 Good morning, I'm Uri Chardo from ST Micro Electronics, application team manager inside system research and application. Today I want to show you what we are presenting for motion control application. Let me start from this demo. This is a game where you can play moving a plate and try to drive the ball from the start position to the end position. Even if it is a game you are actually using a very complex industrial application. In fact, we have four several drives that are connected with an internet real-time channel, in this case EtherCAT. Thanks to this we can achieve very precise synchronization of the axes and so we can have very limited jitter and delay. So let's move on the other demo. Motion control means also robotics and the other two demos I would like to show to you are a humanoid robot that can transform from a car to a real humanoid form and a four leg moving robot. In this case we have different boards connected together with a mode bus connection. Also in this case thanks to the precise synchronization of the axes we can replicate a movement of four leg animals. Last but not least is an educational platform that we developed in order to demonstrate a reverse pendulum. In this case this is a work done in collaboration with USLA and the students can implement different algorithms. All the platforms are built with ST reference design kit. Thanks. If you want more information you can visit www.st.com.