 So, here at Embedded World 2019, and hi! Hi, my name is Michael and I'm working with company Muroses in Germany and we are a part of the development family of D-Space located in Germany. What is D-Space? D-Space is a company that does extremely high precision hardware in the loop systems and system in the loop systems and they are one of the market leaders providing such hill simulation tools for the automotive market. Hill simulation? Hill simulation means hardware in the loop. It is, more or less, to say it in simple words, bring the reality into the laboratory and do the simulations in the laboratory. So, is this your machine? This is the machine that we developed together with D-Space. That's a very nice machine. What can you do with this machine? It's called, first of all, a radar echo simulator. Normally when you work with radars and you have to test them, you would like to test them in distances 100 meters, 200 meters and even longer for automotive applications. But it's sometimes more easier to do all the tests in the lab. So, is this the one here also? This is the one that you see here, operating here. It's in a live demonstration mode. What is it taking a signal in? It's receiving a signal from a radar. It receives it, it modifies it in a digital domain and sends the signal back. And here in this high speed processor, we are adding additional delay to the radar signal. And if you allow, I would like to show you here on the screen. Currently we have configured our target simulator for a simulation range of 180 meters. Let's have a look, what is the radar sensor detecting? You see on the right, this peak shows at 180 meters. So, and you see only the distance is, let's say it's an inch, 30 centimeters away. Just to show that it's really operating, I would like to add another range value, let's say 66, because I like the route 66. Let's do the following here. Enter range of 66 meters. Look above what is happening. Just in a few milliseconds, the detected radar accu is at 66 meters here. So, is this for which industry, the like the automotive? That's for the automotive industry. It's for those industry that are producing radar chips, those industry that are producing radar sensors, and also for all the car manufacturers. And you know the key word from the press is automotive driving. And here you have, what is this? This is a very special and I can recommend it. It's a so-called experimental radar platform. This radar platform has two PCBs. The key one is with all the radar chips in the antennas on this side and on the other side, there is all the control logic and the signal processing. So, it's made by this company right here. It is made by a very famous Austrian company called INRAS Industrial Radar Sensors. And it has a Torx module right here. So, maybe I can jump into it. Exactly, Daniel should say that. So, your module isn't this device? Yeah, exactly. That's one of the applications. Our modules are used, radar systems, and you can use here. They used NVIDIA, Tegra 2, that's a dual core Cortex A9 for the processing on their radar board. So, this company there just buy you a board and they're able to integrate it? Yeah, so we really make it simpler for people like that, even like experimental radars. It's very easy to get started, but you get an industrial module which you also can use in automotive applications. So, the Torx is perfect for experimental stuff? It is, but it's not just. They're probably going to deploy that in an automotive, maybe they do some tests, extend the temperature and all that. So, people like to use it, but it's mostly because it's easy to use. But our target is really volume production, things which actually get deployed in higher volumes from a few hundred to a few ten thousand a year. Alright, and so, it's been stable to work with this board right here? Extreme stable, so it's operating almost 24 hours a week and actually I'm using this demo platform since many years now. Really very stable and I can recommend it. Easy to use, plug and play. What do you need more nowadays?