 I'm talking to Dr. Travoo of Omnilabs right now, and there's some crazy robot, and the CTO, Jared Goh, is waving his arms around here, and the robot hands are moving. What is going on here? What are we looking at? We are looking at custom-made robotic arms that we made all of this using 3D printing. And we built 3D printers themselves, and then we print these robots. So our CTO here actually just put this together in demonstration to Toto at one point. But now we are taking this product, and we are implementing it across the board for so many usage. Okay, so Jared has, this is audio also, so Jared has two little controllers in his hands. He's moving them around, and he's manipulating a robot, a couple of robot arms here. So what is the use case, this is for an accessibility standpoint? Can I reach? Yes, over here. So for us, robotics in the future is all about affordability. To solve the problems that really affect the entire world is all about how cheap you can make the solutions. A $20,000 robot arm is not gonna get into homes, but one that's like 1,000 or 2,000 will definitely. So our approach is to really push the envelope with what you can do with 3D printed robotics and get these solutions with the hands of research labs around the world, corporations doing all these things. We have clients in Japan who want us to do cleaning tasks with this arm and all sorts of things. And then we really go from there into all of the sort of assistive tasks, taking care of aging, grandma's in the home, taking care of sick kids, allowing them to live a life outside of being stuck at home and all this kind of stuff. So I think that's only possible if these robotic arms can become more affordable. More affordable, it's the key. I think it's our big passion, see robots everywhere, but actually helping people, not just taking away jobs or anything like that, really helping transform everyday lives. These look fairly simple. I just see a bunch of joints and cables pulling back and forth. A lot of ethernet cables and a couple of circuit boards, right? Not that much to it. Not that much to it, but a lot of design goes into it actually. So for example, the cables, picking the right material, all the joint angles, the joint strings, and a lot about motor control. So our philosophy is also for robotics companies, it's better to solve the problems in software and have very simple hardware. Then your costs are much better than super expensive custom. It's easier to fix software later. Totally, totally, totally. So at some point, these robot arms would have fingers and things and be able to hold onto the broom for me? Totally, this one's a wiping demo for one of our clients. So that's like a green cloth, it's actually a spray. So we were wiping a whiteboard and other stuff, but we didn't hook it up to anything here. We don't want to spray anyone by accident. You can spray perfume. Yeah, that's a good one. And while people at TES start to smell bad, it might be good. That's a good one. We're thinking happy hours. Something like that, you know. So yeah. Well, this stuff looks really fun. So if people want to learn more about this, where would they go? They would go to our website, www.omni-labs.com. It's O-H-M-N-I-L-A-B-S.com. Very cool. Thank you very much for your time. Thank you very much. Thanks a lot. So much, Anderson.