 So this is a drone right here, the embedded world, and hi, so who are you? Hello, we are Isinov, we are a design house in France, and we worked for three years on a fully autonomous drone. We built all the systems, including the hardware, the flight algorithms, the planification, auto mosaic, everything. Fully autonomous? Yeah, the remote only has one button. So it's like play, pose, you just enter the area, you want to take pictures of? Is it flying? No, this one is another product, it's this one. So you have this board in there, what's it based on? Of course, it's an STM Satisu. Which one, where? It's this one. There? And then what else do you have going on here? So we have a bunch of sensors, we have accelerometer and gyroscope, barometer, communication, power, power supply. And do you have a secret sauce in the software? What's called it? How can you make autonomous drones? That's a dream of everybody in the world. Yeah, that's nine years, I'm working on the flight algorithms. I work for flight controllers for the DC market. So this is why we released the Neuron, which is a flight controller for RC helicopters, airplanes and racing quadcopters. So what's special about these small controllers that you talk about here? It's fast. What is that for? It's very, very fast. Fast? Yeah. So for example, here you have just enough of the shelf kind of helicopter or what? Yeah. Put your controller in it and then what happens? For the helicopter, the controller is between the pilot and the servomotors and it makes sure the helicopter reacts exactly as the pilot wants. So it's not about autonomy? Not on this one. It's just about fast controls? Yeah, but this is the basis for the autonomous drone. You have to be fast for it to stay in the air? Yeah, you have to react fast. Even if it seems slower, the reaction has to be very fast and accurate. So in this drone, do you have cameras and stuff like that in there? Yeah, there is a patent about this because the smartphone that you use to make the plan... You put your phone in there? Yeah, you put your smartphone inside. So you put the phone? Yeah. It's the one we provide with the drone. It's an S7 from Samsung. So it has a Snapdragon 835? Yeah. I don't know exactly but it's very very powerful and it has a very good imaging sensor. It's really enjoyed, you have the app running on it? Yeah. But the application is just sending commands to the flight controller which is inside. Based on what the camera sees? No. It's that the flight controller is fully autonomous on the control side. So even if the smartphone went to fall, the drone can still fly. But it's not based on the camera input? We use it for certain features. I guarantee that the landing will be exactly where the takeoff took place. Otherwise it's based on what? GPS? Yeah, GPS. Only GPS? Yeah. This guy there? Not only GPS because there is a huge part of the project. It's the sensor fusion between the gyroscope, accelerometer, magnetometer, barometer, GPS, everything. No other IR sensor or anything? No, not on this one. Just the GPS altitude? Yeah. And that's super accurate? There's never any issue with that? Yeah, this one is already accurate to less than one meter which is already better than the GPS alone. And we are working on a new version with the real time kinematic GPS. So you put a destination that just goes there by itself and then you put it and come back? Yeah. Otherwise it connects with LTE? No, because in France the law doesn't allow you to do that. Yeah, but you don't have to follow the law. Oh, you do have to follow the law? Yeah. You're just experimenting, you can do whatever you want. We have a specific type of license for experimenting, but still the one we are selling to our customer has to follow the rules. The limit is how far? In France it's one kilometer. One kilometer. All right, it's not possible to get more? It's locked in the software. Locked in the software. All right, so you said you have customers? Yeah. You're selling how much? Is there a price for this? It's quite cheap for this kind of product compared to the competitor. Compared to like NASA or something? What's the competitor? I mean it's more expensive than the DJI because there are more on the consumer market, which is between the mass market and the consumer. Yeah, between the mass market and the... So what is this material? It's very, very light. Yeah, it's... What is it manufactured? It's an expensive polypropylene. It's not polystyrene at all. Yeah. It's not stronger, it's very light. It's a polypropylene expensive. All right. So it's not plastic? No. And what happens if it crashes? Does it stay in there? This one fell from 50 meters. And nothing broke. Right. And the combination of three, once you turn here, is it going forward, backward, up and down? As you can see on the video, it's a very innovative structure. The fact that we really mastered the flight algorithms allowed us to make really big innovation breakthrough in the structure itself. So it's only three motors, and less motors means more efficiency. And the three motors are moving. It's like having the gimbal inside the drone, is the gimbal itself. So how much experience do you have? Has it been released? This one for a few months, and we are working on it for more than three years. You're part of the partner program, so what does that bring you? For a few months, yeah, we, Izinov is an ST partner. It provides us not only with a very wide range of microcontrollers from the lowest power and lowest cost to the very highest performance, but it's a whole ecosystem with motor control, chip and wireless. So everything we can... They're supporting you? Do you need help to do it to make it happen? Sorry? Is ST providing support? Yeah, of course. It's very good technical support. And the fact that everything comes from the same provider, it's all working together very well.