Yohei Hosoe, Dr. Eng. (Ph.D.)


Assistant Professor, Department of Electrical Engineering, Kyoto University


Nationality: Japanese


E-Mail: hosoe



Research Activities

Memberships

  • SICE
  • ISCIE
  • IEEE (CSS)

Interests

  • Robust control
  • Periodic systems
  • Stochastic systems
  • (Information geometry)

Journal Papers

  • Y. Hosoe, T. Hagiwara and D. Peaucelle,
    Robust stability analysis and state feedback synthesis for discrete-time systems characterized by random polytopes,
    IEEE Transactions on Automatic Control, to appear. (DOI: 10.1109/TAC.2017.2730586)
  • M. Miyamoto, Y. Hosoe and T. Hagiwara,
    Robust stability analysis with cycling-based LPTV scaling: Part II. Its properties under the use of FIR separators,
    International Journal of Control, Vol. 90, No. 7, pp. 1358--1370, 2017. (DOI: 10.1080/00207179.2016.1206971)
  • M. Miyamoto, Y. Hosoe and T. Hagiwara,
    Robust stability analysis with cycling-based LPTV scaling: Part I. Fundamental results on its relationship with lifting-based LPTV scaling,
    International Journal of Control, Vol. 90, No. 7, pp. 1345--1357, 2017. (DOI: 10.1080/00207179.2016.1206970)
  • D. Peaucelle, Y. Ebihara and Y. Hosoe,
    Robust observed-state feedback design for discrete-time systems rational in the uncertainties,
    Automatica, Vol. 76, No. 2, pp. 96--102, 2017. (DOI: 10.1016/j.automatica.2016.10.003)
  • Y. Hosoe and T. Hagiwara,
    Robust stability analysis based on finite impulse response scaling for discrete-time linear time-invariant systems,
    IET Control Theory & Applications, Vol. 7, No. 11, pp. 1463--1471, 2013. (DOI: 10.1049/iet-cta.2013.0053)
  • Y. Hosoe and T. Hagiwara,
    Unified treatment of robust stability conditions for discrete-time systems through an infinite matrix framework,
    Automatica, Vol. 49, No. 5, pp. 1488--1493, 2013. (DOI: 10.1016/j.automatica.2013.02.017)
  • K. Katayama, Y. Hosoe and T. Hagiwara,
    Demonstrating the effectiveness of robust performance synthesis based on noncausal linear periodically time-varying scaling through control experiments of cart inverted pendulum (in Japanese),
    Transactions of the Institute of Systems, Control, and Information Engineers, Vol. 26, No. 5, pp. 165--173, 2013. (DOI: 10.5687/iscie.26.165)
  • Y. Hosoe and T. Hagiwara,
    Robust performance controller synthesis based on discrete-time noncausal linear periodically time-varying scaling,
    Asian Journal of Control, Vol. 14, No. 5, pp. 1194--1204, 2012. (DOI: 10.1002/asjc.473)
  • Y. Hosoe and T. Hagiwara,
    Properties of discrete-time noncausal linear periodically time-varying scaling and their relationship with shift-invariance in lifting-timing,
    International Journal of Control, Vol. 84, No. 6, pp. 1067--1079, 2011. (DOI: 10.1080/00207179.2011.591432)
  • Y. Hosoe and T. Hagiwara,
    Robust stabilizing controller synthesis based on discrete-time noncausal linear periodically time-varying scaling (in Japanese),
    Transactions of the Society of Instrument and Control Engineers, Vol. 46, No. 4, pp. 219--228, 2010. (DOI: 10.9746/sicetr.46.219)

International Conference Papers

  • *Y. Hosoe, M. Miyamoto and T. Hagiwara,
    Robust output estimator synthesis based on cycling-based LPTV scaling,
    Proc. 20th IFAC World Congress, WeA15.6, pp. 7839--7844, Toulouse, France, July 2017.
  • *Y. Hosoe and T. Hagiwara,
    Robust stability analysis of discrete-time linear systems with dynamics determined by a Markov process,
    Proc. 20th IFAC World Congress, TuA04.1, pp. 3892--3897, Toulouse, France, July 2017.
  • Y. Hosoe, *Y. Nagira and T. Hagiwara,
    Random polytope representation of discrete-time uncertain stochastic switched systems and robust stabilization,
    Proc. 15th European Control Conference, FrA8.1, pp. 2029--2034, Aalborg, Denmark, July 2016.
  • *Y. Hosoe and D. Peaucelle,
    S-variable approach to robust stabilization state feedback synthesis for systems characterized by random polytopes,
    Proc. 15th European Control Conference, FrA7.6, pp. 2023--2028, Aalborg, Denmark, July 2016.
  • *Y. Nagira, Y. Hosoe and T. Hagiwara,
    Gain-scheduled state feedback synthesis for systems characterized by random polytopes,
    Proc. 54th IEEE Conference on Decision and Control, TuB03.3, pp. 741--746, Osaka, Japan, December 2015.
  • *Y. Hosoe and T. Hagiwara,
    Extension of the concept of random polytopes and robust stabilization synthesis,
    Proc. 14th European Control Conference, FrA13.2, pp. 2858--2863, Linz, Austria, July 2015.
  • *Y. Hosoe and T. Hagiwara,
    State feedback synthesis for robust stabilization of discrete-time linear systems characterized by stochastic polytopes,
    Proc. 13th European Control Conference, WeB7.6, pp. 612--617, Strasbourg, France, June 2014.
  • *Y. Hosoe and T. Hagiwara,
    Robust stability analysis of discrete-time linear systems characterized by stochastic polytopes,
    Proc. 2014 American Control Conference, FrB17.3, pp. 4973--4978, Portland, USA, June 2014.
  • *R. Yamamoto, Y. Hosoe and T. Hagiwara,
    Introducing integral compensation into controller synthesis based on noncausal LPTV scaling and control experiments with cart inverted pendulum,
    Proc. SICE Annual Conference 2013, pp. 446--451, Nagoya, Japan, September 2013.
  • *T. Hikihara, Y. Hosoe and T. Hagiwara,
    Manipulation of fluxoid by electromagnetic perturbation,
    Proc. 2013 International Symposium on Nonlinear Theory and its Applications, pp. 34--37, Santa Fe, USA, September 2013.
  • *K. Katayama, Y. Hosoe and T. Hagiwara,
    Demonstrating the effectiveness of noncausal LPTV scaling through control experiments with cart inverted pendulum,
    Proc. 5th IFAC International Workshop on Periodic Control Systems, ThS6T1.4, pp. 143--148, Caen, France, July 2013.
  • *Y. Hosoe and T. Hagiwara,
    Robust stability analysis based on noncausal LPTV FIR scaling: Explicit procedure and relationship with causal LTI FIR scaling,
    Proc. 51st IEEE Conference on Decision and Control, MoA06.5, pp. 240--247, Maui, USA, December 2012.
  • *Y. Hosoe and T. Hagiwara,
    Robust stability analysis based on discrete-time FIR scaling,
    Proc. 2012 American Control Conference, FrB21.2, pp. 5972--5979, Montreal, Canada, June 2012.
  • *Y. Hosoe and T. Hagiwara,
    Infinite matrix representations of robust stability conditions for discrete-time systems,
    Proc. 50th IEEE Conference on Decision and Control and European Control Conference, MoB18.4, pp. 1359--1366, Orlando, USA, December 2011.
  • *Y. Hosoe and T. Hagiwara,
    Robust stability analysis with cycling-based LPTV scaling and its relationship with lifting-based approach,
    Proc. SICE Annual Conference 2011, FrA13-06, pp. 1782--1790, Tokyo, Japan, September 2011.
  • *Y. Hosoe and T. Hagiwara,
    Relationship between noncausal linear periodically time-varying scaling and causal linear time-invariant scaling for discrete-time systems,
    Proc. 18th IFAC World Congress, TuA06.6, pp. 3384--3391, Milano, Italy, August 2011.
  • *Y. Hosoe and T. Hagiwara,
    Synthesis of robust performance controllers based on discrete-time noncausal linear periodically time-varying scaling,
    Proc. IFAC International Workshop on Periodic Control Systems, Fr2B-79 (6 pages), Antalya, Turkey, August 2010.
  • *Y. Hosoe and T. Hagiwara,
    Effects induced by noncausality of scaling on robust stability analysis of discrete-time periodically time-varying systems,
    Proc. SICE Annual Conference 2010, SB07.01, pp. 3017--3023, Taipei, Taiwan, August 2010.

Seminar Talks and Poster Presentations

  • Robust stability analysis and synthesis for discrete-time systems characterized by stochastic polytopes,
    LAAS-CNRS, Toulouse, France, July 2014.
  • Robust stability analysis based on noncausal LPTV FIR scaling,
    6th GCOE International Symposium on Photonics and Electronics Science and Engineering, Kyoto University, Kyoto, Japan, March 2013.
  • Robust stability analysis based on noncausal LPTV FIR scaling,
    Lund University, Lund, Sweden, October 2012.
  • Infinite matrix representations of robust stability conditions,
    5th GCOE International Symposium on Photonics and Electronics Science and Engineering, Kyoto University, Kyoto, Japan, March 2012.


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