USDA-FSA Aerial Photography Field Office 20120724 Salt Lake City, Utah USDA FSA Aerial Photography Field Office This data set contains imagery from the National Agriculture Imagery Program (NAIP). The NAIP acquires 4-band digital ortho imagery from airbourne and/or space based platforms during the agricultural growing seasons in the U.S.. A primary goal of the NAIP program is to enable availability of ortho imagery within sixty days of acquisition. The NAIP provides 1 meter GSD ortho imagery rectified within +/- 6 meters to true ground at a 95% confidence level. The tiling format of NAIP imagery is based on a 3.75' x 3.75' quarter quadrangle with a 300 (plus or minus 30) pixel buffer on all four sides. The NAIP imagery is formatted to the UTM coordinate system using the North American Datum of 1983 (NAD83). The NAIP imagery may contain as much as 10% cloud cover per tile. This file was generated by compressing NAIP imagery that cover the county extent. Two types of compression may be used for NAIP imagery: MrSID and JPEG 2000. Target value for the compression ratio for 1 meter GSD is (15:1). The NAIP imagery is available for distribution within 60 days of the end of a flying season and is intended to provide current information of agricultural conditions in support of USDA farm programs. For USDA Farm Service Agency, the 1 meter GSD product provides an ortho image base for Common Land Unit boundaries and other data sets. The NAIP imagery is generally acquired in projects covering full states in cooperation with state government and other federal agencies who use the imagery for a variety of purposes including land use planning and natural resource assessment. The NAIP is also often used for disaster response. 2012 Photography Source Image Dates. Complete Irregular -124.473985 -123.362920 41.511253 39.988815 None farming Digital Ortho rectified Image Mosaic Quarter Quadrangle Centered Ortho Rectification Compression MrSID JPEG 2000 NAIP Compliance Aerial Compliance Geographic Names Information System CA Humboldt Humboldt CO CA FSA 06023 None None. The USDA-FSA Aerial Photography Field Office asks to be credited in derived products. USDA-FSA Aerial Photography Field Office mailing and physical address

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Salt Lake City Utah 84119-2020 USA 801-844-2922 801-956-3653 withheld None None Lizardtech Geoexpress 8.0 NAIP 3.75 minute tile file names are based on the USGS quadrangle naming convention. None Compiled to meet 6 meters horizontal accuracy at 95 percent confidence level. N/A 2d only USDA-FSA Aerial Photography Field Office 20120724 12000 External media types 2012 Majority Aerial Photography Date MrSID compressed image Mosaicked County Image Digital imagery was collected at a nominal GSD of 1.0m using seven Cessna 441 aircrafts flying at an average flight height of 9052m AGL. All aircraft flew with Leica Geosystem's ADS80/SH82 digital sensors with firmware 3.20 or newer. Each sensor collected 11 image bands. PanF27A,PanF02A and PanB14A panchromatic bands with a spectral range of 465-676nm. RedN00a and RedB16a with a spectral range of 604-664nm. GrnN00a and GrnB16a with a spectral range of 533-587nm. BluN00a and BluB16a with a spectral range of 420-492nm and Near-infrared bands NirN00a and NirB16a with a spectral range of 833-920nm. The CCD arrays have a pixel size of 6.5 microns in a 12000x1 format. Both the CCD's and the A/D convertors have a dynamic range of 12bits. The data is stored in 16bit format. The ADS is a push-broom sensor and the ground footprint of the imagery at NAIP scale is 12km wide by the length flightline. The maximum flightline length is limited to approximately 240km. The factory calibrations and IMU alignments for each sensor (Serial Numbers: 1321, 30011, 30012, 30014, 30017, 30022, 30034, and 30103) were tested and verified by in-situ test flights before the start of the project. The Leica ADS Flight Planning and Evaluation Software (FPES) is used to develop the flight acquisition plans. Flight acquisition sub blocks are designed first to define the GNSS base station logistics, and to break the project up into manageable acquisition units. The flight acquisition sub blocks are designed based on the specified acquisition season, native UTM zone of the DOQQs, flight line length limitations (to ensure sufficient performance of the IMU solution) as well as air traffic restrictions in the area. Once the sub blocks have been delineated they are brought into FPES for flight line design. The design parameters used in FPES will be 30% lateral overlap and 1.0m resolution. The flight lines have been designed with a north/south orientation. The design takes into account the latitude of the state, which affects line spacing due to convergence as well as the terrain. SRTM elevation data is used in the FPES design to ensure the 1m GSD is achieved over all types of terrain. The raw data was downloaded from the sensors after each flight using Leica XPro software. The imagery was then georeferenced using the 200Hz GPS/INS data creating an exterior orientation for each scan line (x/y/z/o/p/k). Technicians precisely measured tie points in 3 bands/looks (Back/Nadir/Forward) for each line using Leica Xpro software. The resulting point data and exterior orientation data were used to perform a full bundle adjustment with ORIMA software. Blunders were removed, and additional tie points measured in weak areas to ensure a robust solution. Once the point data was clean and point coverage was acceptable, photo-identifiable GPS-surveyed ground control points were introduced into the block adjustment. The bundle adjustment process produces revised exterior orientation data for the sensor with GPS/INS, datum, and sensor calibration errors modeled and removed. Using the revised exterior orientation from the bundle adjustment, orthorectified image strips were created with Xpro software and the April 2012 USGS 10m NED DEM. The Xpro orthorectification software applies an atmospheric-BRDF radiometric correction to the imagery. This correction compensates for atmospheric absorption, solar illumination angle and bi-directional reflectance. The orthorectified strips were then overlaid with each other and the ground control to check accuracy. Once the accuracy of the orthorectified image strips were validated the strips were then imported into Inpho's OrthoVista 4.6 package which was used for the final radiometric balance, mosaic, and DOQQ sheet creation. The final DOQQ sheets, with a 300m buffer and a ground pixel resolution of 1m were then combined and compressed to create the county wide CCMs. 20120724 Humboldt, CA Raster Pixel Universal Transverse Mercator 10 0.9996 -123 0.0 500000 0.0 row and column 1 1 meters North American Datum of 1983 Geodetic Reference System 80 6378137 298.257 8-bit pixels per band, 3 band RGB represent brightness values 0 - 255 None Supervisor Customer Service Section USDA-FSA Aerial Photography Field Office mailing and physical address

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Salt Lake City Utah 84119-2020 USA 801-844-2922 801-956-3653 Mosaicked County Image for Humboldt, CA In no event shall the creators, custodians, or distributors of this information be liable for any damages arising out of its use (or the inability to use it). Compressed County Mosaic Natural Color withheld CD-ROM ISO 9660 DVD-R ISO 9660 USB/Firewire/SATA External Hard Drive NTFS Contact the USDA-FSA Aerial Photography Field Office for more information. 20120724 USDA-FSA Aerial Photography Field Office mailing and physical address

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Salt Lake City Utah 84119-2020 USA 801-844-2922 Content Standard for Digital Geospatial Metadata FGDC-STD-001-1998 20241105 18334700 TRUE