研究者業績

Fumitaka Yura

  (由良 文孝)

Profile Information

Affiliation
Professor, Faculty of Engineering Department of Mathematical Engineering, Musashino University
Degree
博士(工学)(Mar, 1998, The University of Tokyo)
修士(工学)(Mar, 1995, The University of Tokyo)
学士(工学)(Mar, 1993, The University of Tokyo)

researchmap Member ID
5000077360

Major Papers

 16
  • Kazuo Tonami, Tatsuya Hayashi, Yasunobu Uchijima, Masahiro Kanai, Fumitaka Yura, Jun Mada, Kei Sugahara, Yukiko Kurihara, Yuri Kominami, Toshiyuki Ushijima, Naoko Takubo, Xiaoxiao Liu, Hideto Tozawa, Yoshimitsu Kanai, Tetsuji Tokihiro, Hiroki Kurihara
    iScience, 26(7) 107051-107051, Jun, 2023  
  • Hiroki Kurihara, Jun Mada, Tetsuji Tokihiro, Kazuo Tonami, Toshiyuki Ushijima, Fumitaka Yura
    Theoretical Biology, 25-83, 2021  
  • Naoko Takubo, Fumitaka Yura, Kazuaki Naemura, Ryo Yoshida, Terumasa Tokunaga, Tetsuji Tokihiro, Hiroki Kurihara
    Scientific Reports, 9(1) 9304-9304, Dec, 2019  Peer-reviewed
    Vascular endothelial cells (ECs) in angiogenesis exhibit inhomogeneous collective migration called "cell mixing", in which cells change their relative positions by overtaking each other. However, how such complex EC dynamics lead to the formation of highly ordered branching structures remains largely unknown. To uncover hidden laws of integration driving angiogenic morphogenesis, we analyzed EC behaviors in an in vitro angiogenic sprouting assay using mouse aortic explants in combination with mathematical modeling. Time-lapse imaging of sprouts extended from EC sheets around tissue explants showed directional cohesive EC movements with frequent U-turns, which often coupled with tip cell overtaking. Imaging of isolated branches deprived of basal cell sheets revealed a requirement of a constant supply of immigrating cells for ECs to branch forward. Anisotropic attractive forces between neighboring cells passing each other were likely to underlie these EC motility patterns, as evidenced by an experimentally validated mathematical model. These results suggest that cohesive movements with anisotropic cell-to-cell interactions characterize the EC motility, which may drive branch elongation depending on a constant cell supply. The present findings provide novel insights into a cell motility-based understanding of angiogenic morphogenesis.
  • K. Matsuya, F. Yura, J. Mada, H. Kurihara, T. Tokihiro
    SIAM JOURNAL ON APPLIED MATHEMATICS, 76(6) 2243-2259, 2016  Peer-reviewed
    Angiogenesis is the morphogenetic phenomenon in which new blood vessels emerge from an existing vascular network and configure a new network. In consideration of recent experiments with time-lapse fluorescent imaging in which vascular endothelial cells exhibit cell-mixing behavior even at a tip of newly generated vascular networks, we propose a discrete mathematical model for the dynamics of vascular endothelial cells in angiogenic morphogenesis. The model incorporates two-body interaction between endothelial cells which induces cell-mixing behavior and length of the generating blood vessel shows temporal power-law scaling behavior. Numerical simulation of the model successfully reproduces elongation and bifurcation of blood vessels in the early stage of angiogenesis.
  • Yura, F.
    Linear Algebra and Its Applications, 484, 2015  Peer-reviewedCorresponding author
  • Fumitaka Yura
    JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL, 47(32), Aug, 2014  Peer-reviewedCorresponding author
    We propose a solitonic dynamical system over finite fields that may be regarded as an analogue of the box-ball systems. The one-soliton solutions of the system, which have nested structures similar to fractals, are also proved. The solitonic system in this paper is described by polynomials, which seems to be novel. Furthermore, in spite of such complex internal structures, numerical simulations exhibit stable propagations before and after collisions among multiple solitons, preserving their patterns.
  • Nobe, A., Yura, F.
    Cellular Automata, 165-209, 2011  Peer-reviewed
  • Atsushi Nobe, Fumitaka Yura
    JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL, 40(26) 7159-7174, Jun, 2007  Peer-reviewed
    The initial value problem for a class of reversible elementary cellular automata with periodic boundaries is reduced to an initial- boundary value problem for a class of linear systems on a finite commutative ring Z(2). Moreover, a family of such linearizable cellular automata is given.
  • A Nobe, F Yura
    JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, 37(22) 5789-5804, Jun, 2004  Peer-reviewed
    Reversibility of one-dimensional cellular automata with periodic boundary conditions is discussed. It is shown that there exist exactly 16 reversible elementary cellular automaton rules for infinitely many cell sizes by means of a correspondence between elementary cellular automaton and the de Bruijn graph. In addition, a sufficient condition for reversibility of three-valued and two-neighbour cellular automaton is given.
  • K Matsumoto, F Yura
    JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, 37(15) L167-L171, Apr, 2004  Peer-reviewed
    We study the entanglement cost of the states in the antisymmetric space, which consists of (d - 1) d-dimensional systems. The cost is always 1092(d - 1) ebits when the state is divided into bipartite C-d circle times (C-d)(d-2). Combined with the arguments in [6], additivity of channel capacity of some quantum channels is also shown.
  • F Yura
    JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, 36(15) L237-L242, Apr, 2003  Peer-reviewed
    We show that the entanglement cost of the three-dimensional antisymmetric states is one ebit.
  • D Yoshihara, F Yura, T Tokihiro
    JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, 36(1) 99-121, Jan, 2003  Peer-reviewed
    We investigate a box-ball system with periodic boundary conditions. Since the box-ball system is a deterministic dynamical system that takes only a finite number of states, it will exhibit periodic motion. We determine its fundamental cycle for a given initial state.
  • F Yura, T Tokihiro
    JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, 35(16) 3787-3801, Apr, 2002  Peer-reviewed
    We propose a box and ball system with a periodic boundary condition periodic box and ball system (pBBS). The time evolution rule of the pBBS is represented as a Boolean recurrence formula, an inverse ultradiscretization of which is shown to be equivalent to the algorithm of the calculus for the 2Nth root. The relations to the pBBS of the combinatorial R matrix of U-q' (A(N)((1))) are also discussed.
  • E. HANAMURA, J. INOUE, F. YURA
    Journal of Nonlinear Optical Physics & Materials, 04(01) 13-25, Jan, 1995  Peer-reviewed
    After reviewing the important roles of excitons in nonlinear optical responses, we demonstrate mutual and quantum-mechanical control of radiation field and excitons on the same footing in a microcavity. First we introduce dressed excitons as bosons interacting coherently and reversibly with a radiation mode in the microcavity. Although the vacuum Rabi splitting of the dressed exciton is the same as that of dressed atom, the emission spectrum under strong pumping shows quartet structure different from the triplet of dressed atom. Secondly, the population dynamics of dressed excitons, i.e., one-dimensional polaritons in the mesoscopic system is solved and the dominant distribution on a single mode is demonstrated above the critical pumping.
  • Yura, F., Hanamura, E.
    Physical Review B, 50(20) 15457-15460, Nov 15, 1994  Peer-reviewed
  • Tsukada, I., Terasaki, I., Hoshi, T., Yura, F., Uchinokura, K.
    Journal of Applied Physics, 76(2) 1317-1319, Jul 15, 1994  Peer-reviewed

Misc.

 36

Books and Other Publications

 4

Professional Memberships

 3

Research Projects

 6

Social Activities

 1