A. Hosokawa

J-GLOBAL         Last updated: Oct 15, 2019 at 15:35
 
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Name
A. Hosokawa
Affiliation
Akashi National College of Technology
Section
Department of Electrical and Computer Engineering
Job title
Associate Professor

Research Interests

 
 

Research Areas

 
 

Published Papers

 
Experimental observations of piezoelectric signals generated in cancellous bone at megahertz frequencies
A. Hosokawa
Proc. Mtgs. Acoust.      2019   [Refereed]
Observations of experimental and numerical waveforms of piezoelectric signals generated in bovine cancellous bone by ultrasound waves
A. Hosokawa
Jpn. J. Appl. phys.   57    2018   [Refereed]
Structural dependence of piezoelectric signal in cancellous bone at an ultrasound frequency
A. Hosokawa
Proc. Mtgs. Acoust.   32 32, 020001   2017
Investigation of piezoelectric anisotropy of bovine cortical bone at an ultrasound frequency by coupling an experiment and a simulation
A. Hosokawa
J. Acoust. Soc. Am.   142(2) EL184-EL189   2017   [Refereed]
A. Hosokawa
J. Acoust. Soc. Am.   140 EL441-EL445   2016   [Refereed]
A. Hosokawa
Jpn. J. Appl. Phys.   55 07KF03   2016   [Refereed]
A. Hosokawa
Jpn. J. Appl. Phys.   54 07HF06   2015   [Refereed]
S. Maruo and A. Hosokawa
Jpn. J. Appl. Phys.   53 07KF06   2014   [Refereed]
A. Hosokawa
IEEE Trans. Ferroelectr. Freq. Control   60 1030-1035   2013   [Refereed]
A. Hosokawa
J. Mech. Med. Biol.   13 135003   2013   [Refereed]
A. Hosokawa
AIP Conf. Proc.   1433 233-236   2012   [Refereed]
A. Hosokawa and Y. Nagatani
Jpn. J. Appl. Phys.   51 07GF19   2012   [Refereed]
A. Hosokawa
IEEE Trans. Ferroelectr. Freq. Control   58 1389-1396   2011   [Refereed]
A. Hosokawa
IEEE Trans. Ferroelectr. Freq. Control   57 1320-1328   2010   [Refereed]
A. Hosokawa
IEEE Trans. Ultrason. Ferroelectr. Freq. Control   56 738-747   2009   [Refereed]
A. Hosokawa
IEEE Trans. Ultrason. Ferroelectr. Freq. Control   55 1219-1233   2008   [Refereed]
A. Hosokawa
Jpn. J. Appl. Phys.   47 4170-4175   2008   [Refereed]
A. Hosokawa
Jpn. J. Appl. Phys.   46 4862-4867   2007   [Refereed]
A. Hosokawa
Ultrasonics   44 e227-e231   2006   [Refereed]
A. Hosokawa
Jpn. J. Appl. Phys.   45 4697-4699   2006   [Refereed]
Ultrasonic wave propagation in water-saturated honeycomb ceramics
A. Hosokawa
Poromechanics II   677-682   2002
A. Hosokawa and T. Otani
J. Acoust. Soc. Am.   103 2718-2722   1998   [Refereed]
A. Hosokawa, T. Otani, T. Suzaki, Y. Kubo, and S. Takai
Jpn. J. Appl. Phys.   36 3233-3237   1997   [Refereed]
A. Hosokawa and T. Otani
J. Acoust. Soc. Am.   101 558-562   1997   [Refereed]

Misc

 
Experimental observations of piezoelectric signals generated in water-saturated cancellous bone by ultrasound irradiation
A. Hosokawa
Proc. 8th Int. Symp. Ultrason. Characterization Bone   50-50   2019
Effect of pore fluid on piezoelectric signal generated in cancellous bone by ultrasound irradiation
A. Hosokawa
Proc. Symp. Ultrason. Electron.   1P5-1   2018
Frequency dependence of the piezoelectric signal generated in cancellous bone by ultrasound irradiation
A. Hosokawa
Proc. West. Pacif. Acoust. Conf. 2018   60-60   2018
Experimental and numerical observations of piezoelectric signal generated in cancellous bone by an ultrasound wave
A. Hosokawa
Proc. Symp. Ultrason. Electron.   1P5-19   2017   [Refereed]
Estimation of piezoelectric sensitivity at an ultrasound frequency in bovine cancellous bone
A. Hosokawa
Abst. 21 th Int. Bone Densitometory Workshop & 6th Eur. Symp. Ultrason. Characterization Bone   82-82   2017
Experimental observation of piezoelectric effect in cancellous bone under ultrasound irradiation
A. Hosokawa
Proc. Symp. Ultrason. Electron.   2P5-14   2016
A. Hosokawa
Proc. 2015 IEEE Int. Ultrason. Symp.   1-4   2015
Numerical simulation of piezoelectric effect under ultrasound irradiation: Consideration of the conductivity
A. Hosokawa
Proc. Symp. Ultrason. Electron.   1P5-1   2015
Finite-difference time-domain simulations of ultrasound backscattered waves in cancellous bone
A. Hosokawa
Proc. 5th Int. Conf. Develop. Biomed. Eng.   352-355   2014
A. Hosokawa
Proc. 2014 IEEE Int. Ultrason. Symp.   1328-1331   2014
Numerical simulations of piezoelectric effect under ultrasound irradiation: For analysis of piezoelectric effect of bone
A. Hosokawa
Proc. Symp. Ultrason. Electron.   35 127-128   2014
Numerical investigation of backscattered ultrasound property in cancellous bone measured on an annular receiving area
A. Hosokawa
Proc. Int. Congr. Ultrason.   P0199   2013
A generalized harmonic analysis of ultrasound waves propagating in cancellous bone," Proc. Symposium on Ultrasonic Electronics
S. maruo and A. Hosokawa
Proc. Symp. Ultrason. Electron.   34 547-548   2013
Numerical investigation of reflection properties of fast and slow longitudinal waves in cancellous bone: Variations with boundary medium
A. Hosokawa
Proc. Symp. Ultrason. Electron.   34 549-550   2013
Ultrasound backscatter measurement in cancellous bone using a membrane hydrophone
A. Hosokawa
Proc. Symp. Ultrason. Electron.   491-492   2012
Experimental study of instantaneous frequency analysis of ultrasonic propagated in cancellous bone
M. Hayashi, R. O. Tachibana, A. Hosokawa, and Y. Nagatani
Proc. Symp. Ultrason. Electron.   415-416   2011
Effect of cortical bone layer on fast and slow wave propagations in cancellous bone: Investigation using stratified models
A. Hosokawa and Y. Nagatani
Proc. Symp. Ultrason. Electron.   417-418   2011
Numerical simulation of Cancellous bone remodeling using finite difference time-domain method
A. Hosokawa
Abst. Int. Congr. Ultrason.   173-173   2011   [Refereed]
Numerical simulation of Cancellous bone remodeling using a finite-difference time domain method
A. Hosokawa
Abst. 4th Eur. Symp. Ultrason. Characterization Bone   28-28   2011   [Refereed]
Numerical investigation of ultrasound wave propagation in cancellous bone with oblique trabecular orientation
A. Hosokawa
Proc. 20th Int. Congr. Acoust.   p367   2010   [Refereed]
A. Hosokawa
Proc. 2009 IEEE Int. Ultrason. Symp.   1918-1921   2009
Ultrasound propagation paths in cancellous bone with an oblique trabecular orientation
A. Hosokawa
Proc. Symp. Ultrason. Electron.   587-588   2009
Fast and slow waves propagating through cancellous bone with porosity distribution in a propagation direction
A. Hosokawa
Abst. 3rd Eur. Symp. Ultrason. Characterization Bone   41-41   2009
Investigation of effect of trabecular microstructure on ultrasound propagation through cancellous bone using finite-difference time-domain simulations
A. Hosokawa
Proc. Acoustics'08   5189-5194   2008
Introduction of "digital elastic body of human body" for 3-D FDTD simulation –Elastic wave propagation in human body
Y. Nagatani, A. Hosokawa, T. Sakaguchi, M. Matsukawa, and Y. Watanabe
Proc. Symp. Ultrason. Electron.   471-472   2008
Influence of trabecular elements on fast and slow wave propagations in oblique directions to layers of a stratified trabecular phantom
A. Hosokawa
Proc. Symp. Ultrason. Electron.   469-470   2008
A. Hosokawa
Japanese Journal of Applied Physics   47(5) 4170-4175   2008
A. Hosokawa
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control   55(6) 1219-1233   2008
Finite-difference time-domain simulation of ultrasound wave propagations through cancellous bone with various trabecular structures
A. Hosokawa
Proc. 19th Int. Congr. Acoust.   ULT-17-020   2007
Influence of trabecular elements on fast and slow wave propagations through a stratified trabecular phantom
A. Hosokawa
Proc. Symp. Ultrason. Electron.   269-270   2007
Development of a simplified trabecular model and ultrasound simulationin cancellous bone
A. Hosokawa
Abst. 2nd Eur. Symp. Ultrason. Characterization Bone   41-41   2007
A. Hosokawa
Japanese Journal of Applied Physics   46(7B) 4862-4867   2007
Fast and slow wave propagations in cancellous bone using elastic and Biot's finite-difference time-domain methods
A. Hosokawa
Proc. 9th West. Pacif. Acoust. Conf.   401   2006
Effect of trabecular irregularity on fast and slow wave propagations in cancellous bone
A. Hosokawa
Proc. Symp. Ultrason. Electron.   297-298   2006
Simulation of ultrasonic pulse waves propagating through cancellous bone using three-dimensional trabecular models
A. Hosokawa
Abst. 1st Eur. Symp. Ultrason. Characterization Bone   19-19   2006
A. Hosokawa
Japanese Journal of Applied Physics   45(5B) 4697-4699   2006
Observation of ultrasonic pulse waves propagating through cancellous bone phantoms
A.Hosokawa
Proc. Symp. Ultrason. Electron.   5-6   2005
Ultrasonic pulse waves in cancellous bone analyzed by finite difference time domain method
A. Hosokawa
Abst. World Congr. Ultrason. – Ultrason. Int. 2005   24-25   2005
Ultrasonic pulse waves propagating through water-saturated honeycomb ceramics
A. Hosokawa
Proc. 18th Int. Congr. Acoust.   II(1611) 1614   2004
Effects of the structural anisotropy and the porosity on ultrasonic wave propagation in bovine cancellous bone
T. Otani and A. Hosokawa
Proc. 16th Int. Congr. Acoust.   IV 2505-2506   1998
Influence of viscosity of saturated fluid in cancellous bone on ultrasonic wave propagation
E. F.- Blanc, A. Hosokawa, and T. Otani
Tech. Rep. IEICE   US96-89 1-8   1997   [Refereed]
Ultrasonic wave propagation in bovine cancellous bone
A. Hosokawa and T. Otani
Proc. 15th Int. Congr. Acoust.   I 361-364   1995

Books etc

 
Bone Quantitative Ultrasound
A. Hosokawa, Y. Nagatani, and M. Matsukawa (Part:Contributor, Chap. 11)
Springer   2010   

Conference Activities & Talks

 
Discrimination of molten marks on electrical wires using an ultrasonic wave
K. Tachibana and A. Hosokawa
20 Mar 2019   
Observation of a Piezoelectric Signal Generated in Water-Saturated Cancellous Bone
A. Hosokawa
20 Mar 2019   
Investigation on electrodes of ultrasonic sensor using cancellous bone as a piezoelectric oscillator
I. Kabeshita and A. Hosokawa
21 Mar 2018   
Observation of a piezoelectric signal in cancellous bone generated by ultrasound irradiation
A. Hosokawa
22 Mar 2017   
Finite-difference time-domain simulations of piezoelectric effect in bone under ultrasound irradiation [Invited]
A. Hosokawa
5th Joint Meeting Acoust. Soc. Am. & Acoust. Soc. Jpn.   2016   
Numerical simulation of piezoelectric effect induced by ultrasound irradiation [Invited]
A. Hosokawa
9 Feb 2015   
Numerical investigation of fast and slow longitudinal waves backscattered from various depths inside cancellous bone [Invited]
A. Hosokawa
169th Meeting Acoust. Soc. Am.   2015   
Investigation of effect of trabecular microstructure on ultrasound propagation through cancellous bone using finite-difference time-domain simulations
Acoustics'08   2008   
Finite-difference time-domain simulation of ultrasound wave propagations through cancellous bone with various trabecular structures
The 19th International Congress on Acoustics   2007   
Development of a simplified trabecular model and ultrasound simulation in cancellous bone
2nd European Symposium on Ultrasonic Characterization of Bone   2007   

Research Grants & Projects

 
Ultrasonic wave propagation in bone
Cooperative Research
Ultrasonic wave propagation in a porous medium
The Other Research Programs
Numerical simulation of ultrasonic wave propagation
The Other Research Programs
Ultrasonic sensor
The Other Research Programs