Patent Application
20060187317
The invention relates generally to a system for communicating data including global-positioning-encoded information
Availability of up-to-date information is more important today than ever before and this will continue to be true for the foreseeable future. People want to be well informed, so much so that they travel with cellular phones, beepers, and even portable hand-held Global Positioning System (GPS) satellite receivers.
GPS capable devices generally have a GPS receiver for receiving satellite signals from the GPS satellite network that allow for determination of the device's position. Such devices allow for precisely locating the device in terms of latitude and longitude using the GPS receiver. Some devices have map data stored in memory and a display for showing the device position with reference to the map data. Other devices have no underlying map data base for reference. Rather, they show only the geographic coordinates of the device's location. These coordinates may be referred to as waypoints.
Some GPS receiver devices have the ability to communicate over a telecommunications network. These devices do not provide for automatic or semi-automatic dynamic exchange of on-line position dependent or related information. In addition, these devices cannot communicate with third parties in the absence of a uniform data format standard. For example, a cellular-phone-based system comprising GPS location information working in conjunction with proprietary Public Safety Answering Point (PSAP) telephone equipment is known. The device provides personal and medical information on an emergency basis to the proper authorities. Such a device does not allow third parties to communicate, tag, interrogate, limit, designate, modify or share this information amongst them for any other use.
In a parallel trend, digital cameras have become popular devices for producing high quality digital images of photographic scenes. In general, digital cameras create a digital image by exposure of a CCD sensor array to a photographic scene, followed by conversion of the CCD data to digital image data that is stored in the camera. Thereafter, the digital image data stored in the camera may be transferred to a personal computer or other more permanent storage for printout, viewing, transmission and the like.
One problem with digital image data, however, is the ease with which such data can be manipulated or changed, thereby creating a false representation of the original photographic scene. Such problems are particularly prevalent in certain fields such as forensics and legal or law enforcement fields, where it is essential to prove the authenticity of images. Because of the ease with which digital images may be altered so as to distort the appearance of the original photographic scene, proof of authenticity can often be difficult and sometimes impossible.
Conventional approaches to proving authenticity of digital images have involved the use of public key/private key digital signatures. One such conventional approach is described in U.S. Pat. No. 5,499,294 to Friedman. Friedman's approach involves the use of an embedded private key in a digital camera, with the private key being used to create a digital signature based on a message digest of the image data. Thereafter, a user wishing to authenticate-the image data obtains a public key that corresponds to the embedded private key. As is known in conventional public key/private key authentication, the public key and the private key correspond to each other such that only one public key can decrypt data encrypted with the private key, and vice-versa. Accordingly, through use of the public key, a user of Friedman's system is able to authenticate that image data has not been modified since when it was originally obtained by the digital camera.
U.S. Pat. No. 6,269,446 discloses authentication of image from digital cameras with GPS-derived time and location data. With the wide-spread availability of today's desktop tools and imaging devices, unethical manipulation of digital image data is common, such that digital images are not ordinarily reliable and can be subject to trickery and forgery. In the past, imagery such as photographs and digital images were reliable enough to serve as documentary evidence in most cases, since a skilled craftsman was needed to modify the images and commit fraud. However, skilled craftsmen are no longer needed, and digital images can be modified by even a casual user. Moreover, time data and location data are not ordinarily included in digital images. According to the invention, a digital camera system documents the time, date and location where a digital image was taken, using GPS-derived data from a secure connection. The validity and authenticity of the digital image, as well as the time data and location data, is then protected with a public key signature system that provides a digital signature by which the image and time and location information can be authenticated.
U.S. Pat. No. 6,525,768 discloses a positional camera and GPS data interchange device with a location tagged data provision and display system. A personal communication device (PCD) with electromagnetic communication capability has a GPS receiver and a display. The PCD requests maps and location tagged data from data providers and other for display on the PCD. The data providers respond to requests by using searching and sorting schemes to interrogate data bases and then automatically transmitting data responsive to the requests to the requesting PCD.
In one aspect, systems and methods are disclosed for annotating a digital photograph by electronically capturing the digital photograph into a digital camera file; receiving a position coordinate; appending the position coordinate to the digital camera file and displaying the digital photograph based on the position coordinate.
In another aspect, a presentation mechanism graphically shows the location where each photo was taken. In this case a map is displayed with image thumbnails placed at the location where the photo was taken. Location information is extracted from the image meta data or from a separate meta data source.
Advantages of the invention may include one or more of the following. The system enables images to be organized based on location. The improved organization of pictures leads to better and faster searching of images. The location information can also be used to verify the authenticity of the images. The time and location information can facilitate the collation and sharing of photos, for example allowing all the photos of a given time/location (ie, an event) to be shared. Further, the system can compost “panoramas” or create models of a given area when combining the location and the elevation/azimuth information. The system can depict historical change of an area over time, or alternatively, can perform “time lapse” photography without a fixed location. The time-lapse can be done by software in the camera, or in as an external step This technology would facilitate the filming and production of motion picture and television productions, including but not limited to TV news broadcasts, etc. This invention would have application for security and surveillance markets as well.
Digital camera 10 obtains a digital image for a photographic scene by exposing a CCD sensor array to the photographic scene and converting the CCD data into digital data. GPS unit 30 obtains GPS-derived data such as time and location data through conventional triangulation techniques using the GPS grid of orbital satellites. Although the presently-described embodiment illustrates use of GPS unit 30 so as to derive time and location data, the practice of the invention is not limited to a GPS receiver for providing such information, and any now-known or future-developed system for providing time and location data over a secure link to digital camera 10 may also be used.
Alternatively, although
The digital camera 10 stores the image data in storage section, with the image data being stored in a file together with header information that includes the time and location information provided by GPS. The information can be stored as HTML metatags. In addition to HTML metatag encoding, time and positional information can be encoded in EXIF fields, IPTC fields, TIFF fields as well as Proprietary Maker Note fields from Canon, Casio, Epson, Minolta, Nikon, Olympus, Pentax and Adobe Photoshop Fields, among others. In one format for the digital camera image file, the image file includes digital image data in one section and a header section. The header section includes the GPS-derived data with time data and location data. Optionally, camera information including camera serial number, size and exposure information can be stored in the header section as well. Exemplary GPS fields include one or more of the following:
The flow diagram of
While the invention is described above with respect to what is currently considered its preferred embodiments, it is to be understood that the invention is not limited to that described above. To the contrary, the invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.
