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From: "Steven J. Powell" <sjpowell@access.digex.net>
Date: Thu, 26 Dec 1996 12:00:32 -0500
Fwd Date: Thu, 26 Dec 1996 12:45:17 -0500
Subject: The Puzzle of Conscious Experience

The Puzzle of Conscious Experience

Neuroscientists and others are at last plumbing one of the most profound
mysteries of existence. But knowledge of the brain alone may not get
them to the bottom of it

by David J. Chalmers

(Scientific American, ISSN 0036-8733, Copyright 1995 by Scientific
American, Inc., 451 Madison Ave., New York, NY 10017-1111.)

Conscious experience is at once the most familiar thing in the world and
the most mysterious. There is nothing we know about more directly than
consciousness, but it is extraordinarily hard to reconcile it with
everything else we know. Why does it exist? What does it do? How could
it possibly arise from neural processes in the brain? These questions
are among the most intriguing in all of science.

From an objective viewpoint, the brain is relatively comprehensible.
When you look at this page, there is a whir of processing: photons
strike your retina, electrical signals are passed up your optic nerve
and between different areas of your brain, and eventually you might
respond with a smile, a perplexed frown or a remark. But there is also a
subjective aspect. When you look at the page, you are conscious of it,
directly experiencing the images and words as part of your private,
mental life. You have vivid impressions of colored flowers and vibrant
sky. At the same time, you may be feeling some emotions and forming some
thoughts. Together such experiences make up consciousness: the
subjective, inner life of the mind.

For many years, consciousness was shunned by researchers studying the
brain and the mind. The prevailing view was that science, which depends
on objectivity, could not accommodate something as subjective as
consciousness. The behaviorist movement in psychology, dominant earlier
in this century concentrated on external behavior and disallowed any
talk of internal mental processes. Later, the rise of cognitive science
focused attention on processes inside the head. Still, consciousness
remained off-limits, fit only for late-night discussion over drinks.

Over the past several years, however, an increasing number of
neuroscientists, psychologists and philosophers have been rejecting the
idea that consciousness cannot be studied and are attempting to delve
into its secrets. As might be expected of a field so new, there is a
tangle of diverse and conflicting theories, often using basic concepts
in incompatible ways. To help unsnarl the tangle, philosophical
reasoning is vital.

The myriad views within the field range from reductionist theories,
according to which consciousness can be explained by the standard
methods of neuroscience and psychology, to the position of the so-called
mysterians, who say we will never understand consciousness at all. I
believe that on close analysis both of these views can be seen to be
mistaken and that the truth lies somewhere in the middle. Against
reductionism I will argue that the tools of neuroscience cannot provide
a full account of conscious experience, although they have much to
offer. Against mysterianism I will hold that consciousness might be
explained by a new kind of theory. The full details of such a theory are
still out of reach, but careful reasoning and some educated inferences
can reveal something of its general nature. For example, it will
probably involve new fundamental laws, and the concept of information
may play a central role. These faint glimmerings suggest that a theory
of consciousness may have startling consequences for our view of the
universe and of ourselves.

The Hard Problem

Researchers use the word "consciousness" in many different ways. To
clarify the issues, we first have to separate the problems that are
often clustered together under the name. For this purpose, I find it
useful to distinguish between the "easy problems" and the "hard problem"
of consciousness. The easy problems are by no means trivial - they are
actually as challenging as most in psychology and biology - but it is
with the hard problem that the central mystery lies.

The easy problems of consciousness include the following: How can a
human subject discriminate sensory stimuli and react to them
appropriately? How does the brain integrate information from many
different sources and use this information to control behavior? How is
it that subjects can verbalize their internal states? Although all these
questions are associated with consciousness, they all concern the
objective mechanisms of the cognitive system. Consequently, we have
every reason to expect that continued work in cognitive psychology and
neuroscience will answer them.

The hard problem, in contrast, is the question of how physical processes
in the brain give rise to subjective experience. This puzzle involves
the inner aspect of thought and perception: the way things feel for the
subject. When we see, for example, we experience visual sensations, such
as that of vivid blue. Or think of the ineffable sound of a distant
oboe, the agony of an intense pain, the sparkle of happiness or the
meditative quality of a moment lost in thought. All are part of what I
am calling consciousness. It is these phenomena that pose the real
mystery of the mind.

To illustrate the distinction, consider a thought experiment devised by
the Australian philosopher Frank Jackson. Suppose that Mary, a
neuroscientist in the 23rd century, is the world's leading expert on the
brain processes responsible for color vision. But Mary has lived her
whole life in a black-and-white room and has never seen any other
colors. She knows everything there is to know about physical processes
in the brain - its biology, structure and function. This understanding
enables her to grasp everything there is to know about the easy
problems: how the brain discriminates stimuli, integrates information
and produces verbal reports. From her knowledge of color vision, she
knows the way color names correspond with wavelengths on the light
spectrum. But there is still something crucial about color vision that
Man does not know: what it is like to experience a color such as red. It
follows that there are facts about conscious experience that cannot be
deduced from physical facts ab out the functioning of the brain.

Indeed, nobody knows why these physical processes are acccompanied by
conscious experience at all. Why is it that when our brains process
light of a certain wavelength, we have an experience of deep purple? Why
do we have any experience at all? Could not an unconscious automaton
have performed the same tasks just as well? These are questions that we
would like a theory of consciousness to answer.

I am not denying that consciousness arises from the brain. We know, for
example, that the subjective experience of vision is closely linked to
processes in the visual cortex. It is the link itself that perplexes,
however. Remarkably, subjective experience seems to emerge from a
physical process. But we have no idea how or why this is.

Is Neuroscience Enough?

Given the flurry of recent work on Consciousness in neuroscience and
psychology, one might think this mystery is starting to be cleared up.
On closer examination, however, it turns out that almost all the current
work addresses only the easy problems of consciousness. The confidence
of the reductionist view comes from the progress on the easy problems,
but none of this makes any difference where the hard problem is
concerned.

Consider the hypothesis put forward by neurobiologists Francis Crick of
the Salk Institute for Biological Studies in San Diego and Christof Koch
of the California Institute of Technology. They suggest that
consciousness may arise from certain oscillations in the cerebral
cortex, which become synchronized as neurons fire 40 times per second.
Crick and Koch believe the phenomenon might explain how different
attributes of a single perceived object (its color and shape, for
example), which are processed in different parts of the brain, are
merged into a coherent whole. In this theory, two pieces of information
become bound together precisely when they are represented by
synchronized neural firings.

The hypothesis could conceivably elucidate one of the easy problems
about how information is integrated in the brain. But why should
synchronized oscillations give rise to a visual experience, no matter
how much integration is taking place? This question involves the hard
problem, about which the theory has nothing to offer. Indeed, Crick and
Koch are agnostic about whether the hard problem can be solved by
science at all.

The same kind of critique could be applied to almost all the recent work
on consciousness. In his 1991 book _Consciousness Explained_,
philosopher Daniel C. Dennett laid out a sophisticated theory of how
numerous independent processes in the brain combine to produce a
coherent response to a perceived event. The theory might do much to
explain how we produce verbal reports on our internal states, but it
tells us very little about why there should be a subjective experience
behind these reports. Like other reductionist theories, Dennett's is a
theory of the easy problems.

The critical common trait among these easy problems is that they all
concern how a cognitive or behavioral function is performed. All are
ultimately questions about how the brain carries out some task-how it
discriminates stimuli, integrates information, produces reports and so
on. Once neurobiology specifies appropriate neural mechanisms, showing
how the functions are performed, the easy problems are solved. The hard
problem of consciousness, in contrast, goes beyond problems about how
functions are performed. Even if every behavioral and cognitive function
related to consciousness were explained, there would still remain a
further mystery: Why is the performance of these functions accompanied
by conscious experience? It is this additional conundrum that makes the
hard problem hard.

The Explanatory Gap

Some have suggested that to solve the hard problem, we need to bring in
new tools of physical explanation: nonlinear dynamics, say, or new
discoveries in neuroscience, or quantum mechanics. But these ideas
suffer from exactly the same difficulty. Consider a proposal from Stuart
R. Hameroff of the University of Arizona and Roger Penrose of the
University of Oxford. They hold that consciousness arises from
quantum-physical processes taking place in microtubules, which are
protein structures inside neurons. It is possible (if not likely) that
such a hypothesis will lead to an explanation of how the brain makes
decisions or even how it proves mathematical theorems, as Hameroff and
Penrose suggest. But even if it does, the theory is silent about how
these processes might give rise to conscious experience. Indeed, the
same problem arises with any theory of consciousness based only on
physical processing.

The trouble is that physical theories are best suited to explaining why
systems have a certain physical structure and how they perform various
functions. Most problems in science have this form; to explain life, for
example, we need to describe how a physical system can reproduce, adapt
and metabolize. But consciousness is a different sort of problem
entirely, as it goes beyond the explanation of structure and function.

Of course, neuroscience is not irrelevant to the study of consciousness.
For one, it may be able to reveal the nature of the neural correlate of
consciousness - the brain processes most directly associated with
conscious experience. It may even give a detailed correspondence between
specific processes in the brain and related components of experience.
But until we know why these processes give rise to conscious experience
at all, we will not have crossed what philosopher Joseph Levine has
called the explanatory gap between physical processes and consciousness.
Making that leap will demand a new kind of theory.

A True Theory of Everything

In searching for an alternative, a key observation is that not all
entities in science are explained in terms of more basic entities. In
physics, for example, space-time, mass and charge (among other things)
are regarded as fundamental features of the world, as they are not
reducible to anything simpler. Despite this irreducibility, detailed and
useful theories relate these entities to one another in terms of
fundamental laws. Together these features and laws explain a great
variety of complex and subtle phenomena.

It is widely believed that physics provides a complete catalogue of the
universe's fundamental features and laws. As physicist Steven Weinberg
puts it in his 1992 book _Dreams of a Final Theory_, the goal of physics
is a "theory of everything" from which all there is to know about the
universe can be derived. But Weinberg concedes that there is a problem
with consciousness. Despite the power of physical theory, the existence
of consciousness does not seem to be derivable from physical laws. He
defends physics by arguing that it might eventually explain what he
calls the objective correlates of consciousness (that is, the neural
correlates), but of course to do this is not to explain consciousness
itself. If the existence of consciousness cannot be derived from
physical laws, a theory of physics is not a true theory of everything.
So a final theory must contain an additional fundamental component.

Toward this end, I propose that conscious experience be considered a
fundamental feature, irreducible to anything more basic. The idea may
seem strange at first, but consistency seems to demand it. In the l9th
century it turned out that electromagnetic phenomena could not be
explained in terms of previously known principles. As a consequence,
scientists introduced electromagnetic charge as a new fundamental entity
and studied the associated fundamental laws. Similar reasoning should
apply to consciousness. If existing fundamental theories cannot
encompass it, then something new is required.

Where there is a fundamental property, there are fundamental laws. In
this case, the laws must relate experience to elements of physical
theory. These laws will almost certainly not interfere with those of the
physical world; it seems that the latter form a closed system in their
own right. Rather the laws will serve as a bridge, specifying how
experience depends on underlying physical processes. It is this bridge
that will cross the explanatory gap.

Thus, a complete theory will have two components: physical laws, telling
us about the behavior of physical systems from the infinitesimal to the
cosmological, and what we might call psychophysical laws, telling us how
some of those systems are associated with conscious experience. These
two components will constitute a true theory of everything.

Searching for a Theory

Supposing for the moment that they exist, how might we uncover such
psychophysical laws? The greatest hindrance in this pursuit will be a
lack of data. As I have described it, consciousness is subjective, so
there is no direct way to monitor it in others. But this difficulty is
an obstacle, not a dead end. For a start, each one of us has access to
our own experiences, a rich trove that can be used to formulate
theories. We can also plausibly rely on indirect information, such as
subjects' descriptions of their experiences. Philosophical arguments and
thought experiments also have a role to play. Such methods have
limitations, but they give us more than enough to get started.

These theories will not be conclusively testable testable, so they will
inevitably be more speculative than those of more conventional
scientific disciplines. Nevertheless, there is no reason they should not
be strongly constrained to account accurately for our own first-person
experiences, as well as the evidence from subjects' reports. If we find
a theory that fits the data better than any other theory of equal
simplicity, we will have good reason to accept it. Right now we do not
have even a single theory that fits the data, so worries about
testability are premature.

We might start by looking for high-level bridging laws, connecting
physical processes to experience at an everyday level. The basic contour
of such a law might be gleaned from the observation that when we are
conscious of something, we are generally able to act on it and speak
about it - which are objective, physical functions. Conversely, when
some information is directly available for action and speech, it is
generally conscious. Thus, consciousness correlates well with what we
might call "awareness": the process by which information in the brain is
made globally available to motor processes such as speech and bodily
action.

The notion may seem trivial. But as defined here, awareness is objective
and physical, whereas consciousness is not. Some refinements to the
definition of awareness are needed, in order to extend the concept to
animals and infants, which cannot speak. But at least in familiar cases,
it is possible to see the rough outlines of a psychophysical law: where
there is awareness, there is consciousness, and vice versa.

To take this line of reasoning a step further, consider the structure
present in the conscious experience. The experience of a field of
vision, for example, is a constantly changing mosaic of colors, shapes
and patterns and as such has a detailed geometric structure. The fact
that we can describe this structure, reach out in the direction of many
of its components and perform other actions that depend on it suggests
that the structure corresponds directly to that of the information made
available in the brain through the neural processes of awareness.

Similarly, our experiences of color have an intrinsic three-dimensional
structure that is mirrored in the structure of information processes in
the brain's visual cortex. This structure is illustrated in the color
wheels and charts used by artists. Colors are arranged in a systematic
pattern - red to green on one axis, blue to yellow on another, and black
to white on a third. Colors that are close to one another on a color
wheel are experienced as similar.  It is extremely likely that they also
correspond to similar perceptual representations in the brain, as part
of a system of complex three-dimensional coding among neurons that is
not yet fully understood. We can recast the underlying concept as a
principle of structural coherence: the structure of conscious experience
is mirrored by the structure of information in awareness, and vice
versa.

Another candidate for a psychophysical law is a principle of
organizational invariance. It holds that physical systems with the same
abstract organization will give rise to the same kind of conscious
experience, no matter what they are made of. For example, if the precise
interactions between our neurons could be duplicated with silicon chips,
the same conscious experience would arise. The idea is somewhat
controversial, but I believe it is strongly supported by thought
experiments describing the gradual replacement of neurons by silicon
chips. The remarkable implication is that consciousness might someday be
achieved in machines.

Information: Physical and Experiential

The ultimate goal of a theory of consciousness is a simple and elegant
set of fundamental laws, analogous to the fundamental laws of physics.
The principles described above are unlikely to be fundamental, however.
Rather they seem to be high-level psychophysical laws, analogous to
macroscopic principles in physics such as those of thermodynamics or
kinematics. What might the underlying fundamental laws be? No one knows,
but I don't mind speculating.

I suggest that the primary psychophysical laws may centrally involve the
concept of information. The abstract notion of information, as put
forward in the 1940s by Claude E. Shannon of the Massachusetts Institute
of Technology, is that of a set of separate states with a basic
structure of similarities and differences between them. We can think of
a 10-bit binary code as an information state, for example. Such
information states can be embodied in the physical world. This happens
whenever they correspond to physical states (voltages, say); the
differences between them can be transmitted along some pathway, such as
a telephone line.

We can also find information embodied in conscious experience. The
pattern of color patches in a visual field, for example, can be seen as
analogous to that of the pixels covering a display screen. Intriguingly,
it turns out that we find the same information states embedded in
conscious experience and in underlying physical processes in the brain.
The three-dimensional encoding of color spaces, for example, suggests
that the information state in a color experience corresponds directly to
an information state in the brain. We might even regard the two states
as distinct aspects of a single information state, which is
simultaneously embodied in both physical processing and conscious
experience.

A natural hypothesis ensues. Perhaps information, or at least some
information, has two basic aspects: a physical one and an experiential
one. This hypothesis has the status of a fundamental principle that
might underlie the relation between physical processes and experience.
Wherever we find conscious experience, it exists as one aspect of an
information state, the other aspect of which is embedded in a physical
process in the brain. This proposal needs to be fleshed out to make a
satisfying theory. But it fits nicely with the principles mentioned
earlier - systems with the same organization will embody the same
information, for example - and it could explain numerous features of our
conscious experience.

The idea is at least compatible with several others, such as physicist
John A. Wheeler's suggestion that information is fundamental to the
physics of the universe. The laws of physics might ultimately be cast in
informational terms, in which case we would have a satisfying congruence
between the constructs in both physical and psychophysical laws. It may
even be that a theory of physics and a theory of consciousness could
eventually be consolidated into a single grander theory of information.

A potential problem is posed by the ubiquity of information. Even a
thermostat embodies some information, for example, but is it conscious?
There are at least two possible responses. First, we could constrain the
fundamental laws so that only some information has an experiential
aspect, perhaps depending on how it is physically processed. Second, we
might bite the bullet and allow that all information has an experiential
aspect - where there is complex information processing, there is complex
experience, and where there is simple information processing, there is
simple experience. If this is so, then even a thermostat might have
experiences, although they would be much simpler than even a basic color
experience, and there would certainly be no accompanying emotions or
thoughts. This seems odd at first, but if experience is truly
fundamental, we might expect it to be widespread. In any case, the
choice between these alternatives should depend on which can be
integrated into the most powerful theory.

Of course, such ideas may be all wrong. On the other hand, they might
evolve into a more powerful proposal that predicts the precise structure
of our conscious experience from physical processes in our brains. If
this project succeeds, we will have good reason to accept the theory. If
it fails, other avenues will be pursued, and alternative fundamental
theories may be developed. In this way, we may one day resolve the
greatest mystery of the mind.



The Author

David J. Chalmers studied mathematics at Adelaide University and as a
Rhodes Scholar at the University of Oxford, but a fascination with
consciousness led him into philosophy and cognitive science. He has a
Ph.D. in these fields from Indiana University and is currently in the
department of philosophy at the University of California Santa Cruz.
Chalmers has published numerous articles on artificial intelligence and
the philosophy of mind. His book _The Conscious Mind_, which elaborates
many of the ideas in this article, is forthcoming from Oxford University
Press.

Further Reading

_Absent Qualia, Fading Qualia, Dancing Qualia_. David J. Chalmers in
_Conscious Experience_. Edited by Thomas Metzinger. Ferdinand
Schoningh,1995.

_Explaining Consciousness: 'The Hard Problem._" Special issue of Journal
of Consciousness Studies, Vol. 2, No. 3; Autumn 1995.

_The Nature of Consciousness: Philosophical and Scientific Debates_.
Edited by Ned Block, Owen Flanagan and Guven Guzeldere. MIT Press (in
press).


--

Thanks, take care.
John.

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