Re: Modern Physics, Newtonian Paradigm, and the notion of State

[Tim Gwinn <***>]

Hi Ionel,

Just to clear up any possible confusion, by 'realization' I do mean what
Judith said: "creating a living system using Rosennean models as a
springboard". And, as equally stated by RR in Essays p. 263: "We want to
produce material systems that manifest those general attributes that we
associate uniquely with living organisms."

In my remarks, I referred specifically to "Rosen's relational models (in his
view of relational models in "Life Itself")". I do not assert that this is
the only way to do relational modeling. (Rosen himself differentiates his
relational modeling from Rashevsky's.) I do assert that it is a primary
conclusion of "Life Itself" that relational models of this particular class
(such as the (M,R)-system) of a complex system cannot be directly or simply
restated into state-based model(s): "no (finite) concatenation of syntactic
models of an organism yields something which must be an organism", and: "the
abandonment of fractionability , however, means that there is no 1 to 1
relationship between such relational, functional organizations and the
structures which realize them. These are basic differences between organisms
and mechanisms or machines." [LI 280]

Thus, I assert that the relational modeling he refers to in LI is of a
different formal universe from the formal universe of mechanistic
(state-based) models in which structures would be represented: the one
cannot universally be reduced to, or subsumed by, the other. That is all I
wished to convey.

Moving to the task of realizing something like an (M,R)-system....I heartily
agree that realization - the creation of a physical specimen - from
something like the (M,R)-system will not simply require a translation from
the functional relational model to a dynamical representation to then using
that dynamical representation as a blueprint for manufacturing the specimen.
Sorry if I gave a wrong impression on that point. That was one of the points
I wanted to make by quoting Rosen's own instructive discussion of his failed
realization attempt in TB&C, where he tried interpreting the (M,R)-system as
a sequential machine.

I feel that realization of a complex functional relational model like the
(M,R)-system is difficult because these universes of discourse are so
fundamentally different. I certainly do not feel that dynamical models are
to be summarily ommitted from the task of realization. I never made such a
suggestion. I do, however, have concerns about the relationship between
dynamical models and functional relational models of a complex system.
According to Life Itself, the class of systems which admit a functional
relational description which is also reducible to a state-description would
be 'machines' (in Rosen's specific sense of the term in LI). Clearly that is
not what we want to create in our realization, so the relationship between
between the relational and any of its dynamical models must be less obvious.
If I understand your remarks, I think you are also considering that any such
dynamical models would have to be of the kind (e.g., non-integrable) that
are symptomatic of a complex system. I am hesitant, though, that even
inclusion of these kinds of dynamical models will lead to a successful
physical realization.

Regards,
Tim

> -----Original Message-----
> From: ROSEN Forum [mailto:*** Behalf Of Ionel
> Sent: Friday, June 04, 2004 7:11 AM
> To: ***
> Subject: Re: Modern Physics, Newtonian Paradigm, and the notion of State
>
>
> Dear Tim:
>
> Let's look together at some more facts that do not appear to match your
> proposition: a significant proportion of Robert's book on "Essays on Life
> Itself.",  written much more  recently than 1973, and printed in New York,
> in 2000, i.e. the latest printed work of Robert Rosen contains very
> significant sections and chapters that are exactly along the lines that I
> pointed out to you before about his previous work on dynamical systems. In
> my view, there is nothing wrong whatsoever with that; this is what Robert
> intended  to do, because this is a reasonable and fruitful way to
> carry out
> the Relational Biology program--through modeling at several levels, not
> only at ONE level. In a certain sense, such 'too restrictive' an approach
> to just one level of reality would in effect be also 'reductionistic-to-
> abstract-semantics-ONLY' , which in effect would be  exactly on the
> opposite side of the 'reductionistic' coin, e,g. "purely
> abstract 'semantics'--without real meaning", no syntax, no developmental/
> numerical tools, ...and also quite sterile.
> This is the point that Robert
> makes repeatedly throughout the 346 pages of his recent book
> on "Essays ...".  A particularly clear example of this is presented in his
> several chapters in this book on:  Morphogenesis in Networks (Ch.15, pp.
> 224-, especially pp.232-241), Genericity and especially the section
> on "Dynamical Degeneracy" (Ch.12, pp. 175-186), Chapter 14 "Optimality in
> Biology and Medicine (pp.201-223), Ch.16 on Order and Disorder in
> Biological Control Systems (pp.246-253), and so on, and on.
>
> Should one decide to ommit/take out such VERY important aspects as the
> dynamical behavior and treatments that Robert specifically
> illustrates with
> differential eqns., and the specific solutions of such eqns., phase
> portraits, trajectories of states, etc., one would look at a much
> impoverished and much less attractive book than Robert's exciting,
> interesting and very readable "Essays...", the new book. The
> selected, 'simple'  and complex dynamical examples that Robert
> provides are
> really crucial to an in depth understanding of his very important work on
> relational biology, with both its inter-connected aspects-- abstract and
> dynamics. I do hope that you will give these points the serious
> consideration that certainly Robert's "Essays..." deserve,(without
> attempting to over-simplify the problem of realization to the one intended
> in your paragraph cited below), which as shown in the "Essays..." is very
> important indeed and cannot be/ should not be quickly "pushed under the
> carpet."--  merely as :
>
> >>>realization of these relational models, whether via sequential machine
> models or via kinetic models, as attempts at interpretation/
> translation/mapping from the universe of state-less atemporal relational
> models into the universe of state-based models.>>
>
> REALIZATION is much more than that: please note specifically pp.
> 263-269 in
> Robert Rosen's "Essays... " concerning the essential need for the
> realization steps, and the importance of the realization steps for
> Entailment, such as in the case of (M,R)-systems. It is a key process,
> connecting the 'abstract' world of relational biology to the real world in
> which such models are being REALIZED! It is NOT merely a 'translation',
> as the "traduttore--traditore" saying would make it to be.
> It is much more than that: it's the trully complementary part that one
> needs to see as a 'measure of reality' of the relational models
> considered.
> Faithful realizations are exceedingly important for modeling in relational
> biology, and practice does help, as Robert demonstrates it vividly and
> clearly in his "Essays ...", many times over. Without REALIZATION,
> a pseudo-'relational biology' might simply float into the abstract vacuum
> of a "dolce far niente", totally remote from biological reality,
> a "semantic theory" but without either real meaning or any syntax!
>
> The realization strengthens, and is part of the relational
> biology theories-
> -instead of detracting from them.
>
> As Nicolas Rashevsky--the founder of relational biology-- himself pointed
> out: relations in biology are quite 'general' in character: they contain
> BOTH qualitative and quantitative aspects. As also he was fond of saying:
> "Mathematics has been long considered the Queen of Sciences, but... she is
> a democratic queen!"
>
> In my own Qualitative Dynamics paper of 1971, (and later work) that I
> posted earlier ,I have made the same points that Nicolas Rashevsky and
> Robert Rosen did about the need to use both qualitative and quantitative
> approaches to model dynamics in relational biology. For a more recent
> reference along the same lines-- there are two substantial papers
> by DeJong
> on Qualitative Dynamics in Biology published in BMB in 2004, one providing
> the broader framework, and the other providing the application to a
> specific case in great detail.
>
> With best regards,
>
> Ionel
>
>
>
> On Thu, 3 Jun 2004 22:27:26 -0400, Tim Gwinn <***> wrote:
>
> >Hi Ionel,
> >
> >Adding the following thoughts to my prior response to this post....
> >
> >>From my perspective, I draw a distinction between Rosen's relational
> models
> >(in his view of relational models in "Life Itself"), and the attempts at
> >*realization* of such models. I consider that these relational models do
> sit
> >in an entirely different formal universe of discourse (for lack
> of a better
> >phrase) from the Newtonian-paradigm formal universe of discourse; it is a
> >formal universe of discourse where "systems are assigned no states, no
> >environments, and there is no recursion".
> >
> >Generating a physical realization *from* these relational models is the
> >conundrum. Certainly, it would seem likely (or at least, it seemed likely
> to
> >him back then (1964, 1971, 1973) that the process of realization must
> >include some way to interpret/translate/map from these models to
> some kind
> >of state-based model(s) which would tell us, among other things, how to
> >physically put the parts together. I see Rosen's attempts at
> realization of
> >these relational models, whether via sequential machine models or via
> >kinetic models, as attempts at
> interpretation/translation/mapping from the
> >universe of state-less atemporal relational models into the universe of
> >state-based models.
> >
> >Regards,
> >Tim
> >
> >> -----Original Message-----
> >> From: ROSEN Forum [mailto:*** Behalf Of Ionel
> >> Sent: Wednesday, June 02, 2004 5:33 AM
> >> To: ***
> >> Subject: Re: Modern Physics, Newtonian Paradigm, and the
> notion of State
> >>
> >>
> >> Hi, Tim:
> >>
> >> I'd go along with most of your comments about (M,R)-systems, but there
> are
> >> some important facts that are running contrary to your sentence cited
> >> below, if I understood your argumentation correctly:
> >>
> >> >>These functional relational models are in an entirely
> different formal
> >> universe of discourse than a formal universe of discourse built around
> >> spatiotemporal relations.>> It is, metaphorically speaking, like
> >> a parallel
> >> formal universe - a rather alien one to the one in which we are used to
> >> doing physics in. >>....Of course, the opposite is also true: these
> >> relational models have abstracted away state information
> entirely - they
> >> have "thrown away the physics".) >>
> >>
> >> ---------------
> >> FACTS: Both in 1971 and 1973, Robert published in BMB two substantial
> >> papers in which he developed dynamic representations of (M,R)-systems
> that
> >> appear to be aimed at linking the Abstract (M,R)-systems
> approach to the
> >> physical representation of such systems in terms of kinetic or dynamics
> >> eqs.,etc,  e.g. attempting to avoid to "throw away the
> physics", such as
> >> the dynamics in terms of states and state-spaces. It is clear
> >> that Roberts'
> >> states are not quantum states.
> >> -------------
> >> Regards,
> >>
> >> Ionel
> >>
> >> ...>>In TQFT, the relations represented are still between
> spatiotemporal
> >> quantum states: the encoding has gone from the natural system to a
> >> spatiotemporal encoding and then to a topological one. In Rosen's
> >> relational models, the encoding goes directly from the natural
> system to
> >> the functional relational model. This allows for representations of
> >> organizational qualities that cannot be encoded into the spatiotemporal
> >> encodings of the Newtonian paradigm. (Of course, the opposite is
> >> also true:
> >> these relational models have abstracted away state information
> entirely -
> >> they have "thrown away the physics".)
>
> Dear Tim: