The Department of Mathematics, Statistics, and Computer Science
is sponsoring a series of lectures in logic and computer science
during the spring semester of 1997. The speakers will discuss
topics including model theoretic algebra, descriptive complexity theory, the
history of logic,
and random graphs. Abstracts of the earlier talks in the series are at the end of
this list.
David Kueker (University of Maryland): April 11-18
TITLE: Forcing, Generics and Infinitary Logics I,II
ABSTRACT: We use model-theoretic forcing to study
the properties, finitary and
infinitary, of generic models obtained from smooth classes of finite
structures.
April 15 -. 3:00 PM room tba
Apr 16 - 3:00 PM room tba
The intended visit of Angus Macintyre (Oxford University)has been postponed to the Fall. Talks during the week will be in the Science and
Engineering Offices Building.
Wilfrid Sieg (Carnegie Mellon University):
Colloquium April 17
NOTE DATE CHANGE: TALK on THURSDAY
Hilbert's Programs: 1917-1922
Abstract:
Hilbert~s finitist program was not created at the beginning of the
twenties solely to counteract Brouwer~s Intuitionism, but rather emerged
out of broad philosophical reflections on the foundations of mathematics
and out of detailed logical work; that is evident from notes of lectures
that were given by Hilbert and prepared in collaboration with Bernays,
in the period from 1917 to 1922. These notes reveal a dialectic
progression from a critical logicism through a radical constructivism
towards finitism; the progression has to be seen against the background
of the stunning presentation of mathematical logic in the lectures given
during the winter term 1917/18. In this talk, I sketch the connection
of Hilbert~s considerations to issues in the foundations of mathematics
during the second half of the 19th century, describe the work that laid
the basis of modern mathematical logic, and analyze the first steps in
the new subject of proof theory. A broad revision of Hilbert~s and
Bernays~ contributions to the foundational discussion in our century has
long been overdue. It is almost scandalous that their carefully worked
out notes have not been used yet to understand more accurately the
evolution of modern logic in general and of Hilbert~s Program in
particular. One conclusion will be obvious: the dogmatic formalist
Hilbert is a figment of historical (de)construction! Indeed, the study
and analysis of these lectures reveal a depth of mathematical-logical
achievement and of philosophical reflection that is remarkable. In the
course of my presentation many questions are raised and many more can be
explored.
Charles Steinhorn (Vassar College) May 12-16
Spring 97 talks before March 12
Chris Laskowski (University of Maryland): February 22-25; lecture on 24th
Monday Feb. 24 4:00
What do the law of large numbers, PAC learning, model theory and
neural networks have in common?
412 SEO
Jim Lynch (Clarkson University): Feb 23-29:
Professor Lynch will speak twice:
Wed. Feb. 26 3:00 427 SEO
Fri. Feb. 28,
3:00 512 SEO.
His topics are:
1. convergence and nonconvergence laws for first-order logic of
random structures with built-in order relations (successor, linear order).
2. convergence and nonconvergence laws for random graphs.
Kevin Compton (University of Michigan): March 2-5:
Colloquium March 3 4:00 636 SEO
Probabilistic Results in Combinatorics
via Ehrenfeucht-Fraisse Games
Many new results concerning random structures (e.g., random
graphs, random functions, random abelian groups, etc.) have
come to light through a logical approach. Rather
than computing the asymptotic probabilty of a particular
property (i.e., the limiting probability of the
property as the structure size increases), we instead
show that all properties expressible in some logic have
an asymptotic probability and (in some cases) provide
an algorithm for computing this probability. One of the
basic techniques for proving these results is the method
of Ehrenfeucht-Fraisse games. We will give a general
introduction to these games and show how computing probabilities
of properties in random structures reduces to computing
probabilities of winning strategies in these games.
Zero-One Laws and Limit Laws from
Methods of Analytic Number Theory
Kevin Compton (University of Michigan)
Wed. Mar. 5, 3:00.
627 SEO
A class of structures has a (first-order) limit law if every
property expresible in first-order logic has a limiting probability
in random structures chosen from this class. If, in addition, the
limiting probability is always either 0 or 1, the class is said
to have a 0-1 law. Most of the work concerning limit laws and
0-1 laws has focussed on combinatorial structures such as graphs
and permutations. However, limit laws and 0-1 laws for various
classes of algebraic structures such as groups and rings have
been shown recently using methods of analytic number theory.
We will give a general introduction to enumeration by means
of Dirichlet series and Tauberian methods for obtaining asymptotics.
Related methods were used to prove the Prime Number Theorem
and other results in number theory. We then show how these
methods yield limit laws and 0-1 laws.
Jouko Vaananen (University of Helsinki), March 5-11:
Friday March 7 3:00 512 SEO
Monday March 10 2:00
1. Trees and Ehrenfeucht-Fraisse games
2. Generalized quantifiers on finite models)
412 SEO
Anuj Dawar (University of Swansea): March 30-April 6
Mar 31 - The Search for a Logic for P. 3:00 PM 512 SEO
Apr 2 - Elementary Properties of the Finite Ranks. 4:00 PM 427 SEO
Oleg Belegradek (University of Kemerovo): April 3-8:
April 3: 4:00 512 SEO
Definability in the finite over infinite ordered structures
I
April 7: 3:00 512 SEO
Definability in the finite over infinite ordered structures
II
Yuri Gurevich (University of Michigan): April 4-6:
April 4 3:00 PM 512 SEO
Finite Model Theory - a subjective survey.
Midwest Model Theory
Saturday, April 5, 1997
Room C-3 Lecture Center
9:00 AM: Coffee and Dougnuts
9:30 AM: Oleg Belegradek (Kemerovo) Quasi-o-minimal groups
11:00 AM: Mark Schlatter (Kirksville): Extensions of Results of Shelah
and Morley to Permutation Groups
2:00 PM: Anuj Dawar (Swansea): Generalized Quantifiers and 0-1 Laws.
3:30 PM: Yuri Gurevich (Ann Arbor): Finite Model Theory,
Abstract State Machines
and Choice-less Polynomial Time
After dinner there will be a party at Baldwin's 1064 W. Polk.
Some sleeping accomodations are available. Chez Baldwin now has
more floor space.
E-mail: jbaldwin@math.uic.edu (Note this has changed and my old
address has become limbo.)
phone: 312-226-1897
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