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Yearly Archives: 2025
Paper accepted and published in Nonlinear Dynamics
A paper entitled “Short-time dynamic mode decomposition: a data-driven forced response analysis of nonlinear systems under swept-sine excitation” has been accepted and published in Nonlinear Dynamics. The work is based on the Master’s thesis of Hideaki Namiki (’24 graduate).
Hideaki Namiki and Akira Saito, “Short-time dynamic mode decomposition: a data-driven forced response analysis of nonlinear systems under swept-sine excitation”, Nonlinear Dynamics, https://doi.org/10.1007/s11071-025-11751-7 (Open Access)
Presented at IDETC2025
Professor Saito gave a presentation at the International Design Engineering Technical Conferences (IDETC), which was held in Anaheim, CA, USA. The presentation was in the joint mini-symposium between MSNDC/VIB entitled “Contact Dynamics of Mechanical Structures” that was co-organized by Prof. Tien of National Tsing Hua University and Prof. Saito.
Akira Saito and Shota Kita, ”Data-Driven Initial Gap Identification of Two Degrees of Freedom Piecewise Linear Systems With Multiple Gaps”, 37th Conference on Mechanical Vibration and Noise (VIB), International Design Engineering Technical Conferences & Computers and Information in Engineering Conference (IDETC), IDETC2025-171047, Anaheim, USA, August 2025.
Call for Papers: Special Issue on Methods for Automatic Generation of Nonlinear Models and Their Solution (ASME Journal of Computational and Nonlinear Dynamics)
ASME Journal of Computational and Nonlinear Dynamics is seeking papers for a Special Issue on Methods for Automatic Generation of Nonlinear Models and Their Solution. This special issue will focus mainly on topics related to automatic generation of nonlinear dynamics models, nonlinear system identification, or methods for solving nonlinear systems. For more information, please see the following link.
Submission deadline: August 1, 2025
Initial review completed: October 1, 2025
Publication date: April 2026
Paper accepted for publication in IEEE Transactions on Energy Conversion
Paper entitled “Effects of Rotated Stacking, Bolts, and Bonded Regions on Modal Parameters of Bonded Stator Cores of Electric Machines” has been accepted for publication in IEEE Transactions on Energy Conversion[1]. The article is based on a collaborative work with Gifu University and Toyohashi University of Technology, under the research grant from Transmission Research Association for Mobility Innovation (TRAMI).
[1] Akira Saito, Hayato Maeba, Masami Matsubara and Kohei Furuya, “Effects of Rotated Stacking, Bolts, and Bonded Regions on Modal Parameters of Bonded Stator Cores of Electric Machines”, IEEE Transactions on Energy Conversion, doi:10.1109/TEC.2025.3550914, 2025 [link].
