Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Takahiro KONDOU Last modified date:2017.05.30

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


Presentations
1. Low Frequency Vibration of a Vibroimpact System (An Analytical Approach to the Evaluation of the Induced Frequency).
2. Vibration Control of Overhead Traveling Crane by the Eliminating Method of the Component of Natural Frequency (Application to the System with Uncertain Natural Frequency).
3. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Application to the Consistent Mass Model).
4. Low Frequency Vibration of a Vibroimpact System (Effect of Exciting Frequency).
5. Residual Vibration Control of Overhead Traveling Crane by the Eliminating Method of the Component of Natural Frequency.
6. Sloshing Phenomenon Analysis by Using Concentrated Mass Model (Proposal of Non-linear Concentrated Mass Model) .
7. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Application to a Rotating Shaft System).
8. Vibration Control of Overhead Traveling Crane by the Eliminating Method of the Component of Natural Frequency (Optimization of Trolley Orbit).
9. A Study on Optimal Design for Electric Hammer Using Self-Synchronization Phenomena.
10. Pattern Formation Phenomena in Contact Rotating System
(Improvement of Stability Analysis by Switching Iterative Calculation Formula).
11. Tatsuhiro YOSHITAKE, Satoshi ISHIKAWA, Takahiro KONDOU, Kenichiro MATSUZAKI, Sloshing Phenomenon Analysis by Using Concentrated Mass Model, 16th Asia-Pacific Vibration Conference, 2015.11.26.
12. Satoshi ISHIKAWA, Takahiro KONDOU, Kenichiro MATSUZAKI, Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model, 16th Asia-Pacific Vibration Conference, 2015.11.26.
13. Toru MIZOTA, Takahiro KONDOU, Kenichiro MATSUZAKI, nobuyuki sowa, Hiroki Mori, Vibration Control of Overhead Traveling Crane by Elimination Method of Natural Frequency Components
(Complete Prevention of Residual Vibration of Cargo), 16th Asia-Pacific Vibration Conference, 2015.11.25.
14. Tomoyuki TANIGUCHI, Takahiro KONDOU, Operating mechanism and optimization of dynamic absorber for a negative damping system, 16th Asia-Pacific Vibration Conference, 2015.11.24.
15. Pattern Formation Phenomenon in Contact Rotating System (Stability Analysis with Multiple Time Delays).
16. Study of Magnetic Damper Composed of Circular Magnet Moving Coaxially and Relatively to Conducting Disk (Modeling of Skin Effect of Eddy Current on Magnetic Damper).
17. Study of Modeling of Magnetic Damper that Magnet Moves Parallel to Conductor (Modeling Method Using Magnetic Vector Potential).
18. Vibration Control of Overhead Traveling Crane by the Eliminating Method of the Component of Natural Frequency (Treatment for In-Plane Motion of Trolley and Hoisting of Load).
19. Development of High-Performance Method of Vibration Analysis for Large-Scale Nonlinear System (Treatment of the Consistent Mass Model).
20. Operating Mechanism and Optimization of Dynamic Absorber for Self-excited Vibration Generated in a System with Asymmetric Matrices (Stability Analysis Based on New Type Complex Modal Analysis).
21. Sloshing Phenomenon Analysis by Using Concentrated Mass Model.
22. Two Dimensional Nonlinear Shallow Water Wave Analysis by Using Concentrated Mass Model.
23. Tomoyuki TANIGUCHI, Takahiro KONDOU, Operating Mechanism and Optimization of Dynamic Absorber for a Parametric Excitation System, The 22nd International Congress on Sound and Vibration, 2015.07.15.
24. Elucidation of Operating Mechanism of Dynamic Absorber for Parametric Excitation System (Stability Analysis Based on Complex Modal Analysis).
25. Structural Damage Identification Analysis Using the Extended Kalman Filter (The Precision Improvement Method).
26. Structural Damage Estimation Method with Damage Potential Rankings.
27. Development of a Tamping Rammer Using Self-Synchronization Phenomena (Performance Evaluation of a Prototype Apparatus).
28. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Improvement of Reduction Method for an Asymmetric System).
29. Modeling of Magnetic Damper Composed of a Conducting Disk and a Ring Magnet Moving Perpendicularly to the Disk.
30. Swing up Control of Inverted Pendulum System Using Subspace Control.
31. Vibration Control of Overhead Traveling Crane by the Eliminating Method of the Component of Natural Frequency (Treatment for System Nonlinearity and Damping).
32. Pattern Formation Phenomena in Contact Rotating Systems.
33. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
34. Elucidation of Operating Mechanism of Dynamic Absorber for Parametric Excitation System and Development of Optimization Method.
35. Vibration Control of Overhead Traveling Crane by Eliminating the Component of Natural Frequency from Control Input.
36. Countermeasure Using Dynamic Absober for Pattern Formation Phenomena in Contact Rotating System (Effect of Diameter Ratio between Two Rubber Rolls).
37. Swing up Control of Elastic Inverted Pendulum Using Subspace Control.
38. Structural Damage Estimation Method with Damage Potential Rankings.
39. Analysis of Pressure Wave in Air-conditioner Piping System by Concentrated Mass Model.
40. Development of a Tamping Rammer Using Self-Synchronization Phenomena (Measurement of Human Exposure to Hand-Transmitted Vibration).
41. Development of a Tamping Rammer Using Self-Synchronization Phenomena (Experimental Sturdy Using a Fundamental Model).
42. Development of a Tamping Rammer Using Self-Synchronization Phenomena (Experimental Sturdy Using a Fundamental Model).
43. Application of Subspace Method for an Asymmetric Eigenvalue Problem.
44. Pattern Formation Phenomena in Contact Rotating System (Counter-measure Considering an Effect of Diameter Ratio between Two Rubber Rolls).
45. Vibration Control of Overhead Traveling Crane by Eliminating the Component of Natural Frequency from Control Input.
46. Elucidation of Operating Mechanism of Dynamic Absorber for Parametric Excitation System and Development of Optimization Method.
47. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
48. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Application for a Thin Plate Structure).
49. Tadashi OKABE, Kazuki KOUROGI, Takahiro KONDOU, Jumpei OHNISHI, On the Averaging Method Using Sum of Elliptic Sine and Cosine Function for Nonlinear Oscillator Having Two-Degree-of-Freedom, International Joint Symposium on Applied Mechanics and Robotics , 2013.07.28.
50. Yasuhiro BONKOBARA, Takahiro KONDOU, Development of Synchronous Vibration Mechanism for a Tamping Rammer, International Joint Symposium on Applied Mechanics and Robotics , 2013.07.28.
51. ISHIKAWA Satoshi, Takahiro KONDOU, Kenichiro MATSUZAKI, Shota NAGANO, Analysis of nonlinear pressure wave in elastic pipe by concentrated mass model, 15th Asia-Pacific Vibration Conference, 2013.06.06.
52. Yasuhiro BONKOBARA, Takahiro KONDOU, Tomoki ONO, Validation of a Tamping Rammer Using Self-Synchronization Phenomena by Sand Compaction Tests, 15th Asia-Pacific Vibration Conference, 2013.06.06.
53. Tomoyuki TANIGUCHI, Yasuhiro BONKOBARA, Takahiro KONDOU, Yuichro SAKAMOTO, The SA/GA hybrid optimization method Using a procedure for changing mesh size, 15th Asia-Pacific Vibration Conference, 2013.06.03.
54. Study on Magnetic Damper Composed of Combined Magnets (Magnetic Damper Composed of Rectangular Magnets).
55. Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model.
56. Analysis of Pressure Wave in Air-conditioner Piping System by Concentrated Mass Model.
57. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System(A Vibration Analysis of Gear-Shaft System).
58. Development of a Tamping Rammer Using Self-Synchronization Phenomena (Investigation Based on Sand Compaction Tests)
.
59. Development of an Electric Hammer Using Self-Synchronization Phenomena (A Fundamental Model).
60. Research on High Order Critical Speed Passage Technology for Flexible Rotor Supported by Active Magnetic Bearings.
61. Pattern Formation Phenomena in Contact Rotating System(Prevention Method of System with Two Rubber Rolls and its Experimental Verification) .
62. Pattern Formation Phenomena in Contact Rotating System(Analyssi for Nonlinear Viscoelastic Model) .
63. SA/GA Hybrid Optimization Method Using a Procedure of Mesh Size Change (Improvement of Convergence and Diversity of Solution)
.
64. Subspace Control for Swinging up a Multiple Parallel-Serial Inverted Pendulum System .
65. Kenji TANAKA, Takahiro KONDOU, Osami MATSUSHITA, Calculations of lateral-torsional coupled vibration in AC motor-driven geared rotor system with mode synthesis approach, 10th International Conference on Vibrations in Rotating Machinery, 2012.09.11.
66. Multiple Damage Identification Analysis Based on Filtering Theory for a Framed Structure by Using Low Order Natural Frequency Change,
Hiroyuki KUROKI, Takahiro KONDOU, Yasuhiro BONKOBARA and Yuichiro SAKAMOTO,
14th Asia-Pacific Vibration Conference, 2011..
67. Synchronization in Coupled Nonlinear Self-Excited Oscillators with Stick-Slip Vibration,
Tomoki ONO, Takahiro KONDOU and Yasuhiro BONKOBARA,
14th Asia-Pacific Vibration Conference, 2011..
68. Development of a Tamping Rammer Using Self-Synchronization Phenomena,
Yasuhiro BONKOBARA, Takahiro KONDOU and Tomoki ONO,
14th Asia-Pacific Vibration Conference, 2011..
69. Nonlinear Pressure Wave Analysis by Concentrated Mass Model,
Satoshi Ishikawa, Takahiro Kondou and Kenichiro Matsuzaki,
14th Asia-Pacific Vibration Conference, 2011..
70. Simultaneous Optimization for Topology and Geometry of a Two Dimensional Framed Structure Using SA/GA Hybrid Method,
Yuichiro SAKAMOTO, Yasuhiro BONKOBARA, Takahiro KONDOU and Hiroyuki KUROKI,
14th Asia-Pacific Vibration Conference, 2011..
71. On the Elliptic Averaging Method for Nonlinear Oscillators Having Multi-Degree-of-Freedom,
Tadashi OKABE, Takahiro KONDOU, Jumpei OHNISHI and Hideo TORIHARA,
The 2011 World Congress on Advances in Structural Engineering and Mechanics..
72. Analysis of Pressure Wave in Water by Concentrated Mass Model,
Shota NAGANO, Satoshi ISHIKAWA, Takahiro KONDOU and Kenichiro MATSUZAKI,
Dynamics and Design Conference 2011..
73. Study on Magnetic Damper Composed of Combined Mactets (Magnetic Damper Composed of Linear Array Magnets),
Takahiro KIMURA, Yoshihisa TAKAYAMA, Takahiro KONDOU, Shinya KIJIMOTO and Kenichiro SATOMI
Dynamics and Design Conference 2011..
74. Development of Hybrid Optimization Method on the Multi-Objective Optimum Design (A Hybrid SA/GA Method with variable mesh size),
Kenji ABE, Yuichiro SAKAMOTO, Yashiro BONKOBARA, Takahiro KONDOU and Tomoyuki TANIGUCHI,
Dynamics and Design Conference 2011..
75. Development of Hybrid Optimization Method on the Multi-Objective Optimum Design (A study of Selection Procedure in Genetic Operetion),
Yuichiro SAKAMOTO, Yashiro BONKOBARA, Takahiro KONDOU, Kenji ABE and Tomoyuki TANIGUCHI,
Dynamics and Design Conference 2011..
76. Analysis of Nonlinear Shallow Water Wave by Concentrated Mass Model,
Satoshi ISHIKAWA, Takahiro KONDOU and Kenichiro MATSUZAKI,
Dynamics and Design Conference 2011..
77. Development of a Tamping Rammer Using Self-Synchronization Phenomena,
Yashiro BONKOBARA, Takahiro KONDOU, Shota KAMIGUCHI, Tomohiro KUMON and Tomoki ONO,
Dynamics and Design Conference 2011..
78. An Investigation of the Coupling Patterns between Self-Excited Oscillators in Self-Synchronization,
Tomoki ONO, Takahiro KONDOU and Yashiro BONKOBARA,
Dynamics and Design Conference 2011..
79. Multiple Damage Identification Analysis of a Framed Structure Using Changes in Low Order Natural Frequencies,
Hiroyuki KUROKI, Takahiro KONDOU, Yashiro BONKOBARA and Yuichiro SAKAMOTO,
Dynamics and Design Conference 2011..
80. Pattern Formation Phenomena in Contact Rotating System(Stability Analysis of System Including Different Time Delays),
Akito ISHIHARA, Takahiro KONDOU, Nobuyuki SOWA and Toshihiro NOHARA,
Dynamics and Design Conference 2011..
81. Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model.
82. Study on Magnetic Damper Composed of Combined Magnet.
83. Research of Magnetic Damper Based on Lorentz Force.
84. Simultaneous Optimization for Topology and Shape of a Framed Structure Using Hybrid Algorithm,
Yuichiro SAKAMOTO, Yasuhiro BONKOBARA, Takahiro KONDOU, Kenji ABE and Hiroyuki KUROKI,
The 9th OPTIS symposium..
85. Nonlinear Pressure Wave Analysis by Concentrated Mass Model (Comparison of models of shear stress from wall).
86. Self-Synchronized Phenomena in Coupled Self-Excited Oscillators under Friction
(Investigation of Energy Exchange between Self-Excited Oscillators).
87. Development of Synchronous Vibration Mechanism for Hand-Held Vibrating Tools
(Experimental Study Using an Impact Model with Two Oscillators).
88. Development of Synchronous Vibration Mechanism for Hand-Held Vibrating Tools
(Experimental Study Using an Impact Model with Four Oscillators).
89. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System
(An Efficient Method to Eliminate Higher-Order Modes).
90. Analysis of Nonlinear Pressure Wave in Elastic Pipe by Concentrated Mass Model.
91. Experimental Verification to Prevention Method Using Dynamic Absorbers for Pattern Formation Phenomena.
92. Prevention Method Using Dynamic Absorbers for Pattern Formation Phenomena
(Design Method Considering Structural Modifications).
93. Study on Magnetic Damper Composed of Combined Magnet.
94. Influence of Magnetic Skin Effect on Magnetic Damper.
95. Hybrid Optimization Method Using Grouping of Pareto-Optimal Solutions.
96. Experimental Verification of Prevention method Using Dynamic Absorbers for Unstable Vibration Caused by Time Delay Due to Viscoelastic Deformation.
97. Multiple Damage Identification Analysis of Framed Structure Using Filtering Theory and Generalized Transfer Stiffness Coefficient method.
98. Simultaneous Optimization for Topology and Geometry of Framed Structure Using Hybrid Optimization Method.
99. Vibration Control of Pendulum System Based on Jacobian Elliptic Functions.
100. Computational Efficiency and Accuracy of High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System Using the Method of Harmonic Balance.
101. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
102. Analysis of Nonlinear Oscillator Having Two-Degree-of-Freedom by the Averaging Method of Elliptic Type.
103. Development of Synchronous Vibration Mechanism for Hand-held Vibrating Tools.
104. Self-Synchronized Phenomena Generated in a Coupled System of Self-Excited Oscillators Subjected to Coulomb's Friction.
105. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
106. Averaging Method of Elliptic Type for Nonlinear Oscillator Having Multi-Degree-of-Freedom.
107. Self-Synchronized Phenomena Induced by Coulomb's Friction (The Case of Coupling Two Self-Excited Oscillators).
108. Swing-up Control of Multiple-Parallel Inverted Pendulum System by Using Nonlinear Resonance.
109. Vibration Control of a Pendulums Based on Jacobian Elliptic Functions (Application to a Serial Double Pendulum System).
110. Investigation on Computational Efficiency and Accuracy of High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System.
111. Self-Syncronized Phenomena Generated in Coupled Self-Excited Oscillators Coused by Friction Force.
112. Development of Multi Damage Identification Analysis for Frame Structure by Applying Extended Kalman Filtering Theory.
113. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Application to Non-Proportionally Damped System).
114. Development of a High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Application to Global Nonlinear System).
115. Development of Synchronous Vibration Mechanism for Hand-Held Vibrating Tools (Investigation on an Impact Model Using Piecewise Linear Springs).
116. Development of Synchronous Vibration Mechanism for Hand-Held Vibrating Tools (Investigation on a Model Equipped with Four Oscillators).
117. Prevention Method Using Dynamic Absorbers for Pattern Formation Phenomena (Experimental Verification to Viscoelastic Multi-degree-of-freedom System).
118. Corrugation Developement on Rotating Contact Discs.
119. Hybrid Optimization Method Using Simulated Annealing and Genetic Algorithm.
120. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
121. Study on High Speed Movement Control of Parallel-Double Inverted Pendulum System.
122. Study on Applications of Subspace Control.
123. Developement of Multi Damege Identification Analysis for Frame Structure by Applying Filtering Theory.
124. Nonlinear Pressure Wave Analysis by Concentrated Mass Model
(Treatment of Side Branch and Decreasing Effect of Nonlinear Wave).
125. Self-Synchronization Phenomena in Coupled Self-Excited Oscillators Subjected to Frictional Forces.
126. Elliptic Averaging Method Using Sum of Two Kinds of Jacobian Elliptic Functions as Generating Solution.
127. Development of Hand-Guided Vibration Tool Using Self-Synchronized Phenomena.
128. A High-Performance Method of Vibration Analysis for a Large-Scale Nonlinear System (Application for Global Nonlinear System).
129. Analysis of Nonlinear Oscillator Having Two-Degree-of-Freedom by the Averaging Method of Elliptic Type .
130. Vibration Reduction in Pump Piping System Using Flexible Joints and Disks.
131. Development of Hand-Guided Vibration Tool Using Self-Synchronized Phenomena.
132. A High-Performance Vibration Analysis for a Large-Scale Nonlinear System (Application to Rotating Shaft with Nonlinear Supports).
133. A High-Performance Vibration Analysis for a Large-Scale Nonlinear System (Application to Rotating Shaft with Nonlinear Supports).
134. Multi-Objective Optimization by Genetic Algorithm combined with Simulated Annealing.
135. Nonlinear Pressure Wave Analysis by Concentrated Model.
136. Magnetic Damper Based on Lenz's law.
137. Prevention Method Using Dynamic Absorbers for Pattern Formation Phenomena (Effective Design Procedure for Each Mode in Multi-degree-of-freedom System).
138. Vibration Control of a Pendulum Using Nonlinear Resonance.
139. Subspace Control for Swinging up a Multiple Inverted Pendulum.
140. A Study for CP Control of 2-Link Flexible Manipulator Using Subspace Control.
141. Nonlinear Pressure Pulsation Analysis by Concentrated Model.
142. Study of Trajectory Control of 2-link Planar Flexible Manipulator Considering Nonlinear Effect.
143. Subspace Control for Swinging up a Serial Double Inverted Pendulum System.
144. A High-Performance Vibration Analysis for a Large-Scale Nonlinear System (Application for Rotating Shaft).
145. Developement of Hand-Guided Vibratory Machine Using Self-Synchronized Phenomena.
146. Topology Optimization of a Framework Structure Using Generalized Transfer Stiffness Coefficient Method.
147. Study of Trajectory Control of 2-Link Planar Flexible Manipulator.
148. Subspace Control for Swinging up a Serial Double Inverted Pendulum System.
149. Subspace Control for Swinging up a Multiple-Parallel Inverted Pendulum System.
150. Magnetic Damper Based on Lorentz Force (Magnetic Damper Consisting of Hollow-Cylindrical Conductor and Ring-Shaped Magnet).
151. Vibration Characteristics of Nonlinear Time Delay System in Contact Rotating Machinery.
152. Development of Vibratory Machine Using Self-Synchronized Phenomena.
153. Development of a high-performance vibration analysis for a large-scale nonlinear system.
154. Pattern Formation Phenomena in Contact Rotating Systems (Experimental Verification of Prevention Method for Viscoelastic Model).
155. Prevention Method Using Dynamic Absorbers for Pattern Formation Phenomena (Design Procedure in Viscoelastic Multi-degree-of-freedom System) .
156. Magnetic Damper Consisting of Spherical Magnet and Conducting Shell.
157. An Elliptic Averaging Method using Combined Function of Jacobian Elliptic Delta and Zeta Functions.
158. Vibration Characteristics of Nonlinear Time Delay System.
159. Topology Optimization of a Framework Structure using Generalized Transfer Stiffness Coefficient Method.
160. On a Relationship between Self-Synchronized Phenomena and Nonlinear Normal Modes of Rotor-Type Oscillators.
161. Prevention Method using Dynamic Absorbers for Unstable Vibration Caused by Time Delay in Contact Rotating Systems.
162. Swing Up Control of a Double-Parallel Inverted Pendulum System Based on Jacobian Elliptic Functions.
163. Subspace Control for Swinging up Control of a Parallel Double Inverted Pendulum System.
164. Self-Synchronized Phenomena Generated in Rotor-Type Oscillators.
165. Averaging Method Using Generating Solution Combining Jacobian Elliptic Delta and Zeta Function (Analysis for Subharmonic Vibration).
166. Modelling of Eddy Current Damper Composed of Spherical Magnet and Conducting Shell.
167. Prevention Method Using Dynamic Absorber for Unstable Vibration Caused by Time-Delay .
168. Rational Reduction Method for a Large-scale with Parametric Excitation .
169. Motion Control of 2-Link Flexible Arm by Using Subspace Control .
170. Countermeasures for Pipe Wall Vibration by Dual Flexible Joints .
171. Optimal Design of Frame Structure Using Generalized Transfer Stiffness Coefficient Method .
172. Self-Synchronized Phenomena of DC Motors (Investigation by Nonlinear Modes) .
173. Rational Reduction Method for a Large-scale Nonlinear System using Modal Analysis (The 1st report, Construction Method of a Reduction Model) .
174. Study on the Averaging Method of Elliptic Type (Solution Obtained by Combining Jacobian Elliptic Delta and Zeta Functions) .
175. Pattern Formation Phenomena in Contact Rotating Systems (Efficient Design of Dynamics Absorber fro Multi-degree-of-freedom Systems) .
176. A Magnetic Damper Based on Lorentz Force (Modeling and Experimental Comparisons) .
177. Subspace Control for Multiple Inverted Pendulum System (Part I, Application to a Parallel-Type Model) .
178. Subspace Control for Multiple Inverted Pendulum System (Part II, Application to a Series-Type Model) .
179. Topology Optimal Design of Structures Using Genetic Algorithm and Generalized Transfer Stiffness Coefficient Method.
180. Moving Apparatus Utilizing a Self-Synchronized Phenomenon .
181. Forced Vibration Analysis of a Framework Structure by the Generalized Transfer Stiffness Coefficient Method .
182. Prevention Method for Unstable Vibration Caused by Time Delay in Contact Rotating Systems .
183. Study for Motion Control of a Flexible Arm Using Sliding-Mode Control .
184. Study on Pseudo Sliding-Mode Control .
185. An Elliptic Averaging Method Using Combined Function of Jacobian Elliptic Cosine and Sine Functions .
186. Quantitative Comparison and Investigation on Computational Accuracy and Computation Speed of Vibration Analysis Methods for Large-Scale Nonlinear Systems .
187. Quantitative Comparison on Computational Accuracy and Computation Speed of Vibration Analysis Methods for Large-Scale Nonlinear Systems.
188. Magnetic Damper Composed of a Ball Type Magnet (Experiments and Speculations) .
189. Pattern Formation Phenomena in Contact Rotating Systems (Optimum Design for a Model Considering the Bending Deformation of Shafts) .
190. Experimental Study on Self-Synchronized Phenomena of DC Motors .
191. Optimal Design of Dynamic Absorber for Pattern Formation Phenomena Generated in Contact Rotating Systems with Multi Degrees of Freedom .
192. Self-Synchronized Phenomena Generated in Pendulum-type Oscillators (Influence of natural frequencies and modes) .
193. On a Effectiveness of a Moving Apparatus Utilizing Self-synchronized Phenomenon .
194. Study on Pseudo Sliding-Mode Control (Application to Swing Up Control of Inverted Pendulum) .
195. Magnetic Damper Based on Lorentz Force (Experiments and Speculations).
196. Magnetic Damper Based on Lorentz Force (Experiments and Speculations).
197. Pattern Formation Phenomena in Contact Rotating Systems (A Optimum Design Method by Using Genetic Algorithm).
198. Optimal Design of Dynamic Absorber for Pattern Formation Phenomena Generated in Contact Rotating Systems.
199. Study on the Averaging Method of Elliptic Type (Analysis of Subharmonic Vibration) .
200. Forced Vibration Analysis of a Frame Structure by the Transfer Stiffness Coefficient Method Applying the Graph Theory.
201. Stability Analysis of a Steady-state Vibration Generated in a Large-scale Nonlinear System (Part 1, An Approximate State Transition Matrix Method) .
202. Stability Analysis of a Steady-state Vibration Generated in a Large-scale Nonlinear System (Part 2, Application to a Tree Structure) .
203. A moving Apparatus Utilizing Self-synchronized Phenomenon (Experimental Investigation of Moving Performance) .
204. Self-Synchronized Phenomena Generated in Pendulum-type Oscillators (Experimental verification).