 So we had the ID Tech Act show and hi, so who are you? I'm Rahim, I'm from company Elasticense. So what do you do here? Yeah, we are specialized in mechanically flexible displacement sensors. So they are basically sensors that can measure positions of a structure or a machine while it's tolerant to different kind of movements. It's based on a smart rubber technology which is essentially a rubber material which changes its parameters when it's been stretched, electrical parameters and that's basically the core component in the sensors which has been measured and as you can see here that's the sensor signal. So as I stretch you can see the signal being changed and it can change in all directions. In all directions? Yeah, I mean it's because if you can stretch it in all directions it will change its signals. Is it 360 degree sensing? Yeah, I mean it cannot dissolve all three dimensions but it could certainly measure all three dimensions depending. And you sell like a kit with different sizes? Yeah, exactly and we produce them in different sizes and we also produce data acquisition units and the softwares and as you could see here the sensors could be used in different kind of applications it could be in heavy vehicles and structural health monitoring and processing machines and so on for monitoring and control of applications. And what do you have over there? Well this is our sister company. What is this? This is our sister company that produces the core rubber material. So here is for example those strain gauges in different patterns for different applications being made. Here we have the core component, the rubber strain gauge as you can see it's being stretched and you can see the signal there in computer being changed. So that is the core component now which we saw in the other sensors now here for itself. And what is this? So this is the measurement unit. It actually take the change of electrical signal from the sensors and convert it into some kind of transmittable values, digitally or in analog. And only here you have... Here we could measure up to four sensors. In the same time, yes, so they are micro USB sensors and we have them charging in output units. And you say 6th company? Yes, we are a group. This is the original company developing the core technology and then elastic senses somehow are spent out of this company focusing only on industrial applications. And you've been doing this for a long time or? Yes, we as the founders of the company have been doing this since 2008. The company has been existing since 2013. And is this world-exclusive technology? Nobody else do this? Oh yeah, there are a couple of other companies. One in the US and one in New Zealand that produce the same kind of... or use the same kind of technology to make sensors. But you have the best? Well, that's what we think. Is this a big market? Well, as you can see, the use cases for the technology is quite large. It's not confined to a single niche or a specific market sector. It could be applied in all kind of industries, wearables, industrial structures and so on. So the market interface is quite large. It looks like something that could be in a car. It can. And we already have some cases. We are working with some tier one supplier to automotive companies to integrate the technology. And what they do in the car with this? I cannot disclose how far the wheel is from... I cannot disclose that. They are under some of the A's conditions, those applications. Nice. All right. And a lot of potential... Quite a lot of potential, yes. But it's all related to this stretchable sensor. Exactly. It's this mechanical properties of the sensors that makes it quite useful in different kind of applications. It enables quite a lot of new applications where strain gauges or sensors could not be used before. And is this very precise? Yes. Our sensors there is 0.1% of full-scale accuracy. Wow. And does this look like something that's 3D printed? Printed electronics? Yes. How do you make this? Well, I mean, we have... We get supplied some silicon sheets and then we print our own conductive layers on top of it and then we keep doing it three times. So there are three conductive layers and four non-conductive layers alternating on top of each other. And the material is... Silicons. Silicons. Yeah. All right. So it's not the same you have in rubber or is it the same? Well, rubber... Some rubbers are silicone, basically. Okay. Cool. All right. Yes. Thanks a lot. Thank you very much.