 And we hear the ID TechEx show. Hi. Hi. So I'm Ilaria Varoli. I'm the executive vice president for My Ant. My Ant is a textile computing platform. Our first product on the market is going to be an underwear. This is what the box looks like. And just to give you an idea, it comes with instructions. Five different underwear. A module and a charger. And it's this one here. I'm just going to show you. So what the underwear looks like. So what's special about it? And the product is called Skin. So from the underwear, we capture a very accurate ECG. We have breathing rate. We capture motion and body temperature. This is some of our other products. This is, for example, a replacement for our Holter monitor. It's a 12-litre ECG. And it will be on the market later in 2020 as well. What is happening there? This is the Holter. So does it also do all this tracking and ECG and everything? So it has, this is just a prototype. But essentially what it is, it's going to be a very comfortable wrap shirt with a 12-litre ECG. So it replaces, for example, the gel electrodes that are currently needed for continuous ECG monitoring. But ECG is not so easy to record, right? Or do you have accuracy? Yeah, it's very accurate. This is very accurate. This also, from the waistband, I think we're the only ones who can capture an ECG from a waistband. And that's a four-lead ECG. How do you capture it from the waistband? Where's the sensors? So the sensors are integrated into the band. And it's four different sensors. And this is the modules and then that communicates with your phone via Bluetooth. And then it goes to the cloud and then it can communicate with whomever you want it to, whether it's your doctor, your family, your coach, your trainer. And so the way to do ECG is that you need to have different points and kind of like do mathematics in between. Exactly. A little bit, right? Yeah, exactly. Exactly. And then it's about heart rate variability also. Exactly. We can capture heart rate variability as well. I want to show you another product over here. So this is a bra and the band for the bra is very similar to the band in the underwear so it captures similar information. We also have a headband. This is for sleep. And from here we capture an EEG as well, the ECG and oxygen saturation level. What is the EEG? You said ECG. Like the brain waves. Brain waves? Yes. How much data can you get out of the brain waves? Well, quite a bit. To give you an example, this band with the combination of the underwear or the halter that I showed you before, that combination can, for example, detect sleep apnea. So now it might be possible to detect sleep apnea from home as opposed to having to go to a sleep clinic. And can I show you one more product here? We have a polo shirt and from the sleeves we capture continuous blood pressure. Really? Yeah. So is it tight here? And it's not. No, it's cuffless. So it doesn't tighten. And what do I see here? What is this? What you see here is sensors. Again, knit it. But we also have PPG here as well, which is an optical sensor. So this is a combination of sensors. The blood pressure t-shirt, is it far away in the future? No, it's also going to come out in 2020, probably in the later part of 2020. So all this stuff is coming into mass production? Well, yes, hopefully. Yeah? So my aunt is full end-to-end. We're end-to-end, so we start from the fiber. We do almost everything in house. We have many different types of engineers. We have fashion designers. We have user experience industrial designers. And together we build, we start from the fiber and we go all the way to mass production. So the actual materials and stuff, you have the expertise in that? Yes, yeah. We think we're the world leaders in textile computing. It's a big deal. Yes. This is the next iPhone, no? Because everybody is wearing clothes and if it becomes usable to have smart clothing, it's going to be huge. So listen, this is the idea. The idea is to democratize access to technology. We really don't like the idea that, for example, elderly people or the very young or the very sick or the marginalized in our society don't have access to technology. And we would love to provide them with access and clothing is ubiquitous. Maybe you can do this right there. So you said, you write here, you say co-design. What does that mean? You can work with the clothing companies? Yeah. I mean, co-design doesn't have to be clothing only. But yes. So one of the things that we do, for example, is we partner with many different universities and we use their talent. It's partly for talent creation. It's partly to develop standards within the industry but also to be creative together. So we like to nurture ideas that come out of universities. It says 100% of the population of the body, 100% of the time? Yeah. The idea is, like I mentioned before, is clothing but textiles in general. So it could be car seats. It could be office chairs. It could be rugs. They're around us all the time. So they're around us 100% of the time. They cover almost 100% of the body. And the access is, again, ubiquitous. I want to have a smart pillow and a smart blanket in the bed. You can do? Yes. So we're working on many different products, not just clothing. And a lot of them are around the bed, the sheets, for example, mattress covers. Yes, we have pillows. Because that would be the great place to have the sleep tracker in the bed. Yeah, exactly. And what do we have here? Integrate. That's all the different things? Yeah. So again, here we show the fact that we're able to integrate any technology that the advancement in material science with regard to fabrics is incredible. There's a lot of also advancement in the automated machines. So for example, knitting machines and weaving, et cetera. So the combination of that make it possible to integrate technology in every way, shape, or form into textiles. And right here, there's a slot for the part that also has the chipset and the battery. Yeah. And how long is the battery going to last? So right now the battery lasts four days. Four? Yeah. So just charge it a couple of times a week? You know what? Every four days you need to charge it. It takes about 20 minutes to charge. But obviously eventually the idea is to integrate the battery directly into the textiles with flexible. And then you just change the underwear every day? And then you just change the underwear? And then you have for the whole week? As often as you need to. And to the app. And then you have the whole week. That's going to be cables? Yeah, that's the charger. This is the module. It's empty. Nice. And eventually the module could potentially be updated if you have a different module in the future. And you just keep the same underwear. It's going to be like a platform maybe. Yeah, or the other way around. Yeah. All right. Cool. So January 2020, what's the price? Is it already decided? Not yet. But hopefully it'll be in the way that everybody would want to have this. The combination of the integration of different types of medical devices. If you replace them, if you replace the underwear and if you compare it to any other wearable, for example, this is going to be much less expensive. Nice. And then you have some other things happening here. This is a heat? Yeah. We have a heated garment. Let me just see if I can open it. Maybe right here. But is this this one? It's that one. Yeah. Yeah. So we have heated products. These are designed for sports, but also for workwear, work clothing. It's protective for people who work outside in cold weather, for example. Where does it heat? Let me show you here. Because this doesn't have the module. So the places in the body that need to be heated are well studied by our engineers to figure out exactly where you should go in our textile programmers. This is what the battery pack looks like right now. It can heat the garment. And also we have a heated base layer bottom as well. So there's some stuff inside that does the heating in the sides? Yeah. There's conductive threads and sensors that heat the garment. You know what might be interesting also is this is a knee brace. And this knee brace is designed for rehab and pain management and that it also has electrostimulation and heat. As well as motion sensors for rehabilitation purposes. So for rehab, let's say people that have knee surgery? Yeah, exactly. Knee replacement maybe. But also for pain management in general for the elderly, not just for athletes. What does it do with the pain? Just the heat and electrostimulation together. Electrostimulation is a proven way of managing pain a little bit. Yeah. And so is heat clearly? Heat helps. Yeah. Nice. And then there's all the trackers you're talking about to show an app if you're doing the correct rehabilitation. Yeah, exactly. How soon? This? This is probably maybe the 2021. Ah, not 2020, you can't? I like to say 2020. Okay, cool. Everything could be speeding up because 7 or 8 billion people, right? Everybody needs smart closing, I think. So you'll be busy. Exactly, it's inevitable, right? Right. Thank you.