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11 results on '"Kenji Furihata"'

1. Natural resonance frequency of the brain depends on only intracranial pressure: clinical research

Author

Kenji Furihata, Kazuhiro Hongo, and Tetsuya Goto

Subjects
Adult, Male, medicine.medical_specialty, Intracranial Pressure, Body height, Neurophysiology, lcsh:Medicine, Blood Pressure, Pulse Wave Analysis, 030204 cardiovascular system & hematology, Models, Biological, Article, Natural resonance, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Pulse waveform, Pressure waveform, Internal medicine, medicine, Humans, lcsh:Science, Aged, Intracranial pressure, Multidisciplinary, Medical treatment, integumentary system, business.industry, musculoskeletal, neural, and ocular physiology, lcsh:R, Brain, Respiratory modulation, Middle Aged, humanities, nervous system diseases, Experimental models of disease, Carotid pulse, Carotid Arteries, Blood pressure, Negative peak, Cardiology, Intracranial pressure monitoring, Female, lcsh:Q, business, Algorithms, 030217 neurology & neurosurgery
Abstract

The need to understand and control intracranial pressure (ICP) is required for treatments in various clinical situations. The ICP value can only be measured by direct intracranial catheter or sensor placement, and a non-invasive ICP prediction method has not yet been established. We focused on the natural resonance frequency (NRF) of the brain to predict the ICP value. The ICP value, pulse waveform of intracranial pressure (PWICP) and cervical carotid pressure waveform (CCPW) were simultaneously collected from patients who had undergone ventricular drainage or ICP sensor placement for medical treatment in our institute. A total of 43 data were obtained from 27 patients, age ranged 14-48 (mean: 54) years, body height 137-187 (mean 163) cm and body weight 32-103 (mean 61) kg. The total measured time was 29,653 seconds and the measured mean ICP value in each data ranged from 3.82 to 69.39 (mean 25.9) hPa. Consecutive data was cut into 10.24 seconds, which was called a "column". To decrease respiratory modulation, the largest positive peak of cardiac pulsation of CCPW was picked up in each column, as well as one ICP pulse waveform. The picked-up CCPW and PWICP were averaged by the weighted average method. The transfer characteristics from CCPW to PWICP were calculated by the transfer function method. The first initial negative peak of transfer characteristics was judged as the NRF of the brain. The relationship between the ICP value and the NRF of the brain was presented on the quadratic functions graph (ICP = 0.0329(NRF)2 + 0.0842NRF). These parameters were strongly correlated to each other (R2= 0.9952 coefficient of determination). The individual NRF, which was calculated by the transfer function method, only depends on the measured ICP value and their relationship can be presented in the simple quadratic functions. Funding: This research was funded by Japan Science and Technology Agency (JST) A-STEP feasibility study in 2012, and by Japan's New Energy and Industrial Technology Development Organization (NEDO) in 2013, and by Grants-in-Aid for scientific research in Ministry of Education, Culture, Sports, Science and Technology-Japan from 2015 to 2017 and 2018 to 2020. Receiver: Kenji Furihata. Declaration of Interest: Although the authors (T.G., K.F. and K.H.) have some patents of non-invasive intracranial pressure monitoring apparatus, the claim of the patents belong to affiliated university not to individuals. All of authors had already opened their COI disclosure in Japanese Neurosurgical Society. The authors have no personal financial or institutional interest in any of the drugs, materials, or devices described. Our proposing theory is a quite new concept. We strongly believe that there is nothing to competing interest declaration. Ethical Approval: The simultaneous measurement of intracranial pressure and cervical carotid artery pressure waveform was approved by Ethical Committee of Shinshu University School of Medicine. “Development of non-invasive intracranial pressure monitoring” approved number 2343.

Published
2020

2. Transfer function for vital infrasound pressures between the carotid artery and the tympanic membrane

Author

Masato Yamashita and Kenji Furihata

Subjects
Adult, Male, medicine.medical_specialty, Time Factors, Tympanic Membrane, Acoustics and Ultrasonics, Stethoscope, Respiratory rate, Acoustics, Posture, Pulsatile flow, Models, Biological, law.invention, Young Adult, Respiratory Rate, Arts and Humanities (miscellaneous), Heart Rate, Risk Factors, law, Internal medicine, Heart rate, Transducers, Pressure, medicine, Humans, Arterial Pressure, Ear canal, Respiratory system, Fourier Analysis, Cardiac cycle, business.industry, Stethoscopes, Discriminant Analysis, Middle Aged, Occupational Diseases, Atmospheric Pressure, Carotid Arteries, medicine.anatomical_structure, Blood pressure, Cardiology, Regression Analysis, Female, business
Abstract

While occupational injury is associated with numerous individual and work-related risk factors, including long working hours and short sleep duration, the complex mechanisms causing such injuries are not yet fully understood. The relationship between the infrasound pressures of the tympanic membrane [ear canal pressure (ECP)], detected using an earplug embedded with a low-frequency microphone, and the carotid artery [carotid artery pressure (CAP)], detected using a stethoscope fitted with the same microphone, can be quantitatively characterized using systems analysis. The transfer functions of 40 normal workers (19 to 57 years old) were characterized, involving the analysis of 446 data points. The ECP waveform exhibits a pulsatile character with a slow respiratory component, which is superimposed on a biphasic recording that is synchronous with the cardiac cycle. The respiratory ECP waveform correlates with the instantaneous heart rate. The results also revealed that various fatigue-related risk factors may affect the mean magnitudes of the measured pressures and the delay transfer functions between CAP and ECP in the study population; these factors include systolic blood pressure, salivary amylase activity, age, sleep duration, postural changes, chronic fatigue, and pulse rate. [https://doi.org/10.1121/1.4773270], Article, JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA. 133(2):1169-1186 (2013)

Published
2013

3. Predicting Acceptable Noise Levels from the Annoyance and Noise Sensitivity

Author

Kenji Furihata

Subjects
Correlation, Noise, Acoustics and Ultrasonics, Discriminant, Linear regression, Statistics, Noise sensitivity, Annoyance, Regression analysis, Categorical variable, Music, Mathematics
Abstract

In a recent paper [Acta Acustica united with Acustica 93 (2007) 73―83] [1], an experimental noise annoyance meter was proposed for estimating acceptable noise levels, L Aeq7 . In this experiment, the subjects were able to relate the value of L AeqT to the differences between the seven-point annoyance scale scores displayed. Therefore, they directly gave the value of L AeqT for their acceptable threshold. This study investigated whether each acceptable L Ae q T level can be predicted from the annoyance and noise sensitivity. First, multiple regression models for each outdoor noise source were constructed to predict the annoyance from L Ae q T and the noise sensitivity based on the data collected in and around the city of Nagano. The regression models were used to determine whether each outdoor noise was over or under the acceptable threshold, which was defined as the midpoint between the scores "a little annoying" and "somewhat annoying." The correlation between the experimental results using a separate sample of residents from other prefectural capital cities in Japan and the predictions by the regression models was 0.703. Also, the discriminant models were used to classify cases by their values of a categorical dependent, where correlation with the proposed models was 0.837, indicating that the discriminant models are valid.

Published
2010

4. A three-dimensional sound intensity measurement system for sound source identification and sound power determination by ln models

Author

Shiho Nagata, David K. Asano, Takesaburo Yanagisawa, Kenji Furihata, and Tomohiro Wada

Subjects
Physics, Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Microphone, Acoustics, Sound intensity probe, Acoustic source localization, Acoustic wave, Sound power, Sound pressure, Sound speed gradient, Sound intensity
Abstract

This paper describes a full vector intensity probe which advances the field of sound intensity and sound source direction estimation using six matched rotating and variable directional microphones. The probe has three pairs of microphones at an equal spacing of 30 mm that are set up in each of the x, y, and z directions and share the same observation point. The calibration method using the rotating microphone system is effective to correct position errors in the y- and z-axes microphone pairs. Sound intensity measurements using the variable directional microphone method can locate with accuracy a sound source, i.e., the structure parts radiating most acoustic energy. The system can find the maximum sound intensity level and beamwidth of the major lobe, and the peak sound intensity levels of the minor lobes. Therefore, a procedure for sound power determination based on minimum measurement data is theoretically and experimentally discussed. Consequently, it is possible to reconstruct only parts of the system emitting the most noise and measure efficiently the sound power level.

Published
2005

5. Acoustic characteristics of an electrodynamic planar digital loudspeaker using noise shaping technology

Author

Takesaburo Yanagisawa, David K. Asano, Kenji Furihata, and Atsushi Hayama

Subjects
Sound recording and reproduction, Signal processing, Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Dynamic range, Computer science, Acoustics, Linearity, Digital signal, Loudspeaker, Electrodynamic loudspeaker, Noise shaping
Abstract

The present study extends our previous work [Furihata et al., J. Acoust. Soc. Am. 114, 174-184 (2003)] by investigating our electrodynamic planar loudspeaker when driven by a 12 bit digital signal with noise shaping. Changing the structure of the loudspeaker can lead to improvement, but in this paper improvements that can be made using signal processing are investigated. Results show that the digital loudspeaker demonstrated good linearity over its 84 dB dynamic range from 40 Hz to 10 kHz. This shows that a 12 bit digital loudspeaker which is equivalent to a 16 bit one is possible.

Published
2005

6. The acoustics of Japanese wooden drums called 'mokugyo'

Author

Atsuyoshi Yuasa, Takesaburo Yanagisawa, Masahiro Sunohara, David K. Asano, and Kenji Furihata

Subjects
Vibration, Musical acoustics, Physics, Bass (sound), Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Acoustics, Musical instrument, Loudspeaker, Impact, Timbre, Sound intensity
Abstract

A drumlike traditional Japanese instrument, the mokugyo, is experimentally discussed. First, the acoustic characteristics of 176 mokugyos with diameters ranging from 7.5 to 120 cm and three drumsticks were measured. Results show that (a) the sound spectra consist of two common peaks [F1 (Hz): first peak frequency, F2 (Hz): second peak frequency] close together, with an average ratio (F2/F1) of 1.15, and (b) a drumstick beating the mokugyo is translated into an impact force applied over a period of time from 1 to 6 ms related to the mass and stiffness of the material wrapped around the tip of the drumstick. Second, to evaluate the acoustic response of a mokugyo in the final tuning process, the mechanical and acoustical analogy between the mokugyo and a bass reflex loudspeaker is theoretically and experimentally discussed. Results show that the model can be estimated within a relative error of 0.52% from the mass of wood chips. Finally, from a psychological experiment, the timbre of the mokugyo shows higher scores on psychological scales' when the ratio (F2/F1) becomes 1.15.

Published
2005

7. Acoustic characteristics of an electrodynamic planar digital loudspeaker

Author

Kenji Furihata, Atsushi Hayama, David K. Asano, and Takesaburo Yanagisawa

Subjects
Physics, Frequency response, Acoustics and Ultrasonics, Diaphragm (acoustics), Frequency band, Dynamic range, Acoustics, Electrostatic loudspeaker, computer.file_format, Analog signal, Arts and Humanities (miscellaneous), Loudspeaker, Pulse-code modulation, computer
Abstract

In this paper, an electrodynamic planar loudspeaker driven by a digital signal is experimentally discussed. The digital loudspeaker consists of 22 voice coils, 11 permanent magnets, a diaphragm with streamlined sections molded in plastic, and a suspension made of handmade Japanese paper between the diaphragm and the frame. First, the acoustic responses are affected by the arrangement of the voice coils, so an asymmetric arrangement is studied. This asymmetric arrangement is designed to obtain as flat a frequency response to an analog signal as possible. This arrangement is compared with a symmetric one and results show that the flatness of the frequency response around 1 kHz and 4 kHz is improved and that the sound reproduction band is from 40 Hz to 10 kHz. Second, to evaluate the acoustic responses to a digital signal, the digital loudspeaker is driven with a pulse code modulation signal. Results show that the digital loudspeaker can reproduce pure sound with a total harmonic distortion of less than 5% from 40 Hz to 10 kHz, exceeding this value only in a narrow frequency band near 4 kHz. This digital loudspeaker was demonstrated to have good linearity over its dynamic range of 84 dB.

Published
2003

8. 'Hues' sound level meter based on noise-rating scale composed of five-hue scale and equivalent continuous a-weighted sound pressure level and its usefulness

Author

Kenji Furihata and Takesaburo Yanagisawa

Subjects
geography, geography.geographical_feature_category, Scale (ratio), Acoustics, Speech recognition, A-weighting, Noise, Electrical and Electronic Engineering, Sound level meter, Sound pressure, Sound (geography), Mathematics, Hue, Decibel
Abstract

The noise level and the effective noise level used for noise evaluation are physical indices and generally are not understood. It is believed that the understanding of such physical indices can be enhanced if one can realize a sound level meter which can display directly the relationship of the psychological effect by the noise with the measured decibel scale. From this point of view, this paper first evaluates in a laboratory experiment the relationship between the hue level expressing the psychological effect and the effective sound level. According to the obtained noiserating scale, the five-hue scale, “red, purple, yellow, green, blue” and the effective noise level correlate well. Next, a new sound level meter including the obtained noise-rating scale (to be called the hue sound level meter) and the existing sound level meter displaying only the measured value were compared at the actual measurement site. From the comparison, it was found that the hue sound level meter has better visual display and the display represents the auditory sense. From the foregoing results, it is possible to promote general understanding of the physical index.

Published
1995

9. A logistic prediction model for individual allowable noise levels

Author

Kenji Furihata

Subjects
Adult, Male, Acoustics and Ultrasonics, Scale (ratio), Adolescent, Annoyance, Community action, Logistic regression, Models, Biological, Risk Assessment, Young Adult, Arts and Humanities (miscellaneous), Japan, Predictive Value of Tests, Noise assessment, Surveys and Questionnaires, Statistics, Humans, Statistical analysis, Child, Mathematics, Noise pollution, Reproducibility of Results, Environmental Exposure, Middle Aged, Noise, Affect, Logistic Models, Acoustic Stimulation, Attitude, Auditory Perception, Female, Psychoacoustics
Abstract

Annoyance to noise is probably a good measure of the potential for complaint and community action. Each individual's degree of annoyance to noise cannot be accurately predicted from conventional laboratory studies and social surveys. Therefore, a logistic prediction model for individual allowable noise levels has been developed. In a previous paper [K. Furihata et al., Acta Acust. Acust. 93, 73-83 (2007)], an annoyance scale using the most frequently used annoyance ratings related to noise for community noise assessment in Japan was constructed. The dose-response relationships were obtained by actually listening to sounds in a field situation (1474 subjects) carried out at 14 metropolitan cities in Japan. The logistic prediction model was developed using the logistic regression parameters estimated from each cumulative percentage curve of seven annoyance scale scores based on all data (n=2940). To verify the hypothesis, individual relationships between annoyance and L(Aeq, (5 min)) for 24 normal-hearing subjects were constructed using a laboratory experiment. The main conclusion drawn from the results is that if at least one dose-response relation is obtained from each subject, the model can predict whether a sound is annoying or not from its L(Aeq,(5 min)) value. Moreover, validation of the model is needed in a field situation.

Published
2009

11. The application of a noise‐rating scale composed of hue‐scale and LAeq on various kinds of noise sources for noise map

Author

Kenji Furihata and Takesaburo Yanagisawa

Subjects
Acoustics and Ultrasonics, Scale (ratio), business.industry, Noise map, Annoyance, Moment (mathematics), Noise, Optics, Arts and Humanities (miscellaneous), Colored, Statistics, business, Environmental noise, Mathematics, Hue
Abstract

In addition to reporting the results of measurements of existing environmental noise and the results of calculations of noise from projected activities, the application of color for representing in terms of noise zones may be useful (ISO 1996‐2). Between color and noise, in spite of differences, there exists an interaction, although the connection between the visible and the audible expression is subjective. Subjectivity can in a given moment become objective, if one succeeds in unifying the visible and the audible. In the case of colored paper on a white background, the relation between the hue level expressing the psychological effect (annoyance) and LAeq(5min) (dB) of typical noise sources was discussed in a laboratory experiment. According to the obtained noise‐rating scale, the seven‐hue scale and LAeq(5min) are correlated well (r=0.874) as follows: white (value V9; not at all bothersome) ⇔ below 26 dB, light blue (hue 2.5B, value 8/chrome 4; not bothersome) ⇔ 26 to 37 dB, light green (2.5BG, 7/8; no...

Published
2000

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