 So we're here at the SID display week right here with the Sendai College National Institute of Technology in Japan. So hello, who are you? It's Kosen. He's a student. I'm the researcher in this college and we are doing some screens. So it's a special reflection technology. Yes. What's going on here? Actually, you know if you are familiar with the retro reflector. Then in case of retro reflector, you get back the light to the source. But actually here, when we send it from the projector to the screen, we get this image 10 degrees far from the source. And we disperse the light between 16 degrees. So light goes in this way and comes to the viewer and disperses it between 16 degrees. So this is the screen. And this is good for something like automotive? That's right. Just see through the pillar. It means that you have a camera out of the pillar and you get that image into the car and you project it into the pillar, under the pillar. And the driver can see the image out of the pillar. So this is see through the pillar. This is for safety. Is it happening already? We are doing this. Prototypes. Yes, prototypes. What is this one? This is a screen that as you see, we have here reflection. But when you change it in this way, you do not see the light. So ambient light is going somewhere else. Where is it going? It's disappearing. Yes. So we use microstructures to do this job. Is it a special material? It's not material. It's a microstructure, prismatic structures. And if I touch it... Can I touch it? Yeah, it's just... It feels... How does it feel? Just like normal... That's right, that's right. You cannot touch the microstructures. Anyway, it's so smooth, so my small thing is small and migrate. Mine here is talking about the viewing angles. That's right. So the light from top, it comes in and it goes down. But from the projector, it comes to your eyes. And you have some more information around here. So what's next for this technology? Yeah, this is already... We have this one as a product. We have the market and a large size. And this is also an LCD filter. Liquid Q-Star filter. Tunable. And this is for... This is... As you see, it's a vegetation map. So for example, when you have an apple, red apple in hand, and you are using this filter, then you have a blue apple as an image. But blue apple, what does it mean? It means that it shows you the quality of the apple, not the appearance of the apple. So whether it's sweet or not, so you can see it through the color. And what is this? This is this filter, LCD filter. So already we have it inside the satellite. In Japan. Satellite. Satellite, yeah. What? To get this vegetation map. So as you see, you have different colors. It shows the situation of the vegetables, or fruits, or things. So yellow, maybe you have a yellow apple, but it's not yellow. Actually yellow shows you the quality of the apple. And this is because there's some wavelengths? That's right, that's right. So wavelengths, you have a reflection back. Then you see that the color shows you the quality of the apple, or vegetables. So here at the SID display, who is going to be interested in this? Oh, who is the market for this? Yeah, today I had so many people, they came to me and they discussed about the screen, and some people, they talked to me about the filter. Those people who they are making the instrument, measurement system, they are talking, they want to have this one. And for those, some people, they want to have for the simulation, for the pilots, they want to have this screen also, because as you know, the quality of the screen and the projector, then they are not matched to each other, then you have a problem. So this is the screen without noise, without ambient light. So the contrast is high, it's almost 150. Gain also is 3, so this means that you can see from everywhere, but there is no noise. So gain 3. Gain 3, but contrast is very important for this case, so it's 150. Alright.