Kyushu University Academic Staff Educational and Research Activities Database
List of Papers
nobuyuki sowa Last modified date:2018.03.20

Assistant Professor / Dynamics of Mechanical Systems / Department of Mechanical Engineering / Faculty of Engineering


Papers
1. Optimum Design of Dynamic Absorber for Pattern Formation Phenomena Generated in Contact Rotating Systems (3rd Report, In the Case of a Multi-Degree-of-Freedom System).
2. Optimum Design of Dynamic Absorber for Pattern Formation Phenomena Generated in Contact Rotating Systems (2nd Report, Experimental Verification of Single-Degree-of-Freedom Viscoelastic Model).
3. Motomichi Sonobe, Junichi Hino, Takahiro Kondou, Kenichiro Matsuzaki, Nobuyuki Sowa, Vibration Control of Pendulum System Based on Jacobian Elliptic Functions, Proceedings of Asia-Pacific Vibration Conference 2009, CD-ROM, No.75, 2009.11.
4. Takumi Sasaki, Takahiro Kondou, Kenichiro Matsuzaki, Nobuyuki Sowa, Computational Efficiency and Accuracy of High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System Using the Method of Harmonic Balance, Proceedings of Asia-Pacific Vibration Conference 2009, CD-ROM, No.21, 2009.11.
5. Nobuyuki Sowa, Takahiro Kondou, Kousuke Hayash, Experimental Verification of Prevention method Using Dynamic Absorbers for Unstable Vibration Caused by Time Delay Due to Viscoelastic Deformation, Proceedings of Asia-Pacific Vibration Conference 2009, CD-ROM, No.115, 2009.11.
6. Motomichi SONOBE, Takahiro KONDOU, Nobuyuki SOWA and Kenichiro MATSUZAKI, Study on Subspace Control Based on Modal Analysis
(1st Report: Application to Swing-Up Control of an Inverted Pendulum System), Journal of System Design and Dynamics , Vol. 3 (2009) , No. 3 ,pp.344-355
, 2009.07, [URL].
7. A Study for CP Control of Two-Link Flexible Manipulator Using Subspace Control.
8. A High-Performance Method of Vibration Analysis for Large-Scale Nonlinear Systems (Application to Flexural Vibration of Straight-Line Beam Structure with Nonlinear Supports)
.
9. Study on Subspace Control Based on Modal Analysis (2nd Report, Swing-up Control of Double-Parallel Inverted Pendulum System by Using Nonlinear Resonance).
10. Mizue Koga, Takahiro Kondou, Nobuyuki Sowa, Vibration Characteristics of Nonlinear Time Delay System, Proceedings of Asia-Pacific Vibration Conference 2007, CD-ROM, OS08-2-3,No.137, 2007.08.
11. Nobuyuki Sowa, Takahiro Kondou, Hiroki Mori, Myung-Soo Choi, Prevention Method using Dynamic Absorbers for Unstable Vibration Caused by Time Delay in Contact Rotating Systems , Proceedings of Asia-Pacific Vibration Conference 2007, CD-ROM, OS16-2-3, No.140, 2007.08.
12. Motomichi Sonobe, Takahiro Kondou, Kenichiro Matsuzaki, Nobuyuki Sowa, Kosaku Aimoto, Swing Up Control of a Double-Parallel Inverted Pendulum System Based on Jacobian Elliptic Functions, Proceedings of Asia-Pacific Vibration Conference 2007, CD-ROM, G17-2-2, No.115, 2007.08.
13. Study on Subspace Control Based on Modal Analysis (1st Report, Application to Swing-up Control of Inverted Pendulum System.
14. Nobuyuki SOWA, Takahiro KONDOU, Hiroki MORI, Myung-Soo CHOI, Method of Preventing Unstable Vibration Caused by Time Delays in Contact Rotating Systems, JSME International Journal SeriesC, Vol.49, NO.4, pp 973-982, 2006.12.
15. Kenichiro Matsuzaki, Akihisa Kawauchi, Takahiro Kondou, Nobuyuki Sowa, Study for Motion Control of a Flexible Arm Using Sliding-Mode Control, Proceedings of Asia-Pacific Vibration Conference 2005, Vol.1, pp.216-221, 2005.11.
16. Nobuyuki SOWA, Takahiro KONDOU, Hiroki MORI, Myung-Soo CHOI, Prevention Method for Unstable Vibration Caused by Time Delay in Contact Rotating Systems, Proceedings of Asia-Pacific Vibration Conference 2005,, Vol.1, pp.192-197, 2005.11.
17. Motomichi SONOBE, Takahiro KONDOU, Takahiro OKUNO, Nobuyuki SOWA, Kanichiro MATSUZAKI, Study on Pseudo Sliding Mode Control, Proceedings of Asia-Pacific Vibration Conference 2005, Vol.2, pp.432-437, 2005.11.
18. Preventin Method for Unstable Vibration Caused by Time Delay in Contact Rotating Systems (1st Report,Applicatin of New Stability Analysis).
19. Optimum Design of Dynamic Absorber for Pattern Formation Phenomena Generated in Contact Rotating Systems(1st Report, In Case of Singl-Degree-of Freedom System).
20. Nobuyuki SOWA, Takahiro KONDOU, Pattern Formation Phenomena in Contact Rotating Systems (Simplified Method for Stability Analysis and Prevention Measure by Using Energy Factor),, Proceedings of the Sixth International Conference on Motion and Vibration Control (MOVIC 2002),,, Vol. 2, pp. 997-1002,2002, 2002.08.
21. Nobuyuki SOWA, Takahiro KONDOU, Makito KIMURA, Simplified Method of Stability Analysis for Pattern Formation Phenomena in Contact Rotating Systems (A Model Concerning the Bending Deformation of Shafts), Proceedings of Asia-Pacific Vibration Conference 2001, Vol. 2, pp. 737-742,2001., 2001.10.
22. Pattern Formation Phenomena in Contact Rotating Systems (1st Report, Simplified Method for Stability Analysis and Prevention Measure by Using Energy Factor).
23. Pattern Formation Phenomena in Contact Rotating Systems (2nd Report, Stabilizng Techneque for Roll Systems with Many Degrees of Freedom by Using Simplified Method of Stability Analysis).
24. Takahiro KONDOU, Nobuyuki SOWA, Atsuo SUEOKA, Simplified Method Using Energy Factor to Estimate the Intensity of Instability Which Causes Pattern Formation Phenomena in Contact Rotating Systems, Proceedings of Asia-Pacific Vibration Conference 1999, Vol. 1, pp. 335-340,1999, 1999.12.