 Well, you guys know that Steve and I went to Chile to see a total eclipse, so we like the stars in astronomy as much as just about anybody. So I'm here with Corey Lee of Celestron, and you've got an interesting product here. Why don't you tell us about it? Yes, we do. So what we have here is the world's first smartphone-driven auto-locating telescope. Oh, wait a minute, wait a minute. This is actually going to drive from the phone? Well, yes. The phone will actually provide guidance for you. You'll point out everything up in the sky, so now you can simply move it and follow the arrow that is on the screen, and once the arrow shortens enough, you'll hit the object, and then you'll tell you that there, you see in the eyepiece, take a look at it. Oh, my gosh. So we have an audio audience as well, so I'm going to describe this. So on the iPhone, he's looking at the stars in an app, obviously that is seeing it. That's not actually... The telescope is not seeing the stars right now because we're inside. That's absolutely right. So what we have done here is basically because we're indoor, we created a little demo mode. So what's happening is I'm going to move it away from the target for a second. And now there's bright orange arrows saying this is where you want to go because that's what you said you wanted to be at Delta Episcium. So basically for every night, based on the information from the phone, GPS information, time, location, so you will give you a list of objects that are the best objects you'll get under the sky for that night. Okay, so we see the moon, Messier 39, double cluster, NGC 869, one of my all-time favorites. Great, that's one of your all-time favorites. Let's see if the demo mode will actually, all the time and everything works out right. It says city viewable. So I just clicked on double cluster. And now it says locate on the phone. So the app itself will actually give you all the information of the object you're looking at as well as providing a little bit of multimedia clip, a little audio clip to give you more information about the object. It's like having an astronomer with you. It's telling you why this is cool. Exactly. And astronomer that's actually built into the app of the smartphone. Now once you're done with the information, you want to actually take a look at what object that looks, what it looks like, right? So simply press this locate button. Here, I'll get it from here. I got a better angle for you. There you go. Oh, so now we see arrows on screen and a lot of the constellations and we can now start moving the telescope manually. That is correct. So the app itself through the use of the auto sensors as well as the camera. So the camera of the phone is actually pointing at the mirror, which is actually looking at the same sky that your telescope is pointing at. Oh, no way. Okay. So the sensors itself, it helps, but then it's not accurate enough for the type of accuracy you need for astronomy. You really need to do what we call place solving, which is just pattern recognition, recognizing the star pattern up in the sky. And then once it does a bunch of calculations and then you figure out what it's pointing at. So after it does that, now it's telling us you are that far away from the double cluster. So you can simply just follow the arrow. Oh, I think I went the wrong direction. Oh, we're going to try to go straight up. We might have picked the wrong cluster. That's the problem with the demo mode, right? So I'm going to pick something else just so that... Let's pick something we can actually get to. So let's see if we... Messy A39. And that seems like a fine choice. So now we can go to the side here. So... Are you moving towards it or farther away? So it looks like it might be pretty far away. So it may seem like it's not doing much. We're going in a circle around... This is a challenging video, we're going in a circle around it. Looks like it's exactly 180 degrees, that's why it's giving us a little funky thing. So I'm going to go fast toward that side so maybe the camera can meet me on the other end. We'll catch up on the other side. All right. All right, we're spinning around. He's getting the arrows to line up there. There it is. Okay. Oh, okay, now we can see it. The arrow... That's actually a better demo, by the way, because that's what you need to know how it actually works, right? Perfect. Now the arrows are getting closer to get...or farther apart here? The arrow is getting shorter, that means you're getting closer. Okay. Right? So as you get closer to it, you actually start zooming in and showing you more of what you are eventually going to be looking at. Yeah, as we're inching closer and closer, it's zooming in as we go. That's nifty. Exactly. Notice that the crosshair just turned yellow. So what that means is you had actually captured images of the sky and then figured out what it's pointing at. When it's red, it's not quite sure where it's at yet. It's just using all the sensor information. But once it's turned yellow, it knows where it's at. So what that means is you keep going, you keep going, and it turns green. So what does that mean? When it turns green, it turns green. That means the object is now in the eyepiece. Oh, wow. You put your eye to the eyepiece and you see it. As simple as that. As simple as that. Very, very cool. So this is an attachment that's on the StarSense Explorer LT. Is that part of the...you buy a telescope with this mount? Or do you retrofit or...? Right. So it's all built in as one system. So what we really want to do as we introduce this groundbreaking technology is to provide a very controlled product for everybody. So we want to have a very good experience for the end users. Retrofit would be really problematic, I would think. At least at the very beginning. So we wanted to make sure that everybody has a good experience at first. So we decided to have a product that's completely integrated with the dock. We have tried everything, including all the calculations regarding different eyepieces and modifications. We know that it works. And here we are. We're selling the complete product. Without the phone, of course. Very good. So this is called the StarSense Explorer LT and it's from Celestron. Exactly. It was made by Celestron. Celestron has been around for about 60 years. We're introducing two lines of new StarSense Explorers. Both got the same features with the built-in app dock for the phone. One is called StarSense Explorer LT. And we have another line which is bigger, better, and it's got a little bit more control and more sturdy. It's called the StarSense Explorer DX. Oh, sorry. StarSense Explorer DX, that's a larger mirror, right? That's a larger mirror. It's also a larger mount with slow-motion control. So it'll give you an even better experience using it. This is very cool. When are these going to be available? These are actually available immediately for shipping. Nice. And what's your price point on these two models here? Now here's the thing. We wanted to make sure that we want to make astronomy accessible for everybody. So we have all these technology built in so now that you can help you find everything up in the sky, so easy, right? Everything's so easy. But then we also want to make sure that it's affordable. So that's one way to do it. Just leverage what you have already spent money on. Everybody's got a smartphone. So let's let the smartphone do the heavy lifting. So with all that said, these are actually very affordable products. This DX goes for about $400, $399. And how big is that telescope? This is a 114 millimeter Newtonian and four and a half inches. And this is a 80 millimeter. The LT is the 80 millimeter? Right, 80 millimeter. So we have a refractor. We have a refractor. Two different favors. Right, right. And how much is the Explorer XT or LT, sorry? This is about $180. Wow, that is fantastic. That's right. This is very cool and we can find these at Celestron.com, C-E-L-E-S-T-R-O-N dot com, correct? Yeah, that's correct. It's on our website. Thank you very much for your time, Corey. Thank you.