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Yoshihiko Susuki
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2020 – today
- 2024
- [j17]Yoshihiko Susuki, Kohei Eto, Naoto Hiramatsu, Atsushi Ishigame:
Control of In-Room Temperature Field via Damping Assignment to Nonlinear Koopman Mode. IEEE Trans. Control. Syst. Technol. 32(5): 1569-1578 (2024) - [c25]Yoshihiko Susuki, Alexandre Mauroy, Zlatko Drmac:
Koopman Resolvents of Nonlinear Discrete-Time Systems: Formulation and Identification. ECC 2024: 627-632 - [i21]Natsuki Katayama, Yoshihiko Susuki:
Koopman Analysis of the Singularly-Perturbed van der Pol Oscillator. CoRR abs/2405.07635 (2024) - [i20]Kenji Takamichi, Yoshihiko Susuki, Marcos Netto:
Participation Factors for Nonlinear Autonomous Dynamical Systems in the Koopman Operator Framework. CoRR abs/2409.10105 (2024) - [i19]Shiu Mochiyama, Ryo Takahashi, Yoshihiko Susuki, Tsutomu Wakabayashi, Takumi Tanaka, Toshinari Momose, Hideki Yamaguchi:
A System of Bidirectional Power Routing Toward Multi-energy Management. CoRR abs/2410.08556 (2024) - 2023
- [i18]Hikaru Hoshino, T. John Koo, Yun-Chung Chu, Yoshihiko Susuki:
Model Predictive Control of Smart Districts Participating in Frequency Regulation Market: A Case Study of Using Heating Network Storage. CoRR abs/2305.07198 (2023) - 2022
- [c24]Yoshihiko Susuki, Kohei Eto, Naoto Hiramatsu, Atsushi Ishigame:
Control of Oscillatory Temperature Field in a Building via Damping Assignment to Nonlinear Koopman Mode. CCTA 2022: 796-801 - [c23]Ryo Miyashita, Yoshihiko Susuki, Atsushi Ishigame:
Koopman-Model Predictive Control with Signal Temporal Logic Specifications for Temperature Regulation of a Warm-Water Supply System. SICE 2022: 1113-1118 - [i17]Kenji Takamichi, Yoshihiko Susuki, Marcos Netto, Atsushi Ishigame:
A mode-in-state contribution factor based on Koopman operator and its application to power system analysis. CoRR abs/2205.10984 (2022) - [i16]Yoshihiko Susuki, Kohei Eto, Naoto Hiramatsu, Atsushi Ishigame:
Control of Oscillatory Temperature Field in a Building via Damping Assignment to Nonlinear Koopman Mode. CoRR abs/2207.03219 (2022) - [i15]Ryo Miyashita, Yoshihiko Susuki, Atsushi Ishigame:
Koopman-Model Predictive Control with Signal Temporal Logic Specifications for Temperature Regulation of a Warm-Water Supply System. CoRR abs/2207.04184 (2022) - [i14]Chiaki Kojima, Yuya Muto, Yoshihiko Susuki:
Dissipativity of nonlinear ODE model of distribution voltage profile. CoRR abs/2212.10031 (2022) - 2021
- [j16]Marcos Netto, Yoshihiko Susuki, Venkat Krishnan, Yingchen Zhang:
On Analytical Construction of Observable Functions in Extended Dynamic Mode Decomposition for Nonlinear Estimation and Prediction. IEEE Control. Syst. Lett. 5(6): 1868-1873 (2021) - [j15]Yoshihiko Susuki, Alexandre Mauroy, Igor Mezic:
Koopman Resolvent: A Laplace-Domain Analysis of Nonlinear Autonomous Dynamical Systems. SIAM J. Appl. Dyn. Syst. 20(4): 2013-2036 (2021) - [c22]Marcos Netto, Yoshihiko Susuki, Venkat Krishnan, Yingchen Zhang:
On analytical construction of observable functions in extended dynamic mode decomposition for nonlinear estimation and prediction. ACC 2021: 4190-4195 - [i13]Haruki Tadano, Yoshihiko Susuki, Atsushi Ishigame:
Asymptotic Assessment of Distribution Voltage Profile Using a Nonlinear ODE Model. CoRR abs/2101.09945 (2021) - [i12]Shota Yumiki, Yoshihiko Susuki, Yuta Oshikubo, Yutaka Ota, Ryo Masegi, Akihiko Kawashima, Atsushi Ishigame, Shinkichi Inagaki, Tatsuya Suzuki:
Autonomous Vehicle-to-Grid Design for Provision of Frequency Control Ancillary Service and Distribution Voltage Regulation. CoRR abs/2101.10518 (2021) - 2020
- [j14]Yoshihiko Susuki, Igor Mezic:
Invariant Sets in Quasiperiodically Forced Dynamical Systems. SIAM J. Appl. Dyn. Syst. 19(1): 329-351 (2020) - [c21]Yoshihiko Susuki, Naoki Kawamoto, Yusuke Ohashi, Atsushi Ishigame, Tsuyoshi Funaki, Salvatore D'Arco:
A Modular Approach to Large-Signal Modeling of an Interconnected AC/MTDC System. ISGT-Europe 2020: 945-949 - [i11]Naoto Hiramatsu, Yoshihiko Susuki, Atsushi Ishigame:
Koopman Mode Decomposition of Oscillatory Temperature Field inside a Room. CoRR abs/2008.12149 (2020) - [i10]Marcos Netto, Yoshihiko Susuki, Venkat Krishnan, Yingchen Zhang:
On analytical construction of observable functions in extended dynamic mode decomposition for nonlinear estimation and prediction. CoRR abs/2008.12874 (2020) - [i9]Yoshihiko Susuki, Alexandre Mauroy, Igor Mezic:
Koopman Resolvent: A Laplace-Domain Analysis of Nonlinear Autonomous Dynamical Systems. CoRR abs/2009.11544 (2020) - [i8]Yohei Kono, Yoshihiko Susuki, Takashi Hikihara:
Characterizing scale dependence of effective diffusion driven by fluid flows. CoRR abs/2009.14104 (2020)
2010 – 2019
- 2019
- [j13]Naoto Mizuta, Shotaro Kamo, Hidekuni Toda, Yoshihiko Susuki, Yutaka Ota, Atsushi Ishigame:
A Hardware-in-the-Loop Test on the Multi-Objective Ancillary Service by In-Vehicle Batteries: Primary Frequency Control and Distribution Voltage Support. IEEE Access 7: 161246-161254 (2019) - [j12]Marcos Netto, Yoshihiko Susuki, Lamine Mili:
Data-Driven Participation Factors for Nonlinear Systems Based on Koopman Mode Decomposition. IEEE Control. Syst. Lett. 3(1): 198-203 (2019) - [j11]Naoto Mizuta, Yoshihiko Susuki, Yutaka Ota, Atsushi Ishigame:
Synthesis of Spatial Charging/Discharging Patterns of In-Vehicle Batteries for Provision of Ancillary Service and Mitigation of Voltage Impact. IEEE Syst. J. 13(3): 3443-3453 (2019) - [c20]Shota Yumiki, Yoshihiko Susuki, Ryo Masegi, Akihiko Kawashima, Atsushi Ishigame, Shinkichi Inagaki, Tatsuya Suzuki:
Computing an Upper Bound for Charging/Discharging Patterns of In-Vehicle Batteries towards Cooperative Transportation-Energy Management. ITSC 2019: 655-660 - [i7]Akitoshi Masuda, Yoshihiko Susuki, Manel Martínez-Ramón, Andrea A. Mammoli, Atsushi Ishigame:
Application of Gaussian Process Regression to Koopman Mode Decomposition for Noisy Dynamic Data. CoRR abs/1911.01143 (2019) - 2018
- [j10]Shoko Kimura, Yoshihiko Susuki, Atsushi Ishigame:
A Reactive Management System for Reliable Power Supply in a Building Microgrid with Vehicle-to-Grid Interaction. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 101-A(8): 1172-1184 (2018) - [j9]Qiang Wu, T. John Koo, Yoshihiko Susuki:
Dynamic Security Analysis of Power Systems by a Sampling-Based Algorithm. ACM Trans. Cyber Phys. Syst. 2(2): 10:1-10:26 (2018) - [c19]Shoko Kimura, Yoshihiko Susuki, Atsushi Ishigame:
An MPC-Based Availability Design of a Building Microgrid with In-vehicle Battery. GCCE 2018: 605-609 - [i6]Yoshihiko Susuki, Ryo Hamasaki, Atsushi Ishigame:
Estimation of Power System Inertia Using Nonlinear Koopman Modes. CoRR abs/1805.01967 (2018) - [i5]Marcos Netto, Yoshihiko Susuki, Lamine Mili:
Data-Driven Participation Factors for Nonlinear Systems Based on Koopman Mode Decomposition. CoRR abs/1806.01344 (2018) - [i4]Yoshihiko Susuki, Igor Mezic:
Uniformly Bounded Sets in Quasiperiodically Forced Dynamical Systems. CoRR abs/1808.08340 (2018) - [i3]Qiang Wu, T. John Koo, Yoshihiko Susuki:
Dynamic Security Analysis of Power Systems by a Sampling-Based Algorithm. CoRR abs/1811.03301 (2018) - [i2]Naoto Mizuta, Yoshihiko Susuki, Yutaka Ota, Atsushi Ishigame:
Synthesis of Spatial Charging/Discharging Patterns of In-Vehicle Batteries for Provision of Ancillary Service and Mitigation of Voltage Impact. CoRR abs/1811.07659 (2018) - 2017
- [c18]Naoto Mizuta, Yoshihiko Susuki, Yutaka Ota, Atsushi Ishigame:
An ODE-Based design of spatial charging/discharging patterns of in-vehicle batteries for provision of ancillary service. CCTA 2017: 193-198 - [c17]Yoshihiko Susuki, Tsukasa Saito, Hikaru Hoshino, Takashi Hikihara:
Synthesis and real-time simulation of reactive controller for hot-water supply in a safety-critical hospital environment. CCTA 2017: 211-216 - [c16]Shoko Kimura, Yoshihiko Susuki, Atsushi Ishigame:
A reactive BEMS for reliable power supply with SOFC hydrogen coproduction unit. GCCE 2017: 1-5 - [c15]Yoshihiko Susuki, Naoto Mizuta, Atsushi Ishigame, Yutaka Ota, Akihiko Kawashima, Shinkichi Inagaki, Tatsuya Suzuki:
A continuum approach to assessing the impact of spatio-temporal EV charging to distribution grids. ITSC 2017: 1-6 - [i1]Yoshihiko Susuki, Igor Mezic, Fredrik Raak, Takashi Hikihara:
Applied Koopman Operator Theory for Power Systems Technology. CoRR abs/1706.00159 (2017) - 2016
- [j8]Qiang Wu, Yoshihiko Susuki, T. John Koo:
RRT-Based Computation for Dynamic Security Analysis of Power Systems. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 99-A(2): 491-501 (2016) - [c14]Fredrik Raak, Yoshihiko Susuki, Igor Mezic, Takashi Hikihara:
On Koopman and dynamic mode decompositions for application to dynamic data with low spatial dimension. CDC 2016: 6485-6491 - 2015
- [c13]Hikaru Hoshino, Yoshihiko Susuki:
Graph-based modeling and analysis of dynamic flows in steam supply networks. CDC 2015: 1358-1363 - [c12]Chiaki Kojima, Yoshihiko Susuki, Koji Tsumura, Shinji Hara:
Decomposition of energy function and hierarchical transient stability diagnosis for power networks. CDC 2015: 3266-3271 - [c11]Yoshihiko Susuki, Igor Mezic:
A prony approximation of Koopman Mode Decomposition. CDC 2015: 7022-7027 - [c10]Fredrik Raak, Yoshihiko Susuki, Ryosuke Morita, Takayuki Wada, Kazuhisa Tsuboki, Hiroshi Uyeda, Yasumasa Fujisaki, Takashi Hikihara:
Dynamic simulation of a wind farm incorporated with highly-resolved wind prediction data. IECON 2015: 4406-4411 - 2014
- [c9]Fredrik Raak, Yoshihiko Susuki, Takashi Hikihara, Harold R. Chamorro, Mehrdad Ghandhari:
Partitioning power grids via nonlinear Koopman Mode Analysis. ISGT 2014: 1-5 - 2013
- [j7]Yuichi Yokoi, Yoshihiko Susuki:
Energy Conversion and Phase Regulation in Transient States of Frequency Entrainment Described by van der Pol and Phase-Locked Loop Equations. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 96-A(2): 591-599 (2013) - [j6]Yoshihiko Susuki, Ryoya Kazaoka, Takashi Hikihara:
Physical Architecture and Model-Based Evaluation of Electric Power System with Multiple Homes. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 96-A(8): 1703-1711 (2013) - 2012
- [j5]Yoshihiko Susuki, T. John Koo, Hiroaki Ebina, Takuya Yamazaki, Takashi Ochi, Takuji Uemura, Takashi Hikihara:
A Hybrid System Approach to the Analysis and Design of Power Grid Dynamic Performance. Proc. IEEE 100(1): 225-239 (2012) - 2011
- [j4]Yoshihiko Susuki, Igor Mezic, Takashi Hikihara:
Coherent Swing Instability of Power Grids. J. Nonlinear Sci. 21(3): 403-439 (2011) - [c8]Yoshihiko Susuki, Ryoya Kazaoka, Takashi Hikihara:
Physical architectures and mathematical models for electric-power management of multiple homes. CDC/ECC 2011: 7703-7710
2000 – 2009
- 2009
- [j3]Yoshihiko Susuki, Yu Takatsuji, Takashi Hikihara:
Hybrid Model for Cascading Outage in a Power System: A Numerical Study. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 92-A(3): 871-879 (2009) - [c7]Yoshihiko Susuki, Igor Mezic, Takashi Hikihara:
Global swing instability in the New England power grid model. ACC 2009: 3446-3451 - [c6]Yoshihiko Susuki, Igor Mezic:
Ergodic partition of phase space in continuous dynamical systems. CDC 2009: 7497-7502 - 2008
- [j2]Yoshihiko Susuki, Takashi Hikihara, Hsiao-Dong Chiang:
Discontinuous Dynamics of Electric Power System With DC Transmission: A Study on DAE System. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(2): 697-707 (2008) - [c5]Yoshihiko Susuki, Igor Mezic, Takashi Hikihara:
Global swing instability of multimachine power systems. CDC 2008: 2487-2492 - [c4]Ian M. Mitchell, Yoshihiko Susuki:
Level Set Methods for Computing Reachable Sets of Hybrid Systems with Differential Algebraic Equation Dynamics. HSCC 2008: 630-633 - 2007
- [j1]Yoshihiko Susuki, Yoshisuke Ueda:
Amplitude Response Curves of Frequency-Locked Rotations. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 90-A(10): 2250-2252 (2007) - [c3]Yoshihiko Susuki, Takashi Hikihara:
Predicting Voltage Instability of Power System via Hybrid System Reachability Analysis. ACC 2007: 4166-4171 - 2005
- [c2]Yoshihiko Susuki, Yasuhiro Takama, Tsuyoshi Funaki, Takashi Hikihara:
Evaluating performance of hybrid-type power system simulator based on transient stability analysis: a dynamical system approach. ISCAS (4) 2005: 3894-3897 - 2004
- [c1]Yoshihiko Susuki, Takashi Hikihara:
Stability boundaries analysis of non-autonomous systems with resonant solutions based on subharmonic Melnikov functions. ACC 2004: 1743-1748
Coauthor Index
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