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'''Introduction'''
 
'''Introduction'''
  
The graph isomorphism problem has been a long-standing problem in complexity theory for the last four decades. The statement of the problem is fairly simple: Given any two finite graphs, say $G$
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The graph isomorphism problem has been a long-standing problem in complexity theory for the last four decades. The statement of the problem is fairly simple: Given any two finite graphs that may appear to be different, is there an "easy" way to tell whether or not the two graphs are the same? We'll look at the statement of the problem in a slightly more rigorous setting, discuss the importance of the problem in other fields, as well as some recent progress made on the problem by a professor at the University of Chicago.
  
 
'''Basic concepts'''
 
'''Basic concepts'''

Revision as of 10:49, 24 April 2016

Group A: The Graph Isomorphism Problem

The Graph Isomorphism Problem

Introduction

The graph isomorphism problem has been a long-standing problem in complexity theory for the last four decades. The statement of the problem is fairly simple: Given any two finite graphs that may appear to be different, is there an "easy" way to tell whether or not the two graphs are the same? We'll look at the statement of the problem in a slightly more rigorous setting, discuss the importance of the problem in other fields, as well as some recent progress made on the problem by a professor at the University of Chicago.

Basic concepts

Importance

Recent developments

Closing Remarks

Alumni Liaison

Followed her dream after having raised her family.

Ruth Enoch, PhD Mathematics