字幕列表 影片播放 列印英文字幕 I think there's a valid concern that maybe we're giving machines too much power. Maybe we don't want machines to be self-aware. In my opinion, everybody should understand that this technology is around the corner. Your children, your grandchildren are going to be living in a world where there are machines that are on par and possibly exceed human self-awareness and what does that mean? We’ll have to figure that out. Inside his Creative Machines Lab at Columbia University, Hod Lipson and his students are taking the first steps towards sentient machines. Scattered on shelves and tucked into cubicles, their robot menagerie is probing the biggest philosophical questions that face robotics and AI today. As these deceivingly simple machines squirm and babble, they’re crawling towards a future where machines can autonomously adapt to and understand their surroundings, embarking on a quest to unlock artificial consciousness. We’ve been making huge advances in robotics for decades, but engineers investigating these philosophical questions, has not always been a widely supported pursuit. For many years, this whole area of consciousness, self-awareness, sentience, emotions, was taboo. Academia tended to stay away from these grand claims. But I think now we're at a turning point in history of AI where we can suddenly do things that were thought impossible just five years ago. We humans cannot babysit all these incredibly sophisticated systems that we're creating. We need to gift them with this ability to see themselves. To do that, Hod’s lab is taking a unique approach. Instead of trying to understand and replicate something as complicated as human consciousness, they’re looking into something a little simpler: the ability to imagine yourself– or self-simulate. So, the big question is what is self awareness, right? We have a very simple definition, and our definition is that self awareness is nothing but the ability to self simulate. A dog might be able to simulate itself into the afternoon. If it can see itself into the future, it can see itself having its next meal. Now if you can simulate yourself, you can imagine yourself into the future, you're self-aware. With that definition, we can build it into machines. The first idea to use the arm really came about because arms are one of the most common types of robots. And they're also fairly simple. We have the robot start by flailing around. We call this motor babbling. It just moves just like child in a crib. After moving for one day it collected enough information about its body, to understand the dynamics of its motion, how when it moves, what's going to happen to its position and its ability to move in the future. The team fed all of that data into a deep learning model, allowing the robot to predict its next position based on its previous one. Essentially, it’s using the model it created to “imagine” its own motion. From there we were able to use this model to plan how to effectively accomplish tasks. In this case the robot is sort of going through a variety of different actions that it could attempt to make. Testing them on the self model and then executing the one which will bring it closest to its goal state. So in this case, the goal state is right where it is right now, on the ball. And then it will move, as its next goal state, to the cup where it will then drop it. It's a little bit tricky, because you look at this robotic arm and you'll see it doing its task and you'll think, "Oh, I could probably program this arm to do this task by myself. It's not a big deal," but you have to remember not only did the robot learn how to do this by itself, but it's particularly important that it learned inside the simulation that it created. To demonstrate the transferability, we made the arm write us a message. We told it to write hi and it wrote hi with no additional training, no additional information needed. We just used our self model and wrote up a new objective for it and it successfully executed. We call that zero-shot learning. We humans are terrific at doing that thing. I can show you a tree you've never climbed before. You look at it, you think a little bit and, bam, you climb the tree. The same thing happens with the robot. The next steps for us are really working towards bigger and more complicated robots. Walking robots are much more of a dynamic and complex system and as such we're actually going to start developing on that robot over there. It will do the motor babbling and we hope that we can learn a variety of tasks on that the same way that we did on the arm robot. We believe that while this is a small, simple start, by progressively improving the model and the bodies and the capacity of these robots, we can push the border between robot and human to become smaller and smaller with each additional iteration. Every automated system would benefit from being self-aware. Everything from driverless cars to airplanes to smart cities to traffic lights. Imagine that your factory is operating. It's creating, I don't know what, solar panels, and it understands if things are working well. It can foresee a problem on the horizon and it's going to take measures to compensate or recover from that. All of that is incredibly useful no matter what you're doing. But regardless of the benefits, the idea of self-aware machines will inevitably raise concerns. Experts from the likes of Stephen Hawking to Elon Musk have warned about the dangers of advancing AI, cautioning against a future where it progresses to a point beyond human control. To me, it's very similar to the discovery of fire. You can do a lot of bad things with fire. But, there's no doubt that fire's an incredible technology, changed our civilization forever. So we can try to quench it and say, "Okay, we're not touching this," but I think a much smarter thing to do is to say, "How can we try to use this technology for good and sort of understand its pitfalls. Discovering the ability to build a self-aware machines will change our ability in big ways. It's going to take 10 years, or 50 years, I don't know, but it's going to happen in our lifetimes. And, we have to make sure we understand how to use it properly because the benefits far outweigh the risks if we can handle it.
B1 中級 這些自我意識的機器人正在重新定義意識。 (These Self-Aware Robots Are Redefining Consciousness) 2 0 林宜悉 發佈於 2021 年 01 月 14 日 更多分享 分享 收藏 回報 影片單字