 Hello my name is Jeffrey Martin. I am the co-founder CEO of Mosaic. There should be a video that will be playing soon. So our company is based in Prague in the Czech Republic. A little bit about me. I've been involved in 360 degree imaging since 2004. I created one of the internet's first websites combining maps with geo-referenced photos back in 2005. And then I started my first company out of that which predated Google Street View by a couple of years combining the world 360 photos with with Google Maps. There's me without any gray hair just to show you how long I've been in this game. So after starting a company building VR virtual reality cameras for cinema in 2015 I pivoted and started Mosaic which is building the world's best mobile mapping cameras. We found a gap in the market where there was a lot of activity in the geospatial space but there were very very few actual solutions for making the images themselves. We've been shipping our cameras since 2020. We're a bootstrapped company of about 20 people and since 2020 we've grown to the point where we're shipping cameras to over 50 countries in the world to some of the world's hottest, coldest, dustiest, bumpiest places. We have not yet had any cameras returned to us for any functional RMA issues. So we build truly durable cameras that can withstand all of the elements. We are also integrating our cameras with some of the world's most respectable LiDAR companies including Regal and Trimble. We're also talking to Leica Geosystems about the same thing. We've been integrated with Regal for about a year now and we have quite a few of their customers all over the world who are combining our cameras with their systems. Essentially what they are using our cameras for is to color their point clouds. So we connect our camera to their LiDAR with our auxiliary port which allows the Regal device to tell our camera when it should supply images to the LiDAR in order to create a colored point cloud and we've gotten the synchronization of this down to a few hundred nanoseconds. So this allows extremely accurate coloring of point clouds. What you see here is a nerf, a neural radiance field that was made with our Viking camera. The Viking camera is the world's highest resolution mobile mapping camera at 186 megapixels. A neural radiance field if you don't know is similar to photogrammetry but not the same. It allows a much better representation of like a fly-through video kind of thing. This is Prague Old Town Square. This was made entirely with photogrammetry without the use of any drones or LiDAR. The accuracy of this is sub-centimeter and we're very proud of the fact that we're able to create extremely accurate photogrammetric models using our cameras without the use of additional sensors such as LiDAR or drones. Although you can of course combine our camera with such sensors. We've in addition to working in the geospatial industry we've been doing quite a bit of work in the visual effects industry which is starting to I would say merge in a lot of ways with the geospatial industry. They have a lot of similar demands and use cases in terms of duplicating the real world to a sub-centimeter accurate 3D model for the use of visualizations. This 3D model is a cathedral in the Czech Republic that was captured in six minutes time again without the use of any drones or LiDAR. So in six minutes we were able to create this extremely accurate 3D photogrammetric model that would normally take you know many hours in terms of data collection using either traditional photogrammetry techniques or terrestrial laser scanners or things like that. As you can see the mesh is extremely accurate and can allow measurements for the purpose of you know heritage applications reconstruction and things like that. Our most popular camera is the Mosaic X which combines six 12 megapixel global shutter sensors in an all-in-one device that's about this big about the size of your head. In contrast to other similar products such as the ladybug six it is a completely standalone device so it has its own computer inside it has its own GNSS device it has its own IMU and its own storage device so it does not require the connection to any other external computer or device in order to be completely operational and this is quite a contrast to other similar products on the market. This allows a real one-person operation where in you know similar mobile mapping setups you typically have at least a couple of people who need to take care of all the equipment and the car and the mounting and the dismounting our solution is extremely easy you connect the camera to the car you connect the power and you turn it on the the web UI can be controlled by your mobile phone and it allows the real-time monitoring of of the images as well as the GNSS status the storage status and things like that. The images can be auto exposure or manual exposure and the triggering of the camera can be done by an external device so you can connect an external device to the camera such as a wheel encoder an external lidar or an external GNSS or you can have the camera itself do triggering by its internal GNSS allowing you to trigger an image every meter or every five meters or every 50 meters or what have you. You can also do a constant frame rate in the case of GNSS denied environments. As far as the GNSS goes the GNSS device inside our camera is a standard one but we have integrated with other external devices such as Trimble and M-Lid allowing RTK accuracy. Our Viking device our Viking camera as I mentioned before it's the world's highest resolution mobile mapping camera at 186 megapixels and this allows 20k resolution panoramas. This device has been used extensively in Scandinavia for mapping various cities in Finland and Norway as well as in the United Kingdom. This device is a great pairing with high-end lidar such as Regal or Trimble if you want the ultimate accuracy in terms of laser accuracy and image resolution.