 to have your own farm, but you're just a little bit lazy to make everything in your farm. If the answer is yes, then me and you are the same. So as you see that there is our local and like the trademark labels, which is Transformer, and the concept is that we make agriculture do more. Before we go deeper than that, let me introduce myself officially again. Oh, sorry. So my name is Nontwit Makjan, and this is our team. The top one is our advisor, which is Dr. Thanakorn Jainawasin. The left most is Supanat Tantiamon-Pong, who is the hardware developer. The second one is Nathapong Malawet, and he is also the hardware developer. And I don't need to tell you where am I, right? I'm the right most one, which is I'm the software developer who take care of the application and server. So we come up with the four main problems that we see in Thailand. In the agriculture, we see that we spending too much time with farming activity. So back in the day where I was younger than this, my parents and my grandparents are farmers. They have to prepare the tools, the equipment to make a farm in one day, and they spend half of a day on it. It is okay if it is back in the day where nothing is hurry than today, but when the time comes and everything changed into the modern world, the world's run very fast, and we have to compete with the other with the time. So time is one thing that is the crucial part of every production. The second one is the data tracking. So back in the day again, when we have no sensors that sense any environment status, we can, the farmer in that day just like the estimate what they have to do. Like they will remember the value of the day that they will harvest the product. That it, they will like estimate the day about one month or two months and collect it. But what if we drive the system by the data? So if we attach the sensors from our assumption, it will track the, like the essential value which is temperature, humidity, brightness, pH value and so on. So we can use this data and calculate and find the best action to do with our farm. The third one is planting and accumulating quantity. So back in the day again, we do the farm by using the people, the power of human. But when the machine comes, it takes advantage more than human because they don't know how to tie. And like all of us know that the machine works better in the repetitive work. So we try to apply the machine to it and you will see what is the machine in this case. And because all of these three problems will make the advantage in competition. So if we access to the technology faster, the more advantage we will gain faster too. So what are we going to achieve is create the solution that I have mentioned in the last slide, a last page of slide and distribute it all around the world. So let me recap again. This is the transformer which is the solution in the team name of Smart Factory. We are from the, you would like to know how we apply open source to our project. There are three sections in our farm. So the first one is hardware, which is the infrastructure of the farm. We make the nutrient, nutrient film technique or NFT hydroponics. And we make the fertilizer and water that balance. So we call it tank balancer. So it will mix the fertilizer and the water in the appropriate ratio and feed to the system that show in above. Yep. And in the infrastructure that you see here at the top, it will attach with the sensors that will receive the institutional value such as temperature, humidity, and brightness as I have mentioned and transmit to the server. We use two platform with Google Firebase and Node.js, but we mainly use in the Google Firebase because it has more modules and function that we need. Let me say this. Google Firebase is the one platform to make web application and mobile application that provide by Google and it has a lot of service like authentication and real time database, which are the things that we use. After that, the server will send the data to the application part, which is our mobile application. We write it with the Android Studio, the Java one, we make a native. So you will see the flow that it will transmit, receive, transmit, receive, which make the flow complete. So in the hard web part, we make the sketch up for like, decide the infrastructure and use the Arduino IDE to make a controller. So you will see here that we use this actuator and controller and the sensors here. The top one is the controller that is the NodeMCU. It has the shape of ESP8266 that can make you connect to the internet. And we connect the NodeMCU with Arduino Omega. The Arduino Omega will connect to the relay. The relay will tell the actuator, which is motor, the water pump, the light to work. It also connects to the sensor, which are the humidity sensor, IR sensor, water level sensor, and the missing one, I'm not sure what it is. And of course, it will connect to Arduino or Node to drive the server motor. So this is how we work. I forget to tell you that our project is make it in one month for going to the competition. And it's like everything is fastly set up. So as you can see that we connect the part of the PVC pipe and the frame, the metal frame, as you can see. We use the screw ball to make the, like the mechanical arm. So when it is, when you want to harvest or plant, the motor will go up and down and left and right by the screw ball. So the mechanic will like, it will rotate here and it's like going up like this. So if you go to the barber and you see some like, some cylindrical that is rolled up, it has the same mechanic as it is. And the final one is like it has the mechanic arm here that can keep and pull it out. So you will see that we, we install the frame and connect with the server which drive by the, I don't know, as I have mentioned here. So it have the mechanic that can, as you can imagine. And now this is the part to, the part that we install the tank balancer which will mix the water and the fertilizer in the appropriate ratio. So you will see here. And the final form is like this. This black bucket has the fertilizer of A and B. It is the chemical fertilizer that is called A and B. Yeah, and mixed with the water here and feed it through the PVC. Okay, and now it is my part which is the server. So this is the, like the fibers. The fibers look like this. And we set up the real time database as here. So it is the simple one because we don't want to make it complex. This is the part of the admin. So they can see the humidity, the brightness and the temperature. So inside this we have like a lot of values inside there. And for the users, I register by using the Google authentication. So when you lock in your application, it will connect and get this value and compare to the real time database here. And this will show the information of that user that how many seeds does he have, how many farms does he have, how many plants that he or she plant and they already seed something like that. So example, this person have one farm. So one farm has three rows as the previous slide show. And in one row there are five position of vegetable. So if he would like to harvest the controller will send the data to the server here. Like if he want to harvest the vegetable on the row one, position one, it will send the value to here and it will check. Oh, sorry. It will check and it will tell the controller to keep. So it's like a two way communication. So this is the authentication part of the Google Firebase. And the final part is about the application. So we use the Android 30.0 and deploy it to the Google Play. And the code is that there are a lot of things in it. So we just put the final form of our application. So you will see that the main login is here. And this is like the main menu. The main menu will be here. And this is like the profile. So you will see that the data from the server will be linked to here. So it connect together that this name is the competition provider, which is a Jinpo precision industry. I go to that competition and I just name it as Jinpo automation. So this is the dummy data that I have set up. But this data is come from the Firebase. This is where the open source come. We apply the code in the GitHub that is free to make the cache as a real time. So when the value of the temperature is going up, it will go to the right. And when it goes out, it just decrease as it should be. So it will have some stuff like this. It will tell the user that there are available space for planting the plant. And that will tell you the age of your plant, something like this. So if you want the plant, you just simple click it in your smartphone here. And if you have a text like this that you want to plant, which is using one seed and you have the 974 seeds left in your database, something like that. So after you confirm, the value from the application will send to the server and the server will send to the node MCU that I have shown you in there. And the node MCU will tell another controller to control the mortar to keep. So as simple as that, this is another page. And we just deploy it in the Google Play. I hope you don't download it and play because the server is not stable yet and the application too. And we make the progress to keep the track of our work by using the real time bot. So I think it's quite small, but there are a lot of things here. The concept is we divide it into three parts, which are like the for hardware, for server and for application. But one thing that is the key of making progress is once we develop, we try to integrate as often as possible. So we will not, because we don't know that when it will crash. So we have to work together all the time. And another, and this is the final part, the only final part is this is the business model. So this is the previous flow, right? The hardware, the hardware have two way communication with the server and the server has two communication with the application. What we are going to do is we gonna make the game from it. So if you have played like a farm view, you now you can play a farm view that you can have real plant for you, real vegetable for you. So like if you want, if you like, it's like in-app purchase that you purchase the seed and just click on the area that you are free or you can buy the farm to plant, it will, you can have the plant inside the game and real in the real world. Another concept is like the vending machine. So if you are like hungry and want some vegetable that is fresh, you can just command the vending machine by just putting some coin and get it from the vending machine. And what we have learned from going to the Jin Pao competition is like there will always be one time that you learn something and you found that it is very hard. Like for example, I have to learn how to use the Google Firebase in two weeks. And there is sometimes that I'm going to, okay, it is too hard for me, I don't want to do it anymore. But if you keep going and keep going, one day you will, at the one time, at the one moment, you will achieve what you want, you will be successful on it. So please keep going. And what I want to say in the other word that I thank you is that is the word that I just record from the internet in the morning. Sorry to say that, but the Linus Trowals once said that, in real open source, you have right to control the destiny and one of our destiny is to be here and share the wonderful moment. Thank you.