 at the SID display week with Gamma Scientific. And who are you? I'm Richard Austin. I'm president and chief technology officer. So what are we looking at here? This is a NERI display measurement system that we made that's used for measuring augmented reality glasses, like it's being measured here, as well as the virtual reality goggle set on the far side over there, the gear VR from Oculus. So is it measuring the quality of the displays? Yes, it can map the luminous uniformity as well as the color uniformity and has unique features in that it can look at very small areas of the virtual image of the display. So we have six different spot sizes that we can make spectrometric measurements on. And it goes from five degrees down to a tenth of a degree, in two degree, one degree, half degree, third degree, and then tenth degree are the five sizes that we have. And you show the results here on the screen? Yes, on the screen here we have, this is an internal 8.9 megapixel camera image that we also can do image quality analysis in terms of MTF, depth of contrast, as well as expand the uniformity of the spectrometric measurement that we make in the center. This is about a one degree aperture, this is a seven by seven degree field of view. And we have the spectrometric data showing here the light measurement that we've made right there. And now we're looking at the far wall and the robot's moving over to look at the VR goggles now. So the focus is close to infinity. The other key feature is that we have a five millimeter entrance pupil right here that is about the size of the human eye. And so we can pick the rotation point to be either at the front, at the entrance pupil to the spectrometer that feeds light through this fiber optic probe to our laboratory grade spectrometer. Or we can pick a vantage point that's 13 millimeters behind the entrance pupil so that the entrance pupil of our spectrometer rotates like the eyeball rotates the entrance pupil of the human eye relative to the virtual image of the display coming out of the VR or AR glasses. And you have a big computer in there processing everything? Yeah, yeah, we have a high end computer, rack mount computer, and then the spectrometer is right below it, which is the GS 1290, there's the spectrometer, and then that's the computer, and then on the very bottom there is the robot controller. So has your company been doing this for a while, these kinds of things? We've been producing the robots for about ten years to measure flat panel displays and have deployed it for very low light level measurement applications for night vision and goggle compatibility of cockpit displays. And so what we've done is reduced the size of this telescopic head that we make so that it easily fits between the earpieces of AR goggles and can rotate and look in different areas of the field of view displayed by the AR or VR glasses. Is this a Japanese arm? Yeah, this is a low cost six axis, very precise pointing direction industrial robot. And we've been using these for over ten years in our light measurement products. And do you have many customers, all the industries using your two measurement displays and their products? Well this is a new invention, we have a patent pending on this and the industry leaders are very interested in this product so we've got very positive results from our first introduction of this product in the iZone. What do you think about the SID display week? It's been good and exhausting. Right, cool, this is the last question.