The Future of Phenomenology. Naturalization and Phenomenology of Perception
Carmelo Calì
One
of the most hotly debated issues, from where the discussion about the
features and the usefulness of phenomenology for contemporary
scientific and philosophical research has evolved so far, has been the
naturalization of phenomenology. The underlying assumption is that to
settle the debate is to define to what extent phenomenology is suitable
for the framework of the actual cognitive sciences and philosophy
of mind paradigms. The debate, involving phenomenologists, post
analytic philosophers, psychologists, cognitive scientists and
neuroscientists, unavoidably represents a wide range of positions.
Thus, I am going to outline some of these positions and then argue that
Husserlian phenomenology does not have to wait for a radical
theoretical reconstruction in order to be taken as able to integrate
actual research, though it necessarily demands to let some of its
claims drop or at least being reinterpreted in the light of current
theoretical, experimental needs.
The Naturalization Problem Continuum
To discuss some implications of the naturalization problem, I am going
to see whether a few positions can be mapped onto a continuum ranging
from the most favourable to the less consonant ones. It must be noticed
that I am going to take into account neither the claims that
phenomenology is something which might be directly ascribed to some
brain mechanisms or to some properties of physical matter adequately
arranged at the right level of low energy scales, nor the claims that
state an absolute skepticism about the possibility of relating
phenomenology to contemporary scientific research. I don't aim at
covering every position in this controversy, but only to discuss some
issues and objections to the naturalization position.
At one end, we have the Petitot & Varela & Pachoud & Roy
(1999) proposal. They claim that Husserlian phenomenology might be used
to close the explanatory gap which affects the cognitive sciences,
thanks to the descriptions and analyses Husserl carried out, often
found to be supporting recent findings. The accounts provided by
Husserl of the perspective dependence of the phenomenal world, of
consciousness, of intentionality and time-space ordering of experience
are supposed to be rich enough to give a satisfactory answer to the
question about what kind of relationship holds between a computational
and a phenomenological mind raised by Jackendoff (1987). But this could
be the case only if Husserlian phenomenology is properly fitted to the
explanatory framework of contemporary science, which stands on the
claim that every property at stake must be continuous with properties
admitted by natural sciences. This claim entails what is dubbed
"naturalization of phenomenology" and requests that Husserl's
anti-naturalism must be refused, the alleged impossibility of a
mathematical formulation of phenomenological descritpions must be
abandoned. In a nutshell, the transcendental dimension of phenomenology
as it covers the descriptions and analyses with a philosophical
interpretation unfit to integrate with those sciences which could turn
them to profit must be dropped.
On the other hand, we have Zahavi (2004) who points out, very clearly,
some objections. He maintains that there are meaningful philosophical
reasons for Husserl's (1987) antinaturalism to be upheld. Husserl
stressed the difference between phenomenological psychology and
transcendent phenomenology, because phenomenology doesn't simply
contribute to positive knowledge but investigates its basis and
possibility. The need for phenomenological reduction would be
justified, for, it avoids any confusion with a natural and objectivist
investigation, which would be to blame for treating consciousness as
one object among the others in the world, whether it be taken as a
psychical or a physical one. Hence, it is not possible to part the
transcendental interpretation from phenomenology, because it not only
prevents phenomenology from the "natural attitude", as is the case
with the non-reductionist phenomenological psychology, but it also lets
consciousness be the condition for any meaning, truth, validity,
appearance.
Thus Zahavi questions that a mutual exchange between phenomenology and
cognitive sciences could result in a closure of the explanatory gap,
and that a mathematical reconstruction would be of any profitable sense
at all or that there might be a way to explain how experiences could be
properties of the brain.
Both Petitot & Varela & Pachoud & Roy (1999) and Zahavi
(2004) recognize many kinds of relationships between phenomenology and
cognitive sciences that could instantiate their own points of view. So,
from the naturalization point of view, the instances amount to (a) the
reductionism of the sort involved by the Identity Theory; (b) the "as
if" strategy formulated by Dennett in his heterophenomenology; (c) the
mutual constraining-variety. This ranges from (c1) the bridge locus
argument, supporting the research of linking propositions between
explanatory neural properties and phenomenal properties where the link
is provided by a to be specified looking like-relation, to (c2) the
isomorphist thesis, wherein the phenomenological descriptions are
relevant in indentifying the right physiological mechanisms which in
turn explains them, and finally to (c3) the operational generative
thesis which allows for phenomenology and, say, neurobiology to share a
common abstract and formal definition of properties that could belong
to both at the same time, if considered at the right level of
emergence. From the transcendentalist point of view, there is room for
(d) the phenomenologists and scientists refusal of making their
researches interact because of alleged independence for the former and
the discredit of phenomenology by the latter; (e) one way relation from
phenomenology, which would lay bare the foundation for other sciences,
to empirical science, whose findings are not able to affect
phenomenology; (f) the sharp distinction between a phenomenological
psychology, which could contribute to empirical science, and the
untouched transcendental phenomenology; (g) the mutual exchange between
phenomenology and science only if transcendental phenomenology will
change the very concept of nature and accordingly of naturalization.
A Mutual Constraining Isomorphism: The Case of Phenomenology as Formal Theory of Perception
Exploiting the points above mentioned, I will argue that some
difficuties stem from not considering phenomenology already as a
descriptive science dealing with the structures of different kinds of
appearances and providing a model of the various types of phenomenic
manifolds from a phenomenological explanatory stance. Husserl (1973)
provides a striking example of the way phenomenology can explain the
laws ruling the visual world by appealing to concepts that are fit to a
mathematical modelling. These analyses employ widely Riemann's
concept of the n-dimensionality continuum and Weierstrass' concept
of field, which prove to be profitable both in
mathemathical analysis and in physical science.
On the one hand, the visual object, with its aspects and phenomenal
properties, is considered as a whole made up by parts being its
variables varying along defined dimensions, corresponding to the visual
and objective field multifariousness (Vielfältigkeit). Thus, the
whole object is functionally equivalent to a manifold
(Mannifältigkeit) constituted by groups of appearances which are
ordered spatio-temporally by their positions and variations as to an
inner manifold (the object field glanced at a current scrutiny), and a
wider manifold (the neighbouring object fields). The relationships
holding between these two manifolds are described then in terms of
coeherent connections (Zusammenhänge) among the appearances and
various kinaesthetic manifolds.
On the other hand, the very concepts used by Husserl to designate the
operations and the interconnections obtaining in the manifold system of
vision have an intrinsic mathematical or geometrical meaning, such
as congruency (Übereinstimmung), overlapping (Deckung), overlaying
(Bedeckung), or admit a formal characterization, such as
independence and non-independence. These observations make clear that it
is neither necessary nor is it maybe desirable to narrow Husserlian
phenomenology down to a mere philosophy of consciousness. Even though
as an eidetic material science, as opposed to an eidetic formal
one, phenomenology provides in a clear specifiable way the objective
laws ruling a particular phenomenic dominion, giving the set of what
pertains typically and generally to it. The possibility of a formal,
even mathematical, formulation of the laws described by Husserl's
analyses does not imply Computational Mentalism,
according to which mental contents consist of mathematically definable
operations on symbolic representations. It amounts only to saying that
it is possible to build a mathematical model endowed with compelling
phenomenological features, accordingly to what as been stated as the
argument (c). In fact, this model might correspond to specific and non
trivial organizational laws of the visual world and possess an
explanatory or predictive power on its own. An example is the concept
of double object elaborated by Husserl (1980) which has been given a
great explanatory value in picture perception theory as Niederée
& Heyer (2003) attest.
This interpretation leads to the refutation of argument (d) and the
assessment of argument (f) in a different way. To be sure, there
remains in Husserl's view a difference between phenomenological
psychology and transcendental phenomenology. However, one might assume
a quite deflationary view about this distinction. If phenomenology is
also a descriptive science of the phenomenal objective side of
experience, then phenomenological psychology might be dealing with
the phenomenal subjective side of it, thus contributing in
psychophysics to relate phenomenological (how things look) and
physical properties as Horst (2005) points out. The importance of
phenomenological data for the psychophysical study of the
Craik-O'Brien-Cornsweet effect plays against naturalization form (a)
and (b). At the same time, the anti-objectivistic side of
transcendental phenomenology could be rephrased in a more contemporary
flavour as the compelling request for a pure theory of consciousness or
perception, that is an abstract theory which employs only concepts
derived from analyses of the intrinsic structure of perception. The
reasons Mausfeld (2002) expounds for such a theory sound strikingly
similar to those supporting Husserlian transcendentalism: phenomena must
be studied in a non reductionist way. Therefore, a theory of perception
must be formal in that it must not borrow its fundamental concepts
primarily from physics or physiology, thus avoiding what Mausfeld calls
the physicalistic trap. It is a pure theory of perception with the
concepts mirroring the way the observer parses the world to specify the
level and extent at which physical and physiological concepts might
play an explanatory role.
These considerations make the position (c) look like a plausible one,
because they exclude an incommensurability between Husserlian
phenomenology, mathematical modelling and the needs of a modern
scientific
perception theory. But how to fit phenomenology as a formal theory of
perception with a mutual isomorphism constraint? The general principle
could be shaped as the strong (c3), taking as example works such as
Petitot (2003), Smith (1993), Petitot & Smith (1997), but for the
time being it seems better to assume a balanced version of (c2), while
admitting a variety of cross-talk cases between phenomenology and
contemporary sciences. Overgaard (2004) challenges this possibility by
requesting that the constraining must be fully reciprocal. I think this
condition could be met. Phenomenology constrains cognitive sciences
with its rich descriptions, fully specifiable at the desired formal
level, thus letting models be built up and collecting richly defined
data in order to find neural correlates which match the structure of
appearances, as Todorovic (1987) suggests, whose claim makes room for a
structural reinterpretation of (c1). Cognitive sciences constrain
phenomenology in such a way that a phenomenologist is not forced to
change her description only because a new brain area is found to be
causally involved, but she does have to feel compelled to do that if a
neurobiological study finds that some binding relations, structurally
corresponding to those dependence relations held as fundamental ones,
are a by-product of more fundamental ones. This means that the
isomorphism constraint must be kept at the relevant matching level,
which causes a change in the phenomenological explanation of phenomenal
relations. This last specification narrows a bit the (c2)
argument and rests upon the conviction that phenomena are neither
theoretical posits nor subjective qualia, but instead immediate,
reproducible, undeniable facts of experience and hence a prime source
of scientific investigation, as Ehrenstein & Spillmann & Sarris
(2003) argue. Finally, this makes the (g) assumption unclear and
unnecessary.
Literature
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