 Hi. Hello. Please introduce yourself. My name is Arthur Rabner. I'm founder of Hypervision. We're doing advanced optics for virtual reality, for future virtual reality. Future is coming. So, I just tried it just before and it was mind-blowing what you're doing in there. What's happening? How can you have the vision go all around on the sides? How does that work? So, first of all, the basic is to make this technology. What you see here is the pancake lenses. How pancake lens works. It's a folding optical path. So, instead of a big model, we have a very teeny model. But we also have a proprietary pancake lens design. So, we have very big i-box extended field of view for the same display size. We have more field of view than others. So, yes, this is a proprietary patented pancake lens model. Now, you asked me about this architecture. So, here for each eye we have two models. One for central vision and one for peripheral vision. So, and our patent here how to connect those two models together to have continuous panoramic image. And actually, we're covering here completely horizontal field of view of human vision. So, what's the secret? How do you make it? Is it secret? No, no, not secret. It's published, right? It's not a secret. So, you can see here connection between two pancake lens models on this line. Now, from the second side, you have display here and display here. They are not connected. But the recipe is to generate the same image somewhere here and somewhere here. So, after manipulation by the lenses, the rays that are going out of this line, those rays are connected. The rays that are coming from pixel here and from pixel here, they are connected. So, our eye cannot distinguish between this and this pixel. So, we see connection between two models. Well, can you try to hold it like this? Yes. Let me just see if I can capture anything. Is it possible to capture anything? Yeah, if you put your camera to infinity, maybe to two meters focus, you will be able to see in focus the image inside. Not autofocus, but fixed two-meter focus. Alright, I can see a little bit. Can you hold the camera for one second? Yes. Is it okay if I look in there? Yes. If you can try to film me? Yes. I'm totally surrounded by a VR experience that closes and seems to be smooth. It looks like the whole screen is together all around. It's such a cool experience. I feel like I'm looking at the future a little bit, like the future VR. Do you want to have a role to play in the future VR? We are making future VR, actually. This is our role. We already have a client that will use this architecture for advanced flight simulator. You know, in flight simulators you need peripheral vision stimulation, and that's what this architecture is doing. The crucial thing about this display industry is to make the second best thing to be there, right? And if you have a VR where you don't have the peripheral vision, it kind of breaks the illusion, right? And visually you don't feel there as much. But maybe with this you feel even more inside. Like in real life. We use our peripheral vision all the time. Right now I'm looking on you, but I feel what is going around me. So it's the same we need to have in virtual reality. Does it make sense to have it up and down and all everywhere? A bigger vertical field of view? Does that make sense? Yes, it makes sense. In our next reference design we are going to increase our vertical field of view. If it's 95 degrees we will increase it to 120 degrees. 220? No, 120. 120? 120 degrees vertical field of view. Alright. But horizontally we already have 240. Where are you based? In Israel. In Israel. How long time you've been working on this? This idea was from 2016, but we started to work on it actively three years ago. And how has it been here, the display week? A lot of people want to see this. A lot of people are asking to have a look to figure it out. Yeah, nobody has seen this architecture before. So actually, so on SPAER we are not long ago in February. First time we exposed this architecture. So most of people didn't see it and they managed to visit. Did you win the prize? Is it not yet announced or announced? Not yet announced. Not sure that the main focus for this prize is virtual reality. It's more for display technologies. So not sure that we will win the prize, but it could be a surprise. There's a lot of rumors on the internet that some company called Apple is going to launch some VR thing. There's going to be... There's already Microsoft tries something, Google maybe will... Facebook changed the name to VR. To Meta. Ah, Meta. So what's going to happen in the next two, three years? It depends on 5th of June when Apple, if Apple will finally release its headset and if it will be good. So other companies that currently are awaiting will go into this industry as well. And in five years every one of us will use virtual reality to make his life more efficient and more pleased. But Apple doesn't have this? So we wait for 5th of June. Alright, it's going to be exciting to see. And cool. Thanks a lot. What else in hardware is here? What is this PCB? This is of the shelf PCB that connects display ports. We have two display ports from here. We connect them to two PCBs here. And each PCB have a bridge to link the two displays. So we have four displays here. So we need two PCBs that connect display port to two MIPI interfaces of the displays. And do you like going around here the display week? Looking at the display makers, see what's available for your next prototype maybe? Because we need to cooperate with display makers. We mapped the display options. And yes, sure we will cooperate with display makers to put more resolution, more active area of the display to get more field of view. So there's four displays here? Yes. You could have six? No need. Can you make it higher? No need. Four is enough. So four times 4K, right? In the future. So we need hardware that will drive this four times 4K. But there are tricks of making this emotional meaning of the pixels to drive less pixels and still to have a very sharp image. What's the resolution now? Right now we put 1.6K displays of 2.1 inch. So the resolution is not too high and still you can see very sharp. And in the future you will see twice sharper. Hello, I'm Mr. Beast. No, I'm not Mr. Beast actually. But if I was Mr. Beast and if I was sending you a bunch of money I would use Wyze. Wyze is a really smart way to send money around the world. Tiny little fees. Check out my video, a seven minute video where I try to explain some more. It works in hundreds of countries. 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