The Sunshine Coast Regional 3D Model was captured in 2019 through a joint project between Sunshine Coast Council and the Queensland Department of Resources. This is True Ortho Imagery from the medium resolution model at 7.5cm resolution.The coordinate system is GDA2020 MGA Zone 56 (EPSG:7856)

Aerial image (true ortho) mosaic of the City of Melbourne municipal area. The true ortho image has been corrected to provide a true ‘top down’ view of the city, removing building lean and other interference typically found in oblique aerial imagery. The aerial image was captured May 2020 and is available for download in georeferenced format (JPEG2000).

Capture Information

- Capture Date: May 2020

- Capture Pixel Size: 10cm ground sample distance

- Map Projection: MGA 2020 Zone 55

– 11 cm absolute accuracy

Limitations:

Whilst every effort is made to provide the data as accurate as possible, the content may not be free from errors, omissions or defects.

Preview Image:

See an example image showing the data quality of the aerial:

Download:

Download the aerial image data as a zipped .jpg2000 file. (45GB)

A 'True Ortho' image of SP Crater, Arizona, meaning it's been geometrically corrected to remove distortions from perspective, tilt, and object height, offering a perfectly overhead view of terrain. It is done by combining many level 1a stereo captures from a Planet SkySat satellite, and then uses that to pansharpen colors from a Planetscope basemap from the coincident month. It is distributed as a 3 band Cloud-Optimized GeoTiff.

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.

In 2022, on behalf of the North Carolina Center for Geographic Information and Analysis four contractors captured 6-inch pixel 4-band (RGB-IR) orthoimagery for the 26 Northern Piedmont and mountain counties in North Carolina. These contractors are Spatial Data Consultants, Inc., Sanborn Map Company, Atlas Geographic Data, Surdex Corporation, and Survey and Mapping (SAM). This file documents the mosaic of the imagery exposures and associated seamlines used to generate the collection of imagery by the contractors for the entire study area of North Carolina for the following counties , Alamance, Alexander, Alleghany, Ashe, Avery, Burke, Caldwell, Caswell, Catawba, Davidson, Davie, Forsyth, Guilford, Iredell, Madison, Mcdowell, Mitchell, Randolph, Rockingham, Rowan, Stokes, Surry, Watauga, Wilkes, Yadkin, Yancey; and the date each exposure was flown. Seamlines were converted to polygon shapefile format, checked for gaps and overlaps, attributed, and trimmed to the study area boundary. This dataset contains a polygon seamline index attributed with, Exposure date the season. These attributes were based on information collected from individual frames and from flight line datasets. This seamline dataset was created to identify the individual exposure frames and the seamlines that join these exposures together to generate the orthoimagery product for the Northern Piedmont and Mountains 2022 Project (NPM22). The purpose of this dataset derives information from the exploitation flight lines to provide the specific dates of imagery acquisition for each image frame.

The Sunshine Coast Regional 3D Model was captured in 2019 through a joint project between Sunshine Coast Council and the Queensland Department of Resources. This is True Ortho Imagery from the high resolution model at 2cm resolution.The coordinate system is GDA2020 MGA Zone 56 (EPSG:7856)

True Ortho

These data map in high detail surficial cross-sections of North Core Banks, a barrier island in Cape Lookout National Seashore, NC, in October 2022. U.S. Geological Survey field efforts are part of an interagency agreement with the National Park Service to monitor the recovery of the island from Hurricanes Florence (2018) and Dorian (2019). Three sites of outwash, overwash, and pond formation were targeted for extensive vegetation ground-truthing, sediment samples, bathymetric mapping with a remote-controlled surface vehicle, and uncrewed aerial systems (UAS) flights to collect multispectral imagery. Five semi-permanent ground control points were also installed and surveyed to act as control for additional aerial imagery collects via plane. UAS imagery were processed in Agisoft Metashape (v. 1.8.1) with surveyed temporary ground control points to produce calibrated multispectral (red, blue, green, red edge, near infrared, and panchromatic) orthoimages and digital surface models.

description: Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2007. 2007 True Color leaf-off Digital Orthophotography.; abstract: Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2007. 2007 True Color leaf-off Digital Orthophotography.

description: Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2006. True Color Orthophotography for Wicomico County, Maryland - 6" pixles, 2006..; abstract: Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2006. True Color Orthophotography for Wicomico County, Maryland - 6" pixles, 2006..

This data set contains ortho-rectified mosaic tiles, created as a product from the NOAA Integrated Ocean and Coastal Mapping (IOCM) initiative of the Mississippi River (Baton Rouge to LaPlace, the Louisiana shoreline, the Lake Charles area, and LaPlace to Venice). The true color images were acquired with an Applanix Digital Sensor System (DSS). The original images were acquired at a higher resolution than the final ortho-rectified mosaic. Ortho-rectified mosaic tiles are an ancillary product of NOAA's Coastal Mapping Program (CMP), created through a wider Integrated Ocean and Coastal Mapping initiative to increase support for multiple uses of the data. For the Louisiana shoreline, the purpose of the imagery was to provide digital shoreline and orthophotos for NOAA nautical charts. The shoreline area covers the Barrier Islands of Terrebonne and Timbalier Bays on the coast of the State of Louisiana. For Baton Rouge, source imagery was acquired on March 13, 2010, March 14, 2010 and March 15, 2010. The ground sample distance (GSD) for each pixel is 0.5 m. These data are in .his, .tif, and .jpg formats with associated metadata. Additional orthoimagery for this region (Baton Rouge to Southwest Pass) are filed under NODC accession numbers 0103945 and 0104414. Additional ortho-mosaic data is available at the NODC under individual accession numbers. Ortho-rectified mosaic tiles are not intended for mapping, charting or navigation.

In 2021, on behalf of the North Carolina Center for Geographic Information and Analysis four contractors captured 6-inch pixel 4-band (RGB-IR) orthoimagery for the 26 Eastern Piedmont counties in North Carolina. These contractors are Spatial Data Consultants, Inc., Sanborn Map Company, Atlas Geographic Data, and Surdex Corporation. This file documents the mosaic of the imagery exposures and associated seamlines used to generate the collection of imagery by the contractors for the entire study area of North Carolina for the following counties , Bladen, Chatham, Cumberland, Durham, Edgecombe, Franklin, Granville, Halifax, Harnett, Hoke, Johnston, Lee, Moore, Nash, Northampton, Orange, Person, Richmond, Robeson, Sampson, Scotland, Vance, Wake, Warren, Wayne, Wilson; and the date each exposure was flown. Seamlines were converted to polygon shapefile format, checked for gaps and overlaps, attributed, and trimmed to the study area boundary. This dataset contains a polygon seamline index attributed with, Exposure date the season. These attributes were based on information collected from individual frames and from flight line datasets. This seamline dataset was created to identify the individual exposure frames and the seamlines that join these exposures together to generate the orthoimagery product for the Eastern Piedmont Orthoimagery 2021 Project (EP21). The purpose of this dataset derives information from the exploitation flight lines to provide the specific dates of imagery acquisition for each image frame.

description: Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2009. Washington County, NC true color orhophotography - 1/2 foot resolution over selected areas.; abstract: Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2009. Washington County, NC true color orhophotography - 1/2 foot resolution over selected areas.

This data set contains imagery from the National Agriculture Imagery Program (NAIP). NAIP acquires digital ortho imagery during the agricultural growing seasons in the continental U.S. A primary goal of the NAIP program is to enable availability of of ortho imagery within one year of acquisition. NAIP provides four main products: 1 meter ground sample distance (GSD) ortho imagery rectified to a horizontal accuracy of within +/- 5 meters of reference digital ortho quarter quads (DOQQ's) from the National Digital Ortho Program (NDOP); 2 meter GSD ortho imagery rectified to within +/- 10 meters of reference DOQQs; 1 meter GSD ortho imagery rectified to within +/- 6 meters to true ground; and, 2 meter GSD ortho imagery rectified to within +/- 10 meters to true ground. The tiling format of NAIP imagery is based on a 3.75' x 3.75' quarter quadrangle with a 300 meter buffer on all four sides. NAIP quarter quads are formatted to the UTM coordinate system using NAD83. NAIP imagery may contain as much as 10% cloud cover per tile. Resources in this dataset:Resource Title: GeoData catalog record. File Name: Web Page, url: https://geodata.nal.usda.gov/geonetwork/srv/eng/catalog.search#/metadata/4dae30db-2a65-4c35-8c29-61ea7b729625

This dataset contains ortho-rectified mosaic tiles, created as a product from the NOAA Integrated Ocean and Coastal Mapping (IOCM) initiative of Lake Charles, Louisiana. The source imagery was acquired on November 23, 2009 and March 12, 2010. The true color images were acquired with an Applanix Digital Sensor System (DSS). The ground sample distance (GSD) for each pixel is 0.35 m. The original images were acquired at a higher resolution than the final ortho-rectified mosaic. Ortho-rectified mosaic tiles are an ancillary product of NOAA's Coastal Mapping Program (CMP), created through a wider Integrated Ocean and Coastal Mapping initiative to increase support for multiple uses of the data. These data are GeoTIFF files with associated files and Federal Geographic Data Committee (FGDC) metadata.

These medium resolution true color (RGB - Red-Green-Blue bands) images represent the first color aerial photo "basemap" for the Commonwealth from MassGIS. MassGIS (then part of the Executive Office of Environmental Affairs) and the Massachusetts Dept. of Transportation (then the Mass Highway Department) jointly funded the project. The photography for the mainland was captured in April 2001 when deciduous trees were mostly bare and the ground was generally free of snow. Photography for the Elizabeth Islands, Martha's Vineyard, and Nantucket (the "Islands") was captured in April 2003. Imagery is available for the entire state. Original imagery pixel resolution is 1/2-meter.For full metadata visit https://www.mass.gov/info-details/massgis-data-2001-2003-aerial-imagery.

Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2009. Washington County, NC true color orthophotography - 1 foot resolution in the remainder of the county.

This data set contains true color (RGB) ortho-rectified mosaic tiles, created as a product from the NOAA Integrated Ocean and Coastal Mapping (IOCM) initiative. The source imagery was acquired from 20110217 - 20110217. The images were acquired with an Applanix Digital Sensor System (DSS). The original images were acquired at a higher resolution than the final ortho-rectified mosaic. Ortho-rectified mosaic tiles are an ancillary product of NOAA's Coastal Mapping Program (CMP), created through a wider Integrated Ocean and Coastal Mapping initiative to increase support for multiple uses of the data. Data are in GeoTIFF format with associated browse graphic (.jpg) and HIStory (.his) files. Federal Geographic Data Committee metadata is included as .txt and .xml files. The ground sample distance (GSD) for each pixel is 0.50 m.

This data set contains ortho-rectified mosaic tiles, created as a product from the NOAA Integrated Ocean and Coastal Mapping (IOCM) initiative. The source imagery was acquired from 20100313 - 20100315. The images were acquired with an Applanix Digital Sensor System (DSS). The original images were acquired at a higher resolution than the final ortho-rectified mosaic. Ortho-rectified mosaic tiles are an ancillary product of NOAA's Coastal Mapping Program (CMP), created through a wider Integrated Ocean and Coastal Mapping initiative to increase support for multiple uses of the data. These data are in GeoTIFF format with associated .his, browse graphic, and metadata files. The ground sample distance (GSD) for each pixel is 0.50 m. Matching infrared imagery for this region is archived at the NODC under accession number 0104414.

Aerial Photography and Imagery, Ortho-Corrected dataset current as of 2006. True Color Orthos at 1:4800 & 1:2400 3/2006.