The
cognitive scientist Donald Hoffman uses evolutionary game theory to show that
our perceptions of an independent reality must be illusions.
Quanta Magazine, Amanda Gefter, April 21, 2016
 |
David McNew for Quanta Magazine
|
As we go
about our daily lives, we tend to assume that our perceptions — sights, sounds,
textures, tastes — are an accurate portrayal of the real world. Sure, when we
stop and think about it — or when we find ourselves fooled by a perceptual
illusion — we realize with a jolt that what we perceive is never the world
directly, but rather our brain’s best guess at what that world is like, a kind
of internal simulation of an external reality. Still, we bank on the fact that
our simulation is a reasonably decent one. If it wasn’t, wouldn’t evolution
have weeded us out by now? The true reality might be forever beyond our reach,
but surely our senses give us at least an inkling of what it’s really like.
Not so,
says Donald D. Hoffman, a professor of cognitive science at the University of
California, Irvine. Hoffman has spent the past three decades studying
perception, artificial intelligence, evolutionary game theory and the brain,
and his conclusion is a dramatic one: The world presented to us by our
perceptions is nothing like reality. What’s more, he says, we have evolution
itself to thank for this magnificent illusion, as it maximizes evolutionary
fitness by driving truth to extinction.
Getting at
questions about the nature of reality, and disentangling the observer from the
observed, is an endeavor that straddles the boundaries of neuroscience and
fundamental physics. On one side you’ll find researchers scratching their chins
raw trying to understand how a three-pound lump of gray matter obeying nothing
more than the ordinary laws of physics can give rise to first-person conscious
experience. This is the aptly named “hard problem.”
On the
other side are quantum physicists, marveling at the strange fact that quantum
systems don’t seem to be definite objects localized in space until we come
along to observe them. Experiment after experiment has shown — defying common
sense — that if we assume that the particles that make up ordinary objects have
an objective, observer-independent existence, we get the wrong answers. The
central lesson of quantum physics is clear: There are no public objects sitting
out there in some preexisting space. As the physicist John Wheeler put it,
“Useful as it is under ordinary circumstances to say that the world exists ‘out
there’ independent of us, that view can no longer be upheld.”
So while
neuroscientists struggle to understand how there can be such a thing as a
first-person reality, quantum physicists have to grapple with the mystery of
how there can be anything but a first-person reality. In short, all roads lead
back to the observer. And that’s where you can find Hoffman — straddling the
boundaries, attempting a mathematical model of the observer, trying to get at
the reality behind the illusion. Quanta Magazine caught up with him to find out
more.
QUANTA
MAGAZINE: People often use Darwinian evolution as an argument that our
perceptions accurately reflect reality. They say, “Obviously we must be
latching onto reality in some way because otherwise we would have been wiped
out a long time ago. If I think I’m seeing a palm tree but it’s really a tiger,
I’m in trouble.”
DONALD
HOFFMAN: Right. The classic argument is that those of our ancestors who saw
more accurately had a competitive advantage over those who saw less accurately
and thus were more likely to pass on their genes that coded for those more
accurate perceptions, so after thousands of generations we can be quite
confident that we’re the offspring of those who saw accurately, and so we see
accurately. That sounds very plausible. But I think it is utterly false. It
misunderstands the fundamental fact about evolution, which is that it’s about
fitness functions — mathematical functions that describe how well a given
strategy achieves the goals of survival and reproduction. The mathematical
physicist Chetan Prakash proved a theorem that I devised that says: According
to evolution by natural selection, an organism that sees reality as it is will
never be more fit than an organism of equal complexity that sees none of
reality but is just tuned to fitness. Never.
You’ve done
computer simulations to show this. Can you give an example?
Suppose in
reality there’s a resource, like water, and you can quantify how much of it
there is in an objective order — very little water, medium amount of water, a
lot of water. Now suppose your fitness function is linear, so a little water
gives you a little fitness, medium water gives you medium fitness, and lots of
water gives you lots of fitness — in that case, the organism that sees the
truth about the water in the world can win, but only because the fitness
function happens to align with the true structure in reality. Generically, in
the real world, that will never be the case. Something much more natural is a
bell curve — say, too little water you
die of thirst, but too much water you drown, and only somewhere in between is
good for survival. Now the fitness function doesn’t match the structure in the
real world. And that’s enough to send truth to extinction. For example, an
organism tuned to fitness might see small and large quantities of some resource
as, say, red, to indicate low fitness, whereas they might see intermediate
quantities as green, to indicate high fitness. Its perceptions will be tuned to
fitness, but not to truth. It won’t see any distinction between small and large
— it only sees red — even though such a distinction exists in reality.
But how can
seeing a false reality be beneficial to an organism’s survival?
There’s a
metaphor that’s only been available to us in the past 30 or 40 years, and
that’s the desktop interface. Suppose there’s a blue rectangular icon on the
lower right corner of your computer’s desktop — does that mean that the file
itself is blue and rectangular and lives in the lower right corner of your
computer? Of course not. But those are the only things that can be asserted
about anything on the desktop — it has color, position and shape. Those are the
only categories available to you, and yet none of them are true about the file
itself or anything in the computer. They couldn’t possibly be true. That’s an
interesting thing. You could not form a true description of the innards of the
computer if your entire view of reality was confined to the desktop. And yet
the desktop is useful. That blue rectangular icon guides my behavior, and it
hides a complex reality that I don’t need to know. That’s the key idea.
Evolution has shaped us with perceptions that allow us to survive. They guide
adaptive behaviors. But part of that involves hiding from us the stuff we don’t
need to know. And that’s pretty much all of reality, whatever reality might be.
If you had to spend all that time figuring it out, the tiger would eat you.
So
everything we see is one big illusion?
We’ve been
shaped to have perceptions that keep us alive, so we have to take them
seriously. If I see something that I think of as a snake, I don’t pick it up.
If I see a train, I don’t step in front of it. I’ve evolved these symbols to
keep me alive, so I have to take them seriously. But it’s a logical flaw to
think that if we have to take it seriously, we also have to take it literally.
If snakes
aren’t snakes and trains aren’t trains, what are they?
Snakes and
trains, like the particles of physics, have no objective, observer-independent
features. The snake I see is a description created by my sensory system to
inform me of the fitness consequences of my actions. Evolution shapes
acceptable solutions, not optimal ones. A snake is an acceptable solution to
the problem of telling me how to act in a situation. My snakes and trains are
my mental representations; your snakes and trains are your mental
representations.
How did you
first become interested in these ideas?
As a
teenager, I was very interested in the question “Are we machines?” My reading
of the science suggested that we are. But my dad was a minister, and at church
they were saying we’re not. So I decided I needed to figure it out for myself.
It’s sort of an important personal question — if I’m a machine, I would like to
find that out! And if I’m not, I’d like to know, what is that special magic
beyond the machine? So eventually in the 1980s I went to the artificial
intelligence lab at MIT and worked on machine perception. The field of vision research
was enjoying a newfound success in developing mathematical models for specific
visual abilities. I noticed that they seemed to share a common mathematical
structure, so I thought it might be possible to write down a formal structure
for observation that encompassed all of them, perhaps all possible modes of
observation. I was inspired in part by Alan Turing. When he invented the Turing
machine, he was trying to come up with a notion of computation, and instead of
putting bells and whistles on it, he said, Let’s get the simplest, most pared
down mathematical description that could possibly work. And that simple
formalism is the foundation for the science of computation. So I wondered,
could I provide a similarly simple formal foundation for the science of
observation?
A
mathematical model of consciousness.
That’s
right. My intuition was, there are conscious experiences. I have pains, tastes,
smells, all my sensory experiences, moods, emotions and so forth. So I’m just
going to say: One part of this consciousness structure is a set of all possible
experiences. When I’m having an experience, based on that experience I may want
to change what I’m doing. So I need to have a collection of possible actions I
can take and a decision strategy that, given my experiences, allows me to
change how I’m acting. That’s the basic idea of the whole thing. I have a space
X of experiences, a space G of actions, and an algorithm D that lets me choose
a new action given my experiences. Then I posited a W for a world, which is
also a probability space. Somehow the world affects my perceptions, so there’s
a perception map P from the world to my experiences, and when I act, I change
the world, so there’s a map A from the space of actions to the world. That’s
the entire structure. Six elements. The claim is: This is the structure of
consciousness. I put that out there so people have something to shoot at.
But if
there’s a W, are you saying there is an external world?
Here’s the
striking thing about that. I can pull the W out of the model and stick a
conscious agent in its place and get a circuit of conscious agents. In fact,
you can have whole networks of arbitrary complexity. And that’s the world.
Video:
Donald Hoffman explains how our perceptions have evolved to become like
a
computer interface. (
The world
is just other conscious agents?
I call it
conscious realism: Objective reality is just conscious agents, just points of
view. Interestingly, I can take two conscious agents and have them interact,
and the mathematical structure of that interaction also satisfies the
definition of a conscious agent. This mathematics is telling me something. I
can take two minds, and they can generate a new, unified single mind. Here’s a
concrete example. We have two hemispheres in our brain. But when you do a
split-brain operation, a complete transection of the corpus callosum, you get
clear evidence of two separate consciousnesses. Before that slicing happened,
it seemed there was a single unified consciousness. So it’s not implausible
that there is a single conscious agent. And yet it’s also the case that there
are two conscious agents there, and you can see that when they’re split. I
didn’t expect that, the mathematics forced me to recognize this. It suggests that
I can take separate observers, put them together and create new observers, and
keep doing this ad infinitum. It’s conscious agents all the way down.
If it’s
conscious agents all the way down, all first-person points of view, what
happens to science? Science has always been a third-person description of the
world.
The idea
that what we’re doing is measuring publicly accessible objects, the idea that
objectivity results from the fact that you and I can measure the same object in
the exact same situation and get the same results — it’s very clear from
quantum mechanics that that idea has to go. Physics tells us that there are no
public physical objects. So what’s going on? Here’s how I think about it. I can
talk to you about my headache and believe that I am communicating effectively
with you, because you’ve had your own headaches. The same thing is true as
apples and the moon and the sun and the universe. Just like you have your own
headache, you have your own moon. But I assume it’s relevantly similar to mine.
That’s an assumption that could be false, but that’s the source of my
communication, and that’s the best we can do in terms of public physical
objects and objective science.
It doesn’t
seem like many people in neuroscience or philosophy of mind are thinking about
fundamental physics. Do you think that’s been a stumbling block for those
trying to understand consciousness?
I think it
has been. Not only are they ignoring the progress in fundamental physics, they
are often explicit about it. They’ll say openly that quantum physics is not
relevant to the aspects of brain function that are causally involved in
consciousness. They are certain that it’s got to be classical properties of
neural activity, which exist independent of any observers — spiking rates,
connection strengths at synapses, perhaps dynamical properties as well. These
are all very classical notions under Newtonian physics, where time is absolute
and objects exist absolutely. And then [neuroscientists] are mystified as to
why they don’t make progress. They don’t avail themselves of the incredible
insights and breakthroughs that physics has made. Those insights are out there
for us to use, and yet my field says, “We’ll stick with Newton, thank you.
We’ll stay 300 years behind in our physics.”
I suspect
they’re reacting to things like Roger Penrose and Stuart Hameroff’s model,
where you still have a physical brain, it’s still sitting in space, but
supposedly it’s performing some quantum feat. In contrast, you’re saying,
“Look, quantum mechanics is telling us that we have to question the very
notions of ‘physical things’ sitting in ‘space.’”
I think
that’s absolutely true. The neuroscientists are saying, “We don’t need to
invoke those kind of quantum processes, we don’t need quantum wave functions
collapsing inside neurons, we can just use classical physics to describe
processes in the brain.” I’m emphasizing the larger lesson of quantum
mechanics: Neurons, brains, space … these are just symbols we use, they’re not
real. It’s not that there’s a classical brain that does some quantum magic.
It’s that there’s no brain! Quantum mechanics says that classical objects —
including brains — don’t exist. So this is a far more radical claim about the
nature of reality and does not involve the brain pulling off some tricky
quantum computation. So even Penrose hasn’t taken it far enough. But most of
us, you know, we’re born realists. We’re born physicalists. This is a really,
really hard one to let go of.
To return
to the question you started with as a teenager, are we machines?
The formal
theory of conscious agents I’ve been developing is computationally universal —
in that sense, it’s a machine theory. And it’s because the theory is
computationally universal that I can get all of cognitive science and neural
networks back out of it. Nevertheless, for now I don’t think we are machines —
in part because I distinguish between the mathematical representation and the
thing being represented. As a conscious realist, I am postulating conscious
experiences as ontological primitives, the most basic ingredients of the world.
I’m claiming that experiences are the real coin of the realm. The experiences
of everyday life — my real feeling of a headache, my real taste of chocolate —
that really is the ultimate nature of reality.
"FUTURE AND PHYSICS (#)" - May 16-17, 2014 (Kryon Channelling by Lee Carroll) - (#) New major Discoveries (This channel will become a historical channel in the future, prove that Kryon is a real communication from the Creative Source/God to Humanity - 'Our Family') - (Text version Physics)
Related Articles:
1 To see and measure multi-dimensional/quantum physics, instrument (super-cooling quantum plasma lens)
2 Two more laws of multi-dimensional physics revealed: explanation of dark matter & acknowledgement of free energy (controlling mass)
3 God in the atom. God has - provable - part in physics. Intelligent/benevolent design. (Will bring religion and science together.)
4 Human Consciousness is an attribute of physics. (Pleiadians - Humans ancestors / Humans free choice only planet in the Milky Way Galaxy. Other galaxies have their own spiritual systems and physics)
5.Coherent DNA. Multidimensional DNA coherent between dimensions will give Enhanced DNA
"The Big Picture - You Are Not Alone" - Feb 2012 (a message from Kryon channeled by Lee Carroll)
"The Quantum Factor" – Apr 10, 2011 (Kryon channeled by Lee Carroll) (Subjects: Galaxies, Universe, Intelligent design, Benevolent design, Aliens, Nikola Tesla (Quantum energy), Inter-Planetary Travel, DNA, Genes, Stem Cells, Cells, Rejuvenation, Shift of Human Consciousness, Spontaneous Remission, Religion, Dictators, Africa, China, Nuclear Power, Sustainable Development, Animals, Global Unity.. etc.) - (Text Version)
“… The entire galaxy revolves as one plate, in a very counter-intuitive way. The stars and the constellations do not orbit within the rules of Newtonian physics that you are used to seeing all around you in your own solar system. For the stars and clusters in your galaxy, distance from the center does not matter. All the stars rotate as one. This is because the galaxy is entangled with the middle of itself. In that state, there is no time or distance. The change of consciousness on this planet has changed the center of the galaxy. This is because what happens here, dear one, is "known" by the center.
It's interesting to us what your reaction to all this is scientifically. You saw that the "creative event" of your Universe is missing some energy in order for it to have formed as it did. In addition, the unusual way the galaxy rotates, as I just stated, was also noted. So you have calculated that for all this to be in place, there has to be missing 3D matter, and you have given it a name - dark matter. How funny! Did you ever think that there could be a multidimensional effect going on that you now can observe and calculate - that has immense power, but can't be seen? It's not "matter" at all and it's not 3D. It's quantum energy.
Let me tell you something about physics. Yet again, I'll make it simple. Everything your scientists have seen in physics happens in pairs. At the moment, there are four laws of physics in your three-dimensional paradigm. They represent two pairs of energy types. Eventually, there will be six. At the center of your galaxy is what you call a black hole, but it is not a single thing. It is a duality. There is no such thing as "singularity". You might say it's one energy with two parts - a weak and a strong quantum force. And the strangest thing is it knows who you are. It is the creator engine. It's different in other galaxies than this one. It's unique.
The very physics of your galaxy is postured by what you do here. The astronomers can look into the cosmos and they will discover different physics in different galaxies. Could it be that there's something going on in the other galaxies like this one? I'm not going to answer that. … “
The very physics of your galaxy is postured by what you do here. The astronomers can look into the cosmos and they will discover different physics in different galaxies. Could it be that there's something going on in the other galaxies like this one? I'm not going to answer that. … “
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