 So here's the rotor caster. So how does that work? It uses rollers on the outer perimeter of the wheel to provide secondary directional control or capability rather. Nice. There we have it here. Do you want me to move it? Yeah. Can you come towards me? So it goes in every direction? Yeah. And all of these are turning or are only the other ones? The ones in contact with the ground are turning. Alright. So where are you from? Australia. So what is the technology that you do here? What is this? It's generically known as an omni wheel and there's basically two types of wheels in the world that allow 360 degree movement from a fixed axis and that's an omni wheel and also a meccanum wheel. I've seen one of those on the Honda sitting wheel. That's quite a complex technology. These are quite a fundamental type of arrangement. They're generally developed out of the conveyor industry for conveyor transfers. So it's already mass production? Yes. And can we lift this up? Yeah. So right here. Oh, this one over there. So basically it goes in every direction? Yeah. So it has a full 360 degree capability without any real restrictions. So you can go this way? Yeah. That way. Right. So it has three predominant product market groups that it caters for. One is a generic or an alternative for the swivel caster and it's one of the only omni wheels in the world that's actually developed to be a floor wheel, a real floor wheel, whereas most of them are fairly still conveyor wheels. But this also seconds as a great conveyor wheel because it's quite robust and takes a lot of impact. And thirdly, the robotics market. So I can show you this one. This is the robotics conference right here in Seattle, right? So lots of robotics makers need to consider this? Yeah. You know, with the growth in service robots, it needs the mobility of a human. This is pretty advanced. You're not going to fall. Whoa. What's the limit in weight? Well, the wheel will take a lot, you know, three times or four times my weight. So like Americans, it's okay. Yeah. The motors on these and that are generally, this unit's geared less weight than I over my... But this is only okay indoors, no? Preferably a flat surface. Yeah. But they're used on materials handling equipment out in the streets on curbs and asphalt and concrete. How about push wagons in supermarkets? Yeah, we've tried that. We're still to break through there, yeah. It's a fairly commoditized market. So it needs to be very cheap. It needs to be very affordable to get in there. But one of the big benefits is its tracking capability. You know, where a caster might float around, this will track very straight. So when you turn it, it actually turns rather than you've got to wrestle it. It's a big deal for the robots to be able to turn smoothly. It's very important. Well, yes. Because what you see in a lot of the robot, service robot industry at the moment is the push to make them as interactive with a human on the same level as a human. The one thing they haven't done yet is that fluid 360-degree mobility that we exhibit. I was doing a video conference with a telepresence robot and the guy couldn't turn around to go back. Exactly. So it would be easier with your solution? You can see this work. If you watch this, it can do pretty much. It's smooth. So once I set my north here, I can turn the same way. And you control like this? So it's smooth? Yeah. All right. And you can put them on the chairs? Yeah. What does that do? In this video, you'll see a chair by Eshla Tech out of Spain. A printer out of Israel. I've seen that one. Superlabs? So does that mean the printer uses our wheel? That's how they move around on the paper. We built this wheel based on what their requirement was. Nice. Lego, robotics, and Festo, Germany. This is a real robot? Yeah. All right. So how much for those wheels? They vary. These are around the $20 to $30 depending on the configuration. And we also do a three-rim one. So this is a heavier duty. They go into the $30 to $40 mark. And down to $6. Where do you manufacture? Australia. Australia. Yeah. And the US at the moment, but mainly Australia. How many wheels have you done so far? Oh. A secret? No, but it's in the hundreds of thousands sort of things. So since when? We've been running about eight years, but we're starting to pick up. We're getting a lot of interest from key OEMs in both the medical and different areas. Cool. So I'm looking forward to these smooth robots.