 Hi I'm Francesco Dotto and today I'm here with Uchishiba-san to show you solutions for robots using ST products. Specifically today we're going to walk into technologies like microcontrollers, sensors, motor drivers and connectivity. And this robot that we use as a showcase of those products will use more than 40 products, ST products, for those solutions. We'll start with some of the demo and Uchishiba-san will show the first demo using our time-of-flight technology just to start, stop and direct the motor. So the robot has two time-of-flight sensors on each side and while the robot is walking we can change the direction of the robot just getting closer to the time-of-flight sensor. We can make it turn left or right and we can even stop it through a time-of-flight sensor that is actually in front of the robot. Then the second demo that we want to show with this robot is actually the arm extension. So we have two time-of-flight sensors on each arm and we're going to make sure that the distance between the arms and the hands of Uchishiba-san is always the same. So the time-of-flight sensors can have a resolution of 10 millimeters so we can precisely set the distance of the sensor with the arm of Uchishiba-san. Then the third demo that we want to show is what we call the temperature detection. So the robot has a Wi-Fi module so it's talking to the cloud using a Wi-Fi connection and we can monitor each time the temperature of the robot. For example right now we can see that the temperature of the robot is 29.7 degrees. We are using a module within the robot that's called the sensor tile that features a lot of sensors inside. And if we turn on a fan that is right in front of the robot we will see that the temperature that is shown into the cloud in our graphical user interface is going to change. You see actually the temperature is going up and also an LED in front of the robot is going to show that we overcome a certain threat. Now if we turn off the fan we will see that that temperature is going to go back to normal and the LED is going to turn off. The third demo that we want to show is actually what we call the pressure sensor demo. So within the sensor tile module that is equipped in front of the module we have a pressure sensor. We use the pressure sensor to measure the barometric pressure, the atmospheric pressure of the robot and so we can precisely tell the height of the robot. With an accuracy they can go up to a few centimeters. So for example if we move up the robot once we overcome the threshold the LED is going to turn green thanks to the signal that comes directly from the pressure sensor. If we go down the LED is going to turn back to blue signalling that of course we are moving in height the object. Now the fourth demo that we want to show is the image projection. The robot is also equipped with a picot projector, a tiny projector from a steam microelectronics that allows to show videos or images on a surface. And that's exactly what we're showing in this moment. So there is an image picture that we're showing on the wall. As you can see the resolution is very good of the device. And also the form factor of the picot projector is very small. That means that you can integrate these in applications like small robots, domestic robots, but also smartphones and wearable devices. The last demo that we want to show is actually a demo where we are using again the time of flight sensor. Uchishiba-san is going to use gesture in order to control the robot. So right now we're making the robot turning left or right simply using gestures on the time of flight. And as you can see the robot is actually moving in the direction that Uchishiba-san is using with his gesture. So now I think it's time to say bye to the robot and thank you for having this demo with us. Thank you everybody. You can find more information about the ST products on www.st.com and feel free to contact us. Thank you again.