[ACT-R-users] computational basis of act-r

Brannon, Nathan G ngbrann at sandia.gov
Tue Jan 14 10:18:54 EST 2003 

Indeed Sandia is about four years into modeling from an oscillating systems
perspective.

See Klimesch, W. (1999) in Brain Research Reviews vol 29...a review paper.

Kelso's book "Dynamic Patterns" is another resource.  Approaches the topic
from more of a sensory motor perspective.

Nathan

__________________________________
Nathan G. Brannon, Ph.D.
Senior Member Technical Staff
Sandia National Laboratories
P.O. Box 5800, MS 0830
Albuquerque, NM  87185
Ph: 505.845.7055
Fax: 505.844.9037


-----Original Message-----
From: Troy Kelley [mailto:tkelley at arl.army.mil]
Sent: Tuesday, January 14, 2003 7:53 AM
To: Luis Botelho
Cc: act-r-users at act-r.psy.cmu.edu; act-r-users-admin at act-r.psy.cmu.edu;
Chris Chatham
Subject: Re: [ACT-R-users] computational basis of act-r



Luis,

I have a friend at Sandia National Labs who is doing some cognitive
modeling using oscillating systems theory.  I have forwarded this message
to him so perhaps he can help you.

I think what your friend is referring to is the neurological dynamics of
the brain.  The brain's neurons pulse and oscillate, forming rhythmic
patterns of neurological firings from which behavior emerges.
Connectionist have been moving toward "pulsed" neural nets and dynamic nets
which learn from synchronous rates of fire (see Lokendra Shastri's work).
However, ACT-R is a dynamic system as well.  Perhaps it doesn't using
synchronous oscillations, but I don't think this makes ACT-R obsolete
anytime soon.  One could argue that each cycle of ACT-R is equivalent to
one "pulse" of a neurological system.


   Troy



 

                      Luis Botelho

                      <luis.botelho at iscte.pt>   To:
act-r-users at act-r.psy.cmu.edu, Chris Chatham <chatham at m-laboratories.net>

                                                cc:

                      Sent by:                  Subject:  Re: [ACT-R-users]
computational basis of act-r                                
                      act-r-users-admin at act-r.

                      psy.cmu.edu

 

                      01/14/2003 08:28 AM

 

 

 





Dear Chris, all



> A couple of days ago, I talked to a researcher at Penn's Institute for
> Research in Cognitive Science who believes ACT-R will be outdated in the
> next couple of years.
>
> He believed that the fundamental method of computation in the brain is
> "oscillation" and that because ACT-R has no computational similarity to
the
> neurological structure of the brain, it will always be a poor modeling
> architecture.

Can you explain or point to some source of information where I can learn
what "oscillation" means?

Thanks
-- Luis

>
> I asked whether ACT-R might be expanded at the subsymbolic level to
include
> this type of modeling.  Any thoughts here from the group, or in regards
to
> the IRCS researcher's opinion?
>
> -Chris.
>
>
> _______________________________________________
> ACT-R-users mailing list
> ACT-R-users at act-r.psy.cmu.edu
> http://act-r.psy.cmu.edu/mailman/listinfo/act-r-users


_______________________________________________
ACT-R-users mailing list
ACT-R-users at act-r.psy.cmu.edu
http://act-r.psy.cmu.edu/mailman/listinfo/act-r-users





_______________________________________________
ACT-R-users mailing list
ACT-R-users at act-r.psy.cmu.edu
http://act-r.psy.cmu.edu/mailman/listinfo/act-r-users

More information about the ACT-R-users mailing list