 So what I'm going to talk about today is the GeoNet global RTK network. And how using the GeoNet global RTK network can enhance and speed up the process of LiDAR HD mapping. I'm also going to introduce a couple of partners that work with GeoNet to utilize the GeoNet RTK network for HD mapping, and for LiDAR scanning, and for assisting in drone flight. And then I'll finally end up with a link that you can use to get access to the global network of GeoNet RTK stations. So what is GeoNet? GeoNet is building the world's largest network of GNSS RTK reference stations. We're providing global coverage, both in the EU. Here in Germany, we have about 200 stations, also in the United States, working on adding stations in India, Middle East, South America, Africa. So really anywhere that you have a job or potential equipment that needs to use an RTK service, GeoNet strives to have accurate, precise coverage for you. The service consists of both a real-time service and also RENIX files for use in post-processing, and we provide open data access to the stations worldwide. So some of the key features is that the RTK service provides accuracy to less than two centimeters, quick convergence to RTK fixed within 15 seconds. The GeoNet stations are uniform and consistent, so all the stations are the same receiver and the same antenna. Those stations include support for GPS, Galileo, Beto, and GLONASS, as well as all three frequencies, L1, L2, and L5. And connectivity to the GeoNet network is through standard in-trip, so your drone controller will already support connectivity into the GeoNet network, and that's standard RTCM 3.2. To give you an idea, what's unique about the GeoNet network is it's always growing. So people are adding stations to it every day. I'll talk a little bit about how you add a station to it. But to date, we have over 3,000 stations, roughly 1,500 here in Europe, about 1,000 in North America. And again, they're all uniformed, calibrated antennas. The majority of the stations are triple-band, and the network is monitored. Now, if in the event that there is no GeoNet station in your locality and you want to add one, it's easy to add one. You can buy a $700 receiver and add it to the GeoNet network. This acts as what we call a satellite miner, and it also provides to whoever sets up the station ongoing rewards in the form of a cryptocurrency token. We perform real-time monitoring of all of the GeoNet stations. So when you go to the job site, you can be assured that the RTK signal quality will be good and that the data will be precise. That is done by an ongoing PPP monitoring software that's measuring each station's location to within a couple millimeter accuracy and also monitoring the signal quality at all times. Any time there is any station that isn't performing to the high enough accuracy level, it's pulled offline, and alternate stations are used for the service. The GeoNet network is also very unique in providing very enhanced data security. Now with GPS spoofing and GPS jamming, it's very easy to mess up GNSS signals. So the GeoNet network takes extra steps to provide deeper level of data security in the GNSS network than other RTK providers do. And this is in form of two steps. One is use of a crypto chip inside of each station to authenticate the data and the use of the global ephemera state to protect against spoofing. So now I want to move to the use case of the GeoNet RTK network in drone scanning. And there are really two primary use cases. One is in-flight. And in the in-flight application, you're doing precise drone control and flight control. And so this is where your controller will stream data from the GeoNet network to the drone. And the drone's onboard RTK receiver will use it to do precise hover, to do precise flight. The second use of GeoNet and drone scanning is for post-flight PPK. So all 3,000 stations were saving the data at all times. And that means that you can take the RENIX files from the GeoNet network and input them into post-processing for rapid post-processing of data. The steps to use the GeoNet network on an in-flight basis, you first connect the flight controller to the GeoNet network or a GeoNet partner. So GeoNet lets partners reuse the data and provide it to customers. And I'll give some examples of that. That's through the in-trip protocol. The drone controller then streams RTK corrections to the drone. And then the drone flies with centimeter accurate control. And finally, you can add to that package an optional high accuracy inertial measurement unit that will allow for better performance in GPS contested environments. And I'll talk about that in a second as well. Following the flight, you can do the post-flight PPK to get a more high accuracy trajectory of the data that was collected during the flight. The steps for that are to download the RENIX file for the nearest GeoNet station at the appropriate time. Use post-processing software to get a enhanced accuracy trajectory. And then Geo reference the point cloud using standard point cloud processing tools. I provided here a list of four example PPK processing packages that we've worked with, including the shuttle software from GeoSun, who's here in this hall with a booth. Other post-processing options include the SPGQ inertia, Trimble post-pack, and Aplanix inertial explore. So from that process of data field collection, then you can go through and do your normal point cloud processing, colorizing the point cloud, and doing back end data recognition and AI, whatever the case may be, to get an accurate Geospatial data set. So the next thing I want to talk about is some of the partners of the GeoNet network. The first partner I wanted to mention, which announced recently support for using GeoNet RTK, is the Nello photonics. They provide a very unique high accuracy inertial measurement unit that's at order of magnitude more accurate than what's found on standard drones. And this can become important in places where the drone flight will be in a contested environment or an area with known difficult GNSS conditions, such as a lot of tree coverage, big buildings, or in areas where there might be active jamming and spoofing. One of the key things with current drone flight control systems, if there is any problem with GPS, most drones will move into a autopilot hold mode and simply land and won't let you continue the mission. So this is an important technology for using drones in more difficult GNSS environments. Another commercial partner of the GeoNet network that provides a complete end-to-end solution for drone scanning is Rockrobotic. They sell a drone scanning package. They have a cloud processing software. And their use of GeoNet network helps them speed up the time to go to the point in the field. So instead of setting up a base station, waiting for that base station to align, you can just go out and fly. And then it directly connects the correct base station data into the post-processing pipeline and really automates the process of collecting data without the need to set up a local base station. Another example, GeoNet partner is Moss Geospatial. So Moss Geospatial is a distributor in the United States of Ferro and the recipe and Stoneix hardware. They're setting up a network of GeoNet stations in Washington state and are supporting DJI-inspired three users to do rapid Geospatial data collection using the GeoNet network. Another example of a GeoNet partner is Geosun, they're here in the booth C1025. And they make a wide range of very affordable LiDAR scanners for both drones and mobile applications, as well as handhelds. And again, data collected from their system is easily compatible with station data from GeoNet, enabling rapid post-processing on LiDAR HG map generation. So I wanted to end with really a summary, which is that you can try the GeoNet network now. It's really a unique and revolutionary RTK service. And the scale of it, the number of stations that it has and the cost and affordability of it. The GeoNet is at booth A25.96. And we have a special going on at Energio, where if you sign up for the service at the show, you can receive a three-month free trial, which means you have access to all the stations globally for three months at no cost. And this is just some final project links for the GeoNet project.