This is why researchers at the Fraunhofer Institute for Integrated Circuits IIS created an intelligent camera that instantly delivers additional metadata, such as acceleration, temperature or heart rate. The new INCA can be seen at the IBC trade show in Amsterdam from September 7 - 11 (Hall 8, Booth B80).
Just a few more meters to the finish line. The mountain biker jumps over the last hill and takes the final curve, with the rest of the competition close at his heels. At such moments, you do not want to just watch, you would really love to put yourself in the same shoes as the athlete. How does he push the pace on the final stretch? How fast is his pulse racing? What does he feel like? Viewers will soon be able to obtain this information in real time, directly with the images. Because the INCA intelligent camera, engineered by Fraunhofer researchers in Erlangen, makes completely new fields of application and perspectives possible.
INCA not only renders images in HD broadcasting quality, it is also equipped with a diversity of sensors that provide data on GPS position, acceleration, temperature and air pressure. In addition, the camera can be seamlessly connected to external systems via Bluetooth or WLAN: for instance, a chest harness to track heart rate, or face recognition software that can open up completely new perspectives. This way, viewers may be able to catch even a small glimpse into the emotional life of the athletes. In addition, the camera can also be combined with object recognition and voice detection systems.
Armed for any eventuality
Despite its tiny size (2x2x8 cm), the miniature camera is powerful enough to handle professional film and TV productions, thanks to its high performance capacity and minimal power consumption. It is best suited to extreme situations, because INCA resists sand and dust, withstands cold and debris, and can be readily installed as a helmet camera. In addition to athletic and event broadcasts, other potential areas of application include animal movies and nature shows, as well as expeditions and adventures, where such additional data can provide invaluable information. The camera analyzes data and by doing so, enables the user to experience and record more about his or her environment while filming.
Since the camera system is based on the Android operating system, by playing an app, it can be easily and flexibly adapted to the requirements of the respective subject matter. INCA possesses enough computer power to execute complex algorithms as well. As a result, it can correct objective errors and compress HD videos in real time.
During its development, these issues posed major challenges to the scientists, as group manager Wolfgang Thieme of Fraunhofer IIS explains: "The core issue was figuring out how to house such a massive range of functionality within the tightest space. The OMAP processor (Open Multimedia Applications Platform) makes all of this possible. As the heart of the camera, this is comparable to a CPU that you find in any ordinary PC. The difference is that additional function blocks for various tasks have been integrated into the OMAP. Without these blocks, the system would neither record HD video images nor process and issue them in real time. The most difficult task was programming these blocks and using them for data processing."
This smart camera is not yet on the market; however, anyone who is interested can already try it out at the IBC trade show in Amsterdam from September 7 - 11, 2012; simply drop by the Fraunhofer Booth B80 in Hall 8.
Wolfgang Thieme | Source: EurekAlert!
More articles from Trade Fair News:
Siemens launches Artis one angiography system for universal use
02.12.2013 | Siemens AG
COMPAMED is holding on to its position as international leading market place for medical devices
02.12.2013 | IVAM Fachverband für Mikrotechnik
Quantum entanglement, a perplexing phenomenon of quantum mechanics that Albert Einstein once referred to as “spooky action at a distance,” could be even spookier than Einstein perceived.
Physicists at the University of Washington and Stony Brook University in New York believe the phenomenon might be intrinsically linked with wormholes, hypothetical features of space-time that in popular science fiction can provide a much-faster-than-light shortcut from one part of the universe to another.
But here’s the catch: One couldn’t actually ...
A star is formed when a large cloud of gas and dust condenses and eventually becomes so dense that it collapses into a ball of gas, where the pressure heats the matter, creating a glowing gas ball – a star is born.
New research from the Niels Bohr Institute, among others, shows that a young, newly formed star in the Milky Way had such an explosive growth, that it was initially about 100 times brighter than it is now. The results are published in the scientific journal, Astrophysical Journal Letters.
The young ...
EPFL scientists have shown how to achieve a dramatic increase in the capacity of optical fibers; Their simple, innovative solution reduces the amount of space required between the pulses of light that transport data
Optical fibers carry data in the form of pulses of light over distances of thousands of miles at amazing speeds. They are one of the glories of modern telecommunications technology.
However, their capacity is limited, because the pulses of light need to be lined up one after the other in ...
NASA's Hurricane and Severe Storms Sentinel airborne mission known as HS3 wrapped up for the 2013 Atlantic Ocean hurricane season at the end of September, and had several highlights. HS3 will return to NASA’s Wallops Flight Facility in Wallops Island, Va., for the 2014 Atlantic hurricane season.
During the 2013 mission, two unmanned Global Hawks flew from Wallops for the first time. The mission highlights included studying the Saharan Air Layer, following the genesis of a tropical storm, finding a unique hybrid core or center circulation in a redeveloped storm, obtaining measurements on the strongest side of ...
Nanosponges that soak up a dangerous pore-forming toxin produced by MRSA (methicillin-resistant Staphylococcus aureus) could serve as a safe and effective vaccine against this toxin.
This "nanosponge vaccine" enabled the immune systems of mice to block the adverse effects of the alpha-haemolysin toxin from MRSA—both within the bloodstream and on the skin. Nanoengineers from the University of California, San Diego described the safety and efficacy of this nanosponge vaccine in the December 1 issue of ...
04.12.2013 | Health and Medicine
04.12.2013 | Materials Sciences
04.12.2013 | Ecology, The Environment and Conservation
04.12.2013 | Event News
12.11.2013 | Event News
29.10.2013 | Event News