YOKOYAMA Akihiko | The University of Tokyo
スポンサーリンク
概要
関連著者
-
YOKOYAMA Akihiko
The University of Tokyo
-
PAENSUWAN Nattawut
The University of Tokyo
-
NAKACHI Yoshiki
Chubu Electric Power Co., Inc.
-
Verma S.
Chubu Electric Power Co. Inc.
-
Nakachi Yoshiki
Chubu Electric Power Co. Inc.
-
VERMA S.
Chubu Electric Power Co., Inc.
-
JAKPATTANAJIT Chairerg
Chulalongkorn University
-
HOONCHAREON Naebbon
Chulalongkorn University
-
Zhang Jun
Department Of Electrical Engineering The University Of Tokyo
-
Yokoyama Akihiko
Department Of Electrical Engineering The University Of Tokyo
-
ZHANG Jun
The University of Tokyo
-
TANGPATIPHAN Kritsana
The University of Tokyo
-
YOKOYAMA Akihiko
Department of Electrical Engineering, The University of Tokyo
-
PAENSUWAN Nattawut
Department of Electrical Engineering, The University of Tokyo
-
VERMA S.
Research and Development Division, Chubu Electric Power Co., Inc.
-
NAKACHI Yoshiki
Research and Development Division, Chubu Electric Power Co., Inc.
-
LU Qiang
Tsinghua University
-
Lu Qiang
Tsinghua University Of China
-
IDE Toshiro
Kyushu Electric Power Co. Inc.
-
WU Junyong
The University of Tokyo
-
GOTO Masuo
Hitachi, Ltd.
-
Goto Masuo
Hitachi Ltd.
-
Yokoyama Akihiko
Department Of Advanced Energy The University Of Tokyo
-
Yokoyama Akihiko
Department Of Advanced Energy School Of Frontier Sciences The University Of Tokyo
-
Tangpatiphan Kritsana
Univ. Tokyo
-
VERMA S.C.
Chubu Electric Power Co., Inc.
著作論文
- Investigation of impact of renewable energy penetration on system total transfer capability at risk (特集 平成21年電力・エネルギー部門大会)
- A Coordinated Control Scheme of PSS and TCSC for Improving Power System Oscillations in Large Power System
- Efficient Risk-Based TTC Evaluation Method with a System Case Partitioning Method
- Verification of the Classical IPFC Model in Dynamic State
- Enhancement of Power System Transient Stability by IPFC Control
- MIMO Decentralized Nonlinear Control of Generator and Turbine To Enhance Transient Stability of Power System
- Application of Decision Tree Classification to Dynamic TTC Calculation
- Multi-Objective Optimal Power Flow with Static Voltage Stability Consideration Using Evolutionary Programming
- Multi-Contingency Transient Stability Constrained Optimal Power Flow using Improved Evolutionary Programming and Neural Network
- Efficient Risk-Based TTC Evaluation Method with a System Case Partitioning Method
- A Coordinated Control Scheme of PSS and TCSC for Improving Power System Oscillations in Large Power System