----------> https://archive.ph/5FUvT
No matter how hard they try, brain scientists and cognitive psychologists will never find a copy of Beethoven’s 5th Symphony in the brain – or copies of words, pictures, grammatical rules or any other kinds of environmental stimuli. The human brain isn’t really empty, of course. But it does not contain most of the things people think it does – not even simple things such as ‘memories’.
Our shoddy thinking about the brain has deep historical roots, but the invention of computers in the 1940s got us especially confused. For more than half a century now, psychologists, linguists, neuroscientists and other experts on human behaviour have been asserting that the human brain works like a computer.
To see how vacuous this idea is, consider the brains of babies. Thanks to evolution, human neonates, like the newborns of all other mammalian species, enter the world prepared to interact with it effectively. A baby’s vision is blurry, but it pays special attention to faces, and is quickly able to identify its mother’s. It prefers the sound of voices to non-speech sounds, and can distinguish one basic speech sound from another. We are, without doubt, built to make social connections.
A healthy newborn is also equipped with more than a dozen reflexes – ready-made reactions to certain stimuli that are important for its survival. It turns its head in the direction of something that brushes its cheek and then sucks whatever enters its mouth. It holds its breath when submerged in water. It grasps things placed in its hands so strongly it can nearly support its own weight. Perhaps most important, newborns come equipped with powerful learning mechanisms that allow them to change rapidly so they can interact increasingly effectively with their world, even if that world is unlike the one their distant ancestors faced.
Senses, reflexes and learning mechanisms – this is what we start with, and it is quite a lot, when you think about it. If we lacked any of these capabilities at birth, we would probably have trouble surviving.
But here is what we are not born with: information, data, rules, software, knowledge, lexicons, representations, algorithms, programs, models, memories, images, processors, subroutines, encoders, decoders, symbols, or buffers – design elements that allow digital computers to behave somewhat intelligently. Not only are we not born with such things, we also don’t develop them – ever.
We don’t store words or the rules that tell us how to manipulate them. We don’t create representations of visual stimuli, store them in a short-term memory buffer, and then transfer the representation into a long-term memory device. We don’t retrieve information or images or words from memory registers. Computers do all of these things, but organisms do not.
Computers, quite literally, process information – numbers, letters, words, formulas, images. The information first has to be encoded into a format computers can use, which means patterns of ones and zeroes (‘bits’) organised into small chunks (‘bytes’). On my computer, each byte contains 8 bits, and a certain pattern of those bits stands for the letter d, another for the letter o, and another for the letter g. Side by side, those three bytes form the word dog. One single image – say, the photograph of my cat Henry on my desktop – is represented by a very specific pattern of a million of these bytes (‘one megabyte’), surrounded by some special characters that tell the computer to expect an image, not a word.
Computers, quite literally, move these patterns from place to place in different physical storage areas etched into electronic components. Sometimes they also copy the patterns, and sometimes they transform them in various ways – say, when we are correcting errors in a manuscript or when we are touching up a photograph. The rules computers follow for moving, copying and operating on these arrays of data are also stored inside the computer. Together, a set of rules is called a ‘program’ or an ‘algorithm’. A group of algorithms that work together to help us do something (like buy stocks or find a date online) is called an ‘application’ – what most people now call an ‘app’.
Forgive me for this introduction to computing, but I need to be clear: computers really do operate on symbolic representations of the world. They really store and retrieve. They really process. They really have physical memories. They really are guided in everything they do, without exception, by algorithms.
Humans, on the other hand, do not – never did, never will. Given this reality, why do so many scientists talk about our mental life as if we were computers?
The comments here are right in line with the comments on the essay and they're all impotent rage against a fundamental truth brought up by the author. We have no fucking idea how our brains produce consciousness and our model it is woefully ill-conceived. There was one comment that really nails this idea that reads
First of all, kind of a bummer that the author's name is Epstein, but I'll move past it. The fundamental point is that the brain does not function like a computer and attempting to build upon this false model is counterproductive. We can use computers to mimic some functions the brain does, yes, but that's not because they're mechanistically similar at all. I've talked to neurobiologists, psychologists, and neurologists about the mechanisms of consciousness whenever I meet one and every single (competent) one says the same thing, we have no fucking clue. Sure, we've gathered evidence that we didn't have before and probably know more than we used to know but on a fundamental level it's basically magic.
It is uncomfortable to not understand something so people naturally create a mental model and then stick to it in order to alleviate that discomfort. That's not how you figure new things out, that's how you get stuck.
Clearly, the brain has a mechanism for storing and processing information because we do it. We are also born with information pre-loaded. Not only does it contain, store, and add information, but it is incredibly plastic. When we remove some part of the brain that information previously flowed through, the brain has an incredible ability to use alternate pathways to generate that equivalent information. If the brain operated through set algorithms and patterns that would be impossible. Imagine if you could unplug your hard drive but since the computer needs the information on it you could osmose certain things through the silicone and onto the motherboard anyway. That doesn't make any sense with computers but your brain does it. Somehow information is communicated not only by the pattern of action potentials, but also the frequency and strength of those action potentials. If that's like a computer, it's a kind of computer that is nothing like the computers that exist and is so much more complicated as to be a fundamentally different thing.