大木 健太郎

Ohki Kentaro

  • 准教授
  • 学位:博士(情報理工学)

基本情報

所属

  • Undergraduate School of Information Science and Technology / Department of Applied Computer Engineering

詳細情報

研究キーワード

  • Quantum filtering theory
  • quantum control theory

研究分野

  • Manufacturing technology (mechanical, electrical/electronic, chemical engineering) Control and systems engineering Quantum control, filtering theory, stochastic control theory, adaptive control
  • Natural sciences Applied mathematics and statistics Quantum statistics, quantum information

委員歴

  • SICE International Symposium on Control Systems 2026 Committee member (Secretary)
  • SICE International Symposium on Control Systems 2025 Committee member (Secretary)
  • SCI'24 committee member
  • IFAC World Congress IFAC World Congress Local Arrangement Comittee
  • 10th IFAC Symposium on ROCOND 2022 NOC co-chair
  • SCI'22 committee member
  • General Affairs
  • ISCIE Editor
  • SICE 2019 Technical program comittee member
  • The 5th Multi-symposium on Control Systems General co-chair and Program co-chair
  • 54th IEEE Conference on Decision and Control Local committee member
  • SICE Kansai chapter General Affairs
  • General Affairs

受賞

  • Best Presentation Award of the Multi-Symposium on Control Systems: Fundamental Area

論文

Finding Quantum Codes via Riemannian Optimization

Exploring the Robustness of Stabilizing Controls for Stochastic Quantum Evolutions

Low-Rank Approximated Kalman-Bucy Filters Using Oja’s Principal Component Flow for Linear Time-Invariant Systems

A proposal of adaptive parameter tuning for robust stabilizing control of N–level quantum angular momentum systems

A smoothing theory for open quantum systems: The least mean square approach

講演・口頭発表等

  • Adaptive dynamic low-rank filter for slowly varying linear time-varying systems
  • System Identification via Frequency-Domain Gaussian Process Regression for Transfer-Function Estimation
  • Quantum conditional expectation from the multi-objective optimization viewpoint
  • Quantum model reduction based on Oja's flow
  • Low-Rank Approximated Kalman-Bucy Filters Using Oja’s Principal Component Flow for Linear Time-Invariant Systems
  • Low-rank approximated Kalman filter using Oja's principal component flow for discrete-time linear systems
  • Construction of Quantum Error-Tolerant Code Using Stochastic Manifold Optimization
  • low rank Kalman filters for LTI systems using H∞ filtering theory
  • Identification of the space of quantum error-correcting codes using stochastic manifold optimization

担当経験のある科目

  • Numerical Computation

所属学会

  • The Institute of Systems, Control and Information Engineers
  • The Physical Society of Japan
  • IEEE
  • The Society of Instrument and Control Engineers

共同研究・競争的資金等の研究課題

Development of Robust Quantum Error Correction by Continuous-Time Quantum Feedback Control

Development of Robust Quantum Error Correction by Continuous-Time Quantum Feedback Control

Development of theory and technology for quantum error correction based on quantum control theory

Performance analysis and approximation theory for quantum dynamical estimator

Fusion of Control/Quantum/Information Theories for Quantum Control Technology

Control systems that utilize interaction with environmental fluctuation

Optical non-Gaussian state generation via quantum feedback control

A study of networked quantum/classical control via quantum channels

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