International Journal Papers
As the first author:
T. Noda, N. Nagaoka and A. Ametani, "Phase Domain Modeling of Frequency-Dependent Transmission Lines by Means of an ARMA Model," IEEE Trans. on Power Delivery, Vol. 11, No. 1, pp. 401-411, Jan., 1996. [IEEExplore]
T. Noda, N. Nagaoka and A. Ametani, "Further Improvements to a Phase-Domain ARMA Line Model in Terms of Convolution, Steady-State Initialization, and Stability," IEEE Trans. on Power Delivery, Vol. 12, No. 3, pp. 1327-1334, July 1997. [IEEExplore]
T. Noda, N. Nagaoka and A. Ametani, "Fault-Surge Calculation Using Phase-Domain ARMA Line Model," Electrical Engineering in Japan (Wiley), Vol. 121, Issue 3, pp. 27-35, Nov. 1997. [Wiley Online Library]
T. Noda, N. Nose, N. Nagaoka and A. Ametani, "A Wave-Front-Time Dependent Corona Model for Transmission-Line Surge Calculations," Electrical Engineering in Japan (Wiley), Vol. 129, Issue 1, pp. 29-38, Oct. 1999. [Wiley Online Library]
T. Noda, "Electrical Circuit Description in the Form of Computer Language," Electrical Engineering in Japan (Wiley), Vol. 133, Issue 4, pp. 1-7, Sep. 2000. [Wiley Online Library]
T. Noda, T. Ono, H. Matsubara, H. Motoyama, S. Sekioka and A. Ametani, "Charge-Voltage Curves of Surge Corona on Transmission Lines: Two Measurement Methods," IEEE Trans. on Power Delivery, IEEE Trans. on Power Delivery, Vol. 18, No. 1, pp. 307-314, Jan. 2003. [IEEExplore]
T. Noda, H. Nakamoto and S. Yokoyama, "Accurate Modeling of Core-type Distribution Transformers for Electromagnetic Transient Studies," IEEE Trans. on Power Delivery, Vol. 17, No. 4, pp. 969-976, Oct. 2002. [IEEExplore]
T. Noda and S. Yokoyama, "Thin Wire Representation in Finite Difference Time Domain Surge Simulation," IEEE Trans. on Power Delivery, Vol. 17, No. 3, pp. 840-847, July 2002. [IEEExplore]
T. Noda, A. Semlyen and R. Iravani, "Harmonic Domain Dynamic Transfer Function of a Nonlinear Time-Periodic Network," IEEE Trans. on Power Delivery, Vol. 18, No. 4, pp. 1433-1441, Oct. 2003. [IEEExplore]
T. Noda, A. Semlyen and R. Iravani, "Reduced-Order Realization of a Nonlinear Power Network Using Companion-Form State Equations," IEEE Trans. on Power Delivery, Vol. 18, No. 4, pp. 1478-1488, Oct. 2003. [IEEExplore]
T. Noda, A. Semlyen and R. Iravani, "Entirely Harmonic Domain Calculation of Multiphase Nonsinusoidal Steady State," IEEE Trans. on Power Delivery, Vol. 19, No. 3, pp. 1368-1377, July 2004. [IEEExplore]
T. Noda, R. Yonezawa, S. Yokoyama and Y. Takahashi, "Error in Propagation Velocity Due to Staircase Approximation of an Inclined Thin Wire in FDTD Surge Simulation," IEEE Trans. on Power Delivery, Vol. 19, No. 4, pp. 1913-1918, Oct. 2004. [IEEExplore]
T. Noda, M. Sakae and S. Yokoyama, "Simulation of Lightning Surge Propagation from Distribution Line to Consumer Entrance via Pole-Mounted Transformer," IEEE Trans. on Power Delivery, Vol. 19, No. 1, pp. 442-444, Jan. 2004. [IEEExplore]
T. Noda, "Identification of a Multiphase Network Equivalent for Electromagnetic Transient Calculations Using Partitioned Frequency Response," IEEE Trans. on Power Delivery, Vol. 20, No. 2, pp. 1134-1142, Apr. 2005. [IEEExplore] [Code available: CodeOcean, IEEEDataPort]
T. Noda, "A Double Logarithmic Approximation of Carson's Ground-Return Impedance," IEEE Trans. on Power Delivery, Vol. 21, No. 1, pp. 472-479, Jan. 2006. [IEEExplore]
T. Noda, A. Tatematsu and S. Yokoyama, "Improvements of an FDTD-Based Surge Simulation Code and Its Application to the Lightning Overvoltage Calculation of a Transmission Tower," Electric Power Systems Research (Elsevier), Vol. 77, No. 11, pp. 1495-1500, Sep. 2007. [ScienceDirect]
T. Noda, "A Binary Frequency-Region Partitioning Algorithm for the Identification of a Multiphase Network Equivalent for EMT Studies," IEEE Trans. on Power Delivery, Vol. 22, No. 2, pp. 1257-1258, Apr. 2007. [IEEExplore] [Code available: CodeOcean, IEEEDataPort]
T. Noda and A. Ramirez, "z-Transform-Based Methods for Electromagnetic Transient Simulations," IEEE Trans. on Power Delivery, Vol. 22, No. 3, pp. 1799-1805, July 2007. [IEEExplore]
T. Noda, "A Numerical Simulation of Transient Electromagnetic Fields for Obtaining the Step Response of a Transmission Tower Using the FDTD Method," IEEE Trans. on Power Delivery, Vol. 23, No. 2, pp. 1262-1263, Apr. 2008. [IEEExplore]
T. Noda, "A Tower Model for Lightning Overvoltage Studies Based on the Result of an FDTD Simulation," Electrical Engineering in Japan (Wiley), Vol. 164, Issue 1, pp. 8-20, July 2008. [Wiley Online Library]
T. Noda, "Numerical Techniques for Accurate Evaluation of Overhead Line and Underground Cable Constants," IEEJ Trans. on Electrical and Electronic Engineering, Vol. 3, Issue 5, pp. 549-559, Sep. 2008. [Wiley Online Library] [Peer-Reviewed Version: PDF]
T. Noda, K. Takenaka and T. Inoue, "Numerical Integration by the 2-Stage Diagonally Implicit Runge-Kutta Method for Electromagnetic Transient Simulations," IEEE Trans. on Power Delivery, Vol. 24, No. 1, pp. 390-399, Jan. 2009. [IEEExplore]
T. Noda and T. Kikuma, "A Robust and Efficient Iterative Scheme for the EMT Simulations of Nonlinear Circuits," IEEE Trans. on Power Delivery, Vol. 26, No. 2, pp. 1030-1038, Apr. 2011. [IEEExplore]
T. Noda, Y. Kabasawa, K. Fukushima, K. Nemoto and S. Uemura, "A Method for Compensating Customer Voltage Drops Due to Nighttime Simultaneous Charging of EVs Utilizing Reactive Power Injection from Battery Chargers," Electrical Engineering in Japan (Wiley), Vol. 184, Issue 1, pp. 19-29, July 2013. [Wiley Online Library]
T. Noda, "Application of Frequency-Partitioning Fitting to the Phase-Domain Frequency-Dependent Modeling of Overhead Transmission Lines," IEEE Trans. on Power Delivery, Vol. 30, No. 1, pp. 174-183, Feb. 2015. [IEEExplore] [Code available: CodeOcean, IEEEDataPort]
T. Noda, T. Kikuma and R. Yonezawa, "Supplementary Techniques for 2S-DIRK-Based EMT Simulations," Electric Power Systems Research (Elsevier), Vol. 115, pp. 87-93, Oct. 2014. [ScienceDirect]
T. Noda, T. Nakamatsu and T. Mekaru, "Measurement of Cable Resistance at High Frequencies," IEEJ Transactions on Electrical and Electronic Engineering, Vol. 10, Issue 1, Jan. 2015. [Wiley Online Library] [Peer-Reviewed Version: PDF]
T. Noda, "Application of Frequency-Partitioning Fitting to the Phase-Domain Frequency-Dependent Modeling of Underground Cables," IEEE Transactions on Power Delivery, Vol. 31, No. 4, pp. 1776-1777, Aug. 2016. [IEEExplore] [Code available: CodeOcean, IEEEDataPort]
T. Noda, H. Takizawa and T. Nakajima, "A Study of Electromagnetic Transient Simulations Using IEEJ's West-10 Benchmark Power System Model," Electric Power Systems Research (Elsevier), Vol. 138, pp. 195-201, Sep. 2016. [ScienceDirect]
T. Noda, O. Sakamoto and R. Yonezawa, "Fast Electromagnetic Transient Simulations of Power Systems Utilizing Single-Phase Phasor-Based Modeling of Remote Systems," Electrical Engineering in Japan (Wiley), Vol. 197, Issue 2, pp. 13-22, Nov. 2016. [Wiley Online Library]
T. Noda, "Frequency-Dependent Modeling of Transmission Lines Using Bergeron Cells," IEEJ Transactions on Electrical and Electronic Engineering, Vol. 12, Issue S2, pp. S23-S30, Dec. 2017. [Wiley Online Library] [Peer-Reviewed Version: PDF]
T. Noda, "A Study of an FDTD-Based Frequency-Dependent Line Model for Electromagnetic Transient Simulations," Electrical Engineering in Japan (Wiley), Vol. 202, Issue 2, pp. 33-42, Jan. 2018. [Wiley Online Library]
T. Noda, T. Tadokoro, R. Mori, H. Nakama, T. Kaneko and T. Taira, "A Method for Measuring Underground Cable Constants under Electromagnetic Induction Effects," Electrical Engineering in Japan (Wiley), Vol. 209, Issue 3-4, pp. 3-13, Dec. 2018. [Wiley Online Library]
T. Noda, "Synthesis of a Transfer Function With Real Poles From Tabulated Frequency Response Data for Transmission-Line Impedance Modeling," IEEE Access, Vol. 10, pp. 86029-86037, 2022, doi: 10.1109/ACCESS.2022.3198939. [Open Access with Video Tutorial: IEEExplore] [Code available: CodeOcean, IEEEDataPort]
As a co-author:
A. Ametani, N. Nagaoka, T. Noda and T. Matsuura, "A Simple and Efficient Method for Including Frequency-Dependent Effects in a Transmission Line Transient Analysis," International Journal of Electrical Power & Energy Systems (Elsevier), Vol. 19, Issue 4, pp. 255-261, May 1997. [ScienceDirect]
K. Yamamoto, T. Noda, S. Yokoyama and A. Ametani, "An Experimental Study of Lightning Overvoltages in Wind Turbine Generation Systems Using a Reduced-Size Model," Electrical Engineering in Japan (Wiley), Vol. 158, Issue 4, pp. 22-30, Mar. 2007. [Wiley Online Library]
K. L. Lian and T. Noda, "A Time-Domain Harmonic Power-Flow Algorithm for Obtaining Nonsinusoidal Steady-State Solutions," IEEE Trans. on Power Delivery, Vol. 25, No. 3, pp. 1888-1898, July 2010. [IEEExplore]
W. Ren, M. Sloderbeck, M. Steurer, V. Dinavahi, T. Noda, S. Filizadeh, A. R. Chevrefils, M. Matar, R. Iravani, C. Dufour, J. Belanger, M. O. Faruque, K. Strunz and J. A. Martinez, "Interfacing Issues in Real-Time Digitak Simulators," IEEE Trans. on Power Delivery, Vol. 26, No. 2, pp. 1221-1230, Apr. 2011. [IEEExplore]
U. D. Annakkage, N. C. Nair, Y. Liang, A. M. Gole, V. Dinavahi, B. Gustavsen, T. Noda, H. Ghasemi, A. Monti, M. Matar, R. Iravani and J. A. Martinez, "Dynamic System Equivalents: A Survey of Available Techniques," IEEE Trans. on Power Delivery, Vol. 27, No. 1, pp. 411-420, Jan. 2012. [IEEExplore]
F. de Leon, D. Czarkowski, V. Spitsa; J. A. Martinez, T. Noda, R. Iravani, X. Wang, A. Davoudi, G. W. Chang, A. Mehrizi-Sani and I. Kocar, "Development of Data Translators for Interfacing Power-Flow Programs with EMTP-Type Programs: Challenges and Lessons Learned," IEEE Trans. on Power Delivery, Vol. 28, No. 2, pp. 1192-1201, Feb. 2013. [IEEExplore]
A. Tatematsu and T. Noda, "Three-Dimensional FDTD Calculation of Lightning-Induced Voltages on a Multiphase Distribution Line with the Lightning Arresters and an Overhead Shielding Wire," IEEE Trans. on Electromagnetic Compatibility, Vol. 56, No. 1, pp. 159-167, Feb. 2014. [IEEExplore]
T. Nagashima, K. Fukushima and T. Noda, "Development of Electromagnetic Transient Simulation Models for Power Quality Analysis of Distribution Systems," Electrical Engineering in Japan (Wiley), Vol. 203, Issue 3, pp. 11-21, May 2018. [Wiley Online Library]
R. Oyanagi, T. Noda and M. Ichikawa, "A Method for Estimating the Current–Flux Curve of a Single‐Phase Transformer for Electromagnetic Transient Simulations of Inrush Currents," Electrical Engineering in Japan (Wiley), Issue 204, Issue 2, pp. 13-24, July 2018. [Wiley Online Library]
M. Cervantes, I. Kocar, A. Montenegro, D. Goldsworthy, T. Tobin, J. Mahseredjian, R. Ramos, J. Marti, T. Noda, A. Ametani and C. Martin, "Simulation of Switching Overvoltages and Validation with Field Tests," IEEE Trans. on Power Delivery, Vol. 33, No. 6, pp. 2884-2893, Dec. 2018. [IEEExplore]
A. Ramirez, M. Abdel-Rahman and T. Noda, "Frequency-Domain Modeling of Time-Periodic Switched Electrical Networks: A Review," Ain Shams Engineering Journal, Vol. 9, Issue 4, pp. 2527-2533, Dec. 2018. [ScienceDirect]
K. Sano, R. Yonezawa and T. Noda, "An Electromagnetic Transient Simulation Model of Grid-Connected Inverters for Dynamic Voltage Analysis of Distribution Systems," Electrical Engineering in Japan (Wiley), Vol. 206, Issue 4, pp. 11-21, March 2019. [Wiley Online Library]
S. Horiuchi, K. Sano and T. Noda, "An Inverter Model Simulating Accurate Harmonics with Low Computational Burden for Electromagnetic Transient Simulations," IEEE Transactions on Power Electronics, vol. 36, no. 5, pp. 5389-5397, May 2021. [IEEExplore]
Y. Tanaka, R. Yonezawa and T. Noda, "Development of a Method for Calculating the Transmission-Line Constants of a Three-Phase Enclosure-Type Gas Insulated Bus Taking the Proximity Effect into Account," Electrical Engineering in Japan (Wiley), Vol. 214, Issue 2, June 2021. [Wiley Online Library]
K. Sano, S. Horiuchi and T. Noda, "Comparison and Selection of Grid-Tied Inverter Models for Accurate and Efficient EMT Simulations," IEEE Trans. on Power Electronics, Vol. 37, No. 3, pp. 3462-3472, Mar. 2022. [IEEExplore] [Open Access: PDF]
Y. Tanaka, R. Yonezawa and T. Noda, "Development of a Method for Calculating the Transmission-Line Constants of Cables Installed in a Rectangular Tunnel," Electrical Engineering in Japan (Wiley), Vol. 215, Issue 2, June 2022. [Wiley Online Library]
G. Cirilo L. and Taku Noda, "A Steady-State Initialization Procedure for Generic Voltage- Source Converters in Electromagnetic Transient Simulations," Electric Power Systems Research (Elsevier), Vol. 221, 109404, 2023. [ScienceDirect]
T. Shoji and T. Noda, "A Study of Harmonics in a Dedicated Cable Supply System to Feed EV Fast Chargers," Electric Power Systems Research (Elsevier), Vol. 221, 109421, 2023. [ScienceDirect]
G. Cirilo L. and T. Noda, "Development of a three-phase power-flow calculation method for distribution systems with automatic handling of arbitrary winding connections of transformers," Electrical Engineering in Japan (Wiley), Vol. 216, No. 4, December 2023. [Wiley Online Library]
If you want to get a private copy of one of these papers, send a request by email to takunoda@ieee.org.
Updated on Feb. 1, 2024.