Welcome, Jim

Welcome aboard,

At the Santa Fe Complex, we are presently devising ways to shrink the world
so that you will be able to attend in the future.  Until then, we will have
to settle for this forum.

Ask as a question.  We havent had a good question recently.  

Nick

of
> (agent-based) computational economics and evolutionary computation.
> Specifically I've been busy with agent-based simulation models of
financial
> markets for the purpose of price forecasting. The complex behavior of
> financial markets has been a long time interest of me, as well as
artificial
> intelligence and related computer science fields. My work can be found at
> www.altreva.com.
>
> Prior life experience includes an Msc in computer science from
Universiteit
> Twente, 4 years as a consultant at Ernst & Young Treasury & Financial
Risk
> Management, 1 year as marketing director of an AI software startup
company,
> 1 year as manager at Ernst & Young Corporate Finance, 5 years of
traveling
> and living in Sout-East Asia.
>
> I'm living in the Netherlands so unfortunately I won't be able to attend
the

Nick, thanks for inviting me to ask a (good) question. This forced me to go
over my list of "everything I always wanted to know about complex systems
but was afraid to ask" with a critical eye. In the end I decided on a
question that has been haunting me for some time now in my work and which is
still an open question I believe in the field of agent-based computational
economics:

Considering a financial market as a complex system and the important role of
networks in complex systems; what network topology would best describe the
connections (of information exchange) between market participants in a
real-world financial market (i.e. a stock market)?

With the information being exchanged I mean: any information that is
potentially relevant for making trading decisions such as news, analyst
recommendations, valuations, trading strategies, rumours, etc.

So this deals with the question where people (and institutions) get their
information from and to what extent they forward information about their own
opinions, decisions, trading strategies, returns, etc. to others.

Jim

----- Original Message -----
From: "Nicholas Thompson" <[hidden email]>
To: <friam at redfish.com>
Sent: Thursday, April 17, 2008 9:24 PM
Subject: [FRIAM] Welcome, Jim

There's a curious reversal that occurred to me in reading an article by
Boschetti on the computability of nature in relation to Rosen's "Evolution
of life is not the construction of a machine", the deep problems of why math
"can't do nature".   I'm writing a piece on how self-consistent models don't
make good operating manuals because they omit the independent parts that
make environments work.  It's as a stating point for discussing how our
models fit their subjects and what to do about the radical lack of fit in
many cases.

Computability is usually discussed in terms of ?chaos? in which small
differences can have large mathematical consequences or the inability to
define boundary conditions clearly or that models can?t properly represent
the multiple scales of organization that natural systems have.   There's
also an incomputability of mathematical models that comes directly from our
means of doing it, the physical process of doing it.  Calculation has an
easily perceived ?grain? that comes from its being built from the assemblies
of individual parts in computers, the 1's and 0's.   Self-consistent sets of
equations do not have any grain.   The implied continuities of mathematics,
therefore, can not be represented with the integer calculations required for
digital processing.   Mathematical rules imply shades of difference and
dynamical derivative rates of change without limit.   Perhaps how our
mathematical tools necessarily operate then shows that the problem isn?t
just that how math is built it can't successfully emulate nature.   Maybe it
also shows that the way nature is built it can't successfully emulate math.
If nature "can't do math", that may have different implications.



Phil Henshaw???????????????????
??? ????.?? ? `?.????
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
680 Ft. Washington Ave   NY NY 10040? tel: 212-795-4844?????
e-mail: pfh at synapse9.com?????explorations: www.synapse9.com??
?in the last 200 years the amount of change that once needed a century?of
thought now takes just five weeks?

Phil,

There is a fundamental quality in mathematics - equality - or reversibility,
if you will, that differs from nature.  This means that there is a
directionality in natural processes that cannot be deconstructed.  Prigogine
calls the lack of directional and temporal equality "far from equilibrium".

Mathematics works well at describing systems at equilibrium, and seems to
get progressively worse the further from equilibrium one gets.  Emergence
creates an emergency, so to speak.

This has been my criticism of rules centered agent based modeling, which is
a theme from Wolfram, and why I have been researching compositional pattern
producing networks (CPPN's) evolved by HyperNEAT.  It seems to take energy
to evolve.

The interesting thing is a paradigmatic difference between solving problems,
and recognizing solutions.

Ken

Hi Ken,

in the context of Rosen's objections to course of mathematics since  
pythagoras, in what respect would CPPN's be any better than 'rules  
centered agent based modelling' ?
I never heard about CPPN's; it seems interesting, but I can't really  
find any examples of something they're better at than 'straight' CA  
or neural networks ?

curious,

Joost.


On  21 Apr, 2008, at 5:29 PM, Ken Lloyd wrote:




-------------------------------------------

                               Joost Rekveld
-----------    http://www.lumen.nu/rekveld

-------------------------------------------

"A is better off if B is better off.?

(Heinz von Foerster)

-------------------------------------------

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Hi,

I still do not see why nature should not be mathematical, or even
(stronger) computable.

See for instance Max Tegmark's (MIT) Mathematical universe:
http://arxiv.org/abs/0704.0646

The principal claim of Rosen - that life is not mechanically emulable -
is shown to be false by the second recursion theorem

http://en.wikipedia.org/wiki/Kleene%27s_recursion_theorem

(which shows that one can mechanically replicate; repair is then a
matter of error correction)

Cheers,
G?nther

phil henshaw wrote:
--
G?nther Greindl
Department of Philosophy of Science
University of Vienna
guenther.greindl at univie.ac.at
http://www.univie.ac.at/Wissenschaftstheorie/

Blog: http://dao.complexitystudies.org/
Site: http://www.complexitystudies.org

Hi Joost,
 
Here's a case study.  Notice how the concept of a geometrical space can be
equated to a "context" in which patterns evolve, and see how this differs
from its primitive cousin - an evolutionary genetic ANN.
 
http://eplex.cs.ucf.edu/papers/gauci_aaai08.pdf
 
Ken
 
=============================
Kenneth A. Lloyd
CEO and Director of Systems Science
Watt Systems Technologies Inc.
Albuquerque, NM USA
kalloyd at wattsys.com
kenneth.lloyd at incose.org  - MBSE Complex, Adaptive & Stochastic Systems
kenneth.lloyd at nmug.net - Director of Education
www.wattsys.com <http://www.wattsys.com/>
 
 <http://www.linkedin.com/pub/7/9a/824> http://www.linkedin.com/pub/7/9a/824

 
This e-mail is intended only for the addressee named above. It may contain
privileged or confidential information.
If you are not the addressee you must not copy, distribute, disclose or use
any of the information in it.
If you have received it in error please delete it and immediately notify the
sender.

 


  _____  

From: [hidden email] [mailto:[hidden email]] On Behalf
Of Joost Rekveld
Sent: Monday, April 21, 2008 1:54 PM
To: The Friday Morning Applied Complexity Coffee Group
Subject: Re: [FRIAM] recap on Rosen


Hi Ken,

in the context of Rosen's objections to course of mathematics since
pythagoras, in what respect would CPPN's be any better than 'rules centered
agent based modelling' ?
I never heard about CPPN's; it seems interesting, but I can't really find
any examples of something they're better at than 'straight' CA or neural
networks ?

curious,

Joost.


On  21 Apr, 2008, at 5:29 PM, Ken Lloyd wrote:


Phil,




There is a fundamental quality in mathematics - equality - or reversibility,

if you will, that differs from nature.  This means that there is a

directionality in natural processes that cannot be deconstructed.  Prigogine

calls the lack of directional and temporal equality "far from equilibrium".




Mathematics works well at describing systems at equilibrium, and seems to

get progressively worse the further from equilibrium one gets.  Emergence

creates an emergency, so to speak.




This has been my criticism of rules centered agent based modeling, which is

a theme from Wolfram, and why I have been researching compositional pattern

producing networks (CPPN's) evolved by HyperNEAT.  It seems to take energy

to evolve.




The interesting thing is a paradigmatic difference between solving problems,

and recognizing solutions.




Ken






-------------------------------------------

                              Joost Rekveld
-----------    http://www.lumen.nu/rekveld

-------------------------------------------

"A is better off if B is better off."

(Heinz von Foerster)

-------------------------------------------


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G?nther Greindl wrote:
> I still do not see why nature should not be mathematical, or even
> (stronger) computable.

I agree.

> The principal claim of Rosen - that life is not mechanically emulable -
> is shown to be false by the second recursion theorem
>
> http://en.wikipedia.org/wiki/Kleene%27s_recursion_theorem
>
> (which shows that one can mechanically replicate; repair is then a
> matter of error correction)

I disagree.  I don't believe that theorem refutes RR's claim, which I
prefer to think of as "non-well-founded sets cannot be realized".  But,
I admit that I'm not as well-versed in computability as I should (or
would like to) be.

How does the recursion theorem refute RR's claim?  Can you be a bit more
precise?

- --
glen e. p. ropella, 971-219-3846, http://tempusdictum.com
A government that is big enough to give you all you want is big enough
to take it all away. -- Barry Goldwater

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Well, I mostly thought you might like the turn of phrase...    

There's another one I like of a similar kind, the observation that the
conclusion of all proofs, the little triangle of dots that some refer to as
the statement "therefore" actually means "... and so I can't think of
anything else...".   Every step of a proof is a repetition of the fallible
human act of "and only this follows"... well unless you think of something
else.   For any self-consistent model, a way to think of the inconsistencies
it entails is to look at how it is embedded into the physical world and all
it's loosely connected working parts.

Phil Henshaw???????????????????
??? ????.?? ? `?.????
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
680 Ft. Washington Ave   NY NY 10040? tel: 212-795-4844?????
e-mail: pfh at synapse9.com?????explorations: www.synapse9.com??
?in the last 200 years the amount of change that once needed a century?of
thought now takes just five weeks?

Hi Ken,

thanks for this, i'll report back to base as soon as I'm done reading  
(which might take a while)

ciao,

Joost.


On  21 Apr, 2008, at 10:12 PM, Ken Lloyd wrote:

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Dear Glen,

I actually wanted to call into question that life is a non-well founded
set. Why should it be? Could you present arguments for that? (I looked
at Rosen's (M,R) Model of the cell and did not see any principal problem
in modelling this computationally -> that is where the 2nd rec. theorem
comes in; indeed, this is necessary and a quite deep insight, Descartes
could not solve this, but of course he did not have modern logic at his
disposal).

If non-well founded sets are then computationally realizable is another
question, but why not (a non halting computation?)?

Two other things:
Category Theory, which RR employs, is not at odds with computer science:

"From the 1980s to the present, category theory has found new
applications. In theoretical computer science, category theory is now
firmly rooted, and contributes, among other things, to the development
of new logical systems and to the semantics of programming. (Pitts 2000,
Plotkin 2000, Scott 2000, and the references therein)."

Quote from SEP http://www.science.uva.nl/~seop/entries/category-theory/

See also the paper from Baez Et al. (Rosetta stone) which has already
been recommended by someone on this list.

RR's approach seems to attract followers because of this:

(two quotes from abstract of online paper by Donald C. Mikulecky)
http://www.people.vcu.edu/~mikuleck/PPRISS3.html

"It is so because the world of the machine is a "simple" world. Its laws
and inhabitants are simple machines or mechanisms."

This is a basic misunderstanding of what is a machine: when talking
about machines, people think about clockworks and DVD players and cars.
But machines can be much more profound than this, and how profound is
revealed by logic/set theory/recursion theory.

Indeed, there is nothing in empirical physics known at the moment which
would contradict viewing nature as a machine (esp. as a CA) (see for
instance Wolfram/Schmidhuber and even one or two papers by Nobel
laureate 't Hooft)

Another quote by Mikulecky:
"It isn't the atoms and molecules that are at the hard core of reality,
it is the relations between them and the relations between them and
things called processes which are at the core of the real world!"

Hmm - in theoretical physics one only models mathematically -
"particles" are not "things" anymore, they are mathematical relations;
all nicely in a mechanist framework; in the end, the more we go into
physics, the more the things we study are only true insofar as they have
mathematical content (Roger Bacon said similar stuff around 1200, and he
had it from the Moors ;-). A mechanist would be very fine with "all is
relation".

I have not yet seen any substantial claim (except handwaving) coming
from RR's work which goes against traditional mechanist/computationalist
traditions.

Cheers,
G?nther

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G?nther Greindl wrote:
[grin]  That's not an answer to my query.  You said that the recursion
theorem _refutes_ RR's claim.  You can't just say "I don't see how RR's
claim is justified."  That's not a refutation.  It's just a simple
statement that you don't know the justification.

How does the recursion theorem refute RR's claim?

After we see your refutation, then either: a) I'll be proven wrong,
regardless of how I may re-formulate RR's claim or b) the burden will be
on me to criticize your refutation.  But we have to see your refutation
first.

Note that I _agree_ with your main point, that life may be mathematical
or computable.  But I don't see how the recursion theorem refutes RR's
claim that "life is not mechanically emulable"?

- --
glen e. p. ropella, 971-219-3846, http://tempusdictum.com
http://meat.org

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Dear Glen,

> [grin]  That's not an answer to my query.  You said that the recursion
> theorem _refutes_ RR's claim.  You can't just say "I don't see how RR's
> claim is justified."  That's not a refutation.  It's just a simple
> statement that you don't know the justification.

Sorry, I did not answer directly, that is true.

Of course, you have to be careful when criticising Rosen, as most
critics are then countered by "that is not how RR uses that and that word".

For instance, here:
http://www.panmere.com/?p=66

you read:
"However, Wells fails to understand that Rosen is constructing a
specific and unequivocal definition of ?machine? - Rosen is not
attempting to utilize some vague colloquial definition of ?machine?."

The thing is: when computer scientist talk about "machine", it is
perfectly well defined: they talk about a Universal Turing Machine (or a
TM and it's equivalents, whatever you like).

So, when I speak of machine/mechanism I mean the general, computer
science meaning; also, recursive functions are well defined, no problems
in this area.

More problematic of course is life: I guess there is no single accepted
definition of life, people will not even agree on what is alive (virus? etc)

So, maybe Rosen has a personal definition of life, but what I targeted
was the (M,R)-systems, which he posits as a model of organism which are
opposed to mechanisms.

And I can't see anything in (M,R)-system (metabolism, repair) which is
not amenable to a mechanistic solution, the only real difficult part
being the coding of the replication of the system from within itself -
and that is where the recursion theorem comes in.

So my argument runs as this: the models Rosen proposes as models of life
can be modeled by well known mechanistic models. Hence Rosen's claim
that life is not a mechanism is refuted.

One objection may be that if life is a mechanism, then why doesn't Alife
work out as we would like? Of course, life is a very _complicated_
mechanism. It uses all kinds of natural laws down to quantum phenomena
(Van der Waals Forces in Geckos, as a famous example). So maybe life
can't be captured by simplistic mechanism (meaning, sequential, slow
processing with no relationship to real environment)

What I argue against is this fundamental dichotomy which is trying to be
interposed between living beings and non-living beings; I find RR's
theories fruitful insofar as he proposes new modeling techniques. I find
them counterproductive as he argues against mechanism.

But, as said above, it seems that RR defines mechanism differently. This
is of course very unfortunate, as it will have people talking past each
other. Unfortunate also because mechanism is indeed a word which can be
given a precise, mathematical meaning.


Concerning argueing against mechanism:
Something similar also happens in the domain of mind: the Lucas-Penrose
argument that G?del Incompleteness implies a non-mechanistic view of the
mind. (Glen, we had a similiar discussion some time ago ;-)

While this claim has been shown to be without substance, but still
circles around due to public appeal (?), there is indication that rather
the contrary holds; (Incompleteness implies mechanism) see this book for
instance:

Mechanism, Mentalism and Metamathematics: An Essay on Finitism (Synthese
Library) by J. Webb
http://www.amazon.com/Mechanism-Mentalism-Metamathematics-Finitism-Synthese/dp/9027710465/ref=sr_1_1?ie=UTF8&s=books&qid=1208976075&sr=8-1

(Very expensive :-((, maybe your library has it?)


Bruno Marchal (http://iridia.ulb.ac.be/~marchal/) alerted me to the
astounding and beautiful consequences of mechanism applied throughout;
and the philosophical chasms opening when not doing so.

Cheers,
G?nther


--
G?nther Greindl
Department of Philosophy of Science
University of Vienna
guenther.greindl at univie.ac.at
http://www.univie.ac.at/Wissenschaftstheorie/

Blog: http://dao.complexitystudies.org/
Site: http://www.complexitystudies.org

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G?nther Greindl wrote:
> Of course, you have to be careful when criticising Rosen, as most
> critics are then countered by "that is not how RR uses that and that word".

Yes, I know.  [grin]  I've been arguing with Rosenites for years and
that is, by far, their most frequent and most relied upon defense.
C'est la vie.  Other cliques do the same thing, from physicists to
theologians to mathematicians.  I call these people "hermeneuts" ... or,
when I'm feeling punchy, "priests".

OK.  So RR makes a prohibitive claim ... something like "living systems
cannot be accurately modeled with a UTM because MR systems cannot be
realized".  And you are refuting that claim by a counter-claim that MR
systems _can_ be realized, emphasizing that the recursion theorem is
crucial to such a realization.

Do I have it right?

- --
glen e. p. ropella, 971-219-3846, http://tempusdictum.com
If a man can't piss in his own front yard, he's living too close to
town. -- Tom Russell

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On Wed, Apr 23, 2008 at 08:55:29PM +0200, G?nther Greindl wrote:
>
> But, as said above, it seems that RR defines mechanism differently. This
> is of course very unfortunate, as it will have people talking past each
> other. Unfortunate also because mechanism is indeed a word which can be
> given a precise, mathematical meaning.
>

Is this in fact the case? When I read "What is Life", my idea of
mechanism was still the same (Turing computability), but felt that the
"Game of Life" was a counter example to his claims (GoL has multiple
inconsistent models). I'm still proposing to write a critique of Chu and
Ho's recent Artificial Life paper along somewhat these lines, but I'm
stuck evolving fuzzy inference systems for now (and I have some mutual
information data mining work stacked up behind it).

Cheers

--

----------------------------------------------------------------------------
A/Prof Russell Standish                  Phone 0425 253119 (mobile)
Mathematics                        
UNSW SYDNEY 2052                 hpcoder at hpcoders.com.au
Australia                                http://www.hpcoders.com.au
----------------------------------------------------------------------------

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Russell Standish wrote:
> On Wed, Apr 23, 2008 at 08:55:29PM +0200, G?nther Greindl wrote:
>> But, as said above, it seems that RR defines mechanism differently. This
>> is of course very unfortunate, as it will have people talking past each
>> other. Unfortunate also because mechanism is indeed a word which can be
>> given a precise, mathematical meaning.
>>
>
> Is this in fact the case?

Which part?  Are you asking whether it's true that Rosen uses a peculiar
definition of "mechanism"?  Or are you asking whether or not the normal
 use of "mechanism" can be given a precise, mathematical meaning?

> When I read "What is Life",

Surely you mean "Life Itself"?  "What is Life" is a book by Schr?dinger.

- --
glen e. p. ropella, 971-219-3846, http://tempusdictum.com
And therefore the victories won by a master of war gain him neither
reputation for wisdom nor merit for valour.   -- Sun Tzu, "The Art of War"

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Can a self-consistent model have independently behaving parts, like
environments do?  

The energy of any natural system isn't going to be completely independent of
it's environment and other things, but the internally generated information
structures would seem to be, no?  
A model of natural system interactions would still need to include the
design of their information structures, though, so a self-consistent model
would then have the task of representing differently consistent things at
the same time, and be unable to do it.   Right ?

Phil Henshaw???????????????????
??? ????.?? ? `?.????
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
680 Ft. Washington Ave   NY NY 10040? tel: 212-795-4844?????
e-mail: pfh at synapse9.com?????explorations: www.synapse9.com??
?in the last 200 years the amount of change that once needed a century?of
thought now takes just five weeks?

phil henshaw wrote:
> Can a self-consistent model have independently behaving parts, like
> environments do?  
>  
If the independently behaving parts don't have some underlying common
physics (e.g. they could in principle become different from time to time
according to some simple rules, but generally are the same), then there
will be so many degrees of freedom from the independently behaving parts
that arguments about why a system does what it does will be
quantitatively as good as any other.    Luckily `environments' can have
stable observable properties that can be treated as hard, fixed
constraints.

It seems to me self-consistency and reflectivity isn't a problem,
provided the list of exceptions can grow indefinitely or that the
individual exceptions can be ambiguous.   Consider the popularity of the
legal profession.  ;-)

Marcus

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Marcus G. Daniels wrote:
I don't think that's quite true.  It's close to true, but not quite
true. [grin]

Even if the parts don't have a common, underlying physics
(Truth/Reality), as long as they can interact _somehow_ and if they
interact a lot (highly connected), then a common "physics" may cohere
after a time so that a forcing structure limits the degrees of freedom.

In such a case (perhaps physical symmetry breaking is one example?),
some arguments about why a system does what it does will be more
accurate and precise than others, namely the ones that capture the
emergent "physics".

This could be true even if the "physics" that emerges is completely
abstracted from the original medium of interaction (the actual physics).
 Ultimately, whether such a "ladder of abstraction" is _completely_
closed or not is a matter of faith or philosophy.  Is there a bottom
turtle or not?

- --
glen e. p. ropella, 971-219-3846, http://tempusdictum.com
The ultimate result of shielding men from the effects of folly, is to
fill the world with fools. -- Herbert Spencer

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glen e. p. ropella wrote:
> Even if the parts don't have a common, underlying physics
> (Truth/Reality), as long as they can interact _somehow_ and if they
> interact a lot (highly connected), then a common "physics" may cohere
> after a time so that a forcing structure limits the degrees of freedom.
>  
Assuming there is some forcing structure (ok, better to avoid the word
"physics"),  my point is that it has to be posited, such that it is
clear that the function or set of functions can't just disguise any
number of degrees of freedom.  

For example, a model that specifies a benign looking but undisclosed
function that, upon further inspection, is discovered to be connected to
a giant database of all relevant phenomena...