Yet more work coming forward dealing with holographic projectors. When the price and performance of these devices is within reason I have a number of projects I’d like to build that involve them in one way or other.

At present, Light Blue Optics has a lab-based demonstrator, which converts a standard composite video signal into high-quality 2D holographic video, in real time. The hologram generation engine runs in a commercially available FPGA (field-programmable gate array) chip, whose design extends naturally to cheap mass production.

How does it work? A hologram pattern, which to the naked eye looks like a collection of random dots, is displayed on a small liquid-crystal-on-silicon (LCOS) microdisplay - a tiny, very fast liquid crystal display built on top of a chip. The hologram patterns are calculated by Light Blue Optics’ proprietary “hologram chip” so that when the microdisplay is illuminated by laser light, the light interferes with itself in a complex manner through the physical process of diffraction which, when carefully controlled, results in the formation of a large, high quality projected image on, for example, a screen or a wall.

via Roland Piquepaille’s Technology Trends and Ploosh