Friday, April 25, 2025

2025-05-01 / 11:50 ~ 12:40

대학원생 세미나 - 대학원생 세미나: Introduction to Mathematical Modeling for Heterogeneous Diffusion

by 박준성(카이스트 수리과학과)

In undergraduate PDE course, one may have learned that the (classical) diffusion equation can be expressed as $u_t=D \Delta u$, where $D$ is a constant diffusivity. This is true for homogeneous environment. However, for (spatially) heterogeneous environment, $D$ is no longer a constant, and diffusion phenomena in those environments such as fractionation, or Soret effect, cannot be explained with the classical diffusion equation. In this talk, I will first discuss how to model and derive some of the diffusion equations in heterogeneous environment by using basic random walk theory. We will see that the heterogeneity of components, such as speed, walk length, sojourn time, etc, can explain the diffusion phenomena. Then, I will give some specific examples how such models can be applied in science, based on my recent works.

2025-05-02 / 14:00 ~ 15:30

학과 세미나/콜로퀴엄 - 기타: Introduction to Homotopical Algebra through Model Categories I

by Naing Zaw Lu(KAIST)

(This is part of the reading seminar given by the undergrad student Mr. Naing Zaw Lu for his Individual Study project.) This is an introductory talk on homotopy theory in model categories. Over the course of three lectures, we will familiarize ourselves with model categories, see how powerful cofibrant/fibrant objects can be, and build up the tools necessary to define the (Quillen) homotopy category of a model category.

2025-04-30 / 16:30 ~ 18:00

학과 세미나/콜로퀴엄 - 미분기하 세미나:

by 엄기윤()

I will provide a brief introduction to the canonical metric problem in Kähler geometry and related objects. Then I'll explain how generalizations of these objects naturally appear in the context of partition functions of determinantal point processes on polarized Kähler manifolds. The talk will be aimed at beginning geometry students and I will be rather pedagogical. Especially, I will focus on geometric aspects of the topic, so probabilistic or physical discussion will be postponed or omitted. This is based on my recent preprint.

2025-04-29 / 16:30 ~ 17:30

IBS-KAIST 세미나 - 이산수학: Approximation Algorithms for the Geometric Multimatching Problem

by Eunjin Oh(Dept. of Computer Science and Engineering, POSTECH)

Let S and T be two sets of points in a metric space with a total of n points. Each point in S and T has an associated value that specifies an upper limit on how many points it can be matched with from the other set. A multimatching between S and T is a way of pairing points such that each point in S is matched with at least as many points in T as its assigned value, and vice versa for each point in T. The cost of a multimatching is defined as the sum of the distances between all matched pairs of points. The geometric multimatching problem seeks to find a multimatching that minimizes this cost. A special case where each point is matched to at most one other point is known as the geometric many-to-many matching problem. We present two results for these problems when the underlying metric space has a bounded doubling dimension. Specifically, we provide the first near-linear-time approximation scheme for the geometric multimatching problem in terms of the output size. Additionally, we improve upon the best-known approximation algorithm for the geometric many-to-many matching problem, previously introduced by Bandyapadhyay and Xue (SoCG 2024), which won the best paper award at SoCG 2024. This is joint work with Shinwoo An and Jie Xue.

2025-04-25 / 14:00 ~ 16:00

IBS-KAIST 세미나 - 수리생물학:

by ()

In this talk, we discuss the paper “Boolean modelling as a logic-based dynamic approach in systems medicine” by Ahmed Abdelmonem Hemedan et al., Computational and Structural biotechnology journal (2022).

2025-04-25 / 15:00 ~ 17:00

학과 세미나/콜로퀴엄 - 기타: Grothendieck groups of regular schemes 1

by 우태윤(KAIST)

This is a reading seminar presented by the graduate student, Mr. Taeyoon Woo. Following the lecture note of Yuri Manin, he will study K_0 of schemes, and its essential properties, such as functoriality, projective bundle formula, filtrations, relationship to Picard group, blow-up squares, Chern classes, Todd classes and the Grothendieck-Riemann-Roch theorem.

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