 Okay, how many of you are from CNC background? Okay, you see, electronics. So, I mean, electronics guys, you may be finding us a little bit familiar. Like, have you used Matlab? You all use Matlab. Okay, so, I'll tell you a story because you're kind of bored. So, I'll tell you a little story. Very last. Okay. So, am I audible? The other day when I was actually bored, so I was going through CODA. There was a question, like, what are the serious consequences one has faced? Due to clicking the I agree button without reading that. So, one person, like, one answer was, his friend was doing a final project. So, they were using Matlab to the level. And obviously, we all have our versions of Mr. Chang's customized license of Matlab. So, they also used that. And while presenting, what they did is downloaded a trial version and did their stuff. And finally, the project turned out to be good. And they presented a published paper on that. And the professor suggested them to go to IIT Bombay and publish it. So, people here also liked that. And fortunately or unfortunately, a Matlab guy was also there. So, he came and saw that thing and appreciated it. And he inquired about that person's name and went to his offices and searched with a database. He couldn't find it. So, and then he found in the trial database that he had a trial version. So, in the trial version, in the, like, the user license agreement, they have written, you can use it only for your personal purpose, not for publishing something or like that. So, what they did, they sent a notification to their house. Like, they have to pay a fine of four lakhs. So, otherwise, if they don't pay the fine, then there will be legal consequences. That person cried because he was from a very modest background. And his father actually requested those guys, like, please pay us. So, the officers, they actually looked into their code and found that it's really brilliant. And after so much of, like, negotiation, they offered it. Like, you can buy one license with the excellent discount at 30,000 rupees. So, after that, they set it on that 30,000 rupees. So, the point here I'm trying to make is, like, we all have projects which use block-based designs and all. So, you may have a very excellent algorithm, but if you are using such kind of Chang's version of Matlab, so you have to be really careful. So, we have one alternative, like, you have heard of Sylab. So, you will be hearing it much, actually, if you haven't heard it. Because this is a, the Sylab community trying to do is giving you an open source version of Matlab. It's not that powerful as Matlab, but trust me, your project will be done in that. So, here we are blending, like, you all have heard of Arduino, right? You have programmed one, how many, I haven't touched one, right? One Arduino. Okay, that's it. We have one. So, like, because Arduino is very, I mean, user-friendly and you all know that, right? So, what you are trying to do is, like, let me tell you an example. Like, you are running a phase commission algorithm in your machine, okay? And you want to open a door or some kind of an access system to that. So, you will need to activate the actuator, right? So, using Arduino, actually, you can do that very easily. So, if you used a block-based modeling and all, your last block will be an Arduino. Like, you are giving a yes or no command or a binary 110. So, according to that, you will be turning on and off. This is just an example. We can do much more stuff, like, there is a robot in here and it has to clean that room. So, you don't know what is there, like, obstacles and all. So, you will run your robot, you will send that localization and mapping data to your silo and you run your algorithm of minimum path or there are a lot of algorithms, heuristic algorithms and all and then send that path code to that robot. So, what it will do is, that way, you will be in an unknown terrain also, you can find the optimized path. Are you getting? So, the project is basically about doing much more experimentation with this, like, doing much more complicated stuff with interfacing silo and Arduino, taking the data and doing plots and algorithms running all that. So, one, like, what you can do, we have one thing, like, it will take your brain web data and it will plot a graph, so that we can know, are you disturbed or not, like, are you composed or you are thinking of something else back home, like, so, stuff like that. So, you find it interesting? Is it doable or I am telling you another story? What do you think? If you think it is doable, then we can talk. So, we actually, we do all those hardware and software stuff in our lab, basically it is integrated development lab, so, integrated hardware and software. If you find it interesting, then you are the right candidate for us. And I will ask you one question. So, like, there is a problem. You have to build a hardware or a software to solve that. So, how will you decide, like, you want to solve it by using hardware or you want to use it by writing a software? How will you decide it? I mean, there are no right and wrong questions you can answer if you are a vector. Have we selected the wrong people? Come on. Okay, but, okay, that is fine. Any other, depends on the application. Like? It is like more complicated. It is like more complicated and intensive. When you want it to be done like in real life, you want it to be done really fast. It is a very great function and you can implement it in hardware because within software, when you have to, like, reading the instructions explicitly, it is going to be a bit slow. If you want it to be extendable, there is someone later, like, three years later, someone wants to extend it. Then extend the platform, make it more general. Then you can implement it in software. You can, like, put the competition part in hardware and then use a software routine to just, like, call that part or activate that part in hardware. That sort of thing. I would say, if I want to do something frequently, that operation I would implement in hardware. Okay. It is not. Okay. Okay. So, like I said, there are no right and wrong questions. You all are right. So, let me give you a little more clue. Like, I want a device to be made, one lakh copies of that. Okay. So, the same work I can do on a part of hardware in that or I can do writing a piece of code in that. So, how will you go for it? Like, you want to make a hardware or you want to make a software? Sir, you want to release more versions or do you want to release improved versions in the future? It also depends on that. If it's, like, only a one-time thing, then maybe you can do it in hardware, but nobody transcends that sort of thing. And you want to extend it in the future, release newer versions of it. So, it has to be extended. It has to be, like, you release a new version of it. It should be compatible with whatever you've been using it with. I mean, nobody's going to just invest a lot of money into completely new stuff. It's got to be extendable. It's got to be compatible. You've got to keep that in mind also. That's good. It was actually good for thought. So, the answer is, like, you want to make it in a very large numbers. You want to make it in a software. Because hardware cost, it will be like a variable component. It will be multiplied, number of pieces into the hardware cost. But it's like if I'm going to produce 10 of it. So, writing all that code, debugging it and maintaining it will be, like, you know, you have to write software in it, right? I mean, it's more, but, okay. So, if I am making 10 pieces of that, I may go for hardware. Basically, what you are telling is right. But that depends on you. You want to make it, like, compatible for future versions or not. Like, I'm using a multiplier. Multiplier by two. I can do it in hardware or I can do it in software. Think of it like that. Okay. Okay. Thanks. Basically, I have notes like this one. So, we'll meet and talk and do stuff. The project currently, we are working on that. The brain projected from the load. Yeah. We are working on that. It's already started. Yeah. We won't give you, I mean, we won't push you in the thought there, if we are not there. Okay. So, we'll make you familiar with that and then you will work with us. Yeah. Any questions? What is the result of whatever you are doing based on your brain? My brain. Use your software says whether you are thinking here or you are thinking about home. Have you tested it on yourself? Yes, sir. Otherwise, I won't be talking about that. Last time. What is the result? Brain there or when you are talking? Yeah. Like, no, no, no. Not home only. But if you are thinking about something at home, like you are disturbed. Because the result was what you are doing. If you meditate, if you meditate, then the, we've plotted a disturbance curve. So, that will go down. If you meditate. And if you think of like all these people, they have come to make my life miserable. When does it have to go? Because we are plotting basically disturbance. Okay? Thanks.