 All right, we are in serious drone land right here. We're in the drone expo hall at NNAB. And I'm with Donald Scott, CEO of Taser Robotics, which is a research arm for DSLR Pros. Hi, nice to meet you. All right, we're standing in front of a drone that's in a bucket of water here. What on earth is this? So what you're looking at is actually the first waterproof take-off and landing drone with a three-axis waterproof GoPro gimbal. You can take off and land. It's got a smart battery. It's sealed. You'll actually have 1080p, 60 frames per second, near zero latency HD transmission at 1,000 meters. It's all custom-made. We have a patent on it. It's made out of a special. We manufacture it in a machine that's three stories tall. I can't disclose how we're doing it yet. But in three to four months, you'll actually see the production version coming out. But it's going to be the only drone on the market, smart battery, three-axis stabilized waterproof gimbal. You can put a GoPro in it. We also have a thermal and infrared camera that you can mount below it as well, too. OK, so this is not made to film underwater. It's just made that if you happen to land on water, you're not destroying everything you own. That's correct. We work with a lot of National Geographic filmmakers. And one of the biggest complaints is they're flying over water trying to get that seal shot or that shark out there. And the drone sinks into the water. They lose the shot. What we've done, we've been inspired by that situation. We've actually developed this drone. You could actually, the gimbal will work underwater. And you can actually tilt it. But once it reaches a certain hydranine pressure, it will automatically shut off. So you will be able to get some shots underneath the water and take back off, stabilize the gimbal, and actually get your shot again. So this doesn't have props on, but I'm looking right down into the motor, and I can see the windings. How is that going to not get wrecked in underwater? Right. So these motors are actually inherently waterproof because they are brushless motors. There are no staters on there. So the water, if you look at the coils of wire, they're actually, they have a special coating on it. So they're actually waterproof. OK, all right. So you do happen to get water in it, salt water. You want to take it just like you're on a scuba, like if you're going scuba diving trip, you want to take it, dump it in fresh water, shake it out real good. Make sure you get all the salts out, and you're good to go. Let it air dry, and you should be fine. Wow. Definitely don't let that sit in salt water overnight. All right. The other thing Steve wanted us to talk about was we're going to walk inside the booth here and go back in. And this looks like a, this looks like a plane. Let's get around here to Steve here. So this one up here. It looks like a plane, but I see propellers on the front. What is this? This is actually a unique, exclusive version of the bird's eye view, vertical takeoff, horizontal flight aircraft. It'll fly for about 45 minutes. It can carry a payload of a GoPro on a three-axis gimbal or a thermal IO core, which is similar to this drone that you see here. That's a thermal camera and a visible camera. For 45 minutes, takeoff and vertical landing. So if you're doing like a damage assessment, for example, you can take this plane off, map hundreds of square miles, land back again, take the data, and provide it to a first responder. So a helicopter or quadcopter, by definition, is a vertical takeoff and landing. Why do you want to do it on a plane? By doing this, by using this particular configuration, it actually allows you to fly much further, more efficiently, than a normal multi-rotor. That's what I was going to guess that was the answer. But that was what I wanted to see. So this thing has a wingspan of about four or five feet there. Correct. Roughly. And it's set up as a Y6 configuration, beautiful, low-cost solution. We will have a carbon fiber version coming out probably early next year. So that'll be out later. And it'll be more industrial applications, commercial applications. What kind of range can you get with that? Well, it's a function of your flight time, your battery. It depends on how many times you're going to vertically take off and vertically land. But 45 minutes of flight time traveling at about 45 miles an hour. That's a pretty good range. Yeah, that is good. All right, so the company is Teizu Robotics. That's T-A-Y-Z-U Robotics. I think I mispronounced it at the beginning. But DSLR Pros is the parent company? That's correct. DSLR Pros is the parent company. Teizu Robotics is the R&D arm of DSLR Pros. OK, where could people go to find out more? Teizu.com or DSLRPros.com. All right, thank you very much. Appreciate your time, Don.