 the ID TechEx show right here with a stretch sense. And hello, how are you? Hi, I'm Shen. I'm the hair marketing at Stretch Sense. And this is Heath. Hello. Hi, I'm Heath, head of global sales at Stretch Sense. So what do you do at Stretch Sense? Well, Stretch Sense, we're a company that's really good with anything to do with body motion. So on my hand here, I have five stretch senses embedded on the fingers. And so as you can see, as I move my hand around, you get real-time information about how my hand is moving. So what's inside here? How does it work? So inside this glove, there are five fabric stretch senses running along the fingers. The same as these ones here. Right there. They're really soft and flexible and stretchable. This is a sensor. That's a sensor. It's a soft capacitor, fabric on the outside, conductive polymer on the inside. So this is your main product? Correct. So how do you do this? How does it work? How does it work? These are soft capacitors. So the capacitance on here is determined by the area and thickness. So however you deform it, if the thickness changes, if you compress it, if the area changes because you stretch it, the capacitance changes, it goes up. So we know automatically with the algorithm or something? Yeah. So in there, we've got algorithms in the circuit, some Bluetooth, no-energy connection, and it's present on the table. Yeah, Heath, if you stretch this, you can see how it works. It acts like elastic band connected to Bluetooth. Cool. And it holds the position, it holds the reading really stable because capacitance is so reliant on area and thickness and the dielectric constants, it doesn't get affected so much by temperature as there's a resistance system. Awesome. And you can put it in the legs also? How does that work? Yeah. What is that for? So the great thing about our fabric stretch sensors is because it's made of fabric, you can sew it into garments. And because it's fabric, it also strain locks at its maximum stretch, meaning you can't break it. Well, it's more resilient to breaking than silicone. So you can put in all kinds of clothing? Yeah, all kinds of clothing, gloves, sleeves, compression garments. And what do we use that for? Sportswear, smart garments, wellness devices to measure breathing, rolling, sleeping, things like that. Virtual reality to project your body into a virtual world in high bandwidth, high fidelity way so you can see your hands or legs or whatever in the VR space. You can see how big the person is wearing the t-shirt, right? Maybe. Maybe. And how about what's the... Here, it says fabric stretch sensors. You can perhaps put it in a car seat and tell the difference between a person sitting there and my briefcase sitting there. My company makes an expensive and complicated sensor to do that. And I'm annoyed every time I'm in a car, including the one I own now, that doesn't have my company's product because I put my briefcase on the seat and it thinks someone's sitting there. But with something like this, you could sense that. What's your company? Delphi. So it looks cool, what are they doing? It does, very. Thanks. All right. And what are you showing here on the floor? So this is our energy harvesting product. You do energy harvesting like that? Energy harvesting. It's our most recent product. So it's still very... In its early days. So what this system allows you to do is produce power from human body motion. So I'll show you a quick demonstration of this now. What I'm going to do is put the battery in. And this is just to wake the system up, put it to come on. So now you can see the light come on and take the battery away. And you can see the light slowly dying out. But what happens is if I stop pumping the generator, you see the light coming back on. And if I take my foot away, the light dies out. So how is that related to the other technology you have in the company? Right. So as I see it, this energy harvesting system is still in its early days. And we're currently working on making a miniaturized version of this that's wearable so you can pull it into shoes. We're also producing a stretchable mode generator that you can put into clothing, eventually where we want to get to is combine our sensing and generation technology together so we can produce self-powered sensors for wearables. And the whole idea behind it is that when you go home, you've got your phone, you've got your computer to charge. And it doesn't make sense to charge your smart shirt and your smart shoes with the rest of the gadgets that you have to charge. So with energy harvesting and self-powered sensors, you don't need to worry about replacing or recharging batteries because it's all just powered through your own body motion. So you're going to make smart shoes that just work by walking? Exactly. Well, that's what our clients do. And what we do is provide the sensors and the generators for them to do that. So where are you based? New Zealand. New Zealand. All right. So what do you think about the ID Tech Act show? It's brilliant. Lots of cool technologies here. But I think some of the technology here is really fast-forward, forward-moving. So I'm looking forward to seeing what's here next year. And potential customers signing up, right? Yeah. To buy your sensors. Yeah, lots of interesting people here. The cool thing about working at Sinsa Company is you get to meet customers of sports, VR, entertainment, consumer wellness. And they all have these crazy new ideas for using Sinsa's and generators, so. And what is that video? This video is of choice of pianist. He's wearing the same gloves that I have. And what he's currently wearing is playing the virtual keyboard. It uses our sensors along with some other technologies. And what he's showing. And tell real sense. And what he's showing is playing the virtual keyboard just with motion capture gloves. So that's an example of how with human body motion, it lets you do other cool things like music, gaming, just to control.