Toshihiro Ogino scite author profile

An experimental technique for reconstructing the received wave of bender element tests based on linear system theory is shown in this paper. In order to identify the frequency response of testing apparatus, bender element tests using frequency-swept signals are performed. Received waves for one-period sine pulse transmitting with various frequencies are calculated and compared with observed waves in several kinds of soil samples and testing apparatuses. The linearity of the testing system is also conˆrmed by coherence function. It is shown that calculated data are less aŠected by random noise and show good agreement with observed data in regards to not only waveform itself but also resulting shear wave velocity. It is mentioned that this technique can provide simulations for arbitrary transmitted waveform with high signal/noise ratio after laboratory tests are performed. It is also mentioned that this technique is advantageous when su‹cient amplitude of received wave cannot be ensured or shear wave velocity must be veriˆed, for example, due to uncertainty of arrival time by near-ˆeld eŠect.

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Strength Characteristics of Highly Organic Soil Obtained by Direct Shear Tests

Ogino¹,

Mitachi²

2002

Doboku Gakkai Ronbunshu

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Identification method for travel time based on the time domain technique in bender element tests on sandy and clayey soils

Kawaguchi

Ogino

Kawajiri

2016

Soils and Foundations

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Velocity Profiles in the Shallow Lunar Subsurface Deduced from Laboratory Measurements with Simulants

et al. 2016

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Correlation between motion of source bender element and feedback signal induced by self-monitoring

Ogino

2021

Soils and Foundations

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Deformation and Strength Characteristics of Cohesive Soil Obtained by Consolidated Constant Volume Direct Shear Test

Ogino¹,

Mitachi²,

Shibuya³

2001

Doboku Gakkai Ronbunshu

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Influence of Deviatoric Yield Curve upon Plastic Deformation Behaviour in Soil

Moritoki¹,

Ogino²,

Igarashi³

2008

Trans.JSME, Ser.A

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Toshihiro Ogino

Measurement deviations for shear wave velocity of bender element test using time domain, cross-correlation, and frequency domain approaches

A Method for Received Waveform Reconstruction Based on Bender Element Test Using Frequency-swept Signal

Strength Characteristics of Highly Organic Soil Obtained by Direct Shear Tests

Identification method for travel time based on the time domain technique in bender element tests on sandy and clayey soils

Velocity Profiles in the Shallow Lunar Subsurface Deduced from Laboratory Measurements with Simulants

Correlation between motion of source bender element and feedback signal induced by self-monitoring

Deformation and Strength Characteristics of Cohesive Soil Obtained by Consolidated Constant Volume Direct Shear Test

Influence of Deviatoric Yield Curve upon Plastic Deformation Behaviour in Soil

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