in GeoTIFF format 48-Bit (16-bit) Natural Color in GeoTIFF format 48-Bit (16-bit) False Color Infrared in GeoTIFF format Southwest Florida Water Management District SWFWMD rectified imagery orthophoto Digital Orthophoto Quarter Quad (DOQQ) Natural Color DOQQ imageryBaseMapsEarthCover These data have been created as a result of the need for having geospatial data immediately available and easily accessible in order to enhance the capability... ISO 19115 Geographic Information - Metadata DIS_ESRI1.0 dataset Raster Pixel 312661 141928 1.000000 1.000000 8 1 Upper Left FALSE JPEG 3 pixel codes TRUE SDR NAD_1983_UTM_Zone_17N EPSG 5.3(9.0.0) 2 141928 1 312661 1 1 2 1 0 372801.762603 1173647.861990 372801.762603 1424946.569436 495550.859689 1424946.569436 495550.859689 1173647.861990 434176.311146 1299297.215713 37414 3.280833 76596 3.280833 withheld Local Area Network 0.000 0.000 0.000 Downloadable Data Southwest Florida Water Management District Mapping and GIS Section mailing and physical address

2379 Broad Street (U.S. 41 South)

Brooksville FL 34604-6899 (352) 796-7211 (352) 540-6018 8:00 am - 5:00 pm The data are being provided on an 'as is' basis. The District specifically disclaims any warranty, expressed or implied, including, but not limited to, the implied warranties or merchantability and fitness for a particular use. The entire risk as to quality and performance is with the user. In no event will the District or its staff be liable for any direct, indirect, incidental, special, consequential, or other damages, including loss of profit, arising out of the use of these data even if the District has been advised of the possibility of such damages. All data are intended for resource management use. Translation of files to formats other than those described here is the sole responsibility of individuals downloading the data. 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