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DTSTART;TZID=America/Chicago:20250425T123000
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DTSTAMP:20260614T144413
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SUMMARY:Graduate Student Colloquium: Levi Montee
DESCRIPTION:Partitioning the Natural Numbers with Fibonacci-like Sequences\nLevi Montee\nGraduate Student\nUniversity of Wisconsin-Milwaukee \nFamously seen in the displacement of seeds in a sunflower\, the branching of tree limbs or enumerating results in a variety of combinatorics problems\, the Fibonacci sequence has become one of the most recognizable sequences in mathematics. Beginning f0 = 0\, f1 = 1\, and continuing fn+1 = fn + fn-1\, this simple recurrence relation has been well studied for centuries. In this talk\, we will investigate sequences determined by the same recurrence relation given alternative starting points. We attempt to classify these sequences\, see which familiar Fibonacci properties are kept intact\, and examine when two such sequences share terms. Ultimately\, we aim to find a set of disjoint Fibonacci-like sequences that partition the natural numbers\, and see how these might be useful in solving particular logic games/puzzles.
URL:https://uwm.edu/math/event/graduate-student-colloquium-levi-montee/
LOCATION:EMS Building\, Room E495\, E495; 3200 N Cramer St.\, Milwaukee\, WI\, 53211\, United States
CATEGORIES:Graduate Student Colloquia
ORGANIZER;CN="The Department of Mathematical Sciences":MAILTO:math-staff@uwm.edu
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DTSTART;TZID=America/Chicago:20250425T133000
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SUMMARY:MS Thesis Defense: Mr. Jackson Thurmond
DESCRIPTION:Generalized Linear Model approach to the Prediction of the outcome of Mixed Martial Arts Fights\nMr. Jackson Thurmond\nGraduate Student\nUniversity of Wisconsin-Milwaukee \nMixed martial arts is a complex combat sport that encompasses striking\, grappling and submissions. In a sport where fights can be won by finishing a fight or go to decision there is a multitude of factors that can influence the outcome of a fight. In an effort to determine which factors are statistically significant to a fight a generalized linear model approach was selected. Since mixed martial arts is a sport in which two competitors fight\, and one is declared a winner\, the result of a fight can be thought of a binary classification problem. \nAdvisor:\nDavid Spade \nCommittee Members:\nDavid Spade\, Chao Zhu\, and Lijing Sun
URL:https://uwm.edu/math/event/ms-thesis-defense-mr-thurmund-jackson/
LOCATION:EMS Building\, Room E408\, E408; 3200 N Cramer St.\, Milwaukee\, WI\, 53211\, United States
CATEGORIES:Graduate Student Defenses
ORGANIZER;CN="The Department of Mathematical Sciences":MAILTO:math-staff@uwm.edu
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DTSTART;TZID=America/Chicago:20250425T140000
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SUMMARY:Colloquium: Prof. Caroline Terry
DESCRIPTION:Measuring Combinatorial Complexity via Regularity Lemmas\nProf. Caroline Terry\nAssociate Professor\nUniversity of Illinois-Chicago \nMany tools have been developed in combinatorics to study global structure in finite graphs. One such tool is called Szemerédi’s regularity lemma\, which gives a structural decomposition for any large finite graph. Beginning with work of Alon-Fischer-Newman\, Lovász-Szegedy\, and Malliaris-Shelah\, it has been shown over the last 15 years that regularity lemmas can be used to detect structural dichotomies in graphs\, and that these dichotomies have deep connections to model theory. One striking example is a dichotomy in the size of regular partitions\, first observed by Alon-Fox-Zhao. Specifically\, if a hereditary graph property H has finite VC-dimension\, then results of Alon-Fischer-Newman and Lovász-Szegedy imply all graphs in H have regular partitions of size polynomial is 1/ε. On the other hand\, if H has infinite VC-dimension\, then results of Gowers and Fox-Lovász show there are graphs in H whose smallest 1/ε-regular partition has size at least an exponential tower of height polynomial in 1/ε. In this talk\, I present several analogous dichotomies in the setting of hereditary properties of 3-uniform hypergraphs.
URL:https://uwm.edu/math/event/colloquium-caroline-terry/
LOCATION:EMS Building\, E495\, 3200 N Cramer St\, Milwaukee\, WI\, United States
CATEGORIES:Colloquia
X-TRIBE-STATUS:canceled
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