Europe Ready to Launch 3-D TV Outperforming the Competition
German and Swiss researchers on a EUREKA project have come up with technology that they think could soon affordably deliver the thrills and immediacy of 3D into our homes, as well as into some other unexpected places like operating rooms with a level of quality never reached before.
"The seed of this project was just three friends chatting on the web" recalls Arnold Simon, Chief Technical Officer at the German company Infitec. At the time Simon was working as a consultant for Infitec and one of the other friends was Helmut Jorke, Chief Executive of Infitec, which had developed some of the best 3D technology for cinemas.
The friends chatted about the next challenge in 3D: how to develop a 3D LCD flat-screen monitor capable of displaying the full resolution of the new high-definition television formats. On that online chat, Jorke decided his company should create that screen. "The consumer market is the biggest and most interesting focus," says Simon. Last year, in the UK alone, prior to the country's switch over from analogue to digital, 10 million television sets were sold.
Infitec had made its name in the 3D world by developing more sophisticated technology based on the principle of the old red and green glasses. The company's glasses use a narrow colour band wave to improve the quality of the image, using specific wavelengths of red, green and blue for the right eye and different wavelengths of the same colours for the left eye. The glasses filtering out very specific wavelengths give the spectator the illusion of a 3D image. Backed by EUREKA, Infitec partnered up with Optics Balzers, a Swiss company it knew that specialised in 3D filters, and the pair secured funding to start developing the 3D LCD screen – a mission they called Dualplex Display.
While Infitec researched the best signal and lighting to use in the monitor and software for it, Optics developed special filters for the lighting unit and the glasses. The project was not an easy one. Obtaining sample backlighting units from suppliers was not easy for two relatively small companies. Then the first demonstrator did not work and the partners decided they needed to create a brand new optic design for the monitor. They finally combined four light-emitting diode lamps (LEDs) – two green ones, one red and one blue one – to create the colour range they needed.
After two years of hard work, the partners have a demonstrator 23-inch monitor that they are proud to say pushes the boundaries of 3D technology. The quality of the image causes less strain on the eyes than other 3D technologies, the glasses do not darken the ambient light and the screen can be viewed from all angles without distorting the 3D images.
"Viewers will be able to lie down on the sofa to watch the screen, they can turn their heads in any direction and the image won't change," explains Simon.
The partners have applied to patent the screen in Germany and are in the process of submitting patents for other countries. They have presented the screen at conferences around the world and potential customers have been impressed with their demonstrator. However, the Dualplex Display team wants to further improve their screen and has secured funding for a follow-up project to brighten its images.
The Dualplex team's final goal is to sell its 3D LCD screen for HD to ordinary consumers, but initially the partners think they will find it easier to target niche professional markets such as medical professionals. Using 3D imaging could help surgeons doing operations, for instance. Until now, the 3D imaging was too poor to interest them, says Simon.
Source: EurekAlert