Humanoid Robot Brains (Science Out Loud S1 Ep2) - By MITK12Videos
Transcript
| 00:0-1 | when you jump over a puddle , climb a tree | |
| 00:02 | or play a game with basketball , you're doing things | |
| 00:04 | that no robot can currently do your outperforming the work | |
| 00:08 | of thousands of scientists , companies , and even governments | |
| 00:12 | . Now , for you and me moving around really | |
| 00:15 | easy , but for our robot to control its motion | |
| 00:18 | , it's much harder if we can somehow copy our | |
| 00:21 | motor control and robots and we could save lives by | |
| 00:24 | replacing humans on hazardous jobs like firefighting , performing a | |
| 00:27 | spacewalk or even cleaning up the meltdown at the Fukushima | |
| 00:30 | nuclear reactor . If I want to grab this drill | |
| 00:35 | , I just pick it up . There's no thinking | |
| 00:37 | involved . But why is that ? It's because my | |
| 00:41 | subconscious mind is recruiting billions of brain cells to do | |
| 00:44 | all the complex calculations involved . For me When I | |
| 00:47 | decided to pick up the drill , I first rely | |
| 00:49 | on 30-50% of my brain to subconsciously process the signals | |
| 00:53 | from my eyes now in the front part of my | |
| 00:55 | brain . I consciously whip up a plan to reach | |
| 00:58 | my arm out towards the drill , touch the drill | |
| 01:02 | , grasp it and then bring the drill back to | |
| 01:04 | my body . My brain subconsciously transforms these vague commands | |
| 01:08 | . First two basic motor plans in my pre motor | |
| 01:10 | cortex , then more precise muscular instructions in my motor | |
| 01:14 | cortex . Finally , my cerebellum perfectly coordinates activation patterns | |
| 01:19 | that get passed to the brain stem and sent out | |
| 01:21 | to all of my muscles . Once I take my | |
| 01:24 | first step , my brain is constantly comparing the plan | |
| 01:26 | with the real time situation and adapting to what I'm | |
| 01:29 | sensing . Even if I'm not fully aware of it | |
| 01:32 | now , you can start to see why it's so | |
| 01:34 | hard to get robots to do these complex tasks . | |
| 01:36 | It's not as easy as just controlling a motor . | |
| 01:38 | You have to plan and perfectly adjust all of the | |
| 01:41 | motors together with robots that have wheels for trends , | |
| 01:47 | we don't have to worry about balance since we always | |
| 01:50 | have a stable base . But if one of these | |
| 01:53 | robots comes across stairs or a ladder , it's michigan | |
| 01:56 | come to an early end . That's how we're working | |
| 01:58 | on bipedal robots . The lots that have two legs | |
| 02:02 | though , they're harder to control their more adaptable and | |
| 02:05 | better suited to work in environments that were made for | |
| 02:07 | humans . I'm here with a bipedal atlas robot made | |
| 02:11 | by boston dynamics that the M . I . T | |
| 02:14 | . Team is using to compete in the 2013 DARPA | |
| 02:16 | robotics challenge . You can call him Helios . Now | |
| 02:20 | Mitt is working really hard to develop helios brain which | |
| 02:23 | is only a series of algorithms or steps that helios | |
| 02:26 | can take to take his sensor data to control each | |
| 02:29 | of his 36 joints and motors Without this brain or | |
| 02:33 | these algorithms in place , helios is really just a | |
| 02:36 | very expensive £330 pile of metal . The M . | |
| 02:43 | I . T . Team is working hard on algorithms | |
| 02:45 | that improve helios ability to walk on difficult terrain . | |
| 02:49 | Currently , a human operator must send commands to Helios | |
| 02:52 | through a wirelessly connected computer . The operator looks at | |
| 02:56 | the sensor readouts from helios and decides what basic actions | |
| 02:59 | are . All I should do . This is sort | |
| 03:01 | of like how my frontal lobe took the visual input | |
| 03:04 | from the back of my brain and made basic plans | |
| 03:07 | for my motor system to carry out Helios operator makes | |
| 03:10 | these decisions for him . But once the command is | |
| 03:13 | sent to Helios , it's up to the robot to | |
| 03:15 | execute them himself . So Helios brain is kind of | |
| 03:19 | a hybrid . It's part human and part computer . | |
| 03:22 | But why do we even need our human operator ? | |
| 03:25 | Well , that's because as difficult as motor control is | |
| 03:29 | . Motor planning is even harder . It takes a | |
| 03:31 | lot of knowledge about your environment to translate your goals | |
| 03:34 | into plants to us humans . It's really obvious how | |
| 03:38 | to pick up this drill . But that's because we | |
| 03:40 | already know so much about it . We know that | |
| 03:42 | it's solid . You know about how much it weighs | |
| 03:45 | that's being held up by the table and we know | |
| 03:47 | to pick it up from the handle . But the | |
| 03:50 | program all of this information and so much more into | |
| 03:53 | helios , it would be impossible to do it for | |
| 03:56 | every conceivable object . However , there are some labs | |
| 03:59 | that are working on other robots that can learn this | |
| 04:01 | information slowly from its environment , like we do when | |
| 04:04 | we're infants or toddlers for helios to perform a task | |
| 04:07 | completely on his own . His creators have to answer | |
| 04:10 | one more question how to adapt to an ever changing | |
| 04:13 | environment . If I go to pick up this drill | |
| 04:15 | , but someone takes it before I can get there | |
| 04:17 | I can run after them and take it right back | |
| 04:21 | . Yeah . But if I were to take this | |
| 04:23 | drill from helios , he wouldn't know what to do | |
| 04:25 | without his human operator . It takes 30-50% of our | |
| 04:30 | brain power just to keep up with all the sensory | |
| 04:32 | information from our eyes . So you can imagine how | |
| 04:35 | challenging it would be to program a robot to continuously | |
| 04:39 | pay attention to his surroundings and adapt to them . | |
| 04:42 | Fully autonomous robots are on their way . But partially | |
| 04:45 | autonomous robots like helios can still be very helpful while | |
| 04:49 | we're waiting . Maybe one day soon , firefighters will | |
| 04:52 | be controlling robots that can carry people from burning buildings | |
| 04:55 | and astronauts might even do their spacewalks remotely controlling a | |
| 04:58 | robot like helios from Earth . |
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