 And we're here with the UI Co. You're showing off the door-attached technology, and who are you? Hi, my name is Binay Bajaj, and I run business development and marketing at UI Co. Where we build next-generation touch-sensing technology for wearable and durable products. So right here, you have a development kit. So we have a development kit. This is a band-sized, watch-sized development kit based on our small devices. This goes into watches and bands, and I'm showing some of the watches here. So this is this band, which is the Garmin band. The algorithm can run on that part? So our algorithm is actually running on the silicon here, which is actually connected to the sensor, and then the silicon actually then sends data to the host over an I2C interface. What kind of silicon do you have there? It's a small chip. It's a small chip. It's one of our DTE 101 chip. We have four different products, DTE 101, 201, 401, and 301. And we are showing here many different products. So if you see, we have watch. It's a Garmin watch. Four-unner watch. And this is the mass production. This is on the market. This is the mass production. This is the hiking band mass production for the Chinese company called Hikling. Yeah. We have Garmin Edge, which is a three-inch screen. This is used for bike riders as a navigation device. You can put this on a bicycle? Yeah, you can actually put it on a bicycle. It works with gloves. You can actually do navigation on this. You can do pinch, touch, and zoom on the screen. So basically on the bicycle, it might rain. It might rain. It works with water. It works with gloves. We have shown many different demos where you can actually work really well in extreme weather conditions. We also want to show you. So when you're on a motorbike, you can actually use with gloves. Yes, you can actually use it with gloves. And I'll show you here. This is a Garmin chart blotter. Actually, it works really well with thick gloves where you can actually also spray water and gloves. And actually, it works with both of them. So I can spray water. And there's no false touches, as you can see. I can touch the screen without any problems showing. You can also touch the screen with gloves. And you see no problems. So water and gloves. So we do a lot of innovation in our sensing technologies, in our firmware algorithms. We also do sensor design very creatively and use the silicon in a way that all these three things when you put together, both glove touch, working with water, extreme rain conditions, extreme temperature. We are actually in markets like appliance, medical, off-road, agriculture market. We are in gas pump outside. We are doing many different things which are outdoorsy type of application. So what I'm there, it says all the markets you have off-highway appliance, automotive, all this stuff. And so basically, it's a software solution. It's software-based solution. A lot of the innovation is in the firmware algorithms. But I would say that it's a complete solution where we do a lot of work in the firmware, as well as in the sensor design, as well as how we utilize the silicon itself. So what's over here? So here we're showing a 4.3 inch dev kit with some of the integrated displays, AMOLED and PMOLED displays. This is the AMOLED 1.45 inch display. This is actually a round display. These are all integrated, touch is actually integrated into the display. Here we are showing a PMOLED display. This is a 0.96 inch. What is PMOLED? PMOLED is actually a passive matrix OLED. So it's actually used on some of these bands. The display is definitely for a very everyday consumer. Lower power, on bands, small screens. It's like a Garmin band, actually. It could also be used in something like this. Yeah, to our customers. And this is a very popular device, all these, right? So consumers are quite happy. Consumers are very excited because now bands and watches have become everyday use as you've seen. But the wearable technologies is no longer about just bands and watches. They're in coming in many different form factor, many different applications. So things like eyewear, things like body, smart clothing, head mount displays, cameras, et cetera. So do you have more and more connections here in Silicon Valley? More and more companies are considering this. We are actually seeing a lot of excitement for technology. Even at ID Tech here, the excitement has been very, very high. We've collected, we've met with many companies and we are just really, really busy here at UI phones. How about the smartphones? So smartphones, we are right now not playing because it's a very commoditized space. We definitely are thinking that we should play first in wearable, which is like an upcoming market. We have really established ourselves in the durable markets. One thing I also would like to show you is our surface touch. It's going to be right now. Right there. So one of the things that we're showing here is touch that is working with leather, touch that can work with fabric. This is very useful because as you do wearable devices, there are going to be devices where you actually are going to be body worn and your device could be under the fabric because it's leather or fabric or anything. What we're showing here is not only I can work touch through fabric, but I can actually touch through thick acrylic material. Here I'm showing I can do touch through leather. So I can actually touch through leather where I'm showing different button touch points. Here I'm touching through wood. And these are very critical for not only wearable, but also for automotive application where my touch could be behind the staining under leather or under the car seats or in any fancy designs which consist of wood. Are you talking here about touching e-textiles? Yes. Is this for e-textile business? Yes, it could be for any wearable fabric, non-conductive fabric material. Is this for touching your shirt? Yes, absolutely. This is for there? Yes. And this is for amazing architecture, maybe? Yes. So how do you start touching the furniture? Yes, you can, absolutely. And if you have touching material, we can work through wood furniture and the touch works there too. Because users might be quite surprised to see those kind of products come out. Users are very surprised. Today we had one lady who actually makes rugs and she was so excited. She wanted to actually put rugs where children play and the rugs which are interactive for kids. And she said that I actually like this. Can you actually make touch work for 0.5mm fabric? And I said this is actually 0.5mm fabric. And she said I would like to use the technology in fabric, in rugs, where it's an interactive fabric where rugs and kids can play. So you can just speed up and output more and more of your technology everywhere. That's right, yes. That's our goal. We want touch to be everywhere. Touch is actually getting everywhere. Not just smartphones, wearables, but also window screens on just everyday things in your house that we use today.