 So we're here with Magellan systems. Hello, so who are you? Fine. Thank you Yes, hello everybody. I'm a novuhiro Kishimoto CEO and also founder of the company So what are you showing here? The drone? What can you do? Actually, we are not a drone maker, but we supply GPS to this application. GPS solution? Yes, exactly. So how does it work? Yes, okay This would be helpful Especially our GPS has very accurate in positioning. So accuracy is less than 1 centimeter 1 centimeter. 1 centimeter. 1 centimeter GPS. Yes. How does it work? What is the CPU here? It's a Lattice Lattice. It's an FPGA. FPGA from Lattice? Yes. And what is the other one? The other one is a DSP And the processor is ARM9. ARM9? Yes. CPU? Yes. And also the other advantage of our Our company is the IMU. The IMU stands for Inertial Measurement Unit. Which one? The bigger board? The board, yes. And there are three sensors above the L1, GD6 module. Yeah? Yes. Three sensors are this Gyro and also the motion sensor. Gyro motion? Yes. And you can go to, with your IMU, GNSS system, you can go? Then so that super precision. Yes. So that we may output the high accurate position and also the pitch and roll and yaw. And also timing. So why is it important for the agriculture? Why is it only for agriculture? It can be for everything, no? No. Only agriculture? Yes. But not only agriculture. Everything? Yes. This is one of applications. However, for example, the agriculture needs a very, very accurate positioning. Because, for example, the distance of each plant is 30 centimeter. So in order to avoid to press over, the such accuracy is needed. Nice. And it says here next generation high? Yes. High precision, multi-frequency, multi-GNSS? Yes. That's new. All this stuff. This is the news program in this morning in Japan, just in this morning. And anyway, the QZSS is a Japanese express system. And currently, only one satellite in the orbit. However, it will be in full service within this year. In Japan? In Japan. And then that's a competitor to GPS? No. It's like GPS or the data? Using GPS and also this working together. To have more accuracy? Exactly. And one of the advantage of using QZSS signal would be the accuracy. Nice. Yes. So that would be very important for self-driving car, no? Exactly. You can put this in a car? Yes. Now we are talking with tier 1 company as for self-driving. And those are the V2X. So this is precision down to centimeter? Yes, exactly. One centimeter? One centimeter. Less than one centimeter? Yes. We say sub-centimeter. Sub-centimeter? Yes. Precision? Yes. Is that the most accurate in the world? Yes. Nobody can do more accurate? No. There are some solutions. However, using QZSS, this is a Japanese S-Bus satellite. How about the QZSS system for Europe or USA? At this moment, the Japanese government is discussing with the European Union of Galileo Society. Do you have some other systems with Magellan or what's it called? The other one in Europe. They want to do a different one. Yes, Galileo. Galileo? Yes. And you are Magellan? Yes. So yes, the whole spectrum? Yes, exactly. And Galileo has E6 spectrum and QZSS has L6. All right. So same frequency. So now the Japanese government try to share the same similar. But do you do a chipset? You make chipsets? Yes. At this moment, we are in this phase. Now we are turning this chip company regarding to RF into the chip. Then year 2018, we will have commercial. Yes, complete set of chipsets. So this is... So complete SOC? Exactly. With ARM? Yes. With DSP? And RF also? RF solution. Yes. So cool. Looking forward to more precise future. Yes. It's very, very interesting, no? Thank you so much. See, at this moment, this is 10cm x 9cm. However, we are planning to share into 1cm square. All right. So that the cores can be reduced and also the power consumption will be reduced drastically. And the satellite all four is coming next year? Yes. This year or next year? Next year. Next year. All the satellite will be there? Maybe. And also not only QZSS but also the system will support GPS, Gronus, Galileo, Beto, and S-Bus. So most of our consideration in multi-frequency.