Aerial imagery collected at 7.5cm resolution in urban areas in Larimer County, CO and delivered as a True Ortho product, meaning no visible seamlines or parallax (building lean).Vexcel's urban collection program uses award-winning UltraCam sensors to capture aerial imagery at the highest quality and consistency available. Imagery is matched against ground control points for enhanced accuracy. Up to 900 cities in the contiguous U.S. are captured on a regular basis, such as Los Angeles, New York City, Miami, Chicago, San Francisco, Boston, Seattle, Denver, Washington D.C., Salt Lake City, Phoenix, Dallas, Houston, Minneapolis, Philadelphia, Portland, San Antonio, San Diego, Indianapolis, Nashville, Las Vegas.Vexcel combines its vertical imagery with Digital Surface Model data for a more accurate, orthomosaic view of metro areas.

This imagery basemap uses content provided by Vexcel. This content is a licensed product of Vexcel Imaging, and available to Vexcel Data Program. Use is limited to your licensed content and Vexcel's EULA (https://vexceldata.com/eula/) or a separate specific agreement.Aerial imagery at 7.5cm resolution in urban areas in the contiguous U.S. and delivered as an Urban Ortho product for the City of New Orleans, LA.Vexcel's urban refresh collection program uses award-winning UltraCam sensors to capture aerial imagery at the highest quality and consistency available. Imagery is matched against ground control points for enhanced accuracy.More imagery in more places, more often. Our Urban Ortho product line provides extra collections and visualization throughout the year in major metro areas in the Lower 48 states, covering more than 800,000 km2. Together with our other ortho collections, it provides the largest annual program of high-resolution aerial imagery available in the United States

BY USING THIS WEBSITE OR THE CONTENT THEREIN, YOU AGREE TO THE TERMS OF USE. Oakland County is included in the Southeast Michigan Regional Orthoimagery project encompassing approximately 3613 square miles of the Detroit metropolitan area and surrounding counties. Aerial imagery was collected using an Vexcel Ultracam digital sensor. The orthoimages are composed of 4-bands (RGB and near-infrared) and are tiled to a 1500 meter x 1500 meter grid. The orthoimagery is true color with a resolution of 0.3-meter per pixel. Orthoimagery tiles were delivered in Tiff format. A total of 1170 tiles that overlap Oakland County were adjusted by USGS to mimic State Plane (2113) International Feet using a custom Python Script. The adjustment was done tile-by-tile, so some 'no data' areas exist at the edges of the tiles. All imagery was taken in the spring of 2008.

BY USING THIS WEBSITE OR THE CONTENT THEREIN, YOU AGREE TO THE TERMS OF USE. Under contract with the State of Michigan, Vexcel was contracted to produce and deliver natural Color (RGB) orthophotos for numerous areas of interest in support of Michigan's Statewide Partnership Program. Areas of interest were defined by the State. All aerial imagery was acquired using ADS direct digital sensors at an altitude sufficient for the production of digital orthophotos with a 1.0-foot or .5-foot pixel resolution as requested. Following acquisition of imagery data, survey ground control coordinates were used in-conjunction with Airborne GPS and Inertial Measurement Unit (IMU) information to establish precise spatial positioning of the image data through the process of Analytical Aero-Triangulation (AT). Upon completion of AT, the imagery was rectified to the best available digital elevation model (DEM), whether from the USGS, other high quality DEM provided by the participating government in GeoTIFF or other compatible format, or new ADS stereo imagery compiled and edited surface model using Pictovera software. The resultant rectified imagery was analyzed and radiometrically adjusted to provide the state with optimal color and tonal appearance. Manually-placed seamlines were generated to mosaic imagery from adjacent flightlines. Following mosaicking and color-balancing, multiple QA/QC processes were performed to insure optimal data quality was achieved prior to tiling the data to 5,000 by 5,000 pixel extents. All ortho tiles were clipped to an AOI shapefile (buffered to 400-meters) boundaries, as supplied by the State of Michigan. Final ortho tiles were delivered in the requested projection/units and in GeoTIFF format.

This imagery was acquired by Vexcel Imaging in support of NICB.This product is a preliminary set of ortho images (approximately 3" resolution) created from imagery acquired on 9/12/2017The flying and pre-processing was performed by Sanborn using a Vexcel Imaging UltraCam Eagle. Orthophotos are being generated from best available orientation and digital terrain models to ensure data is available as fast as possible to the organizations that need the data quickly. This tile cache version represents a snapshot of the imagery created on September 17th. This is 2nd version of these with new image added on North side. Very limited color correction or seam-line mosaicking has been applied. It should be noted that much of the flying was done under adverse weather conditions, resulting in some limited image quality and many clouds. The full resolution data (3”) that is orthorectified on the fly to provide full details and improved interpretation as well as oblique imagery is available to organizations involved Hurricane Harvey response. For more details see http://geointel.org/.

The source imagery was acquired from 20190413 - 20191208 using two camera systems: Vexcel UltraCam Falcon M2 and Vexcel UltraCam LP. The original images were acquired at a 25cm Ground Sample Distance to support the final ortho-rectified mosaic.

This data set is 3672 ortho-rectified mosaic tiles, created as a product from the NOAA Integrated Ocean and Coastal Mapping (IOCM) initiative. The source imagery was acquired from February through November 2019 using three camera systems: Vexcel UltraCam Falcon Prime, Vexcel UltraCam LP, and Phase One iXU-RS 1000. The original images were acquired at a 25cm Ground Sample Distance to support t...

This imagery was acquired by Vexcel Imaging in support of NICB.This product is a preliminary set of ortho images (approximately 3" resolution) created from imagery acquired on 9/12/2017The flying and pre-processing was performed by Sanborn using a Vexcel Imaging UltraCam Eagle. Orthophotos are being generated from best available orientation and digital terrain models to ensure data is available as fast as possible to the organizations that need the data quickly. This tile cache version represents a snapshot of the imagery created on September 14th. Very limited color correction or seam-line mosaicking has been applied. It should be noted that much of the flying was done under adverse weather conditions, resulting in some limited image quality. The full resolution data (3”) that is orthorectified on the fly to provide full details and improved interpretation as well as oblique imagery is available to organizations involved Hurricane Harvey response. For more details see http://geointel.org/.

The imagery products described in this metadata record are not open data. By accepting the End-User Licence, you agree to become a licensee bound by the licence’s terms and conditions (please read the custom licence). - IMPORTANT UPDATE - The all new LIO Imagery Orders Web App is now here! Generate your DRAPE2019-2020 Ortho Tile or Stereo Frame lists using the app. For more information and to order imagery products please refer to the How to Order Imagery Guide and the Imagery Order Form.

Land Information Ontario coordinates public and private sector organizations to collect high resolution aerial imagery for Ontario through a partnership funding model. This aerial project is part of a five-year plan (2018-2022) to acquire 16 cm resolution, leaf-off imagery across the province.

Digital Raster Acquisition Project Eastern Ontario (DRAPE) was acquired in the spring of 2019/2020 under the best conditions possible to achieve cloud free, snow free, ice free, smoke free, and leaf off captures. The orthophotography has a pixel resolution of 16cm and is accurate to 45 centimetres on the ground at 95%. The imagery was acquired by an Vexcel UltraCam X and Vexcel UltraCamEagle digital cameras and was later orthorectified using an elevation dataset generated through image correlation.

Time of Capture: April 25th, 2019 to May 22nd, 2020 Coverage: 36,103 sq km Canopy Coverage: Leaf-Off (various stages of Leaf-On in some areas)

Available ProductsOrthorectified Tiles - 1km x 1km, Pansharpened, 16cm resolution, 8-bit, RGBNiR in .TIF format (150MB/tile) and a compressed tiled .TIF format (approx. 10MB/tile)Digital Raster Acqusition Project Eastern Ontario (DRAPE) 2019 - 1km Index (Shapefile) Stereo data - Vexcel UltraCam X and Vexcel UltraCamEagle frame based - 12 cm resolution, 16 bit, RGBNiR (sizes vary, please see index)

Digital Raster Acquisition Project Eastern Ontario (DRAPE) 2019 - Stereo Frame Index (Shapefile)

Additional ResourcesSample DRAPE 2019-2020 Imagery in uncompressed .TIFF formatImagery Order Form (.docx)Ontario Digital Imagery Licence (PDF)Imagery User Guide (.docx)

Status

Completed: Production of the data has been completed

Maintenance and Update Frequency

Not planned: There are no plans to update the data

Contact

Ontario Ministry of Natural Resources and Forestry - Spatial Data Support Unit, imageryorders@ontario.ca

Loudoun County annually obtains leaf-off, aerial imagery in the spring. Since 2004, the County has utilized this imagery to support the development of an annual digital orthophoto base. In 2022, the imagery was captured with a Vexcel Ultracam Eagle digital camera, in 4-band (R,G,B, and NIR) format. These files contain 1-foot ground-resolution, 8-bit, 4-band orthorectified aerial image map products in GeoTIFF version 6.0 file format. GeoTIFF files are uncompressed raster images complete with TFW coordinate information. The aerial imagery project encompasses the entire land area of the County of Loudoun, VA. Images were flown during leaf-off conditions and cover 5000' by 5000' and are tiled according to the VBMP 200-scale gridding schema (Virginia Geographic Information Network)."February 2022 Photography flown by the Sanborn Map Company, Colorado Springs, CO." "Digital Orthophotography compiled by Sanborn Map Company, Colorado Springs, CO"

Tile cache of Impervious Surface data for Massachusetts from 2005.The Impervious Surface raster layer represents impervious surfaces covering the Commonwealth of Massachusetts. The surfaces were extracted using semi-automated techniques by Sanborn Map Company from 50-cm Vexcel UltraCam near infrared orthoimagery that was acquired in April 2005 as part of the Color Ortho Imagery project. The pixel size for the impervious surface data is 1-meter.Impervious surfaces are defined as: All constructed surfaces such as buildings, roads, parking lots, brick, asphalt, concrete.Also included are areas of man-made compacted soil or material such as mining or unpaved

parking lots (no vegetation present) Non-impervious surfaces can be defined as: All vegetated areas, natural and man-madeWater bodies and wetland areaSki runsNatural occurring barren areas (i.e. rocky

shores, sand, bare soil)See the full metadata.