 Hi, we are today at the make-of room with Adriano. The drone project has the aim to explain to students of high school and university how they can develop around STM32, around the STMens sensor and motion control a drone by themselves with their teacher. It's a project we have developed in collaboration with the University of Catania. We have used the blue coin with the MEMS Bluetooth low energy and a lot of other sensors and the Nucleo F446RA for actuation. Everything is connected to an app which sends the command to the robot which moves consequently. This demo shows two gears driven by two marks of three-phase BLDC motors moving in a perfect synchronized way. This accuracy is reached through the usages of our evolution work. Maxon recently joined our SP partner program with a leader for high precision motors so this partnership allows STM to target specific applications, as in this case robotics. We have a new family of STM32, basically the STM32 MP1 which is a mix of STM32 standard microcontroller plus two micropossessors so high-end products inside our families and on top also these two boards with the H750 series which is the high-end microcontroller we have. Graphic inside, everything inside to run either the real-time world or the micropossessor. BLUNET is an innovative startup, ST authorized partner. Together with Mauro and PerlaTechnica we realized robotally and with robotally we bring inside the school the ST technologies in a simple way for students. Robotally is a tennis mart city in which there is a robot cart that is an autonomous driving car that is able to move autonomously inside the roads of the city. The same technologies are used in the real world and ST provides the same technology to his client. So as students programming on the ST nuclear for example learn to program with something that he can find in his future in the real world or in his professional life. So we bind the school word with the job word. It's called Automatically Call for Bikers. It's a device that automatically calls for health whenever you fall from a bike or motorcycle and you are injured. So this board can detect whenever you're falling of course but also it can detect the presence of holes in the ground and the presence of high pollution. It transmits all this information along of course when you're near the medical session using the lower connectivity. We are here because we first participated in the ST open days in Catania. We participated of course with this project and we won the prize for best team. This is an enophonic greenhouse with the cloud technologies. It regulates autonomously light and humidity and temperature thanks to these two sensors activating a led and a fan order. It shows the sensors inputs here in the display and communicates with a cloud. With the cloud it's close to communicate with the final user thanks to a bot of telegram and a group. In order to give insight on the sensor values. We participated to the Nepalese innovation summer campus which was made by ST Rectonics which they show us how to program a nuclear 64 and then we had to develop a project which was shown in the last two days of the summer campus in Nectar. For more information please visit our website ST.com