 Hi, my name is John Kevon from ST Microelectronics and I'm here today at the AWE Show to show you what a 3D depth map camera is. What happens is this camera right here is shooting toward me with an indirect time of flight pixel laser and measuring how far each pixel is from the camera. And when you know that point cloud, you can do clever little things. One can rotate the image and look at me from various angles without me moving. It's very clever. The key points that you need to take away from this is it's a VD55H1. It is small. It's only 22 square millimeters. It is a 672 horizontal resolution by 804 and 40 nanometer technology but basically a tiny little bit of silicon can give you this much information. If you zoom out, zoom in, you can see the texture. You can see how well my lapels look. You can see how good I look from a lot of different directions. And that is an iTalk camera. Another demo at the AWE Show is ST's Global Shutter Camera. Only this time instead of just giving you a Global Shutter Camera, we put some logic in there to produce motion vectors. As I move my arm back and forth, you can see little teeny motion vectors. Red one way, green the other way. And what it's doing is taking extremely fast frame rates, doing the subtraction, finding where the photons or where the pixels migrated to, and then outputting only the motion vectors and not the raw data. So instead of having a big CPU analyze the data and or get the data into your MCU and then analyze it and then produce the motion vectors, a very small MCU could just get the motion vectors. This is perfect for robots. As the robot's tracking around, chair legs will go by just the way my lapel, just the way my arm goes, and you can analyze that data and find out what's going on. The trick to this particular sensor is it is small. A couple millimeters by a couple of millimeters. It is VGA resolution, or even better, 640 by 600. It is very low power in addition to all that. And the optical flow, which is what we call this, is embedded. If you need more information, go to ST.com. Again, I'm John Kawam. Thank you.