A geotagged photograph
is a photograph
which is associated with a geographical location by geotagging
. Usually this is done by assigning at least a latitude
to the image, and optionally altitude, compass bearing and other fields may also be included.
In theory, every part of a picture can be tied to a geographic location, but in the most typical application, only the position of the photographer is associated with the entire digital image. This has implications for search and retrieval. For example, photos of a mountain summit can be taken from different positions miles apart. To find all images of a particular summit in an image database, all photos taken within a reasonable distance must be considered. The point position of the photographer can in some cases include the bearing, the direction the camera was pointing, as well as the elevation and the DOP.
Methods of geotagging photographs
There are a few methods of geotagging photographs, either automatic or manual. Automatic methods provide the easiest and most precise method of geotagging an image, providing that a good signal has been acquired at the time of taking the photo.
Automatic using a built-in GPS
Several manufacturers offer cameras with a built-in GPS receiver, but most cameras with this capability are
as camera manufacturers after initial experience in the market came to treat GPS cameras as a niche market
[ New York Times Gadgetwise 2010/07/28 Why don't more cameras offer GPS?]
The 2008 Nikon P6000, for example, an early geotagging camera, was replaced in 2010 by the P7000 which lacked that feature.
[ CNET UK Nikon says No to GPS]
Some models also include a compass to indicate the direction the camera was facing when the picture was taken.
Canon EOS 6D
Canon PowerShot SX280HS
Canon PowerShot S100
Fujifilm FinePix F550EXR
Fujifilm FinePix F770EXR
Nikon COOLPIX P330
Nikon COOLPIX P6000
Panasonic Lumix DMC-TZ10
Sony Alpha 55V (DSLR)
Sony Alpha 65V (DSLR)
Some mobile phones with assisted GPS use the cell phone network to speed GPS acquisition times.
Automatic using a connected GPS
The D1X and D1H that Nikon introduced in 2002 included a GPS interface.
In 2006 the first special GPS receiver for Nikon was produced by Dawntech
Since 2009 Nikon has sold its own Geotagger GP-1. Canon uses the USB socket on the wireless file transmitter unit (WFT) as the GPS interface.
Some and support an external GPS receiver connected by cable, or inserted into the memory card slot or flash shoe. The Samsung SH100 can connect using Wi-Fi to get position data from a GPS-enabled smartphone.
Generally the relevant GPS data is automatically stored in the photo's Exif information when the photo is taken. A connected GPS will generally remain switched on continuously, requiring power, and will then have location information available immediately when the camera is switched on.
Many GPS-ready cameras are currently available, made by manufacturers such as Nikon, Fujifilm, Sony and Panasonic. Automatic geotagging combined with real-time transfer and publishing results in real-time geotagging.
Synchronizing with a separate GPS
Most cameras sold today do not contain a built-in GPS receiver; however, an external location-aware device, such as a hand-held GPS logger, can still be used with a non-GPS digital camera for geotagging. The photo is taken without geographical information and is processed later using software in conjunction with the GPS data.
made by the camera can be compared with timestamps in the recorded GPS information, provided that the clocks in the separate devices can be synchronized. The resulting coordinates can then be added to the Exif information of the photo.
Location information can also be added to photos, for example via its Exif
specification that has fields for longitude/latitude, even if no GPS device was present when the photo was taken.
The information can be entered by directly giving the coordinates or by selecting a location from a map using software tools. Some tools allow entry of tags such as city, postal code or a street address. Geocoding and reverse geocoding can be used to convert between locations and addresses.
Manual geotagging also introduces possibilities of error, where a photograph's location is incorrectly represented by wrong coordinates. An advanced comparative analysis of such photos with the total collection set of all photos available from the surrounding coordinates, needs to be done to single out and flag such photos, but such a software's value, need and purpose could be limited in today's environment where almost every smartphone and camera have geotagging built-in and users do not need to manually enter this information.
Remote standoff capture
Some manufacturers of military and professional mapping-grade GPS instruments have integrated a GPS receiver with a laser rangefinder and digital camera
. These multi-functional tools are able to determine a remote subject's GPS position by calculating the subject's geographic location relative to the camera's GPS position. These instruments are commonly used in military applications when an aircraft or operator is targeting an area, the position is inaccessible (for example over a valley or wetland), there are personal health & safety concerns (motorway traffic), or the user wants to quickly capture multiple targets from a single, safe position (trees, street signage and furniture).
Civilian integrated GPS cameras with rangefinders and remote standoff capability are currently available made by manufacturers such as Ricoh and Surveylab.
When geotagged photos are uploaded to online sharing communities such as Flickr
, the photo can be placed onto a map to view the location the photo was taken. In this way, users can browse photos from a map, search for photos from a given area, and find related photos of the same place from other users.
Many automatically geotag their photos by default. Photographers who prefer not to reveal their location can turn this feature off.
[ US Army ] Additionally smartphones can use their GPS to geotag photos taken with an external camera.
Geotagged photos may be visually stamped with their GPS location information using software tools. A stamped photo affords universal and cross-platform viewing of the photo's location, and offers the security of retaining that location information in the event of metadata corruption, or if file metadata is stripped from a photo, e.g. when uploading to various online photo sharing communities.