I have to assume the timing of this, coming so soon after the Pentagon bailed on BD, is no coincidence. Does Google figure that the division cannot turn a profit without that sweet spigot of defense dollars?
I've got a dozen great ideas too but I won't waste anyone's time. The trick is for a company to profitability make a product then parlay that into the next big thing.
Honda has been building robotics for years ahead of everyone else. Google "japan elderly care robotics". What's cheaper? A robot, or a human caregiver who has fully loaded costs for decades? If you can even find the human who wants to do the job.
A human is much cheaper because no robot can currently do the job. You are completely missing the point. Years ahead means nothing. it could be 20-30 years before it can replace a human for that job. In the meantime, it's a pet project.
The idea is for companies to find revenue from the technology as soon as possible then turn that revenue into R&D to build even better robots.
Look at the revenue the smartphone market generates. There's an arm's race to get consumers buying new devices. We need a couple $100 billion robotics companies pushing boundaries.
Also consider, for example, how Elon is bootstrapping electric cars and private rockets.
> Also consider, for example, how Elon is bootstrapping electric cars and private rockets.
That's a great example. And I agree with you in part. Look how far Elon and Co have come in under 15 years with both Tesla and SpaceX. Bootstrapped? Indeed. But they also had to prime the pump with demand (SpaceX with gov contracts, Tesla with wealthy purchasers)
Yes, they had to find customers. That's how business works. You sound as if they cheated.
You find someone willing to pay for your product. The "build it and they will come" doesn't usually work out so well. Finding governments or wealthy people to pay for your products counts when building a business. Elon didn't invent this tactic.
Exactly. And then they went ahead and tried to get a defense contract from Pentagon anyway. In fact, about 3 months after they said that, they started wanting to sell Google Glass to the military. Not as bad as selling them autonomous robots, but still.
It just shows much little when we trust what Google says when an acquisition happens. Eventually they are just going to do what they think will make them money, regardless of what they promised.
That said, now I'm worried that an actual defense contractor will get those robots.
"That said, now I'm worried that an actual defense contractor will get those robots."
Why is this worrying?
If you're afraid that the military will do something evil with the robots, you're going to be dismayed to learn that they already have automatic rifles, tanks, and atomic bombs.
I believe Google was in the process of winding down all of BD's defense contracts anyway - because they have no interest in being in the defense contractor business.
But to have bought a leading "next-gen" defense contractor, only to wind down all of their contracts, and then sell off the company... seems... wrong? Almost like a deliberate destruction of this company.
> Is there anything wrong about destroying a defense contractor?
A company like Boston Dynamics? Absolutely yes.
They were working on next-gen robotics that would directly save American soldier lives - both while in combat and during rescue operations. Their technology was also being tested for domestic search-and-rescue operations where it was too dangerous to send in humans.
Some people make the case that war should remain dangerous so countries are reluctant to start wars. Or maybe some see a trajectory from robotic mules to robotic weapons platforms. In those cases, no amount of search-and-rescue window dressing would change their minds.
War is not the only scenario where there is armed conflict.
Stopping a genocide, inserting a military "buffer" in-between two hostile nations, general peace keeping, hostage rescue, VIP protection, bomb location/defusal, hijackings, and more come to mind.
The fact is, soldier's lives are going to be put into harms way, even in a perfectly at-peace world (which none of us live in).
Perhaps I'm biased, as I come from a military family, but I'd far rather a walking circuit board take a bullet over a human soldier.
I worry that the net effect on lives lost will be negative. If all else were kept equal, it would be positive, but all else is unlikely to stay equal. One of the few things keeping the U.S. military from being even more interventionist than it already is, is that the U.S. public has little stomach for its soldiers losing their lives, which heavily constrains military planners (which is a good thing!). If those constraints were loosened, which is one of the goals the military has in funding robotics, I expect that they will be even more gung-ho about sending in firepower to places where it is going to end up causing a lot of civilian "collateral damage". The drone program of the past 5 years is already shaping up that way. Its rules of engagement and the way the U.S. public has responded to it, so far, suggest that when the lives in question aren't American soldiers' lives, neither planners nor the U.S. public consider minimizing loss of life to be a particularly high priority.
> One of the few things keeping the U.S. military from being even more interventionist than it already is
The US military is not interventionist - the US politicians are.
The military has little-to-zero say in what military actions they participate in, rather the politicians decide what is politically advantageous for themselves, the country, or the world - and give the orders. The military must then carry out those orders - and I'd still rather they have the option to send a robot instead of humans.
> they will be even more gung-ho about sending in firepower to places where it is going to end up causing a lot of civilian "collateral damage"
Part of the goal of robotics is to reduce "collateral damage". Humans make mistakes all the time in the field, which can and does result in friendly fire, civilian casualties, and more.
A lot of people make stupid cases. Should giving birth be dangerous so that people are reluctant to have unwanted children? Should sending email be dangerous so that people receive less viagra spam?
If each email cost a penny to send, 95% of spam would disappear. A little impedence can be a good thing.
There are many good reasons not to make war too easy or efficient. Too often politicians trend toward groupthink and acting en masse, like a faceless feckless mob. Making invasion as easy as sending spam would be very bad.
There's a big difference between "a little impedance" and "risks human life". War waged with robots will still cost money.
If politicians make bad decisions, perhaps you should try fixing that instead of sacrificing the lives of young men for a small chance of making those decisions more painful.
Robots aren't just about war. Japan is pursuing robots to help the elderly. If Google X was really making a bet on the future, they would see the value of BD beyond defense contracts.
If the Pentagon had indeed bailed on BD, it is possible that they know that their own research is safely near par or even further along than that of BD. While they would have otherwise funneled money over to GOOG regardless, they possibly tilted the other way as the US government slowly distances themselves from the country's tech industry - that is, until AAPL and others get "on-side" again. Of course, we may never know for sure.
The Pentagon bailed because the bigdog project just wasn't practical[1]. The large version was too noisy for use on the battlefield, and the small version was too weak to do useful work.
It seems like Google are bailing on BD for much the same reason: Their tech works, but it doesn't actually solve any practical problem that Google have, and isn't close to producing any independent, sellable product.
I mentioned above that Dr. Martin Buehler, the brains behind BigDog, is now at Disney. We can expect legged machines from Disney soon. They've played around with this in the past, with Lucky the Dinosaur[1], but Lucky tows a cart whose wheels provide stability. Now that they have the top guy on balance and slip control, Disney's robots should get better.
This is surprising to me. It seems that many prominent Googlers are very optimistic about robotics.
For example, in the FAQ of Jeff Dean's recent talk in Seoul, he mentioned how Deep Learning has a lot of potential to reinvent the field of robotics. Also, Demis Hassabis recently tweeted about progress in learning 3-D environments. I'd be surprised if Google wasn't looking into general purpose robotics...
Perhaps Google is disappointed in their robotics acquisitions and wants to start from scratch? It seems that they are farther on the software front than anyone at the point. I wonder what they'll do in their hardware/power divisions...
(Also, it kind of seems like Tesla and Google are on a crash course here. Tesla is ahead in power/hardware and is developing a top-tier AI team for self-driving cars. Elon also seems very interested in Robotics + AI. Google seems to be working from the opposite end.)
Most of Google's robotics acquisitions were driven by Andy Rubin, who was trying to build a robotics division within Google. Once he left the company, it probably left their future uncertain.
It's always a bad sign to me when a company's strategy lurches based on who's around rather than on changing external circumstances. It suggests to me that the strategy isn't a coherent, collectively understood plan, but a political balance.
I think it's a stronger phenomenon in cutting edge areas, as there's less group-think to fall back on or use as a crutch.
Everyone knew what to do with a typewriter, even if the visionary leader left. If the person who was saying that microcomputers were going to be the next big thing quit? Nobody else has that idea in their heads.
Is this from a real-world example? Because I'd expect the opposite to be true.
Cutting-edge areas tend to attract people there for the vision. And the harsh commercial realities of innovative markets mean companies get in trouble if they get complacent. Whereas people in larger, older companies in stable markets can let their vision die and just go on doing whatever worked before. At least until it doesn't work, and then they're screwed.
In this instance, Google is a larger, older company.
Or to extend the analogy, if someone goes to IBM as director for New Technology X, and then leaves five years later, what's the likelihood people in New Technology X Division are going to be able take his or her responsibilities over?
Big companies are big companies and they usually don't encourage or reward employees overly much for striking out in a brave new direction. Which is hilarious given that they'll continously try and hire exactly those people externally.
Though I suppose you honestly can't encourage too much rebellion when you make your money from a crank being turned (and happen to need 1,000 bodies to just shut up, turn the crank, and get paid).
It is often true, but not always true. I have worked at or worked with companies that could express their strategy. But usually they are not big multi-division companies like Alphabet.
I think it's the common mode in American business culture the last few decades, but I think that's a result of the managerialist paradigm that has come to dominate.
Most startups avoid it to begin with. There's a really strong incentive for having a clear mission and high customer focus; many things get easier. Wikipedia has done a good job with "Imagine a world in which every single human being can freely share in the sum of all knowledge." Toyota has done a fantastic job organizing around the Toyota Production System. The best restaurants, bakeries, and the like generally have strong shared understandings. The same is often true of multi-generational family firms.
I think even Google did a good job for a long time rallying around "organize the world’s information and make it universally accessible and useful". Which makes this especially sad to me. Around the time of Google Plus and "more wood behind fewer arrows" I think there was a culture shift that is probably irreversible.
>> I think it's the common mode in American business culture the last few decades
Agreed. I find it doesn't hold for most contemporary Japanese corporations though. Their leaders tend to be switchable placeholders whose main purpose is to efficiently represent a consensus view.
Interestingly, though they do have momentum, they seem to lack strategic direction. Perhaps only charismatic leaders can provide the latter. Japan can produce such people (e.g. Morita at Sony) but the current environment values continuity over vision.
Very interesting. I suspect that Toyota is a similar result of a visionary leader. I want to believe there's some way to get the benefits of both approaches at scale, but I have yet to see an example.
Do you have anything you'd suggest I read to get a better understanding of the current Japanese situation? Most of my knowledge is about historic Toyota, which I'm sure gives me a distorted view.
Sorry, my opinion is formed only by observation and discussion with related parties. I don't have any direct experience of Toyota, except with one of their trading company's subsidiaries. Uniquely, this company does have a visionary leader at the helm, yet I believe there is no correlation with the parent's leadership style because Toyota Tsucho is run at arms length.
My rather uninformed opinion of Toyota Motors is that they are succeeding exactly as other Japanese companies used to succeed. If this is right, and I hope not, then they may be fated to see the same stagnation in time. A more optimistic view is that Toyota have something unique. If so, I don't believe it to be charismatic leadership. It would be baked into their culture.
Of note is Toyota's recent decision to invest $1B in AI research in Silicon Valley and Boston. They are trying to get ahead of the coming tech for autonomous driving and factory automation.
http://www.nytimes.com/2015/11/06/technology/toyota-silicon-...
Thanks! Yes, I'll be interested to see how Toyota goes. Although many people have taken the TPS lessons and applied them in software, Toyota itself is not one of those companies. (Indeed, their software appears to be terrible. [1]) That makes me think that the visionary leadership that created TPS is long gone, and that they are coasting. But yes, what they're coasting on has a continuous improvement component, so it could be that an advantage is a permanent part of the culture.
Yeah, but we're talking about shaping the future here: If you're relying on external circumstances for your hints as to what to do next, you're just reacting to the present....
It makes more sense once you take on a senior level role in those big companies, you start to see how a single, charismatic and convincing person can mentally mobilize (over a period of time) a large group of people to align with their hopes and dreams.
I was baffled by this as well, until I got closer to it and got to see "how the sausage is made".
It is amazing what a confident, strong personality can do in a group of people in _any_ setting.
You probably don't have much experience with larger companies. I envy you for that.
Yes, companies seem such opaque entities from the outside, but they are mostly driven by the wills of the topmost two layers. Remove key players from those layers and you see billions of dollars moving in strange new directions.
Uh .. that was his job. If he didn't do that he would have no job function in the company. If he couldn't change the faith of the company that employed him, then he was a bad employee at that particular job level.
That's what SVP/ director level / C-level people do for a living. They don't barely do any coding or any technical work - they create the vision and hire the people (or buy other companies) to make it real.
I am baffled by the cognitive dissonance here. This kind of single individual driving direction is LITERALLY the intended purpose of these high level roles.
Well, if you think of e.g. Marissa Meyer at Yahoo, big multinationals look like ships with so much momentum even the captain has trouble changing their direction.
Of course, reforming one arm of a business is a lot easier than an entire company, especially if nobody really depends on that arm.
I hear that analogy a lot, but on actual big ships, all the captain has to do is give the word and the ship turns pretty quickly. Maybe slower than a jet ski, but there's only one or two orders of magnitude difference there.
Likewise, sure, a big company has a lot of momentum but it shouldn't take more than a year to realign it.
You actually make a good point. The analogy gets used a lot because big ships do have big turning radiuses. But the better analogy is probably something more along the lines of the captain gives an order and various groups within the ship don't really agree with the order, so they say they're doing their part to make the ship turn but they're really not. Maybe the rudder have been moved a bit but the propellers are acting against the change. Furthermore, some percentage of the crew has decided that the ship should really be a plane and that's what they're working on.
Not really. On a ship (i.e. naval vessel), if the subordinates don't obey the commands, they get sent to prison for mutiny.
In a big organization, if the CEO says to do something (i.e. new vision... PKI's!), most people can ignore it with little chance of reprisal. It's much more of a political/social hierarchy than a military one.
Bill Gates famously "turned the battleship" at Microsoft in 1995 to focus the entire organization on the Internet. They actually did it quickly and succeeded (although more recently have lost their lead). So the right captain can make it happen.
A large company, like any large organization, is not a single thing. It's made up of individual parts, and parts within parts; all of them have different motivations. Frequently the most important competitors for some parts are other parts.
Think of it more like a feudal society. At the best of times, the headman at the top has the loyalty of most of the upper levels, and each of those has the loyalty of most of whoever is beneath them. But each of them has their own desires and plans: what they think will make the organization better or make their position in it better. At worse times, you have the War of the Roses or Game of Thrones sort of stuff.
The problem with bringing in outside organizations, like buying Boston Dynamics, is that they have their own, mostly fixed feudal structures, and integrating them is difficult. (Consider, at the very least, someone is going to go from the king of their own personal world to having to ask before they head to the executive washroom.)
A single person with a vision can have a great effect, because they only have to inspire (or convince) a small group of people around them to go along and that small group will bring along their own people. On the other hand, if the person with vision leaves the organization, whatever they were holding together falls apart pretty quickly.
(My favorite example is the Westinghouse(!)-CBS-Viacom thing.)
A single person can provide vision. A really good leader, gets his followers to want to follow them. If they leave, and nobody steps up to really lead...or if that leaders vision really isn't accepted then the organization is pretty much hosed. You can have the best group of employees in the world, and get by. Perhaps keep innovating for a few years. With an awesome leader at the helm, people show up extra early, they stay late, and they "believe." I've seen it too many times, in the military and civilian tech world. The "reality distortion field" that they speak of Steve Jobs possessing is real, and it's something only some people develop. Find those people and latch on, they'll take you for a fun ride.
I understand everyone comments but still find it not healthy that one man vision cannot be spread so other people around him to continue it even if he is not there anymore. I guess that is because that vision wasn't shared with a lot of people.
This is one of the reasons why BDFLs while being very effective, are also very dangerous. As when there is no equivalent replacement, the entire structure collapses.
There is a limited supply of geniuses. You lose one, all the B-players (that might consider themselves geniuses as well) will make sure you are going to take the wrong turns.
Some of Tesla's autonomous vehicle work is in conjunction with an Israeli company called Mobileye which has autonomous highway driving demos of its own, though Elon has been quoted in the press as saying that's not all of it...
> It seems that many prominent Googlers are very optimistic about robotics.
BD was heavily geared towards defence contracts. That stream is gone. They will now have to do some painful restructuring, I guess Google don't want the bad publicity.
There are probably conversations going on that made the acquisition worth at the time (favour with public figures etc, Google has long been cozy with spooks and military types), and losing those contracts probably changed the equation significantly enough.
Google's clearly interested in robotics, DoD, etc.; my guess is that this exit is for cultural reasons. Honestly, surprised they just didn't shutdown the company if things aren't going well.
Google is specifically not interested in DOD work. I don't understand why Google decided to buy a company so tied to DOD contracts if it did not want to continue that work.
> I don't understand why Google decided to buy a company so tied to DOD contracts if it did not want to continue that work.
My experience in this area is quite limited, but it's surprisingly difficult to find companies doing this type of research that are not tied to the DoD in some way. DARPA is a major source of funding for these projects, and many of them wouldn't get funded at all without the government.
Case in point, at least until now: iRobot, maker of everyone's favorite robotic vacuums ... and military support robots. (Now spun off, but a core part of the company's strategy for two decades.) Its first years were DARPA-funded for the military applications.
This was what I was thinking when they first bought Boston Dynamic. Boston Dynamic was a huge DoD contractor. When Google bought Boston Dynamic, they explicitly said that they do not intend to be a military contractor and was expecting the existing contracts to expire [1].
The contracts that Boston Dynamic had with DoD expired in March 2015 [2]. My guess (BIG UNEDUCATED GUESS) is that the DoD doesn't take too kindly to its contractors not renewing its contracts and these military contracts contradict the corporate culture of Google. What's interesting is that they sold Boston Dynamic exactly a year after the DoD contract expired (donning conspiracy hat).
> My guess (BIG UNEDUCATED GUESS) is that the DoD doesn't take too kindly to its contractors not renewing its contracts
You may burn some bridges in your example but think of DoD like any other organization. If it's not getting the spotlight, there will be no hard feelings when things turn.
It's a big company so it should be no surprise that some sections of Google are very excited about robotics. For example you may have seen https://www.youtube.com/watch?v=iaF43Ze1oeI which is research done by Levine et al at Google. One thing to notice in the video though is that those are all custom arms. Someone was able to get $1M+ to build out that lab and the work is on going.
I think the thing that Google has recognized is that cutting edge robotics research that takes advantage of the work they have already done in deep learning doesn't require the kind of robots that Boston Dynamics (or many of the other companies they bought) build. Cutting edge robotics (from the perspective of learning systems) is back at the level of getting a single arm and a camera to learn basic tasks. In fact, there is a lot of research that can be done in simulation with these new deep methods that doesn't even require hardware.
The software and learning systems they can develop will very likely make their way into super advanced complex hardware like Atlas in the future, but for now it's probably not the best use of their time.
Cutting edge robotics (from the perspective of learning systems) is back at the level of getting a single arm and a camera to learn basic tasks.
Which is a nice way to say that robotics really hasn't progressed that much in a sense an outsider would see as progress (where progress on outsider-terms would be Boston-Dynamics style robots that can, say, learn task and repeat them), though I'm sure researchers can point to a lot of progress on their terms.
To have a useful anthropomorphic robot you need better:
batteries
actuators
software
computers
Only in software and computers are we seeing fast progress. (Big improvements in ConvNet algorithms, and the fast video cards you need to run them) But actuators need to be more powerful and much lighter, and batteries need to store at least ten times as much power. Progress in these fields has been slow, since energy storage is a mature field, and you don't see routine doubling of performance like you do with CPUs.
And, of course, an economically useful anthropomorphic robot has to be dirt cheap, as well.
Batteries have changed a whole lot since the 90's, though. Lithium-ion has a much higher energy density than lead-acid or nickel-cadmium. And without these improvements, many modern robots (roombas, quadcopter drones, etc) would simply not be possible.
The PR2 I discussed in the blog post does indeed have a lithium ion battery pack. It has a 1.3kWh capacity, (188 times bigger than an iPhone 6's battery! Probably part of the reason the robot massed 220 kilos) which gave it a rated... 2 hours of runtime.
And, of course, an economically useful anthropomorphic robot has to be dirt cheap, as well.
Indeed, people talking about this subject often don't realize that humans are really cheap in many if not most circumstances (Boston Dynamics is working on poison-gas-protection-suit testing robot. Finally figured out a job a person wouldn't do).
And it's an evil equation where once a given task is mastered by robots, it makes humans cheaper in many other tasks - because it increases the competition and because it decreases the cost of maintaining the human.
So we've seen incremental automation and steadily declining living standards. Not a world that screams out the benefits of technology.
Yet another reason basic income would be useful. By leveraging existing capital to establish a more stable floor under that progression.
E.g. "Why would I do that for that much? I don't have any driving physical needs pushing me to poison/injure myself performing a dangerous menial tasks for minimum wage." Which puts a floor on human desire to do basic jobs. Which helps continue to support investment in improving automation/robotics. Which makes the world a better place.
Which actually sounds a lot like a carbon tax and the struggles alternative energy sources have gone through. Call it a self-aware employment tax.
Actuators, yes. At last. The power to weight ratio of motors has improved considerably in recent years. The current record is 5KW/kg [1], for a Siemens motor for aircraft. Tesla's motors are around 3.5KW/kg, although that may be peak, not continuous. Water cooling, as used by Tesla and Schaft, helps a lot. Schaft's innovation was to apply water cooling to small motors.
You can run electric motors far above their continuous rated values for short periods. Also, electric motors specifically designed for brief overloads (high-temperature insulation, temperature sensors) are quite possible. Every automobile starter motor is such a motor. With synchronous brushless motors ("brushless DC" and "variable frequency synchronous" motors are the same thing; motors above a few KW tend to be called the latter) and big power IGBTs, you can have huge torques briefly without much difficulty. If you have the electric power available.
Batteries, maybe. Running time between charges is going to be a problem for a long time to come. There's a huge battery industry trying to get energy density up, with modest success. For many applications, trailing a power cord most of the time is an option. Especially if the robot can plug itself in, which the Hopkins Beast was doing in the 1960s.
The power density of electric motors is pretty amazing. Take for instance quadcopters, a couple of brushless motors can lift their own weight, batteries, and still have plenty of thrust left over to accelerate[0]. Yes those power densities are probably for continuous power.
The problem is not power density, but torque density. Brushless motors spin really, really fast with low torque, which is the exact opposite of what we need for robots.
Electric motors have maximum torque at zero speed. Maximum power is at half of no-load speed.[1] You can design motors for higher torques at lower speeds; it's a standard design parameter.
The maximum torque an electric motor can produce is proportional to the magnetic field in the windings which is proportional to number of turns and current. Increasing the number of turns means more mass, increasing the current means more heat. More heat is particularly insidious, because as temperature goes up resistance increases, which makes more heat, which increases temperature, and so forth and so on.
SCHAFT found a solution to the more current problem with their ultracapacitor driven water cooled motors. Except one cannot drive said motors continuously and alone they still don't have that much torque, so if one wants more torque more windings must be added.
You can design motors for higher torques at lower speeds but the torque density suffers. Luckily we have compact high reduction gearing to transform high speed low torque to low speed high torque.
You've made some good points in this thread about actuation. Can you point me to more info on SCHAFT's actuation strategy? I've been trying to turn up info, but haven't found anything great.
>> For many applications, trailing a power cord most of the time is an option.
If the charging time was close to zero, would this problem be solved, for many applications ?
Or the other alternative, phinergy's aluminum air battery, which has 2000 wh/kg, but cannot be recharged, just replaced and "recycled", but probably in a cost effective way ?
Primary batteries have higher energy densities than rechargeable batteries. The military uses high-energy-density primary battery technologies for one-shot items like torpedoes. This might be worthwhile if you were building robots to help decontaminate Fukushima. Commercial applications, no.
Is the hardware really that much of a problem ? It seems like the Boston Dynamics robots are already very far along on the mechanical aspects. I've also seen videos of industrial robots which appear to work with greater speed and agility than humans. My impression is that solving the control problem robustly and rapidly is a bigger obstacle than mechanical limitations.
I do see the power source as being an issue. Many of the most impressive robots are tethered, but even a tethered humanoid robot could be extremely useful.
BigDog uses hydraulic actuators, and is powered by a two stroke gasoline engine. Not so good indoors.
Stationary industrial robots, the only real success story of robotics, have great speed and power, at the cost of incredible weight and power consumption.
15Kg payload, pretty okay, (Try holding a 15Kg weight at arm-length) but it masses 540Kg and has a rated power consumption of 5KW. (Three-phase power, of course) And that's just the arm! The NX100-FM controller it's specced with masses another 120Kg.
Mobile robots hate weight. Cutting weight forces a lot of other compromises, in speed, power, and cost.
EDIT: Also for the Motoman, is it possible it needs so much power because of how fast it can move that 15 kg mass around ? There's no beating conservation of energy.
If you studied robotics, you'd have learned that some walking/running problems are easier to solve when you have an engine with "unlimited" short-term torque. Low-powered electric actuators are very bad, hence BD uses gasoline engines to provide that short spike necessary for some differential equations to have a nice solution (e.g. one without power-pumping or without needing a few cycles around to reach your desired state).
Jonathan Hurst, the inventor of the ATRIAS robot, has argued that we have the actuators necessary and that efficiency solves some of the problems with batteries[0]. A brushless motor hooked up to a big reduction gearbox can have a pretty high torque density. If we design our robots to be light and design them such that they don't throw away energy with every step, then they can go further with current batteries.
When I was in school in the late 90s it seemed like all of the robotics and AI research were in create algorithms to emulate behavior. Boston Dynamic's work seems to be extended from that. They purpose built a robot with purpose built balancing and walking algorithms. The being pushed over and getting back up demonstration seemed to confirm that to me.
Everything I'm seeing these days with AI research seems to be about developing systems that learn for themselves. Rather than telling the robot/AI exactly how to behave in a given situation, it's about allowing the robot/AI to experience as many situations as possible and learn what the appropriate response should be so that in the future it can independently identify and react accordingly.
I was also in AI school in the 90s and I agree with you to some extent. But when you think about nature, much of the behaviour of animals is not cognitive, but instinctive and physically dependent on their structure. In other words if you can build a robot that knows how to walk because you built it that way, why not do so and build more interesting learning at the decision making level?
A self writing behavior tree that uses behavior to write new behavior based on past behaviors. Sounds human enough to become an addict of some sorts. :-).
Well the problem with that approach is that you have to account for every possible situation that might occur and program them into the robot. When a situation arises that you didn't anticipate then bad things happen. When a learning machine, it can teach itself, adapt and understand.
The former approach works fine for a factory floor robot that is in a controlled environment but doesn't lend itself well to other situations. An example might be a biped robot walking up a mountain and it falls. Most of the examples I've seen, the Boston Dynamics one included, have the robot detect it's falling and put itself into a crash position where it remains until it comes to a rest before attempting to recover.
If your robot is rolling down a mountain it might be destroyed before it comes to a rest. Having a feedback loop, reflex reactions and the ability to access the situation and recover dynamically would be much more useful.
Having a feedback loop, reflex reactions and the ability to access the situation and recover dynamically would be much more useful.
Agreed. But none of that implies learning. So why are you talking about learning in the beginning of your comment?
This happens all too often in AI conversations. Learning gives you a special and powerful kind of flexibility, of course. But not being able to learn doesn't imply it can't cope with an infinite range of situations. A robot that's unable to learn could be programmed with enough flexibility to walk on any surface it could possibly encounter.
I meant to say that a learning robot could adapt to a situation and try out possible solutions, measure success and adapt where as a preprogrammed robot would only ever try what it's been infused with. In my analogy of falling down a hill, the learning robot might not be able to stop itself on the first try but hopefully it might adopt a strategy that could allow it to regain control of the situation.
I think it does imply learning. Human babies "learn to walk", by using the feedback from lots of little experiments to improve their ability to navigate uncertain and varying terrain.
Basically, flexibility and the ability to deal with novel situations is close to synonymous with the ability to learn.
It seems like there is significant distance between being able to move forward in a stable direction and be a generically useful and sellable product.
There are a lot of problems to be solved before such a thing could work in even an Amazon warehouse along side humans in a cost-effective fashion - and the use of this thing is it's potential working-where-humans-work ability, otherwise it's easier to have automated bookshelves. And I'd choose an Amazon warehouse because it's an ultra-structured, streamlined environment, anything else would be harder.
Google mostly bought Boston Dynamics to annoy the Pentagon, right after the Snowden revelations broke. DARPA sees Boston Dynamics' research as key for future ground-drone combat. Guessing somebody made a deal to get them back.
I find this implausible. I don't see Google spending that kind of money with out something sort-of resembling a plan[1], and didn't that purchase have to go through SEC approval? The DoD does have some pull with the SEC.
[1] Project Azorian not withstanding. Plus, it was funded by the government.
Don't underestimate the pettiness of billionaires, and the lengths they will travel to embarrass one another.
In fact, I can't think of a plausible reason for purchasing them and then putting them up for sale so quickly that doesn't involve political variables.
"“There’s excitement from the tech press, but we’re also starting to see some negative threads about it being terrifying, ready to take humans’ jobs,” wrote Courtney Hohne, a director of communications at Google and the spokeswoman for Google X.
Hohne went on to ask her colleagues to “distance X from this video,” and wrote, “we don’t want to trigger a whole separate media cycle about where BD really is at Google.”
“We’re not going to comment on this video because there’s really not a lot we can add, and we don’t want to answer most of the Qs it triggers,” she wrote."
I found this to be disappointing. More concerned about their brand image than trying to push robotics research forward.
This is incredibly disappointing to read. If they can't deal with the cultural repercussions of what they're building, then they're right, they need to get out of that game. Let someone else take the robotics helm
Maybe, but does anyone think about the ad-buying system that they are supporting before they click on an ad? Personally, I doubt that ethical consumerism runs that deep.
Especially since the robots that BD is making are prohibitively expensive, and will remain that way for several years. If anything is going to take away human jobs, it's the software at the core of Google's business, which costs nothing to deploy and is inherently better than humans... Unlike robots that cost more than a typical human makes in their lifetime and are only now beginning to gain proper mobility.
If anything, the real concerns about their research should be their ties to the DoD and the military use of robots.
Yes, and when a person like that is calling the shots on strategy, the song is over. Companies lead from the PR department are on trajectory to crater.
Still, we don't have the actual context: this could just be a department head bloviating on a thread she probably shouldn't have been included on in the first place.
One of Ray Kurzweil's predictions is that the exponential growth of technology is really going to surprise a lot of people when we start hitting the hockey growth phase. What looks to be 20 years out may be getting solved in 2 or 3 years, or even sooner. Perhaps google is making such progress in AI, they sense the public may turn against them if they have both AI and robots. I'm probably wrong, but just a theory. Kurzweil does work for Google by the way.
While Kurzweil generates predictions which are bold and falsifiable, there's an unfortunate tendency: The bold ones are not falsifiable, and the falsifiable ones are not bold.
Not just brand image, but actual customer decisions in the market. Look at how the self-driving car has evolved to look more friendly, for no technical reason, so the public doesn't resist it.
It's arrogant to push something forward in the face of widespread opposition, instead of finding an agreeable way forward.
Good for everyone else. This is exactly how startups get their opportunities. There's always a bigger, better company that can do what you want to do right now but won't.
> I found this to be disappointing. More concerned about their brand image than trying to push robotics research forward.
This is a director of communications we are talking about. Literally the beginning, middle, and end of her job description is "Consider our brand image." If she sounds overly concerned about Google X's brand image, that's because it's her job. Google pays her so that the rest of their employees don't have to be so concerned.
Basically every company on the planet with more than 20 people in it has someone making strategic decisions like this. The only difference here is we have a whistleblower reporting what she says internally. There's just about zero to learn about Google's priorities from her priorities, except that none of her immediate superiors is banging the drum for a PR battle over DoD robots.
This wasn't a public statement. It was an email to colleagues.
"Let's not comment" is, I think, the default position of PR departments everywhere on everything unless there is a crisis or a marketing campaign going on. Throwing fuel on a fire isn't wise unless you want there to be a fire.
Peaked in FY 2012, went to nothing (negative?) after Google X bought it at the end of 2013. Not sure if that is more because Google X wanted a real product, or that the defense dept didn't want to continue the relationship, or what.
The marine corps passed on big dog as "too loud" at the end of 2015, that killed a potential customer for that product.
Probably a contract that was "on the books" in FY 2013 but later canceled before payment in FY 2014. I assume there is a considerable time lag in payment when dealing with the US govt.
This most likely. You get to count the money for a contract when it gets booked and awarded, even if you don't start work on it immediately or actually receive any money. If you book a contract (and count the money) in one fiscal year and it gets reduced or canceled in a subsequent one the reduction counts as a "loss" even if no money has actually changed hands yet.
It might have been an equipment buyback. I.e., some large piece(s) of hardware that BD wanted to keep going forward, but that was procured with funding from a DoD contract.
(Incidentally, looking at the detail for year 2014, the total giveback was $5M. It was balanced by $1.5M of receipts in another category.)
There's likely another side to this- if Alphabet is putting a lot of money into a product type whose only past or foreseeable buyers are the US gov't, that would give the Feds some pretty fierce leverage in the event that Android winds up in a decryption legal battle like there's currently brewing over iPhones. BD could doubtlessly come up with something new for military gadget-buyers, but its unlikely to be such an emphatic killer app that their funding couldn't be used as a bargaining piece.
> The marine corps passed on big dog as "too loud" at the end of 2015, that killed a potential customer for that product.
and if you look at the latest gen, the robots clearly are quieter-so BD is still listening to the needs of the military.
My take: This company can make boku bucks selling to the military, but not while Google is the parent. They've had military applications in mind this whole time, but held back from making the sales. To let this company soar, it needed to get out from under the google umbrella.
Google wont sell to the military, but apparently they will fund years of R&D for military use cases. Unfortunately the sale price that google will get for BD will take into account the future Military contracts that will be available now. Meaning Google will be indirectly profiting off selling robots to the military.
"The marine corps passed on big dog as "too loud" at the end of 2015, that killed a potential customer for that product."
That was apparently a subcontractor failure. The prototype BigDog was powered by an off the shelf constant-speed gasoline engine driving a generator and hydraulic pump. This was inefficient, but good enough for the R&D version. The LS3 militarized version was supposed to have a quiet variable-speed Diesel plus some battery backup. (The US military is all-Diesel now. Gasoline tankers have no place in modern combat, where there are few secure rear areas.) So there was a subcontract for a small custom variable-speed Diesel engine with hydraulic pump and generator, with stringent noise and weight limitations. That apparently didn't work out as well as had been hoped. Quiet, tiny Diesels are hard.
Am I stupid to think about Xerox PARC or Bell labs? Seems like a company that will not produce immediate revenue in near future, but at the same time create technologies that will influence the world for dozens of years.
"Google’s public-relations team expressed discomfort that Alphabet would be associated with a push into humanoid robotics".
Observe the Innovator's Dilemma in effect: a successful company is putting too much emphasis on customers' current needs, and fails to adopt new technology or business models that will meet their unstated or future needs.
When realized, humanoid robotics will make the (self-driving or not) entire car industry seem like a quaint little side business.
I'm skeptical of humanoid robotics. If we're talking about productivity, humanoids will never be competitive with purpose-optimized robots. A few suitcases full of robots of different sizes will outperform a humanoid at almost anything.
Sex robots is one area where humanoids will be strong. But I think that's one area where a lot of humans will draw a line. Many humans won't even date someone with different skin color yet, let alone another species like a robot.
There is maybe a marketing advantage in the fact that they look like people so they might be seen as more trustworthy or comfortable. But there's the uncanny valley thing too. And with the little robots people will already have gotten really comfortable with, like, their kitchen counter robot making them coffee and breakfast long before a compelling, affordable humanoid robot exists.
I guess humanoids might make good spies if you can make them indistinguishable from people, but that's pretty sci-fi. And people who want to boss around a slave that has human feelings and stuff, but who don't like the idea of owning a human would be pretty into humanoids.
But all of this seems like fairly niche interests to me?
Yup totally agreed. I think "network-enabled mechanisms" much better describes the future. Internet-of-Things is a wider scope, the Internet-of-Machines are any device with the ability to perform work (i.e. apply a physical force through a distance)
Robotics, particularly without the gov't pig trough, needs a visionary and a long game point.
Andy Rubin was a visionary and he bailed.
He left Apple to found Danger which was one of the "genesis" products that led to the smartphone era. (1)
He made the next huge leap with Android and almost failed until Google showed up to help him fully execute his vision under their stewardship.
After Android became a very mature business in its own right what to do with the visionary founder?
The article states that "Page is interested in robots" - can you imagine if Larry Page came to you and said "Hey how about you literally build robots all day. You could be Tony Stark and here's $100m to get you started. We'll change the world!"
It's a hard to turn down offer, Rubin accepted and tried to recapture the magic pursuing somebody else's vision.
But it's damn tough to be a founder / visionary under somebody else's thumb, especially when you're set for life financially.
That's a story that never works out, but is played out again and again in technical acquisitions as big organizations attempt to find a place for founders.
It's my understanding the Andy has always been a Robotics geek even dated as far back as his days a Danger. So I find it hard to believe the argument that Andy has to be coerced into perusing a Robotics vision that he had no passion for.
I can confirm this. I worked with Andy at General Magic, and I later worked at Danger, Inc. (but after Andy had left). Andy was building robots the entire time. The early Danger office had several robots that Andy had built for fun.
>Robotics, particularly without the gov't pig trough, needs a visionary and a long game point.
There's a massive opportunity for a startup to move towards the personal/home robot market and make a killing, without any government help nor without some fabled visionary type person.
Google sought what were essentially military robots from BD. Those machines, if ever turned into a product, would have been tens of millions of dollar each. They make no sense and google cannot solve the problem of loud servos/actuators and the relatively low power density of battery technology. Heck, some BD demos I've seen run on gas engines. When the DoD is your customer, the last thing you want to sell them is a tool that'll give away their soldiers' positions.
I've seen ROS projects on commodity hardware that's 75% of the way to a decent home robot. I think this is doable within the next 10 years. Having a home robot will be like having a smartphone today. We'll wonder how we got along without them. Hell, I'm half-tempted to get into this field myself.
Everything about robots from these big companies has been "big picture" bullshit; big spending, big PR releases, big promises, untried tech, and sadly lots of questionable patent filing sprees. None of these big companies are interested in making a real affordable product it seems, or believe it to be too difficult or unprofitable. Its like they're trying to sell mainframes in 1980 and the PC Jr, Commodore64, Apple //, etc are soon going to eat their lunch. The big iron approach failed in computing the same way its failing in robotics.
In the consumer space, which is what we're all talking about, right? Unless by 'robots' you mean giant arms that put cars together, but that's 1970s technology there.
Gates/Jobs couldn't sell you a basement mainframe with a house full of terminals, and for good reason.
Gates/Jobs couldn't sell you a basement mainframe with a house full of terminals, and for good reason.
One of the points Woz made in his recent AMA at Reddit was that the mainframes have won, pretty much decisively. As everything moves into the cloud, what we think of as computers -- from our watches to our phones to our laptops and desktops -- are really just terminals.
What's a Web browser, after all, if not a highly evolved time-sharing terminal?
Who would pay for that? Street View is worth all the effort it requires because it's useful for the millions of people who are travelling on streets.
Besides a robot that could catalog fish would immediately be outfitted with a spear gun, with disastrous consequences for already-dwindling stocks of large pelagic fish.
>What's the killer app that single-handedly gets you to fork over $30k for a reliable robot?
It would have to be absolutely required for your life at that price. The car is the closest to this given that price point and many people forgo that, so I can't think of anything that you would absolutely need a robot for.
Exactly... I've looked at a lot of these opportunities -- see profile! I mean, I did my PhD on in-home healthcare robots!
There are a few good applications in healthcare that can (and do!) justify the expense of current robots. Still, it's often easier to target concentrations of people where you can cost-share a robot (eg. nursing homes) rather than operating in individual homes. But problems in nursing homes abound too: abysmal connectivity (no WiFi!), antiquated enterprise sales; excessive regulatory costs (FDA), etc.
Maybe costs will come down... but most "good" applications require manipulation, which makes a "general purpose" robot much more expensive than an autonomous car's sensor suites.
A highly reliable, rock solid robot nanny would easily fetch 30k and sell millions. This must be, what, at least a century away? I'm probably venturing into Jetsons territory here...
That's an AGI level capabilities in a robot that would have to not-exceed human strength levels (so they don't accidentally crush the baby) and I don't even know if it's worth discussing.
Sure, but they didn't become a must-have item in every pocket until the App Store came along. There was a big jump between selling 500,000 'smart phones'/yr and selling 500,000 per hour...
Were they? You could get internet and email on blackberry and nokia phones before the iphone came along. I think what drove iphone sales (besides the apple brand) was the futuristic look of only having one large screen and no physical keyboard.
Those could browse the web, but the iPhone had a full, non-neutered web browser, which I don't think the others really had. The intuitive/natural multi-touch interface certainly helped with browsing.
Not sure why I got downvoted for the above... the first iPhone was legitimately not good at phone calls. A big part of that was that the AT&T network wasn't up to snuff at the time, though, and AT&T was the only option.
I don't want a robotic domestic servant, I want my existing appliances to take on more responsibility.
I'd pay a few extra thousand for a car that drives itself, or a closet washer/dryer that automatically washes, folds, and stores my clothes, or a fridge that can make basic meals, or a vacuum that cleans my house while I'm out.
Maybe a humanoid robot that does these things will exist one day, but I'd rather have a home that does all these things frictionlesly than share my space with a robot.
> washer/dryer that automatically washes, folds, and stores my clothes
This would sell like hotcakes. Perhaps clothes would need some sort of an RFID tag built in to identify their specs (not sure the cost on that) but I would gladly pay a couple grand for a dryer that folds clothes.
It might be enough to include a cheap spectrometer to estimate the material composition. From this you should be able to guesstimate a suitable program. You could even spot and classify stains, AI to the rescue. There must be existing solutions for large scale industrial laundry handling.
A robotic closet that lets you wear your favorite shirt every day... fresh and clean.
If you are replacing a bunch of employees, then a house painting company or roofing company might pay $30k. For that price I think it's going to be sold to a company that earns money with it.
Another thing I left off my initial list: surely agriculture must have tons of uses for robotics, with enough scale to justify higher prices.
At $3k it's in the range of expensive hobby equipment or gardening machinery, so people might start buying them to show off if it's even slightly useful.
There's a massive opportunity for a startup to move towards the personal/home robot market and make a killing, without any government help nor without some fabled visionary type person.
My guess is that patents will cause this process to take longer than most of us will live. Look how long it's taken for competitive robotic vacuum cleaners -- which are probably the simplest domestic robotics applications! -- to emerge, after Roomba's initial land grab.
> It's a hard to turn down offer, Rubin accepted and tried to recapture the magic pursuing somebody else's vision. But it's damn tough to be a founder / visionary under somebody else's thumb, especially when you're set for life financially.
That's a story that never works out, but is played out again and again in technical acquisitions as big organizations attempt to find a place for founders.
Do you think Market's haven't quite priced this in yet? Market's are supposed to be epistemically efficient and factoring in relevant information.
That's an economists view of markets, the reality is that the fluctuations of stock every day illustrates the irrationality and near randomness of markets in reality.
Yeah but if this has been going on for quite some time now, people should have adjusted by now. If market's haven't adjusted for this long, then i'm going to say our assessment of the situation and conclusions are incomplete in some major way.
This sort of reasoning is saying that buy-outs are overpriced, so we can make a decision-profit by NOT buying these companies and using your money for better opportunities.
How long does it actually take for a market to adjust? "Quite some time" is hardly a quantity that confers any relevant information to your expectations.
Well considering the elite type people participating in these huge deals I assume that they will learn very quickly, and that there is something we are missing here. It's not like companies purchasing other companies is some new phenomenon, it's been a multi-decade affair at this point.
I hate to burst your bubble, but M&A is about as far from rational as you can get. Acquisitions are about much more than the present value of future cash flows.
failed experiments. in this case, someone at Google thought Boston Dynamics would be a good fit and that they'd be able to profitably cooperate. well, unanticipated complications prevented it. but they tried something different. sometimes these things do work out well. not this time.
As pjc50 said, it's often definitely a case of empire building.
Other times, the kind of personality that propels one into upper management makes him/her a particularly poor choice to execute an acquisition. Consider strong competitive instincts. While that is an excellent trait in certain types of companies, it can be a nightmare when it comes to acquisitions. Hell, highly competitive people can and have raised the valuation of a company several magnitudes beyond reasonable, simply through a bidding process.
In many ways, a competitive acquisition process looks like an auction and all the usual caveats apply.
> If market's haven't adjusted for this long, then i'm going to say our assessment of the situation and conclusions are incomplete in some major way
When presented with a conflict between your hypothesis and your data, you have (at least) two options:
(a) reject the hypothesis
(b) posit some hidden data that supports the hypothesis after all
The problem is that with long term return structures (such as long term R&D), there is no feasible way to arbitrage away wrong prices. So prices can diverge a long way from fundamental value.
This issue happens most visibly with the overall stock market level which reguarly and blatantly violates any kind of rational discounted cash flow e.g. in the dot.com era.
Robotics powered by AI might very well be the next frontier of innovation, at least I think Andy Rubin believes it. [1]
Ex-Head of Google China (before Google's retreat from China), Dr. Kai-Fu Lee visited silicon valley last month and wrote a piece [2] of about the trends he saw during his trip. One of the things Dr. Lee mentioned was Andy's new startup Playground will have a huge impact on making Robotics mainstream is what Android has done to make smart mobile phones mainstream. Let's see how soon that wave is coming.
It's arguable whether Symbian really quite made the jump to being a smartphone OS though, given the limitations baked into the OS. There are good reasons why Android overtook it.
When Android overtook Symbian, Symbian was a more capable OS than Android, this had nothing to do with capability. Android was able to copy iOS faster.
Sure it was more capable: it'd been around a lot longer and had a mature ecosystem. However, it also had fewer constraints on where it could go and what it could ultimately do, which Android (and iOS) weren't saddled with. That started to get better from Symbian^1 onward, but by then Symbian had essentially lost. The S60/MOAP/UIQ platform fragmentation before that didn't exactly help.
It's no real secret that Google wasn't supporting dodgeball the way we expected. The whole experience was incredibly frustrating for us - especially as we couldn't convince them that dodgeball was worth engineering resources, leaving us to watch as other startups got to innovate in the mobile + social space. And while it was a tough decision (and really disappointing) to walk away from dodgeball, I'm actually looking forward to getting to work on other projects again."
If this article is to be believed, shortsightedness and bottom-line-thinking are contradicting what Alphabet is suppose to be.
>Alphabet is about businesses prospering through strong leaders and independence... Sergey and I are seriously in the business of starting new things. Alphabet will also include our X lab, which incubates new efforts like Wing, our drone delivery effort. We are also stoked about growing our investment arms, Ventures and Capital, as part of this new structure.[1]
From the Alphabet website, to this article:
>Aaron Edsinger, director of robotics at Google in San Francisco, said that he had been trying to work with Boston Dynamics to create a low-cost electric quadruped robot
>In the meeting, Rosenberg said, “we as a startup of our size cannot spend 30-plus percent of our resources on things that take ten years," and that "there’s some time frame that we need to be generating an amount of revenue that covers expenses and (that) needs to be a few years.
Focusing on building revenue is good for established companies, sometimes even for company devisions. Not always useful for startups (imagine if FB bootsrapped), which in my understanding, was what Alphabet was trying to incubate.
> “There’s excitement from the tech press, but we’re also starting to see some negative threads about it being terrifying, ready to take humans’ jobs,” wrote Courtney Hohne, a director of communications at Google and the spokeswoman for Google X.
Hohne went on to ask her colleagues to “distance X from this video,” and wrote, “we don’t want to trigger a whole separate media cycle about where BD really is at Google.
Ignorance aside, you can glean more of the poor distinction between Alphabet and Google here. X[2] is suppose to be a separate company from Google, under Alphabet, yet it is referred to as Google X here. Even Courtney Hohne, a director of communication, lists herself as working at Google, not at X or at Alphabet.
This confusion between the two hints at larger problems, which bodes poorly for Alphabet's lofty aspirations.
Not to knock "Google X" but they seem to be extremely wishy washy when it comes to picking a direction. (Glass, robotics, curing aging) they really don't seem to have the "skate to where the puck is going to be" mentality at least from the outside looking in. Apple is struggling here too, but only very recently has this come to the attention of media and shareholders.
To be fair, that's what great R&D labs look like while they're inventing. They're all over the place, and only with hindsight can you connect the dots.
Hope some new/tech Billionaire buys it, just cause robots are cool and they want them to advance. I would! I really want to ride a big dog around my neighborhood / to work.
It's there now (with a timestamp of 2 hours ago), but /r/google isn't what I would consider a good barometer of what's important or popular news. It's larger than I expected at ~77k subscribers, but contrast with /r/android at ~623k subscribers, and it does not show up frequently on the first dozen pages of /r/all in my experience.
Interesting comments at the end about corp comm not wanting to be too close to Boston Dynamics. A self driving car is "cool" a robotic driver that can get in to a car and drive it away is "scary"[1]. Coupled with the stories about progress in AI and I can see why it might give someone the jitters. Doesn't help that the connection is still there, if only unacknowledged.
I've been following robotics since the 80's and one of those places that seems to get started and then vanish time and again are robot security guards. Certainly an ambulatory robot like some of the ones BD built with AI to investigate disturbances around a facility would be a potentially revenue generating product. The optics though leave a bit to be desired.
[1] This was one of the tasks of the DARPA robotics challenge.
Can anyone comment on the target use case for bi/quadruped robots ? Industrial operations have smooth flat predictable flooring where wheels are just fine. It's also too expensive for a consumer grade household assistant (but this would be the killer App).
This seems targeted for disaster/rescue ops and military applications. Perhaps Google doesn't want to enter those markets.
406 comments
[ 3.1 ms ] story [ 195 ms ] threadConsumers robotics is still waiting for its Apple II moment.
Elderly care in first world countries.
I've got a dozen great ideas too but I won't waste anyone's time. The trick is for a company to profitability make a product then parlay that into the next big thing.
http://asimo.honda.com/
The idea is for companies to find revenue from the technology as soon as possible then turn that revenue into R&D to build even better robots.
Look at the revenue the smartphone market generates. There's an arm's race to get consumers buying new devices. We need a couple $100 billion robotics companies pushing boundaries.
Also consider, for example, how Elon is bootstrapping electric cars and private rockets.
That's a great example. And I agree with you in part. Look how far Elon and Co have come in under 15 years with both Tesla and SpaceX. Bootstrapped? Indeed. But they also had to prime the pump with demand (SpaceX with gov contracts, Tesla with wealthy purchasers)
You find someone willing to pay for your product. The "build it and they will come" doesn't usually work out so well. Finding governments or wealthy people to pay for your products counts when building a business. Elon didn't invent this tactic.
It just shows much little when we trust what Google says when an acquisition happens. Eventually they are just going to do what they think will make them money, regardless of what they promised.
That said, now I'm worried that an actual defense contractor will get those robots.
Why is this worrying?
If you're afraid that the military will do something evil with the robots, you're going to be dismayed to learn that they already have automatic rifles, tanks, and atomic bombs.
Source for that?
> In fact, about 3 months after they said that, they started wanting to sell Google Glass to the military
Source for that?
But to have bought a leading "next-gen" defense contractor, only to wind down all of their contracts, and then sell off the company... seems... wrong? Almost like a deliberate destruction of this company.
A company like Boston Dynamics? Absolutely yes.
They were working on next-gen robotics that would directly save American soldier lives - both while in combat and during rescue operations. Their technology was also being tested for domestic search-and-rescue operations where it was too dangerous to send in humans.
Stopping a genocide, inserting a military "buffer" in-between two hostile nations, general peace keeping, hostage rescue, VIP protection, bomb location/defusal, hijackings, and more come to mind.
The fact is, soldier's lives are going to be put into harms way, even in a perfectly at-peace world (which none of us live in).
Perhaps I'm biased, as I come from a military family, but I'd far rather a walking circuit board take a bullet over a human soldier.
The US military is not interventionist - the US politicians are.
The military has little-to-zero say in what military actions they participate in, rather the politicians decide what is politically advantageous for themselves, the country, or the world - and give the orders. The military must then carry out those orders - and I'd still rather they have the option to send a robot instead of humans.
> they will be even more gung-ho about sending in firepower to places where it is going to end up causing a lot of civilian "collateral damage"
Part of the goal of robotics is to reduce "collateral damage". Humans make mistakes all the time in the field, which can and does result in friendly fire, civilian casualties, and more.
There are many good reasons not to make war too easy or efficient. Too often politicians trend toward groupthink and acting en masse, like a faceless feckless mob. Making invasion as easy as sending spam would be very bad.
If politicians make bad decisions, perhaps you should try fixing that instead of sacrificing the lives of young men for a small chance of making those decisions more painful.
It seems like Google are bailing on BD for much the same reason: Their tech works, but it doesn't actually solve any practical problem that Google have, and isn't close to producing any independent, sellable product.
[1] http://www.bbc.co.uk/news/technology-35201183
Otherwise, BD might have just embarrassingly died inside of Google.
[1] https://en.wikipedia.org/wiki/Lucky_the_Dinosaur
For example, in the FAQ of Jeff Dean's recent talk in Seoul, he mentioned how Deep Learning has a lot of potential to reinvent the field of robotics. Also, Demis Hassabis recently tweeted about progress in learning 3-D environments. I'd be surprised if Google wasn't looking into general purpose robotics...
Perhaps Google is disappointed in their robotics acquisitions and wants to start from scratch? It seems that they are farther on the software front than anyone at the point. I wonder what they'll do in their hardware/power divisions...
(Also, it kind of seems like Tesla and Google are on a crash course here. Tesla is ahead in power/hardware and is developing a top-tier AI team for self-driving cars. Elon also seems very interested in Robotics + AI. Google seems to be working from the opposite end.)
I suspect that's the way it is... everywhere, all the time. That's been my experience.
Everyone knew what to do with a typewriter, even if the visionary leader left. If the person who was saying that microcomputers were going to be the next big thing quit? Nobody else has that idea in their heads.
Cutting-edge areas tend to attract people there for the vision. And the harsh commercial realities of innovative markets mean companies get in trouble if they get complacent. Whereas people in larger, older companies in stable markets can let their vision die and just go on doing whatever worked before. At least until it doesn't work, and then they're screwed.
Or to extend the analogy, if someone goes to IBM as director for New Technology X, and then leaves five years later, what's the likelihood people in New Technology X Division are going to be able take his or her responsibilities over?
Big companies are big companies and they usually don't encourage or reward employees overly much for striking out in a brave new direction. Which is hilarious given that they'll continously try and hire exactly those people externally.
Though I suppose you honestly can't encourage too much rebellion when you make your money from a crank being turned (and happen to need 1,000 bodies to just shut up, turn the crank, and get paid).
Most startups avoid it to begin with. There's a really strong incentive for having a clear mission and high customer focus; many things get easier. Wikipedia has done a good job with "Imagine a world in which every single human being can freely share in the sum of all knowledge." Toyota has done a fantastic job organizing around the Toyota Production System. The best restaurants, bakeries, and the like generally have strong shared understandings. The same is often true of multi-generational family firms.
I think even Google did a good job for a long time rallying around "organize the world’s information and make it universally accessible and useful". Which makes this especially sad to me. Around the time of Google Plus and "more wood behind fewer arrows" I think there was a culture shift that is probably irreversible.
Agreed. I find it doesn't hold for most contemporary Japanese corporations though. Their leaders tend to be switchable placeholders whose main purpose is to efficiently represent a consensus view.
Interestingly, though they do have momentum, they seem to lack strategic direction. Perhaps only charismatic leaders can provide the latter. Japan can produce such people (e.g. Morita at Sony) but the current environment values continuity over vision.
Do you have anything you'd suggest I read to get a better understanding of the current Japanese situation? Most of my knowledge is about historic Toyota, which I'm sure gives me a distorted view.
Sorry, my opinion is formed only by observation and discussion with related parties. I don't have any direct experience of Toyota, except with one of their trading company's subsidiaries. Uniquely, this company does have a visionary leader at the helm, yet I believe there is no correlation with the parent's leadership style because Toyota Tsucho is run at arms length.
My rather uninformed opinion of Toyota Motors is that they are succeeding exactly as other Japanese companies used to succeed. If this is right, and I hope not, then they may be fated to see the same stagnation in time. A more optimistic view is that Toyota have something unique. If so, I don't believe it to be charismatic leadership. It would be baked into their culture.
Of note is Toyota's recent decision to invest $1B in AI research in Silicon Valley and Boston. They are trying to get ahead of the coming tech for autonomous driving and factory automation. http://www.nytimes.com/2015/11/06/technology/toyota-silicon-...
[1] http://www.safetyresearch.net/blog/articles/toyota-unintende...
I was baffled by this as well, until I got closer to it and got to see "how the sausage is made".
It is amazing what a confident, strong personality can do in a group of people in _any_ setting.
We say this because sausage is tasty, but most people prefer not to see all the animal parts being ground up and stuffed into an intestine.
"Laws are like sausages, it is better not to see them being made."
Yes, companies seem such opaque entities from the outside, but they are mostly driven by the wills of the topmost two layers. Remove key players from those layers and you see billions of dollars moving in strange new directions.
That's what SVP/ director level / C-level people do for a living. They don't barely do any coding or any technical work - they create the vision and hire the people (or buy other companies) to make it real.
Of course, reforming one arm of a business is a lot easier than an entire company, especially if nobody really depends on that arm.
Likewise, sure, a big company has a lot of momentum but it shouldn't take more than a year to realign it.
In a big organization, if the CEO says to do something (i.e. new vision... PKI's!), most people can ignore it with little chance of reprisal. It's much more of a political/social hierarchy than a military one.
https://partners.nytimes.com/library/tech/00/04/biztech/arti...
Think of it more like a feudal society. At the best of times, the headman at the top has the loyalty of most of the upper levels, and each of those has the loyalty of most of whoever is beneath them. But each of them has their own desires and plans: what they think will make the organization better or make their position in it better. At worse times, you have the War of the Roses or Game of Thrones sort of stuff.
The problem with bringing in outside organizations, like buying Boston Dynamics, is that they have their own, mostly fixed feudal structures, and integrating them is difficult. (Consider, at the very least, someone is going to go from the king of their own personal world to having to ask before they head to the executive washroom.)
A single person with a vision can have a great effect, because they only have to inspire (or convince) a small group of people around them to go along and that small group will bring along their own people. On the other hand, if the person with vision leaves the organization, whatever they were holding together falls apart pretty quickly.
(My favorite example is the Westinghouse(!)-CBS-Viacom thing.)
google paid X for BD
google showed off their latest robots
someone offered 2X for BD.
or alternatively:
maintaining and discontinuing BD's government contracts both put google in a tight place.
BD was heavily geared towards defence contracts. That stream is gone. They will now have to do some painful restructuring, I guess Google don't want the bad publicity.
There are probably conversations going on that made the acquisition worth at the time (favour with public figures etc, Google has long been cozy with spooks and military types), and losing those contracts probably changed the equation significantly enough.
So now that their research won't be used for murderbots anymore they're worrying about bad publicity??
My experience in this area is quite limited, but it's surprisingly difficult to find companies doing this type of research that are not tied to the DoD in some way. DARPA is a major source of funding for these projects, and many of them wouldn't get funded at all without the government.
http://www.defensenews.com/story/defense/innovation/2016/03/...
The contracts that Boston Dynamic had with DoD expired in March 2015 [2]. My guess (BIG UNEDUCATED GUESS) is that the DoD doesn't take too kindly to its contractors not renewing its contracts and these military contracts contradict the corporate culture of Google. What's interesting is that they sold Boston Dynamic exactly a year after the DoD contract expired (donning conspiracy hat).
[1] http://www.nytimes.com/2013/12/14/technology/google-adds-to-... [2] http://upstart.bizjournals.com/companies/innovation/2015/01/...
http://www.reuters.com/article/us-usa-military-innovation-id...
Being that they were the source, best as I can tell.
summary: Schmidt joins board to help an "alphabet" US govt agency or two modernize their operations with industry best practices
editorial: This could be good or bad, depending on how things turn out. And for your weather forecast, it either will be rainy tomorrow, or it won't.
hn-cross-ref:
https://hn.algolia.com/?query=www.reuters.com%2Farticle%2Fus...
You may burn some bridges in your example but think of DoD like any other organization. If it's not getting the spotlight, there will be no hard feelings when things turn.
I think the thing that Google has recognized is that cutting edge robotics research that takes advantage of the work they have already done in deep learning doesn't require the kind of robots that Boston Dynamics (or many of the other companies they bought) build. Cutting edge robotics (from the perspective of learning systems) is back at the level of getting a single arm and a camera to learn basic tasks. In fact, there is a lot of research that can be done in simulation with these new deep methods that doesn't even require hardware.
The software and learning systems they can develop will very likely make their way into super advanced complex hardware like Atlas in the future, but for now it's probably not the best use of their time.
Which is a nice way to say that robotics really hasn't progressed that much in a sense an outsider would see as progress (where progress on outsider-terms would be Boston-Dynamics style robots that can, say, learn task and repeat them), though I'm sure researchers can point to a lot of progress on their terms.
I wrote a post four years ago about all the various huge showstopping technical challenges facing mobile robots: http://c1qfxugcgy0.tumblr.com/post/31187427192/the-enduring-...
Basically nothing has changed since then.
To have a useful anthropomorphic robot you need better:
Only in software and computers are we seeing fast progress. (Big improvements in ConvNet algorithms, and the fast video cards you need to run them) But actuators need to be more powerful and much lighter, and batteries need to store at least ten times as much power. Progress in these fields has been slow, since energy storage is a mature field, and you don't see routine doubling of performance like you do with CPUs.And, of course, an economically useful anthropomorphic robot has to be dirt cheap, as well.
The PR2 I discussed in the blog post does indeed have a lithium ion battery pack. It has a 1.3kWh capacity, (188 times bigger than an iPhone 6's battery! Probably part of the reason the robot massed 220 kilos) which gave it a rated... 2 hours of runtime.
Lithium ion is better than earlier battery chemistries, but it's still not very good: https://upload.wikimedia.org/wikipedia/commons/thumb/c/c6/En...
Indeed, people talking about this subject often don't realize that humans are really cheap in many if not most circumstances (Boston Dynamics is working on poison-gas-protection-suit testing robot. Finally figured out a job a person wouldn't do).
And it's an evil equation where once a given task is mastered by robots, it makes humans cheaper in many other tasks - because it increases the competition and because it decreases the cost of maintaining the human.
So we've seen incremental automation and steadily declining living standards. Not a world that screams out the benefits of technology.
E.g. "Why would I do that for that much? I don't have any driving physical needs pushing me to poison/injure myself performing a dangerous menial tasks for minimum wage." Which puts a floor on human desire to do basic jobs. Which helps continue to support investment in improving automation/robotics. Which makes the world a better place.
Which actually sounds a lot like a carbon tax and the struggles alternative energy sources have gone through. Call it a self-aware employment tax.
You can run electric motors far above their continuous rated values for short periods. Also, electric motors specifically designed for brief overloads (high-temperature insulation, temperature sensors) are quite possible. Every automobile starter motor is such a motor. With synchronous brushless motors ("brushless DC" and "variable frequency synchronous" motors are the same thing; motors above a few KW tend to be called the latter) and big power IGBTs, you can have huge torques briefly without much difficulty. If you have the electric power available.
Batteries, maybe. Running time between charges is going to be a problem for a long time to come. There's a huge battery industry trying to get energy density up, with modest success. For many applications, trailing a power cord most of the time is an option. Especially if the robot can plug itself in, which the Hopkins Beast was doing in the 1960s.
[1] http://www.gizmag.com/siemens-world-record-electric-motor-ai...
The problem is not power density, but torque density. Brushless motors spin really, really fast with low torque, which is the exact opposite of what we need for robots.
[0]https://www.youtube.com/watch?v=8p5uDf9i_Yc
[1] http://lancet.mit.edu/motors/motors3.html#tscurve
SCHAFT found a solution to the more current problem with their ultracapacitor driven water cooled motors. Except one cannot drive said motors continuously and alone they still don't have that much torque, so if one wants more torque more windings must be added.
You can design motors for higher torques at lower speeds but the torque density suffers. Luckily we have compact high reduction gearing to transform high speed low torque to low speed high torque.
If the charging time was close to zero, would this problem be solved, for many applications ?
Or the other alternative, phinergy's aluminum air battery, which has 2000 wh/kg, but cannot be recharged, just replaced and "recycled", but probably in a cost effective way ?
I do see the power source as being an issue. Many of the most impressive robots are tethered, but even a tethered humanoid robot could be extremely useful.
Stationary industrial robots, the only real success story of robotics, have great speed and power, at the cost of incredible weight and power consumption.
Consider the Motoman EPX2050.
http://www.motoman.com/datasheets/EPX2050.pdf
15Kg payload, pretty okay, (Try holding a 15Kg weight at arm-length) but it masses 540Kg and has a rated power consumption of 5KW. (Three-phase power, of course) And that's just the arm! The NX100-FM controller it's specced with masses another 120Kg.
Mobile robots hate weight. Cutting weight forces a lot of other compromises, in speed, power, and cost.
http://www.bostondynamics.com/robot_Atlas.html
EDIT: Also for the Motoman, is it possible it needs so much power because of how fast it can move that 15 kg mass around ? There's no beating conservation of energy.
There's your problem right here. The video demo shows it walking freely, but I bet it can only do that for short stints.
[0]http://tedxtalks.ted.com/video/Walking-and-Running-Bio-Inspi...
Everything I'm seeing these days with AI research seems to be about developing systems that learn for themselves. Rather than telling the robot/AI exactly how to behave in a given situation, it's about allowing the robot/AI to experience as many situations as possible and learn what the appropriate response should be so that in the future it can independently identify and react accordingly.
The former approach works fine for a factory floor robot that is in a controlled environment but doesn't lend itself well to other situations. An example might be a biped robot walking up a mountain and it falls. Most of the examples I've seen, the Boston Dynamics one included, have the robot detect it's falling and put itself into a crash position where it remains until it comes to a rest before attempting to recover.
If your robot is rolling down a mountain it might be destroyed before it comes to a rest. Having a feedback loop, reflex reactions and the ability to access the situation and recover dynamically would be much more useful.
Agreed. But none of that implies learning. So why are you talking about learning in the beginning of your comment?
This happens all too often in AI conversations. Learning gives you a special and powerful kind of flexibility, of course. But not being able to learn doesn't imply it can't cope with an infinite range of situations. A robot that's unable to learn could be programmed with enough flexibility to walk on any surface it could possibly encounter.
How exactly?
Basically, flexibility and the ability to deal with novel situations is close to synonymous with the ability to learn.
There are a lot of problems to be solved before such a thing could work in even an Amazon warehouse along side humans in a cost-effective fashion - and the use of this thing is it's potential working-where-humans-work ability, otherwise it's easier to have automated bookshelves. And I'd choose an Amazon warehouse because it's an ultra-structured, streamlined environment, anything else would be harder.
http://singularityhub.com/2013/03/19/exclusive-interview-ray...
http://www.kurzweilai.net/
P.S.: Although probably not as aggressively self-promoting as the occasional Wolfram Noun Wolfram Verb Wolfram Wolfram.
Here, I found it:
https://www.youtube.com/watch?v=MG_nOddk01E
("biologically inspired models of intelligence", I/0 2014)
That's not the robotics domain per se, but if you're the director of engineering at Alphabet/Google, you probably have opinions about robotics.
I'll welcome any material news about him in our our thread, the more recent the better.
[1] Project Azorian not withstanding. Plus, it was funded by the government.
In fact, I can't think of a plausible reason for purchasing them and then putting them up for sale so quickly that doesn't involve political variables.
I found this to be disappointing. More concerned about their brand image than trying to push robotics research forward.
If anything, the real concerns about their research should be their ties to the DoD and the military use of robots.
Still, we don't have the actual context: this could just be a department head bloviating on a thread she probably shouldn't have been included on in the first place.
It's arrogant to push something forward in the face of widespread opposition, instead of finding an agreeable way forward.
This is a director of communications we are talking about. Literally the beginning, middle, and end of her job description is "Consider our brand image." If she sounds overly concerned about Google X's brand image, that's because it's her job. Google pays her so that the rest of their employees don't have to be so concerned.
Basically every company on the planet with more than 20 people in it has someone making strategic decisions like this. The only difference here is we have a whistleblower reporting what she says internally. There's just about zero to learn about Google's priorities from her priorities, except that none of her immediate superiors is banging the drum for a PR battle over DoD robots.
"Let's not comment" is, I think, the default position of PR departments everywhere on everything unless there is a crisis or a marketing campaign going on. Throwing fuel on a fire isn't wise unless you want there to be a fire.
https://www.usaspending.gov/transparency/Pages/RecipientProf...
Peaked in FY 2012, went to nothing (negative?) after Google X bought it at the end of 2013. Not sure if that is more because Google X wanted a real product, or that the defense dept didn't want to continue the relationship, or what.
The marine corps passed on big dog as "too loud" at the end of 2015, that killed a potential customer for that product.
Yeah, does anyone know if BD paid the DoD ~3.5M in 2014? I haven't seen that kind of thing before.
(Incidentally, looking at the detail for year 2014, the total giveback was $5M. It was balanced by $1.5M of receipts in another category.)
They demoed warehousing robots that could automate some lifting, transporting, shelving tasks. There was definitely commercial potential there.
and if you look at the latest gen, the robots clearly are quieter-so BD is still listening to the needs of the military.
My take: This company can make boku bucks selling to the military, but not while Google is the parent. They've had military applications in mind this whole time, but held back from making the sales. To let this company soar, it needed to get out from under the google umbrella.
Google wont sell to the military, but apparently they will fund years of R&D for military use cases. Unfortunately the sale price that google will get for BD will take into account the future Military contracts that will be available now. Meaning Google will be indirectly profiting off selling robots to the military.
http://www.merriam-webster.com/dictionary/beaucoup
/s
That was apparently a subcontractor failure. The prototype BigDog was powered by an off the shelf constant-speed gasoline engine driving a generator and hydraulic pump. This was inefficient, but good enough for the R&D version. The LS3 militarized version was supposed to have a quiet variable-speed Diesel plus some battery backup. (The US military is all-Diesel now. Gasoline tankers have no place in modern combat, where there are few secure rear areas.) So there was a subcontract for a small custom variable-speed Diesel engine with hydraulic pump and generator, with stringent noise and weight limitations. That apparently didn't work out as well as had been hoped. Quiet, tiny Diesels are hard.
Also, what would be the range of running the LS3 on batteries, then the recharge time with an on-board diesel?
Observe the Innovator's Dilemma in effect: a successful company is putting too much emphasis on customers' current needs, and fails to adopt new technology or business models that will meet their unstated or future needs.
When realized, humanoid robotics will make the (self-driving or not) entire car industry seem like a quaint little side business.
Sex robots is one area where humanoids will be strong. But I think that's one area where a lot of humans will draw a line. Many humans won't even date someone with different skin color yet, let alone another species like a robot.
There is maybe a marketing advantage in the fact that they look like people so they might be seen as more trustworthy or comfortable. But there's the uncanny valley thing too. And with the little robots people will already have gotten really comfortable with, like, their kitchen counter robot making them coffee and breakfast long before a compelling, affordable humanoid robot exists.
I guess humanoids might make good spies if you can make them indistinguishable from people, but that's pretty sci-fi. And people who want to boss around a slave that has human feelings and stuff, but who don't like the idea of owning a human would be pretty into humanoids.
But all of this seems like fairly niche interests to me?
* Automatic ability to integrate into environments designed for humans. Think doorknobs, ladders etc.
* All the advantages of legged locomotion over wheels.
* Once you have legged locomotion down you might as well do it on two legs and add some arms, and voila you have a humanoid robots.
Andy Rubin was a visionary and he bailed.
He left Apple to found Danger which was one of the "genesis" products that led to the smartphone era. (1)
He made the next huge leap with Android and almost failed until Google showed up to help him fully execute his vision under their stewardship.
After Android became a very mature business in its own right what to do with the visionary founder?
The article states that "Page is interested in robots" - can you imagine if Larry Page came to you and said "Hey how about you literally build robots all day. You could be Tony Stark and here's $100m to get you started. We'll change the world!"
It's a hard to turn down offer, Rubin accepted and tried to recapture the magic pursuing somebody else's vision. But it's damn tough to be a founder / visionary under somebody else's thumb, especially when you're set for life financially.
That's a story that never works out, but is played out again and again in technical acquisitions as big organizations attempt to find a place for founders.
(1) https://en.wikipedia.org/wiki/Danger_(company)
(2) https://en.wikipedia.org/wiki/List_of_mergers_and_acquisitio...
Well, maybe that's even why Android is called "Android".
There's a massive opportunity for a startup to move towards the personal/home robot market and make a killing, without any government help nor without some fabled visionary type person.
Google sought what were essentially military robots from BD. Those machines, if ever turned into a product, would have been tens of millions of dollar each. They make no sense and google cannot solve the problem of loud servos/actuators and the relatively low power density of battery technology. Heck, some BD demos I've seen run on gas engines. When the DoD is your customer, the last thing you want to sell them is a tool that'll give away their soldiers' positions.
I've seen ROS projects on commodity hardware that's 75% of the way to a decent home robot. I think this is doable within the next 10 years. Having a home robot will be like having a smartphone today. We'll wonder how we got along without them. Hell, I'm half-tempted to get into this field myself.
Everything about robots from these big companies has been "big picture" bullshit; big spending, big PR releases, big promises, untried tech, and sadly lots of questionable patent filing sprees. None of these big companies are interested in making a real affordable product it seems, or believe it to be too difficult or unprofitable. Its like they're trying to sell mainframes in 1980 and the PC Jr, Commodore64, Apple //, etc are soon going to eat their lunch. The big iron approach failed in computing the same way its failing in robotics.
I thought that was generally how one became a defense contractor? The billboards on DC transit always made me chuckle.
If you mean 'failed' as in 'is widely used by all major financial organisations and thousands of businesses besides', sure, big iron failed.
Gates/Jobs couldn't sell you a basement mainframe with a house full of terminals, and for good reason.
One of the points Woz made in his recent AMA at Reddit was that the mainframes have won, pretty much decisively. As everything moves into the cloud, what we think of as computers -- from our watches to our phones to our laptops and desktops -- are really just terminals.
What's a Web browser, after all, if not a highly evolved time-sharing terminal?
A literal fleet of robots that could map the ocean BUT also start cataloging all the fish in the ocean.
We talk about seafood collapse, what if there were thousands of robots that would suffice and charge via solar then dive and map and count fish.
That's a fucking vision for robots I would like to see.
Besides a robot that could catalog fish would immediately be outfitted with a spear gun, with disastrous consequences for already-dwindling stocks of large pelagic fish.
- Mow my lawn
- Stain my deck
- Paint my walls
- Roof my house
- Spread moss killer on my roof
- Clean my gutters
- Spray Raid into hornet nests
- Hunt down and destroy dandelions
Maybe some of these I buy it, and others the painters/roofers buy it. But it seems like there is a lot of opportunity here as hardware prices fall.
The "robot app store" idea alone has never worked for driving adoption... even smart phones originated with phone calls.
It would have to be absolutely required for your life at that price. The car is the closest to this given that price point and many people forgo that, so I can't think of anything that you would absolutely need a robot for.
There are a few good applications in healthcare that can (and do!) justify the expense of current robots. Still, it's often easier to target concentrations of people where you can cost-share a robot (eg. nursing homes) rather than operating in individual homes. But problems in nursing homes abound too: abysmal connectivity (no WiFi!), antiquated enterprise sales; excessive regulatory costs (FDA), etc.
Maybe costs will come down... but most "good" applications require manipulation, which makes a "general purpose" robot much more expensive than an autonomous car's sensor suites.
Sure, but they didn't become a must-have item in every pocket until the App Store came along. There was a big jump between selling 500,000 'smart phones'/yr and selling 500,000 per hour...
Not sure why I got downvoted for the above... the first iPhone was legitimately not good at phone calls. A big part of that was that the AT&T network wasn't up to snuff at the time, though, and AT&T was the only option.
I'd pay a few extra thousand for a car that drives itself, or a closet washer/dryer that automatically washes, folds, and stores my clothes, or a fridge that can make basic meals, or a vacuum that cleans my house while I'm out.
Maybe a humanoid robot that does these things will exist one day, but I'd rather have a home that does all these things frictionlesly than share my space with a robot.
This would sell like hotcakes. Perhaps clothes would need some sort of an RFID tag built in to identify their specs (not sure the cost on that) but I would gladly pay a couple grand for a dryer that folds clothes.
A robotic closet that lets you wear your favorite shirt every day... fresh and clean.
Another thing I left off my initial list: surely agriculture must have tons of uses for robotics, with enough scale to justify higher prices.
Agriculture apparently already uses robots https://www.washingtonpost.com/news/the-switch/wp/2015/06/22...
At $3k it's in the range of expensive hobby equipment or gardening machinery, so people might start buying them to show off if it's even slightly useful.
My guess is that patents will cause this process to take longer than most of us will live. Look how long it's taken for competitive robotic vacuum cleaners -- which are probably the simplest domestic robotics applications! -- to emerge, after Roomba's initial land grab.
The cost of making a system that works under many pretences scales exactly the same as making software that works for any set of criteria.
Shit just doesn't happen.
You're living a pipe dream.
Wait 15 years and maybe. For now, revel that we're advanced enough to automate one task.
https://www.youtube.com/watch?v=rVlhMGQgDkY
In case anyone else wanted to know:
https://en.wikipedia.org/wiki/Application-specific_integrate...
Do you think Market's haven't quite priced this in yet? Market's are supposed to be epistemically efficient and factoring in relevant information.
This sort of reasoning is saying that buy-outs are overpriced, so we can make a decision-profit by NOT buying these companies and using your money for better opportunities.
Something has to be up here.
It's usually not profitable for the company, but for the senior execs it's the best way to acquire more subordinates.
Other times, the kind of personality that propels one into upper management makes him/her a particularly poor choice to execute an acquisition. Consider strong competitive instincts. While that is an excellent trait in certain types of companies, it can be a nightmare when it comes to acquisitions. Hell, highly competitive people can and have raised the valuation of a company several magnitudes beyond reasonable, simply through a bidding process.
In many ways, a competitive acquisition process looks like an auction and all the usual caveats apply.
When presented with a conflict between your hypothesis and your data, you have (at least) two options: (a) reject the hypothesis (b) posit some hidden data that supports the hypothesis after all
This issue happens most visibly with the overall stock market level which reguarly and blatantly violates any kind of rational discounted cash flow e.g. in the dot.com era.
Ex-Head of Google China (before Google's retreat from China), Dr. Kai-Fu Lee visited silicon valley last month and wrote a piece [2] of about the trends he saw during his trip. One of the things Dr. Lee mentioned was Andy's new startup Playground will have a huge impact on making Robotics mainstream is what Android has done to make smart mobile phones mainstream. Let's see how soon that wave is coming.
[1] http://www.wired.com/2016/02/android-inventor-andy-rubin-pla...
[2] http://www.techsite.io/p/274598
The next, and the last.
"So.... Alex and I quit Google on Friday.
It's no real secret that Google wasn't supporting dodgeball the way we expected. The whole experience was incredibly frustrating for us - especially as we couldn't convince them that dodgeball was worth engineering resources, leaving us to watch as other startups got to innovate in the mobile + social space. And while it was a tough decision (and really disappointing) to walk away from dodgeball, I'm actually looking forward to getting to work on other projects again."
>Alphabet is about businesses prospering through strong leaders and independence... Sergey and I are seriously in the business of starting new things. Alphabet will also include our X lab, which incubates new efforts like Wing, our drone delivery effort. We are also stoked about growing our investment arms, Ventures and Capital, as part of this new structure.[1]
From the Alphabet website, to this article:
>Aaron Edsinger, director of robotics at Google in San Francisco, said that he had been trying to work with Boston Dynamics to create a low-cost electric quadruped robot
>In the meeting, Rosenberg said, “we as a startup of our size cannot spend 30-plus percent of our resources on things that take ten years," and that "there’s some time frame that we need to be generating an amount of revenue that covers expenses and (that) needs to be a few years.
Focusing on building revenue is good for established companies, sometimes even for company devisions. Not always useful for startups (imagine if FB bootsrapped), which in my understanding, was what Alphabet was trying to incubate.
> “There’s excitement from the tech press, but we’re also starting to see some negative threads about it being terrifying, ready to take humans’ jobs,” wrote Courtney Hohne, a director of communications at Google and the spokeswoman for Google X. Hohne went on to ask her colleagues to “distance X from this video,” and wrote, “we don’t want to trigger a whole separate media cycle about where BD really is at Google.
Ignorance aside, you can glean more of the poor distinction between Alphabet and Google here. X[2] is suppose to be a separate company from Google, under Alphabet, yet it is referred to as Google X here. Even Courtney Hohne, a director of communication, lists herself as working at Google, not at X or at Alphabet.
This confusion between the two hints at larger problems, which bodes poorly for Alphabet's lofty aspirations.
[1]http://abc.xyz [2] https://en.wikipedia.org/wiki/X_(company)
Perhaps there are hidden machinations and defence-washing for PR purposes.
But perhaps it's about corp comm being given veto power over R&D - in which case it seems like a terrible mistake.
I've been following robotics since the 80's and one of those places that seems to get started and then vanish time and again are robot security guards. Certainly an ambulatory robot like some of the ones BD built with AI to investigate disturbances around a facility would be a potentially revenue generating product. The optics though leave a bit to be desired.
[1] This was one of the tasks of the DARPA robotics challenge.
This seems targeted for disaster/rescue ops and military applications. Perhaps Google doesn't want to enter those markets.