The images on that surface are converted into those seen from any desired point-of-view using the technology of 3D virtual projection. By using this special method, the images will be displayed with much less distortion. The image impression is significantly different from those of conventional systems. It will make it easier for drivers to recognise obstacles around their vehicles.
Furthermore this system uses the point-of-view interpolation technology. It is possible to alter the perspective of view. An attractive feature is the smooth transition of the driver's line-of-sight when the display content is switched from one image to another. Also the car model can be rendered into the wrap-around image.
The combination of the rendered car model and the interpolation technology ensures that drivers do not lose the orientation and instantly recognise in what direction they are looking. The wrap-around view image combined with the rendered car model enables good measurement of the proportion of obstacles around the car. The latency of the system is reduced to a minimum; therefore this system becomes a safety benefit.
Fujitsu Semiconductor has developed the MB86R11 'Emerald-L' chip for such applications. It is available now and has a huge list of new features. The processor core is the higher performance ARM Cortex-A9 core-based SoC, which also has an integrated ARM-Neon-SIMD engine. The four video input ports of 'Emerald' enable simultaneous processing of various different video images. The 'Emerald' is capable of supporting up to four input functions, each with high resolution concurrently. To fulfill its work the Emerald Family supports up to 1GByte or DDR2 800 or DDR3 1066 RAM and NAND, NOR and managed NAND flash.
Another benefit is the multi-layer concept with up to 8 layers and the 3 independent display controllers. This allows very flexible and prioritised graphic rendering based on OpenGL ES 2.0. The automotive standard resources and communications protocols CAN, MediaLB (Media Local Bus) and Ethernet are also implemented into