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In 1981, he was promoted as an associate professor in RIAM.
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In 1980, during his time as a research associate in the Research Institute for Applied Mechanics (RIAM), Kyushu University, he was awarded Doctor of Engineering. Professor Kaneko started his academic career as a research associate in Kyushu University. 1.1.1 Break Corner (Projected Rays on a Horizontal Slice)ġ.2 Advancement by Coastal Acoustic TomographyĬHAPTER 3 Sound Transmission and ReceptionĤ.5 Conversing From One-Line Current to Along-Channel CurrentĤ.6 Conversing From Two-Line Current to North_East CurrentĤ.7 Along-Strait Volume Transport and Energy EstimateĤ.8 Conversing From Sound Speed to Temperature and SalinityĤ.9 Travel-Time Errors Due to the Station MovementsĤ.10 Errors From the Time Resolution of M Sequenceĥ.1 Sound Wave Equation With a Velocity Fieldĥ.4 Time-of-Flight Equation Along the RaysĬHAPTER 6 Inversion on a Horizontal SliceĦ.4.1 Comparing the Pre- and Postinversion ResultsĦ.4.3 Direct Comparison With the Standard Oceanographic Dataħ.1.2 Layered Inversion Deleting Clock Errorsħ.2 Acoustic Normal Modes With a Constraint of Narrowband Soundħ.3 Function Expansion Using Various Normal ModesĨ.2 Time-Efficient Ensemble Kalman FilterĨ.2.1 Time-Invariant Model Error CovarianceĨ.2.2 Assimilation Scheme for Coastal Acoustic Tomography DataĬHAPTER 9 Applications for Horizontal-Slice Inversionĩ.4.7 Rotation of Tidal Currents With the Tidal Phaseĩ.5.3 Range-Average Current and Volume Transportĩ.7.5 Along-Strait Volume Transport and Energy Balanceĩ.8.6 Mapping Reconstructed Temperature Fieldsĩ.8.7 Coastal Upwelling and Diurnal Internal Tidesĩ.8.8 Sea Surface Depression Associated With UpwellingĬHAPTER 10 Applications for Vertical-Slice Inversionġ0.1.3 Identifying the First Two Arrival Peaksġ0.1.4 Range-Average Current and Temperatureġ0.1.6 Profiling the Current and Temperatureġ0.2.5 Identifying Arrival Peaks in the Received Dataġ0.2.6 Profiling the Sound Speed DeviationĬHAPTER 11 Applications for Data Assimilationġ1.2.2 Mapping Two-Dimensional Current Velocity Fieldsġ1.3.4 Mapping Two-Dimensional Current Velocity Fieldsġ1.4.3 Mapping Three-Dimensional Current Velocity andġ1.4.5 Transport Continuity and Mixing FractionsĬHAPTER 12 Modal Function Expansion With Coastline Constraintsġ2.3.4 Mapping Two-Dimensional Current Velocity Fieldsġ2.4.4 Mapping Two-Dimensional Current Velocity FieldsĬHAPTER 13 Application to Various Fields and Phenomenaġ3.1 Yearly Measurement of the Residual Currentġ3.1.6 Yearly Variations of the Observed Currentġ3.1.7 Residual Current Calculated From Upslope Point Methodġ3.2.5 Propagation of Internal-Mode Wavesġ3.4.3 Travel Times and Range-Average Temperatures for the Largestġ3.4.5 Sound Transmission Data With Multiarrival Peaksġ3.5.3 Cross-River Surveys by Shipboard Acoustic Doppler Currentġ3.5.4 Cross-River Surveys by Coastal Acoustic Tomographyġ3.6 Large Circular Tank With Omnidirectional Waves and Currentsġ3.6.5 Mapping the Two-Dimensional Current Velocity FieldsĬHAPTER 14 Mirror-Type Coastal Acoustic Tomographyġ4.2 Mirror-Type Coastal Acoustic Tomography System Designġ4.8 Compact Mirror-Type Coastal Acoustic Tomography Array