セミナー

Math-Fi seminar on 24 Nov.

2022.11.22 Tue up
  • Date: 24 Nov. (Thu.)
  • Place: W.W. 6th-floor, Colloquium Room and on the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Michael Zierhut (KIER, Kyoto University)
  • Title: The Arbitrage Pricing Theory in Incomplete Markets
  • Abstract:
The arbitrage pricing theory (APT) is traditionally viewed as a descriptive theory: If asset prices are decomposed into systematic and idiosyncratic components, the latter are negligible for almost all assets in large markets. This paper analyzes its role as a predictive theory: When prices of systematic risk factors are estimated by means of linear regression, these estimates are a lower-dimensional representation of a pricing kernel. Such estimates can be used to predict arbitrage-free prices for new assets. Market structure matters: When markets are complete, there is a unique pricing kernel and factor pricing is always arbitrage-free. When markets are incomplete, this method may select a nonpositive pricing kernel. This leads to a problem that is robust in a topological sense: For an open set of arbitrage-free markets, estimated factor models do not assign arbitrage-free prices out of sample. The critical assumption is therefore not that markets grow large, but that markets grow complete.

Math-Fi seminar on 17 Nov.

2022.11.11 Fri up
  • Date: 17 Nov. (Thu.)
  • Place: W.W. 6th-floor, Colloquium Room and on the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Etsuo Segawa (Yokohama National University)
  • Title: 量子ウォークの快適度とグラフの組合わせ構造
  • Abstract:
外部との流出入のある量子ウォークモデルは、ある条件のもと、時刻無限大で定常状態に達する。この定常状態によって、特徴づけられるグラフの幾何構造や、組合わせ構造について考察する。特に、このモデルのグラフの流入と流出の関係を与える散乱行列の特徴づけと、内部に滞在している量子ウォークの量(=快適度)が、ある全域部分グラフの族の個数の数え上げによって、与えられることを紹介する。

Math-Fi seminar on 20 Oct.

2022.10.18 Tue up
  • Date: 20 Oct. (Thu.)
  • Place: W.W. 6th-floor, Colloquium Room and on the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Luis Iván Hernández Ruíz (Kyoto University)
  • Title: Results on Limit Theorems for the Renewal Hawkes Process
  • Abstract:
Point processes are often used to model occurrences of events in time. One of such models that has seen applications in Finance is the self-exciting process proposed by Hawkes in 1971, in which previous occurrences of events increase the chance for new events to occur.  In this process, immigrants arrive to the system following a Poisson process, then, each immigrant has the possibility to have offspring. At the same time, each new offspring individual has the possibility to give birth to further offspring. In this work, we present an extension to the original Hawkes process, but we consider that the arrival of immigrants is given by a Renewal process; the interarrival times are still independent, but they follow an arbitrary distribution. Existence is proved by exploiting the cluster structure of the process and we use martingale theory to prove a Law of Large Numbers. We give a conjecture for a functional Central Limit Theorem.

Math-Fi seminar on 6 Sep.

2022.09.05 Mon up
  • Date: 6 Sep. (Tue.)
  • Place: W.W. 6th-floor, Colloquium Room and on the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Dan Crisan (Imperial College London)
  • Title: Classical and modern results in the theory and applications of stochastic filtering
  • Abstract:
Onwards from the mid-twentieth century, the stochastic filtering problem has caught the attention of thousands of mathematicians, engineers, statisticians, and computer scientists. Its applications span the whole spectrum of human endeavour, including satellite tracking, credit risk estimation, human genome analysis, and speech recognition. Stochastic filtering has engendered a surprising number of mathematical techniques for its treatment and has played an important role in the development of new research areas, including stochastic partial differential equations, stochastic geometry, rough paths theory, and Malliavin calculus. It also spearheaded research in areas of classical mathematics, such as Lie algebras, control theory, and information theory. The aim of this talk is to give a historical account of the subject concentrating on the continuous-time framework. I will also present a recent application of filtering to the estimation of partially observed high dimensional fluid dynamics models. In particular, I will introduce a so-called particle filter that incorporates a nudging mechanism. The nudging procedure is used in the prediction step. In the absence of nudging, the particles have trajectories that are independent solutions of the model equations. The nudging presented here consists in adding a drift to the trajectories of the particles with the aim of maximising the likelihood of their positions given the observation data. This introduces a bias in the system that is corrected during the resampling step.  The methodology is tested on a two-layer quasi-geostrophic model for a beta-plane channel flow with O(10^6) degrees of freedom out of  which only a minute fraction are noisily observed. 
 
The talk is based on the papers:
 
[1] D Crisan, The stochastic filtering problem: a brief historical account, Journal of Applied Probability 51 (A), 13-22
[2] C Cotter, D Crisan, D Holm, W Pan, I Shevchenko, Data assimilation for a quasi-geostrophic model with circulation-preserving stochastic transport noise,  Journal of Statistical Physics, 1-36, 2020.
[3] D Crisan, I Shevchenko, Particle filters with nudging, work in progress.

立命館大学数理工学セミナー(2022年8月4日(木))

2022.07.26 Tue up
<<立命館大学数理工学セミナー>>
日時:2022年8月4日(木) 16:30~18:00
講演者:
佐藤 寛之 (京都大学大学院情報学研究科)
題目:リーマン多様体上の最適化数理と非線形共役勾配法の一般的な枠組みについて
概要:
PDFファイルをご覧ください.

開催方法:
ウェストウィング6階談話会室での講演の模様をZoomミーティングで配信する予定です.
上記ファイル内に記載されたURLの申込フォームより8月3日(水)までにお申し込みください.
登録された方にセミナー当日の昼頃までにZoomミーティングの情報をお送りいたします.
対面参加を希望される方は、7月31日(日)までに多羅間へご連絡ください.
COVID-19の感染防止のため,対面参加者数が多い場合は適宜人数制限を行いますので,ご了承ください.
 
問い合わせ先:立命館大学理工学部数理科学科 多羅間 大輔

Math-Fi seminar on 26 Jul.

2022.07.25 Mon up
  • Date: 26 Jul. (Tue.)
  • Place: W.W. 6th-floor, Colloquium Room and on the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Kei Noba (The Institute of Statistical Mathematics)
  • Title: Optimality of classical or periodic barrier strategies for Lévy processes
  • Abstract:
We revisit the stochastic control problem in two cases with Lévy processes that minimize running and controlling costs. Existing studies have shown the optimality of classical or periodic barrier strategies when driven by Brownian motion or Lévy processes with one-sided jumps. Under the assumption that we can be controlled at any time or only at Poissonian dividend-decision times, we show the optimality of classical or periodic barrier strategies for a general class of Lévy processes.
 

Math-Fi seminar on 14 Jul.

2022.07.13 Wed up
  • Date: 14 Jul. (Thu.)
  • Place: On the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Takuji Arai (Keio University)
  • Title: Constrained optimal stopping under a regime-switching model
  • Abstract:
We investigate an optimal stopping problem for the expected value of a discounted payoff on a regime-switching geometric Brownian motion under two constraints on the possible stopping times: only at exogenous random times and only during a specific regime. The main objectives are to show that an optimal stopping time exists as a threshold type under some boundary conditions and to derive expressions of the value functions and the optimal threshold. To this end, we solve the corresponding variational inequality and show that its solution coincides with the value functions. Some numerical results are also introduced. Furthermore, we investigate some asymptotic behaviors. This talk is based on joint work with Masahiko Takenaka.

Math-Fi seminar on 7 Jul.

2022.07.06 Wed up
  • Date: 7 Jul. (Thu.)
  • Place: W.W. 6th-floor, Colloquium Room and on the Web (Zoom)
  • Time: 16:30-18:00
  • Speaker: Pierre Bras (Sorbonne Université)
  • Title: Asymptotics for the total variation distance between an SDE and its Euler-Maruyama scheme in small time
  • Abstract:
We give bounds for the total variation distance between the law of an SDE and the law of its one-step Euler-Maruyama scheme as $t \to 0$. The case of the total variation is more complex to deal with than the classic case of Wasserstein ($L^p$) distances. We show that this distance is of order $t^{1/3}$, and more generally of order $t^{r/(2r+1)}$ for any $r \in \mathbb{N}$. Improving the bounds from $1/3$ to $r/(2r+1)$ relies on a weighted multi-level Richardson-Romberg extrapolation which consists in linear combination annealing the terms of a Taylor expansion, up to some order. This method was introduced for bias reduction in practical problems, but is used here for theoretical purposes.

立命館大学幾何学セミナー(2022年7月15日(金))

2022.07.05 Tue up
日時:2022年7月15日(金) 16:30–18:00
タイトル: Generalized Thouless formula
講演者: 高橋 悠樹氏 (埼玉大学)
アブストラクト:
It is well-known that the density of states measure of the one dimensional ergodic Schrodinger operator agrees with the Laplacian of the associated Lyapunov exponent (in the sense of distribution). We extend the above result to monotonic cocycles.
 
開催方法: 
Zoomによる配信です.下記のURLより7月14日(木)までにご登録ください.
ご登録いただいた方に当日昼頃にZoomミーティングの情報をお送りします.
 
問い合わせ先:野澤 啓(立命館大学理工学部数理科学科)

立命館大学幾何学セミナー(2022年7月8日(金))

2022.07.02 Sat up
<<立命館大学幾何学セミナー>>
 
日時:2022年7月8日(金) 18:00~19:00

タイトル: Geometry of orbits of path group actions induced by Hermann actions

講演者: 森本 真弘 (大阪公立大学数学研究所)

アブストラクト:
こちらのPDFファイルをご覧ください.

開催方法:Zoom配信での開催です.

問い合わせ先:立命館大学理工学部数理科学科 多羅間 大輔

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