Curriculum Vitaes

Kurushima Aiko

  (來島 愛子)

Profile Information

Affiliation
Professor, Faculty of Economics, Department of Economics, Sophia University
Degree
学士(工学)(東京大学)
修士(工学)(東京大学)
博士(学術)(東京大学)

Researcher number
30408728
J-GLOBAL ID
200901063797881597
researchmap Member ID
6000005085

Research Areas

 1

Papers

 9
  • 王 琦, 來島愛子, 堀口正之
    京都大学数理解析研究所講究録, 196-207, Jan, 2024  
  • 阪口 昌彦, 來島 愛子, 堀口 正之
    京都大学数理解析研究所講究録2220「不確実環境下における意思決定数理の新展開」, 2220 74-81, Jul, 2022  
  • Xin Guo, Aiko Kurushima, Alexey Piunovskiy, Yi Zhang
    Advances in Applied Probability, 53(2) 301-334, Jun, 2021  
    We consider a gradual-impulse control problem of continuous-time Markov decision processes, where the system performance is measured by the expectation of the exponential utility of the total cost. We show, under natural conditions on the system primitives, the existence of a deterministic stationary optimal policy out of a more general class of policies that allow multiple simultaneous impulses, randomized selection of impulses with random effects, and accumulation of jumps. After characterizing the value function using the optimality equation, we reduce the gradual-impulse control problem to an equivalent simple discrete-time Markov decision process, whose action space is the union of the sets of gradual and impulsive actions.
  • A. Kurushima, A. Piunovskiy, Y. Zhang
    Theory of Probability and its Applications, 62(2) 328-334, 2018  Peer-reviewed
    In this paper, we present a new monotone approximation of a given real-valued Carathéodory function on the product X × A of Borel spaces, where A is also compact. We demonstrate its application by providing a self-contained and elementary proof of a result of A. Nowak in discrete-time Markov decision processes.
  • A.Kurushima, A.Piunovskiy, Y.Zhang
    Teor. Veroyatnost. i Primenen., 62(2) 405-414, 2017  Peer-reviewed
  • Aiko Kurushima, Katsunori Ano
    Mathematica Applicanda, 44(1) 209-220, 2016  Peer-reviewed
  • Aiko Kurushima, Katsunori Ano
    JOURNAL OF APPLIED PROBABILITY, 46(2) 402-414, Jun, 2009  
    Suppose that an unknown number of objects arrive sequentially according to a Poisson process with random intensity lambda on some fixed time interval [0, T]. We assume a gamma prior density G(lambda)(r, 1/a) for lambda. Furthermore, we suppose that all arriving objects can be ranked uniquely among all preceding arrivals. Exactly one object can be selected. Our aim is to find a stopping time (selection time) which maximizes the time during which the selected object will stay relatively best. Our main result is the following. It is optimal to select the ith object that is relatively best and arrives at some time s(i)((r)) onwards. The value of s(i)((r)) can be obtained for each r and i as the unique root of a deterministic equation.
  • A Kurushima, K Ano
    JOURNAL OF APPLIED PROBABILITY, 40(4) 1147-1154, Dec, 2003  
    This note studies a Poisson arrival selection problem for the full-information case with an unknown intensity lambda which has a Gamma prior density G(r, 1/a), where a > 0 and r is a natural number. For the no-information case with the same setting, the problem is monotone and the one-step look-ahead rule is an optimal stopping rule; in contrast, this note proves that the full-information case is not a monotone stopping problem.
  • KURUSHIMA AIKO, Ano Katusnori
    Scientiae Mathematicae Japonicae, 57(2) 217-231, Mar, 2003  

Books and Other Publications

 1

Presentations

 10

Research Projects

 4