 I'm Kondo from Japan and I hope thank you very much for gathering in Venice. I'm so poor at English but I will do my best. Please associate me. It is my PENGIN LABOT team tripods. The first prize was this movie. This is the movie to get swimming with real PENGIN in the Japanese Aquarium. So many PENGIN is there. I think real PENGIN don't like my PENGIN. This is the top side. The fastest all this LABOT is about two meter per second. It is not so. It can be 4 to 2 diving. It is about 3 meters. Thank you. And also can back to the surface. And now it is popular by the children. We have many science event for the children in Japan. And we have the small one. It is more slowly than this. But it is a little bit slowly. We are the team of the LABOT. We started from 2013 when I was a high school student. We were going to the technical high school in Japan. And we measured the mechanics. So this is the graduation project for us. And we continue to develop this LABOT until today. And we are the ordinary development at Akihabara in Tokyo. So please contact me if you come to Japan. This is history from 2013. Sometimes we get some work to show our LABOT to the event. And I have the big event this summer. We will show the penguin for two months in the science museum in Hamamatsu in Japan. We are developing the penguin LABOT for healthcare and virtual reality. This is penguin, you know. Penguin is so cute and fast in the water. And everyone loves the penguin in Japan. How was Singapore? And it is a bit of a quiet thing. Besides the man, the only animal working with the two legs. So I think that we are familiar with the penguin. So if you can sing with a penguin. It is an image. But I think that everyone is happy to sing together with the penguin. This is a movie with the children. So everyone in the first is cute. But in the first part, they are so happy. It is an event for the designers, even in Tokyo. They like to have penguins. One of the children's room is swimming with a penguin, I think. But it is not an easy thing to swim with a real penguin. Because that is dirty. And it is impossible to go to the sea or the river to swim with an animal. So I think it is possible to sing with a penguin robot. It may have the effect of animal therapy. And so we are holding a workshop with penguins. With a chair. This is my workshop. We are held a workshop. The children made this small robot. It is made by Tamiya Smota. The second mission is to take existence as a virtual robot. But a virtual reality. This is the newest penguin robot. This is a virtual reality. We can control this penguin robot remotely. And the controller is shaped like a penguin. So when you are crafting the penguin robot controller, you can control the penguin robot. It is made by the internet. So the tele-existence in swimming and tele-control and existence. That is you. But the tele-existence at this point is the delay. The delay between the real and the new controller. And this penguin tele-existence is made above the duration. Because you are swimming in the water. This constant is ordinary. You have the response time in the water. So the tele-existence in the water is less duration than the regressive in land. Sorry. So you can feel less duration than the real system. An ordinary tele-existence is that you will be the human and robot is ordinary tele-existence. But then this project, you can transform to penguin. If this technology comes to practical use, you can transform yourself into a penguin. And go out to the sea from here. And when you are shaped like a penguin, animals will be really avoided you. And when it isn't shaped like a penguin, you can go to the place where you can go as a human shape. This is the newest version. It can turn quickly by the legs and head turn to this. The flipping system is so difficult to turn in. You have a movie. This is a movie from the water. This is my level. And then that is controlled by the customer from the show. It is from far from 5 kilometers. Then the customer turns his head. This penguin turns the light. And this robot has a camera on his head. This is penguin robot's camera. We are live-casting this video to the different place. And we were saved by the head-mount display. Let's see the process to the mechanics. We developed the flipping system. This is to not use a sub-motor. It is an important thing of us. The new sub-motor caused the efficient energy. And it caused... I say we use only this motor to the flipping system. We cannot waterproof the mechanics. Because if we waterproof the entire thing, that is so dangerous. So we have to waterproof so small as possible. So we can use the waterproof box in the microcomputers in it. This is the structure. The box is in the computer. Put in one board. And the flipping system is also put into the board. And this motor is put in the board. The board and the 3D printer's cover to sandwich this board. It is so simple structure. This is important to underwater robot. Because we should waterproof some components. So we have to more simply we can. The other detail is to see the other one. We are supported in a small factory in Tokyo. So we create this made by Arminio. And we design this and we order to the small factory in Japan. So it's my English so please catch on me. Thank you so much. Please pass your word. Everyone, let's leave now another round of questions to the floor. Does anybody have any questions from now on? This is the Buzzer 6. This is the first type of robot when I was in high school. This waterproof system is so poor. We into just deep rock. So distressed. The same size as this one? Yes, a little bit. Yes, because the flipping system is deeper. The second one is this. We are into the box. But the flipping system and this motor in it. The waterproof system has three versions. This is now a system. The front box in it. It is more essentially than this one. And we have... This is so dirty but it is correct thing. So it's a little bit. It's a little bit. Yes. So it's possible to take it. Yes. What is it? It's a little bit. It's a little bit. It's a little bit. It's a little bit. This is wire. It goes for the... Yes. Actually... It's a little bit. It's a little bit. It's a little bit. It's a two-iron tube in it as a wall. Yes. It's a powerful size. So... These three boxes make some... Some of them are the same. These four makes a tie. These have a bubble-drying mechanism. So... We are taking only... This. What? This? The work style. Right. So when the water flows around the... Like this glass, it creates a motion. Yes. So... It's part of the... Here at some apartments, we just... We just enjoy this. I don't really have such a long story here. But... The type, the type that water flows around at all, turns your body. So... This is a water... And it forces you... It forces you to... make this a limo. Yes. So... If it's not that small, it's not that it is small or too big, but it's more important to make it more likely to change in, control the degree of difference. And now we make a next step by the butterfly system, but I think it's more efficient way of making it. This is the butterfly. This is the butterfly? Yes, this is the butterfly. This is the end of this. Okay. When it's up and also down, what is this? Oh, this is by the head. When you put it up, it goes forward. When you put it down, it also goes forward. Yes, it is. Is it only down then? No, only up. Because the butterfly system. Yes, same. Does it go backwards? No. How fast? How fast? How fast? One kilometer per hour. Two kilometers per hour. How fast? How about in both of the countries? Nothing, nothing. Nothing in the world. Nothing in the world. It's going to stay. No. No. So, you put it with other penguins, are they disturbed? Are they doing one way or are they doing something? They are doing it. Other loving penguins? It's okay. I know it's okay, but don't like it. I know it's okay, so... Funny sound. You know it's okay. Very good. In this case, the main motor only drives the flippers. So, the head is driven by these two. The head is driven by these two motors. Is it? Yes. When this is red cloud, this is cloud-side. Because this will work later on fast, so we should have more degree than the other penguins. Which component do you build first? What? Do you build the body first? Then, you build the head and the flippers need more. What do you do first? What do you do this one first? I make the body first or the head? The body first. Because I think the early prototypes didn't have a moving head, right? They were just straight-head. Yes. How do you maintain balance? What? This is balance because I have big throats on the back. Yes, yes. This is called big throats. Big throats. Throats. So, the floor is in the body. But how do you keep the balance? Balance. Balance is not here. Is there a general school? No, no. Bidestructure. Bidestructure. And what about the distribution of the weight? I don't know. I have it. The balance? I have HPV from the balance. This is heavy as water. How do you get the control signals? Because it was verified in it. You can see the path to the computer. For the programming, yes. So, we wanted to connect the lines. How do you send the control signal? To this. By the controller, it has a gyro sensor. So, when can you do this? Because I have seen the list. I have just taken out to send this. I see that this is for the power supply. Yes. How does the signal connect to this? Where is the connection? In the ethernet cable through this. Through the second cable? Yes, through the ethernet cable. Through the ethernet. Must be another one. This one is for some purpose. We are separated by the battery. Because this system is for this motor. When this system is died by water, it can be seen. Water resistant. It is not good. Silicone gel. Silicone grease. It is a little bit. Can you see the penguin? I think it is worth coming forward. There is space here. Just come forward and take a look. Okay. You need to be shy. How is the power bank? Is it a power bank? It is for the batteries. Any other questions that we have for now? About the robot bandwidth? What is the most difficult part? Because this motor to the system, I think this primary is the middle line. Have you had any water problems? Shooting. This is so big by the water. But sometimes it can be alive. When I try this. But I think the sea water is more dangerous for them. Because of the sea. And how much do you think you have spent across these years? All the different burdens that you keep? The long? The costs? About? About 800 to us. Most of them. So the most expensive part of them? The wind. This is the most expensive part. This is so vacant. This is so vacant. So I have 5 more things. Each is how much? 35. Why is it dark here? Why is it dark here? To stick this thing. This is not sticky to the public. So now I call you then. Because the water would still cost you to come off. Over time you have to replace it. Have you talked about adapting the design into something else? Now that you have 5 units instead of a penguin, can you apply the sea turtle or other animals? Apart from the penguin, can you change the turtle? Have you ever thought about evolving it? Not first. When I was a high school student, we had to do something to make a robot. I liked the underwater robot because my senior made the underwater robot before. So I went to the upper room to pick up something. Inspiration? Yes. So when the penguin swam so fast by the splitting system, I want to know how do they swim by the splitting system. The first robot is found in people. So we chose the penguin robot. Because of the slimmer body shape, why do you choose a body shape? Because it has the slimmer body shape. This set based on the way it is made. This thing is with suit. It's for a wet suit. Can you just ask that the blue colour servos, these are waterproof servos. So have you had any issues with reliability? Have you had any issues with reliability? Have you had any issues with reliability? Have you had any problems with reliability? Have you had any problems with reliability? Have you had any problems with reliability? Have you had any issues with reliability? Have you had any issues with reliability? Have you had any issues with reliability? Have you had any issues with reliability? Have you had any issues with reliability? Have you had any issues with reliability? Have you had any issues with reliability? So we used this servo in the other side of this case. So the waterproof is most different. And this case is not much too... In this case, what will you be building next? Yeah, I think... What is the next plan for the penguin? What is the next plan for the penguin? We want to put in the artificial intelligence unit and to follow the children and previous children. And then I want to add in the appropriate patrol in the boat. So it is now only controlled by ours. But the program is such a program available to be installed into the rest area? Yeah, it is available. Why would that be ready? It is a good thing. But I want to do the first prototype within this year. But you need sensors for that, right? Because what sensors will you use to follow the children? I think, by the camera first, that the micro-sensor is existing on the land. Exactly. I was getting under water. Yeah, I was getting under water. And the underwater sensor is so big and it escapes it. So it is this plan for the lost control of the island? Alright, ladies and gentlemen, one last question in the interest of time. Opening to the floor, anybody else have questions for now? No one? Of course, let's give now for a small question for now. I want to hand over this floor, right? Of course, this is not the end of today's talk. And my name can be written that way. So only 13 of us in the group can remain the same year. And he puts the first time here at the foot of the island. I quite a few of you. So in any case, if you are interested for that, I'll be at the piano just over there in 5 minutes. So in any case, my name is Surya, have fun everyone. Thanks for coming to see me. I'll serve by the feet.