 So thank you, everybody, for being here in this late afternoon. I'm going to explain to you today our text guide technology and how we use it for the Asia Minor GNSS Network Donation Project. So as everybody knows, in Turkey, this February, there was this devastating earthquake. It was the strongest since 1939 with a magnitude of 7.8, more than 50,000 casualties, and 1.5 million people are homeless now. And we, as a GNSS company, we thought, how can we contribute to them? How can we help them? Especially because the damaged area was more than 350,000 square kilometers. And it's getting more and more dangerous. Yesterday and the day before, we had earthquakes in Afghanistan. Also a couple of weeks ago in Morocco. So how we, as a GNSS community, can help those people in those areas. As you can see here, this is the tectonic plates in Asia Minor. And why this is such a dangerous tectonic area. So we have in the south the African plate and the Arabian plate. They are pushing to the north. And in the north, we have the big heavy-uration plate, which is not moving at all. So those two plates are squeezing in the Anatolian block and pushing it to the west. Like this, we have several very dangerous faults. We have the Dead Sea Fault in the south. In the middle, we have the East Anatolian Fault, where the last earthquake happened. And we have the North Anatolian Fault. And this fault is actually the most dangerous, because it's going right through Istanbul. And there is just a recent study that next time, when there is a big earthquake in Istanbul, more than 40% of the city will be flat. And here on the right side, you see on those faults, all the big earthquakes are distributed. So how can we help? We developed with Texplor Geontech, our TexGuy software. With this software, we can measure together with our TexTant systems on the ground in millimeter accuracy and precision X, Y, and C. And we thought about, how can we help them with this technology? So this technology is made to support governments, emergency management, and disaster response teams. We have, as you see on the ground, our TexTant. We can connect it with up to four antennas. All four antennas will give millimeter accuracy and precision to the box. And the box needs only power supply and internet connection. With this internet connection, it can do the processing of the data. So we reach with low-cost receiver and antennae higher accuracy comparable to IGS stations. Those data will be sent automatically in our TexGuy monitoring cloud. And all the clients have access to it. They get the data on their phone or on their laptop. But how really is it working? So in our box, our software, everything is done automatic and autonomous. So all the data is collected autonomously. We don't need any technicians, no people, no scientists, and automatic PPP data processing. This is unique. So we are the first company who achieved this one. The clients will get daily process data with millimeter accuracy and precision. And we can connect to our cloud as many TexTants as you want. So it doesn't matter. Everything will be done. Everything will be in a database with one time scale. And you can have as many points as you need. We validated our millimeter accuracy with the GFZ. We tested our, so we are from Potsdam. And the GFZ is two kilometers away from our office. And they have an IGS station on their roof. We tested our TexTant 23 days on the roof and compared afterwards the data with our data. And we matched it. So we have the same accuracy and precision as this IGS station, but with low cost receiver and antenna. So here you see the TexGuide CNSS network world map. We already installed in France and Bordeaux. Another system is in the Netherlands and Brita. One is in Germany on the roof of the GFZ. And one we have on the Hoewarte in Vienna. On the right side, you see the Asia Minor. You see the tectonic faults. And here we already installed one system in Adana in Turkey. But still our idea is to track with our TexTant network the movement of the tectonic plates in millimeter accuracy and precision. This has not been done before, especially in such a cross-border, especially not cross-bordered. So this is the first cross-border CNSS network in six countries in Asia Minor. We are in close contact to every government. And everyone decided to share his data, but also get the data from the others. So we will do this year installations in Syria, in Lebanon, in Jordan, in Saudi Arabia, and in Egypt. And we can also combine this with seismic data. And who knows, when there will be a next earthquake and we have set up our network, we might see patterns which might be very valuable. Here you see our first donation in Adana. So we presented it. In February, there was the earthquake. And two months later, we've been in Adana. And Adana is very close to the earthquakes. And we donated it. And they instantly installed it. And this was the first step. Here you see the correlation between the movement and magnitude. So after we installed it in April, our system plots automatically the data. And we can compare it with low magnitude earthquakes. Here you see there's no major happening over five. But this is already valuable data. But to maybe talk about earthquake prediction, we need on each plate a textant even more. And we have to see if there is a pattern before. Compare this with our x, y, and z millimeter accuracy position and seismic data. We use the center point mapping. So in Adana, we already installed our system now over six months. So we take the most accurate point in one month. We plot it for each month. So you see April, May, June, July, August, and September. And with this one, you can track the movement of the plate with one point. This is already very helpful. But still, when we have set up our whole system, we will have the most valuable data in this area. And maybe we can see also patterns. So how it looks like. All the people contributing with us and partnering with us will get an automatic, will get a password connected to the email. And they will have access to our text guy cloud. So there's no people in between. We set the system up. We need internet. And everything will be done automatically. There's no people doing any processing. You get every day your x, y, and c in millimeter accuracy and precision. This is how our database looks like in the cloud. You get x, y, and c. And you can automatically see the graph. This looks like this. And you get this for x, y, and c. And when you have several antennas, you have one data set with one time. And you can compare them easily. So what's the workflow again? So we have the automatic data processing. Data acquisition is automatically. Processing is automatically. And the analyzers will be automatically by our software. The clients get a daily millimeter location data uploaded automatically to the cloud server text guy. And everyone who contributes gets access to the results. So the donation is already set up. So we decided to donate eight textons in total. Two will go into Turkey. So we have one in the Anatolian plate and one in the Again plate. In Syria, we will have one in the Arabian plate. In Lebanon, we will have two, one on the Arabian plate and one on the African plate. In Egypt, we will have one. In Alexandria, in Jordan, we will have one in the Arabian plate. And in Saudi Arabia, we will have also one in the Arabian plate. When we have set up this system, we are very confident that we can see the movement of the plates. And unfortunately, we have to wait for another big happening. But when we have this, we might see patterns weeks before, which are very valuable when we talk about the big goal of earthquake prediction. So our project schedule is like this. In February, the earthquake happened. In March, we presented our donation project. Turkey instantly installed it in Adana. Now we're setting up the network this year in Egypt, Syria, Jordan, Lebanon, and Saudi Arabia between November and December. And in December, we will have completed our HNSS stations. But we don't plan to stop here. So there are many other areas in the world. And also, the more Texans we have in this area, the higher is the accuracy, the more data, the more valuable. And especially, we focus at the moment on Istanbul, because when there is a major happening, it would be, first of all, very interesting data, very valuable. So thank you for your attention. We are in the hall 5.2A when you have any questions afterwards. And we would be happy if you join the words. Maybe people want to join us. Thank you.