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Invited Paper Sessions

Low Dimensional Symplectic and Contact Topology

Friday, July 28, 1:00 p.m. - 4:00 p.m., Continental Ballroom B

The origins of symplectic and contact topology can be traced back to classical mechanical systems. Since then, both symplectic and contact topology have become very robust fields of study in their own right. The aim of this session will be to highlight techniques and recent results in the areas of low-dimensional symplectic and contact topology ranging from applications in knot theory to the theory of planar arrangements and singularities. Most of this work uses some version of Floer theory (such as contact homology or Heegaard Floer homology), which is an infinite-dimensional analog of Morse homology. We will aim to make this session understandable to nonexperts.

Organizers:
Dusa McDuff, Barnard College, Columbia University
Whitney George, University of Wisconsin LaCrosse

Speakers:
Lisa Tryanor, Bryn Mawr College
Jo Nelson, Barnard College and Columbia University
Doug LaFountain, Western Illinois University
Laura Starkston, Stanford University
Bahar Acu, University of Southern California and UCLA

 

Mathematics and Democracy

Friday, July 28, 1:00 p.m. - 4:00 p.m., Continental Ballroom A

Democracy is fraught with different meanings that mathematics can help to make more precise. This session will include talks on the properties of voting systems that best reflect the will of the people in electing a single winner (e.g., for mayor or president), or best represent different factions in electing multiple winners (e.g., to a committee or council). Among other topics discussed will be different ways of apportioning representatives to states, or seats in a legislature to political parties; methodologies for drawing district lines to avoid gerrymandering; and the avoidance of different social-choice paradoxes.

Organizer:
Steven Brams, New York University

Political Hypotheses and Mathematical Conclusions

Paul H. Edelman, Vanderbilt University

Multiwinner Approval Voting: An Apportionment Approach

D. Marc Kilgour, Wilfrid Laurier University

Voting and the Symmetric Group

Michael Orrison, Harvey Mudd College

Consistent Criteria, Problematic Outcomes, and the Hypercube

Tommy Ratliff, Wheaton College

Ready for Redistricting 2020

Karen Saxe, Macalester College and AMS

Orthogonal Decomposition and the Mathematics of Voting

William S. Zwicker, Union College

 

Spatial Graph Theory

Thursday, July 27, 1:00 p.m. - 5:00 p.m., Continental Ballroom A

Spatial Graph Theory is a relatively young interdisciplinary field that brings together knot theory, low dimensional topology and geometry, combinatorics, and graph theory, and has applications in chemistry, molecular biology, and biophysics. In addition, because of its combinatorial nature, many problems in Spatial Graph Theory lend themselves well to undergraduate research. For these reasons, faculty at primarily undergraduate institutions as well as those at research universities may be interested in learning about Spatial Graph Theory.

Organizer:
Erica Flapan, Pomona College

Legendrian Spatial Graphs

Danielle O’Donnol, University of Indiana

Alexander Polynomials of Spatial Graphs and Virtual Knots

Blake Mellor, Loyola Marymount University

Conway-Gordon Type Theorems

Ryo Nikkuni, Tokyo Woman’s Christian University

Topological Symmetry Groups of Möbius Ladders and the Petersen Graph in R3

Emille Davie Lawrence, San Francisco University

Intrinsic Chirality of Graphs in R3 and Other 3-Manifolds

Hugh Howards, Wake Forest University

Random Linear Embeddings of Spatial Graphs with Applications to Polymers

Kenji Kozai, Harvey Mudd College

Oriented Matroid Theory and Linear Embeddings of Spatial Graphs

Elena Pavelescu, University of South Alabama

Realization of Knots and Links in a Spatial Graph

Kouki Taniyama, Waseda University

 

Big Ideas about Big (and less than Big) Data

Thursday, July 27, 1:00 p.m. - 4:00 p.m., Continental Ballroom B

Data analytics is a growing field, with graduate degrees, undergraduate majors and minors, and concentrations popping up at colleges and universities around the country. Data analysis impacts our lives broadly from predictions of movie rankings on Netflix to targeted marketing by retailers, to name two of many applications. The landscape of data science is broad. The ideas of the field can be applied using smaller datasets from a biometric device like a Fitbit or iWatch to large datasets in finance or health care. This session will sample areas of data science from a variety of applications, calling on various topics in mathematics such as graph theory and linear algebra, as well as statistical modelling. The session will also include presenters from government, academia and business demonstrating the inherent interdisciplinarity of studying big and less than big data.

Organizers:
Tim Chartier, Davidson College
Jennifer Galovich, St. John's University and the College of St. Benedict

Tentative Speakers:
Michael Berry, University of Tennessee
Dash Davidson, Tableau Software
Abhi Mehta, Tresata
Martin Meltzer, Centers for Disease Control
Talithia Williams, Harvey Mudd College

 

The Life and Legacy of J. Ernest Wilkins (1923-2011)

Saturday, July 29, 1:00 p.m. - 4:00 p.m., International Ballroom South

J Ernest Wilkins earned a PhD in Mathematics at the age of 19 from the University of Chicago. In 1942 he became the seventh African American to earn a PhD in Mathematics. In 1976 he became the second African American to be elected to the National Academy of Engineering. Wilkins’ career spanned academia, industry and government including the University of Chicago Met Lab during the Manhattan Project. He also helped establish the doctoral program in mathematics at Howard University. This session will share his impact in nuclear-reactor physics and optics, his plight of being a “negro genius”, and his impact on the mathematical community.

Organizers:
Ronald Mickens, Clark Atlanta University
Talitha Washington, Howard University

Year: 
2017

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