 So we're here at the ARM booth here at Computex and who are you? My name is Neo, Neo10, I'm an engineer at ARM. And so you have one project you did on your hobby? Spare time? Right here? Yeah, well, yes. So this is one project we did for one competition last year. It is strength-enhancing exoskeleton. So strength-enhancing exoskeleton using a STM32F401 MCU. Cortex-M4? Yes, so that thing is right here. So that's the board. What is this? Oh, this is essentially the electronics. It's connected? Yes, it's connected to all different sensors and motors from the exoskeleton. So what's going on here? What does it do? Right, so this is essentially a microcontroller taking, you know, different sensor readings from sensors on the device which estimate the user's intention and, you know, and puts enough power into motor in order to sort of give the user enough assistance in the lower body. So how does the power work in here? Is there a motor? What is this? Yeah, essentially, you have different sensors and motor with encoders feeding data back to the microcontroller. So it's the same on both sides? Yes, it's the same. And there's a motor system in there? Yes, and these are the... How do you make this? Oh, that's a water card. Is it a water jet? It's not 3D printing? No, it's not 3D printing. Well, essentially, we made our prototype with laser cutting in the beginning. But, you know, if you want to support a user from real, you need something, you know, that's not just plastic. So essentially, we go for the water cutting. So how about you push this into much production? Do you want? Maybe one day, yeah. People need this. Some people have issues with their legs or... Yeah, I think it would be great help. And other people can show interest in terms of, you know, how to move this forward. Maybe we should all have exoskeletons and just walk faster. Yeah, that would be cool. Jump further. Like in Iron Man. Yeah, and be protected from impact. Yes. Everything. So what else are you showing here? Is this the arm embed area? Yes, this is arm embed and IoT area here. Let me just put this away. So right here is those little things. What are they? So these are the device to cloud demos. So what we have here is, you know, we have eight devices here and they have LEDs and Bluetooth module, microcontroller. And it's connected to... Yes, this is what we call the BLE Wi-Fi Gateway. What it does is it takes the messages or signal from these devices here and connected via Bluetooth and for everything to Wi-Fi and to the cloud and display the information on the screen. Right, so if we just press button here, the LED lights up and you can see the screen indicates the LED is active as well. And we can easily change the color here and there we go. And the color changes. But I guess the most important thing is all these kind of goes to the cloud and as well as going through the Wi-Fi Gateway here and then comes back here. So you only need those small things here and this small thing and they all connected on Wi-Fi and then it works. So is the device connector on the cloud? Do you have another PC or something else? No, it's on the cloud. Just the cloud with that? Yeah, that's right. So Wi-Fi? Yeah, it's Wi-Fi. So we have it could be a Gateway, low energy Bluetooth Gateway. Yes. Is this it? What is this? I think that's the future version of what's equivalent to the BLE Wi-Fi cloud here. So this will be like this? Yeah, I mean this is a Raspberry Pi hat, right? It's a hardware add-on module sort of thing. But essentially it can shrink all the functionality into that little thing. You plug it into the power and then you access a Gateway. Do you work on this? Yes, that's definitely a company. So what does your company do? My company is doing the BLE development board. BLE development board. Yeah, yeah, yeah. So is this the BLE Nano? Nano, yeah. It's very small. This small? Yes. How can you develop stuff with something so small? The tube inside this module is Nordic. I'm Nordic. Nordic Cortex M0? M0, yeah. So BLE tube. BLE chip. How do you connect to it? This is connector zero? Yeah, so you can use embed online compiler and compiler source code. Then you load the binary into the chip. So you can power this BLE. Nice device. How much it costs? Is it for sale now? Yeah, yeah, about $20. $20, yeah. And you have many developers using it? So many. Is it very popular? Yeah, yeah, yeah. How many? Secret? No, no secret. Where are you based? Shenzhen. Shenzhen? Yeah, yeah. So is this... How old is your company? Around four years. And you always do BLE stuff? BLE Wi-Fi. BLE Wi-Fi? Yeah. And what's in the future? More product? Future, maybe... Our focus is Wi-Fi and booting. Cool, yeah. That's awesome. All right. You like embed and the device connector is a good platform? Yeah, yeah, yeah. I think so. It's the best? Or can you improve it? Can you do something better? Arm should do something better? Yes, I think so. It's great, okay. Cool. Can you show this one over here? Of course. All right. It's where we came here. So this is actually a commercialized product. It's a commercialized company's demo. One of the smart city applications actually. So you know, every time we are trying to build buildings, right, we have to use concrete. And if there's only so much concrete, you can pour on your building at any given time, because when concrete hardens, it heats up. And if you pour too much of them, they crack. So that's not what you want. And what usually people do is they pour the concrete and the weight and they pour the concrete again. It takes a while and it's not the most efficient use of the time here. So if there's a way to sort of measure the temperature of the concrete in real time. That's concrete. Well, I thought it might have been milkshake or something. That's somebody left. I was just about to remove it. That's still Paris here. All right. Yes. So essentially the same principle, that heat up as they hardens. So that's the simulation of concrete, essentially. Right. So if you can move into temperature in real time, as shown in the graph here, they essentially, you know exactly when to pour the next layer of concrete. All right. So this is actually going sensor into the sensor hub and using the low energy, low power, long distance communication, six low pen and stuff like that to the central hub, which goes off to the internet. And goes to the cloud and shows. So this is also the device connector? Yes. Everything there. So there's a lot of real products using the device connector already? There are some products there. Or is it something that's starting? That I'm not too sure of. I will have to double check with you. Okay. Yeah. And this is IBM over here? Yes. This is multi-tech. Yeah. But this might be the IBM BlueMix cloud weight. And this is the hitting the ground head. Yeah. Have you seen that already? Yeah. Okay. It was in the arm in George Clooney. Yes. It's part of this demo. All right. And there's more arm embed right here. Right. So our partner sort of made this small lock demo. It's quite straightforward. We sort of just press unlock here and just go into wireless and unlock it for you. Nice. Yeah. And then you just close it. Is this part of the solution there? Um, yeah. Not too quite sure about that one. Yeah. Okay. So we're there lock unlock. Yes. And then you lock it back in. All right. Yeah. Cool. Okay. That's a lot of new arm embed stuff. And this is very cool. What is this? This is a demo book for the Billy Nano. So the Billy Nano is right here? Yeah, yeah, yeah. How do you connect? This connector right here. Yeah. You have other demo boards? You have many different demo boards? But people can develop their own. We have some Wi-Fi board.