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List of Presentations
ISHIKAWA Satoshi Last modified date:2024.04.08

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


Presentations
1. Vibration analysis of speaker-driven thermoacoustic heat pump.
2. Two-Dimensional Wave Analysis of Parametric Array Loudspeaker by Concentrated Mass Model
(Study of Non-Reflecting Boundary by Perfectly Matched Layer) .
3. The development of three-dimension vocal cord analysis model.
4. Study of self-excited sound generated by cavitation in a throttle.
5. D. Funyu, Shotaro Hisano, Hiroyuki Iwamoto, Satoshi Ishikawa, Analysis of thermoacoustic phenomenon using concentrated mass model , Noise and Vibration: Emerging Methods 2023, 2023.01.
6. Study of self-excited sound of pseudo-shock wave from expansion valve .
7. Development of medical application technology using vocal cord sound source inverse analysis method.
8. The elucidation of sputum discharge phenomenon in tracheostomy suctioning.
9. Two-Dimensional Wave Analysis of Parametric Array Loudspeaker by Concentrated Mass Model .
10. Proposal of added mass and added damping model of viscoelastic dampimg materila attached to a cylindrical pipe and design for vibration control .
11. Elucidation of mechanism of distorted voice by using voice production simulation.
12. Two-Dimensional Wave Analysis of Parametric Array Loudspeaker.
13. Development of Blood Vessel and Flow Analysis Method for Diagnosing Cardiovascular Disease.
14. Two-dimensional Acoustic Analysis by Concentrated Mass Model.
15. Study of self-excited sound from expansion valve.
16. Analysis of self-excited thermoacoustic vibrations by using concentrated mass model.
17. Parametric speaker analysis in acoustic space with impedance boundary by using concentrated mass model.
18. Analysis of a parametric speaker by using concentrated mass model.
19. Wave Analysis of Parametric Array Loudspeaker by Concentrated Mass Model(Analysis of Modulated Wave).
20. Effect of reducing sound wave propagation in piping by two flexible joints.
21. Analysis of acoustic tube with temperature gradient by concentrated mass model.
22. Development of speech production analysis model using modal analysis.
23. Development of medical application technology using vocal tract analytical model.
24. Development of three-dimensional analysis of blood vessel and blood flow for diagnosis of cardiovascular diseases.
25. Voice control of flute-type artificial larynx by using blower.
26. Development of hardness measurement method of soft biological tissue using vibrator and three-dimensional finite element method.
27. Wave Analysis of Parametric Array Loudspeaker by Concentrated Mass Model.
28. Shotaro Hisano, Satoshi Ishikawa, Shinya Kijimoto, Hiroyuki Iwamoto, Structural-acoustic coupled analysis by concentrated mass model, The 18th Asia-Pacific Vibration Conference, 2019.11.
29. Acoustic analysis of oil-soluble medium Considering attenuation caused by presence of oil.
30. Development of an Acoustic Diagnosis Method Using an Analytical Model of the Vocal Tract.
31. Couple analysis of vibro-acoustics by concentrated mass model.
32. Kazuya Yokota, Satoshi Ishikawa, Yosuke Koba, Shinya Kijimoto, INVERSE ANALYSIS OF VOCAL SOUND SOURCE BY ACOUSTIC ANALYSIS OF THE VOCAL TRACT, 26th International Congress on Sound and Vibration, 2019.07.
33. Yoshitake Tatsuhiro, Satoshi Ishikawa, Takahiro Kondou, Kenichiro Matsuzaki, NONLINEAR SLOSHING ANALYSIS BY USING CONCENTRATED MASS MODEL, 26th International Congress on Sound and Vibration, 2019.07.
34. S. Hiyama, S. Ishikawa,N. Yaegashi,K.Tanaka, S. Kijimoto,Y. Koba, Study of self-excited sound from expansion valve in air conditioner, International workshop on enviromental engineering 2019, 2019.06.
35. Active noise control based on wavefront synthesis for a sound passing through an open window.
36. Modeling and Vibration Control for Cylinder Pipe Using Dynamic Vibration Absorber Effect of Viscoelastic Damping Material.
37. Improvement of Transmission Loss of Acoustic Material in Low Frequency Range Using Air Layer.
38. Development of an Acoustic Diagnosis Method Using an Analytical Model of the Vocal Tract.
39. Analysis for Coupling Vibration between Sloshing and Elastic Vibration by Using Concentrated Mass Model .
40. Vibration Control for Cylinder Pipe Using Dynamic Vibration Absorber Effect of Viscoelastic Damping Material.
41. Active noise control for complicated space by concentrated mass model.
42. Development of an Acoustic Diagnosis Method Using an Analytical Model of the Vocal Tract.
43. Basic Study on Active Noise Control Based on Wavefront Synthesis.
44. Study of self-excited sound from expansion valve in air-conditioner.
45. Kazuya Yokota, Satoshi Ishikawa, Shinya Kijimoto, Yosuke Koba, Shohei Sugiki, ACOUSTIC DIAGNOSIS OF VOICE DISTURBANCE USING AN ANALYTICAL MODEL OF THE VOCAL TRACT, 25th International Congress on Sound and Vibration, 2018.07.
46. Development of Speech Production System by Pneumatic Artificial Larynx.
47. Acoustic Analysis by Distributed Mass Model.
48. Active reduction of the two-way diffraction from a noise barrier by using feedforward control.
49. Improvement of Effect of Acoustic Material in Low Frequency Range.
50. Identification of Stiffness of Blood Vessel by Using an Analytical Model of Pulse Wave on the Measurement of Blood Pressure.
51. Proposal of Analysis Model of Viscoelastic Damping Materia Analysis using Added Mass and Added Damping.
52. Development of Medical Applications by Vocal Tract Analysis Model.
53. Sloshing Phenomenon Analysis by Using Concentrated Mass Model.
54. Hisano Shotaro, ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Model-based active noise control for two-dimensional closed space by concentrated mass model, Inter noise 2017, 2017.08.
55. Global active noise control based on wavefront synthesis.
56. Development of measurement method biological flexibility by using excitation.
57. Development of mesurement technique and analysis model of excited human bone
(Suggestion of the analysis model in consideration of the influence of the soft tissue).
58. Analysis of speech production by concentrated mass model.
59. Decrease in the Recognition Rate by Sound Masking Using Active Noise Control.
60. Sloshing phenomena analysis by using concentrated mass model (Proposal of Non-linear Concentrated Mass Model).
61. Wang Xun, Yosuke KOBA, ISHIKAWA Satoshi, Shinya Kijimoto, LOCALLY GLOBAL ACTIVE NOISE CONTROL BASED ON WAVEFRONT SYNTHESIS, 23th International Congress on Sound and Vibration, 2016.07.
62. ISHIKAWA Satoshi, KIJIMOTO Shinya, Matsuo, Ataru, Akayama Yuta, COUPLED ANALYSIS OF TWO-DIMENSIONAL ACOUSTIC AND MEMBRANE VIBRATION BY CONCENTRATED MASS MODEL, 23th International Congress on Sound and Vibration, 2016.07.
63. Active Noise Control for Two-dimensional Acoustic Space by a Concentrated Mass Model.
64. Tatsuhiro YOSHITAKE, Satoshi ISHIKAWA, Takahiro KONDOU, Kenichiro MATSUZAKI, Sloshing Phenomenon Analysis by Using Concentrated Mass Model, 16th Asia Pacific Vibration Conference, 2015.11.
65. Satoshi ISHIKAWA, Takahiro KONDOU, Kenichiro MATSUZAKI, Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model, 16th Asia Pacific Vibration Conference, 2015.11.
66. Shotaro HISANO, Satoshi ISHIKAWA, Shinya Kijimoto, Yosuke KOBA, Model-based active noise control by a concentrated mass model, 16th Asia Pacific Vibration Conference, 2015.11.
67. 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).
68. Study of Modeling Magnetic Damper that Magnet Moves Parallel to Conductor
(Modeling Method Using Magnetic Vector Potential).
69. Sloshing phenomena analysis by using concentrated mass model.
70. Two dimensional nonlinear shallow water wave analysis by using concentrated mass model.
71. Hybrid active noise barrir with sound masking.
72. Active noise control with moving evaluation point by cross-spectral method.
73. Model-based active noise control by a concentrated mass model.
74. Coupled Analysis of Two-Dimensional Acoustic and Vibration by Concentrated Mass Model.
75. Development of mesurement technique of the living body flexisibirity by the indentation test using concentrated mass model.
76. Development of mesurement technique and analysis model of excited human bone of leg.
77. Wang Xun, Yosuke KOBA, ISHIKAWA Satoshi, Shinya Kijimoto, Hybrid active noise barrier with sound masking (Experiment for verifying the noise attenuation performance in an office room and evaluation of maskers by listening experiments), Inter noise 2015, 2015.08.
78. Wang Xun, Yosuke KOBA, ISHIKAWA Satoshi, Shinya Kijimoto, DEVELOPMENT OF INDOOR HYBRID ACTIVE NOISE BARRIER, 22nd International Congress on Sound and Vibration , 2015.07.
79. ISHIKAWA Satoshi, Takahiro KONDOU, Kenichiro MATSUZAKI, Satoshi YAMAMURA, ANALYSIS OF NONLINEAR SHALLOW WATER WAVE IN RECTANGULAR TANK BY CONCENTRATED MASS MODEL, 22nd International Congress on Sound and Vibration , 2015.07.
80. Wang Xun, Yosuke KOBA, ISHIKAWA Satoshi, Shinya Kijimoto, Hybrid active noise barrier with sound masking, Inter noise 2014, 2014.11.
81. Hisano Shotaro, ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Active noise control based on state feedback by a concentrated mass model, Inter noise 2014, 2014.11.
82. ISHIKAWA Satoshi, Shinya Kijimoto, Owaki Ryoma, Matsuo, Ataru, Coupled analysis of two-dimensional acoustic and membrane vibration by concentrated mass model, Inter noise 2014, 2014.11.
83. Coupled analysis of two dimensional acoustic and menbrane vibration by concentrated mass model.
84. Modeling of Magnetic Damper Composed of a Conducting Disk and a Ring Magnet Moving Perpendicularly to the Disk.
85. Active Noise Control Based on State Feedback by Concentrated Mass Model.
86. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
87. ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Owaki Ryoma, Mori Yuuki, Two-dimensional Acoustic Analysis by Concentrated Mass Model, Inter noise 2013, 2013.09.
88. Sugiki Shohei, ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Simulation of Speech Production by Concentrated Mass Model, Inter noise 2013, 2013.09.
89. Analysis of Pressure Wave in Air-conditioner Piping System by Concentrated Mass Model.
90. Development of Measurement Technique of the Living Body Flexibility by the Indentation Test Using Concentrated Model.
91. Active Noise Control Considering Moving Evaluation Point in Actual Sound Field.
92. Study on Modeling of Parallel Motion Type of Magnetic Damper.
93. Toshiro TANIGUCHI, Yosuke KOBA, ISHIKAWA Satoshi, Shinya Kijimoto, Active Noise Control Considering Moving Evaluation Point in Actual Sound Field, Japan-Korea Joint Symposium on Dynamics & Control, 2013.08.
94. Akihiro TAKAHASHI, Shinya Kijimoto, ISHIKAWA Satoshi, Yosuke KOBA, Sound Masking Using Active Noise Control, Japan-Korea Joint Symposium on Dynamics & Control, 2013.08.
95. Kazuya YOKOTA, Shinya Kijimoto, ISHIKAWA Satoshi, Yosuke KOBA, Active Noise Control with Changing Adaptive behavior Algorithm, Japan-Korea Joint Symposium on Dynamics & Control, 2013.08.
96. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
97. Two-dimensional Acoustic Analysis by Concentrated Mass Model.
98. Simulation of Speech Production by Concentrated Mass Model.
99. Coupled Analysis of Two-dimensional Acoustic and Membrane Vibration by Concentrated Mass Model.
100. Active Noise Control following a Moving Evaluation Point in a Reverberant Room.
101. 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.
102. Analysis of Pressure Wave in Air-conditioner Piping System by Concentrated Mass Model.
103. Two-dimensional Acoustic Analysis by Concentrated Mass Model.
104. Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model.
105. Development of Measurement Technique and Analysis Model of Living Body.
106. Active Noise Shielding Integrated with Microphone and Loudspeaker.
107. Active Noise Control for a Moving Evaluation Point Using Stepsize Vector and Interpolation of Secondary Path.
108. Two-dimensional Acoustic Analysis by Concentrated Mass Model.
109. Analysis of Pressure Wave in Water by Concentrated Mass Model.
110. Analysis of Nonlinear Shallow Water Wave by Concentrated Mass Model.
111. Analysis of Nonlinear Shallow Water Wave by Concentrated Mass Model.
112. Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model.
113. Nonlinear Pressure Wave Analysis by Concentrated Mass Model
(Comparison of models of shear stress from wall).
114. Analysis of nonlinear pressure wave in elastic pipe by concentrated mass model.
115. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
116. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
117. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
118. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
119. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
120. Analytical Study of the Occurrence Mechanism Self-Synchronized Phenomena of Metronomes.


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