Kyushu University Academic Staff Educational and Research Activities Database
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ISHIKAWA Satoshi Last modified date:2017.10.26

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


Graduate School
Undergraduate School


E-Mail
Homepage
http://sky.mech.kyushu-u.ac.jp/Site/Site/index.html
Vibration and Acoustics Lab. .
Phone
092-802-3187
Fax
092-802-0001
Academic Degree
Doctor of Engineering
Field of Specialization
Dynamics of Machinery
Outline Activities
Outline of research activity
・Study on nonlinear pressure wave by concentrated mass model
・Study on modeling of sloshing and tsunami
・Development of acoustic analysis method
・Study on measurement of flexibility of living body
・Study on modeling of pulse wave

Outline of education
・Essential Engineering Dynamics
・Machine Dynamics Exercises
・Mechanical Vibration Exercises
・General mechanical engineering
・Mechanical Engineering Laboratory II
・Mechanical vibration and acoustics
Research
Research Interests
  • Study on modeling of pulse wave
    keyword : pulse wave
    2010.11.
  • Development of medical technique by vocal tract analysis model
    keyword : vocal tract analysis model
    2012.04.
  • Study on measurement of flexibility of living body
    keyword : flexibility of living body
    2011.04.
  • study on active acoustic control
    keyword : active acoustic control
    2011.04.
  • Development of acoustic analysis method
    keyword : acoustic analysis
    2011.04.
  • Study on modeling of sloshing and tsunami
    keyword : sloshing, tsunami
    2010.04.
  • Study on nonlinear pressure wave by concentrated mass model
    keyword : nonlinear pressure wave
    2009.04.
Academic Activities
Papers
1. Active noise control for two dimensional acoustic space by concentrated mass model.
2. Sloshing phenomenon analysis by using concentrated mass model
(1st Report, Proposition of linear analytical model for small amplitude wave and free vibration analysis).
3. Coupled analysis of two-dimensional acoustic and membrane vibration by concentrated mass model.
4. Satoshi ISHIKAWA, Takahiro KONDOU, Kenichiro MATSUZAKI, Satoshi YAMAMURA, Analysis of nonlinear shallow water waves in a tank by concentrated mass model, Journal of Sound and Vibration , 371, 171–182, 2016.03.
5. Development of measurement technique of living body flexibility by indentation test using concentrated mass model.
6. Active noise control based on state feedback by concentrated mass model
(Model based control for one-dimensional acoustic space and loudspeaker).
7. Analysis of pressure wave in gas-liquid two-phase flows by concentrated mass model.
8. Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model.
9. Two-Dimensional Acoustic Analysis by Concentrated Mass Model.
10. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
11. Satoshi ISHIKAWA, Takahiro KONDOU, Kenichiro MATSUZAKI, and Shota NAGANO, Nonlinear Pressure Wave Analysis by Concentrated Mass Model
(4th Report, Modeling of Elastic Pipe Element), Journal of System Design and Dynamics, 5, 6, 1388-1401, 2011.09.
12. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
13. Satoshi ISHIKAWA, Takahiro KONDOU and Kenichiro MATSUZAKI, Nonlinear Pressure Wave Analysis by Concentrated Mass Model
(3rd Report, Modeling of Enlargement and Contraction Element), Journal of System Design and Dynamics, 5, 1, 204-218, 2011.01.
14. Satoshi ISHIKAWA, Takahiro KONDOU and Kenichiro MATSUZAKI, Nonlinear Pressure Wave Analysis by Concentrated Mass Model
(2nd Report, Modeling and Validity Verification of Branch Element), Journal of System Design and Dynamics, 4, 4, 646-659, 2010.08.
15. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
16. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
17. Satoshi ISHIKAWA, Takahiro KONDOU and Kenichiro MATSUZAKI, Nonlinear Pressure Wave Analysis by Concentrated Mass Model
(1st Report, Suggestion and Validity Verification of Analytic Model), Journal of System Design and Dynamics, 3, 5, 827-840, 2009.10.
18. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
Presentations
1. 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, 2017.08.30.
2. Sloshing Phenomenon Analysis by Using Concentrated Mass Model.
3. Proposal of Analysis Model of Viscoelastic Damping Materia Analysis using Added Mass and Added Damping.
4. Development of Medical Applications by Vocal Tract Analysis Model.
5. Development of measurement method biological flexibility by using excitation.
6. Sloshing phenomena analysis by using concentrated mass model (Proposal of Non-linear Concentrated Mass Model).
7. Analysis of speech production by concentrated mass model.
8. Active Noise Control for Two-dimensional Acoustic Space by a Concentrated Mass Model.
9. 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, 2016.07.12.
10. 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.
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. Shotaro HISANO, Satoshi ISHIKAWA, Shinya Kijimoto, Yosuke KOBA, Model-based active noise control by a concentrated mass model, 16th Asia Pacific Vibration Conference, 2015.11.24.
13. Coupled Analysis of Two-Dimensional Acoustic and Vibration by Concentrated Mass Model.
14. Sloshing phenomena analysis by using concentrated mass model.
15. 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 , 2015.07.13.
16. ISHIKAWA Satoshi, Shinya Kijimoto, Owaki Ryoma, Matsuo, Ataru, Coupled analysis of two-dimensional acoustic and membrane vibration by concentrated mass model, Inter noise 2014, 2014.11.17.
17. Hisano Shotaro, ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Active noise control based on state feedback by a concentrated mass model, Inter noise 2014, 2014.11.17.
18. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
19. Active Noise Control Based on State Feedback by Concentrated Mass Model.
20. Coupled analysis of two dimensional acoustic and menbrane vibration by concentrated mass model.
21. Sugiki Shohei, ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Simulation of Speech Production by Concentrated Mass Model, Inter noise 2013, 2013.09.16.
22. ISHIKAWA Satoshi, Shinya Kijimoto, Yosuke KOBA, Owaki Ryoma, Mori Yuuki, Two-dimensional Acoustic Analysis by Concentrated Mass Model, Inter noise 2013, 2013.09.16.
23. Development of Measurement Technique of the Living Body Flexibility by the Indentation Test Using Concentrated Model.
24. Two-dimensional Acoustic Analysis by Concentrated Mass Model.
25. Analysis of Pressure Wave in Air-conditioner Piping System by Concentrated Mass Model.
26. Nonlinear Shallow Water Wave Analysis by Concentrated Mass Model.
27. Coupled Analysis of Two-dimensional Acoustic and Membrane Vibration by Concentrated Mass Model.
28. Simulation of Speech Production by Concentrated Mass Model.
29. 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, 2013.06.03.
30. Analysis of Pulse Wave in Blood Vessel by Concentrated Mass Model.
31. Development of Measurement Technique and Analysis Model of Living Body.
32. Two-dimensional Acoustic Analysis by Concentrated Mass Model.
33. Analysis of Nonlinear Shallow Water Wave by Concentrated Mass Model.
34. Analysis of Pressure Wave in Water by Concentrated Mass Model.
35. Analysis of Nonlinear Shallow Water Wave by Concentrated Mass Model.
36. Analysis of nonlinear pressure wave in elastic pipe by concentrated mass model.
37. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
38. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
39. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
40. Nonlinear Pressure Wave Analysis by Concentrated Mass Model.
Membership in Academic Society
  • The Japan Society of Mechanical Engineers
Educational