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AI Science

Everyday Objects Can Run Artificial Intelligence Software (science.org) 51

Slashdot reader sciencehabit quotes Science magazine: Imagine using any object around you—a frying pan, a glass paperweight—as the central processor in a neural network, a type of artificial intelligence that loosely mimics the brain to perform complex tasks. That's the promise of new research that, in theory, could be used to recognize images or speech faster and more efficiently than computer programs that rely on silicon microchips.

To demonstrate the concept, the researchers built neural networks in three types of physical systems, which each contained up to five processing layers. In each layer of a mechanical system, they used a speaker to vibrate a small metal plate and recorded its output using a microphone. In an optical system, they passed light through crystals. And in an analog-electronic system, they ran current through tiny circuits.

In each case, the researchers encoded input data, such as unlabeled images, in sound, light, or voltage. For each processing layer, they also encoded numerical parameters telling the physical system how to manipulate the data. To train the system, they adjusted the parameters to reduce errors between the system's predicted image labels and the actual labels.

In one task, they trained the systems, which they call physical neural networks (PNNs), to recognize handwritten digits. In another, the PNNs recognized seven vowel sounds. Accuracy on these tasks ranged from 87% to 97%, they report in this week's issue of Nature. In the future, researchers might tune a system not by digitally tweaking its input parameters, but by adjusting the physical objects—warping the metal plate, say.

The team is most excited about PNNs' potential as smart sensors that can perform computation on the fly. A microscope's optics might help detect cancerous cells before the light even hits a digital sensor, or a smartphone's microphone membrane might listen for wake words. These "are applications in which you really don't think about them as performing a machine-learning computation," they say, but instead as being "functional machines."

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Everyday Objects Can Run Artificial Intelligence Software

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  • That "frying pan" comment really points out the importance of the opposable thumb in realizing the utility of human intelligence.
  • Lots of fast, dumb calculations is not *and never will be* AI.

    Until we understand how learning works, really understand it, not fake it, we will have lots of crappy AIs that behave just like Clippy, that can help with some limited range of things, but give stupid answers outside of those tiny limits.

    Until we understand how learning works, IGNORE ALL AI HYPE.
    • by mspohr ( 589790 )

      This is more properly described as a neural net.
      Neural nets can recognize patterns once trained.
      Very clever what they have demonstrated.

      • This is more properly described as a neural net.
        Neural nets can recognize patterns once trained.
        Very clever what they have demonstrated.

        It's literally in the description:

        the researchers built neural networks

        And later on:

        In one task, they trained the systems, which they call physical neural networks (PNNs),

    • You mean... Artificial Stupidity? Yeah, we're great at doing that!

      "One day, machines will exceed human intelligence." - Ray Kurzweil

      "Only if we meet them half-way." - Dave Snowden

      Looks like we're really doing our "Idiocracy" best to meet them half-way.

      • Average human is capable of being quite stupid as well, AI has no monopoly on stupidity. Just look at how we read news and then react to a pandemic.
    • Lots of fast, dumb calculations is not *and never will be* AI.

      Yet, that is also how biological neural networks function. The main difference is that the activation function is analog, but the principle is the same.

      • by bn-7bc ( 909819 )
        And also the BI (biological Inteligrnce) has had a few nire years (well a few million more but let's nit split hairs), ok biological evolution is slower than computer evolution so give AI/neural nets a few 100 years and we(well out grandchildrens children) shal see. I certainly can 't oredict the state of AI at the point.
      • You think it is. But you have no evidence for that.

        And, given the faster and faster and faster and still not learning computers, and the main difference that real intelligence really learns and fake ones do not,
        I contend that you are wrong, and you and your colleagues can keep throwing cycles at your solution, but will never solve the problem.
    • Until they understood how flying works, the Wright brothers did nothing, it would have been just "fake flying". /s
      • It would be more like "Wright brothers create artificial life!! Today, Orville and Wilbur Wright demonstrated a mechanical bird and predicted that soon flocks of these creatures would roam the skies and could be harnessed like horses to do tasks for man!"

      • Did you come for the one-minute Chinese Room argument or the ten-minute Chinese Room argument ?
    • you can't ignore paying the ticket for running a red light in your self-driving car. Clippies are already running the world.
  • I have no problem with new technology, I love technology. The problem I have is with how companies are choosing to use technology, which is specifically not to the benefit of the buyer. I know almost everyone is willing to trade away their privacy for convenience but Faustian bargain at best. I certain that integrating technology into otherwise basic tools will inevitably lead to further decay in privacy.

    So this all piles up to one question: is it in the long-term interest of our society to do away with

    • A valid concern, but this particular discovery leads to very cheap physical neural networks that have a lower barrier to adoption. They empower powerful edge AI that doesn't need to report to the cloud everything it does.
      • doesn't need to report to the cloud everything it does

        Neither do SmartTVs, or "fitness trackers" and yet they do.

    • is it in the long-term interest of our society to do away with every last shred of privacy?

      If we could actually do that, such that literally everyone's privacy would be eliminated, then it would arguably make the world a better place. The fundamental problem with such an idea is that it never actually works that way. There are always haves and have-nots, in this case those who have privacy and those who do not. You wind up with politicians looking into people's bedrooms, without those people being able to look back into those politicians' offices, or into corporate boardrooms.

      Privacy has to be gi

      • Privacy has to be given to everyone or no one for it to be fair.

        At this point, you only need for people to reject products that spy on them.

        • At this point, you only need for people to reject products that spy on them.

          So don't use the internet?

          • The internet is no particular product, so no. You definitely should reject some websites though. I browse using a cookie whitelist and many privacy enabling extensions.

  • Pretty soon we'll be doing this with something far more powerful: actual human neurons! It'll be just like this experiment: we'll tweak the input parameters via the ingesting of drugs like SSRIs, hormones, neuroactive pharmaceuticals, or even repeated auditory and optical stimuli, and the output can be anything: observed behavior, what you say on social media, your accent, your beliefs, and any way you already communicate your thoughts. This whole experiment can be as simple as showing the optical neurons i

  • by gweihir ( 88907 ) on Saturday January 29, 2022 @12:34PM (#62218361)

    Because this can pretty much only be the result of bingeing on psychoactives.

    • If you liked this story, you might also enjoy the science fiction of Rudy Rucker. Heavy on psychedelics, math, and AI.

      • by gweihir ( 88907 )

        If you liked this story, you might also enjoy the science fiction of Rudy Rucker. Heavy on psychedelics, math, and AI.

        Thanks, I have read some of his stuff.

  • Boiled down to its essentials, researchers used mechanical, optical, and electronic systems as analogue computers to perform neural network computations.
    It has zero to do with using a frying pan or a glass paperweight as the central processor in a neural network.
    These experiments are in fact quite elaborate, don't use "everyday objects," and involve a non-negligible amount of energy to set the input parameters in their physical systems. In my opinion it is not quite clear that they can outperform digital ne

  • Oh look, we're making an analog computer using unusual components and calling it a breakthrough. Analog computers are centuries old, and even analog neural networks are decades old.

    • I don't think this really would be intended to replace more traditional processing, but can be used to provide "instinctual" behaviors in much the same way that many of our nerve networks can generate a response without waiting for the brain. You would also collect this data to feed into your backend system (plexus), and if the local system doesn't have a match on the pattern, then it waits for further instructions.
    • Re: (Score:3, Insightful)

      by istartedi ( 132515 )

      Glad I didn't have to scroll down too far to find this kind of push-back. Call me when my frying pan can implement NAND and has decent fan-out.

      I don't know if we should blame shoddy science journalism here, shoddy publish-or-perish academic "more of the same" to earn a "piled higher and deeper", or what; but just because a canyon can make an echo effect obviously doesn't mean it can do the same thing as a general purpose computer that was programmed to make echo effects.

    • Exactly.
      What a laughable article: "What we do with a digital
      computer, we can also do with an analog computer!"

      I guess most millennials have no idea what an analog
      computer it.

  • There seem to be several major downsides with this

    1. Integrating any kind of processing into the object itself means you have to replace the whole object if any part of the 'smart property' fails. With a separate sensor, maintenance is possible.

    2. Sounds like it needs an outside power source.

    3. Actually communicating the result to the outside word needs more components/power/connections, which seems pretty much to negate the benefit of having the processing itself embebbed so deeply into an item.

    Let

    • It's a fundamentally dumb idea because you want the processing to be done on a device you can and probably will upgrade, where you can therefore upgrade the processing ability. Peripherals are best fairly dumb, with just enough intelligence to provide some kind of standard interface so that drivers don't become a problem.

      • Lately you can freeze a large neural network and only train a small portion of it or a prefix. That means multiple reuses for the same model. Then it makes sens to have a GPT-3 chip that can be used on thousands of tasks, and even prefixed for new tasks.
    • It makes sense to use if you are replacing 20 GPU cards running GPT-3 sized models with a small chip with low power usage that can be embedded in edge devices. Physical calculations are many orders of magnitude more efficient than digital ones.
  • Objects don't calculate anything. Objects are coded to act as input values. Sheesh.
  • I have severe painful muscle spasms in my eyes now from rolling them so hard and so much after reading the article summary.
    • It's one of the more "poetic" variants I have seen of this news. But the discovery is quite cool - forward propagate through a black box system, train a neural net to emulate your black box, then you get (noisy) gradients you can use to adjust the model. In the end you have a fine-tuned black box that acts like a neural net.
  • ... my toaster [onsizzle.com].

  • by Walt Dismal ( 534799 ) on Saturday January 29, 2022 @01:48PM (#62218579)
    Humanity is doomed, as we will be replaced by crystalline frying pans with opposable thumbs. Run, run while you can.
  • I'm missing the part about why you'd want an AI frying pan. I do not agree that 'put a chip in it' applies to everything. We all know how this ends, the frying pan reports what I'm cooking back to some shady marketing company and I get constant phone calls about renewing my frying pan warranty. Just imagine how much more advertising you could be subjected to in your life if everything around you, and at all times, reported on you and made suggestions to you.

    • Yes, but all those ads will be read and discarded by your new AI assistants. Fight fire with fire.
  • by Thelasko ( 1196535 ) on Saturday January 29, 2022 @03:45PM (#62218997) Journal
    I find TFA to be a bit of a stretch. However, it is important to remember that computers don't have to be digital or electronic. There are distinct advantages to building them that way. However, before the transistor, a surprising amount of computation was done with clockwork, [wikipedia.org] or electromechanical systems [wikipedia.org]. To this day, basic computing is done using pneumatic controls [parker.com] in certain circumstances.
  • ..., they want their Perceptrons [wikipedia.org] back. The first neural networks were designed to be phyiscal devices, with the software implementation only being a simulation. Of course the networks weren't very deep at that time, and they were tuned manually as backpropagation was invented only a few years later. But I find it funny the article doesn't even mention the Perceptron or Frank Rosenblatt.
    • Yes, and Newton for giving us calculus. They never mention Newton. And that guy who invented the digits.
  • This kind of physical machine learning model was something I always wanted to try making for a local science museum. The idea was to create a 32x32 grid of boxes and allow kids to fill the boxes with small BBs in the general shape of a letter of number, then let the BBs get siphoned through a series of physical gates whose weights were adjusted based on the MNIST data set. The bottom of the machine would be 36 buckets representing each letter and single digit. The BBs would then pool into the buckets and h

  • by tsa ( 15680 )

    A Goldberg "AI." What could possibly go wrong?

You are always doing something marginal when the boss drops by your desk.

Working...