Book:
Kaneko, A., X.-H. Zhu and J. Lin, Coastal Acoustic Tomography. Elsevier, Amsterdam, Netherlands, ISBN:978-0-12-818507-0, 347pp, 2020.
Kaneko, A., X.-H. Zhu and J. Lin, Coastal Acoustic Tomography. Elsevier, Amsterdam, Netherlands, ISBN:978-0-12-818507-0, 347pp, 2020.

Coastal Acoustic Tomography - 1st Edition
Authors: Arata Kaneko Xiao-Hua Zhu Ju Lin
Paperback ISBN: 9780128185070
eBook ISBN: 9780128189429
Imprint: Elsevier
Published Date: 7th February 2020
Description
Coastal Acoustic Tomography begins with the specifics required for designing a Coastal Acoustic Tomography (CAT) experiment and operating the CAT system in coastal seas. Following sections discuss the procedure for data analyses and various application examples of CAT to coastal/shallow seas (obtained in various locations). These sections are broken down into four kinds of methods: horizontal-slice inversion, vertical-slice inversion, modal expansion method and data assimilation. This book emphasizes how dynamic phenomena occurring in coastal/shallow seas can be analyzed using the standard method of inversion and data assimilation. The book is relevant for physical oceanographers, ocean environmentalists and ocean dynamists, focusing on the event being observed rather than the intrinsic details of observational processes. Application examples of successful dynamic phenomena measured by coastal acoustic tomography are also included.
Key Features
Content
Chapter 1 - Fundamental Knowledge
Chapter 2 - Instrumentation
Chapter 3 - Sound Transmission and Reception
Chapter 4 - Range-Average Measurement
Chapter 5 - Forward Formulation
Chapter 6 - Inversion on a Horizontal Slice
Chapter 7 - Inversion on a Vertical Slice
Chapter 8 - Data Assimilation
Chapter 9 - Applications for Horizontal-Slice Inversion
Chapter 10 - Applications for Vertical-Slice Inversion
Chapter 11 - Applications for Data Assimilation
Chapter 12 - Modal Function Expansion With Coastline Constraints
Chapter 13 - Application to Various Fields and Phenomena
Chapter 14 - Mirror-Type Coastal Acoustic Tomography
Coastal Acoustic Tomography begins with the specifics required for designing a Coastal Acoustic Tomography (CAT) experiment and operating the CAT system in coastal seas. Following sections discuss the procedure for data analyses and various application examples of CAT to coastal/shallow seas (obtained in various locations). These sections are broken down into four kinds of methods: horizontal-slice inversion, vertical-slice inversion, modal expansion method and data assimilation. This book emphasizes how dynamic phenomena occurring in coastal/shallow seas can be analyzed using the standard method of inversion and data assimilation. The book is relevant for physical oceanographers, ocean environmentalists and ocean dynamists, focusing on the event being observed rather than the intrinsic details of observational processes. Application examples of successful dynamic phenomena measured by coastal acoustic tomography are also included.
Key Features
- Provides the information needed for researchers and graduate students in physical oceanography, ocean-fluid dynamics and ocean environments to apply Ocean Acoustic Tomography (OAT) to their own fields
- Presents the benefits of using acoustic tomography, including less disturbance to aquatic environments vs. other monitoring methods
- Includes the assimilation of CAT data into a coastal sea circulation model, a powerful tool to predict coastal-sea environmental changes
Content
Chapter 1 - Fundamental Knowledge
Chapter 2 - Instrumentation
Chapter 3 - Sound Transmission and Reception
Chapter 4 - Range-Average Measurement
Chapter 5 - Forward Formulation
Chapter 6 - Inversion on a Horizontal Slice
Chapter 7 - Inversion on a Vertical Slice
Chapter 8 - Data Assimilation
Chapter 9 - Applications for Horizontal-Slice Inversion
Chapter 10 - Applications for Vertical-Slice Inversion
Chapter 11 - Applications for Data Assimilation
Chapter 12 - Modal Function Expansion With Coastline Constraints
Chapter 13 - Application to Various Fields and Phenomena
Chapter 14 - Mirror-Type Coastal Acoustic Tomography
CAT papers:
38) Hanifa, A. D., F. Syamsudin, C.-Z. Zhang, H. Mutsuda, M. Chen, X.-H. Zhu, A. Kaneko, N. Taniguchi, G. Li, Z.-N. Zhu and N. Gohda, Tomographic measurement of tidal current and associated 3-h oscillation in Bali Strait. Estuary, Coastal and Shelf Science, 236, https://doi.org/10.1016/j.ecss.2020.106655, 2020.
37) Chen, M., Z.-N. Zhu, C.-Z. Zhang, X.-H. Zhu, M. Wang, X.-P. Fan, R.-X. Zhao, J. Lin and A. Kaneko, mapping current fields in a bay using a coast-fitting tomographic inversion. Sensors, 20(2), 558, doi:10.3390/s20020558, 2020.
36) Huang, H.-C., Y. Guo, Z.-K. Wang, Y. Shen and Y. Wei, Water temperature observation by coastal acoustic tomography in artificial upwelling area. Sensors, 19, 2655, doi:10.3390/ s19122655, 2019.
35) Huang, C-F., Y-W. Li and N. Taniguchi, Mapping of ocean currents in shallow water using moving ship acoustic tomography. J. Acoust. Soc. Am., 145(2), 858-868, 2019.
34) Shen, Y., C.-Z. Zhang, L. Huang, C.-Y. Zhang, Y.-P. Wu, G. Wu,
C.-W. Sheng, Y. Guo, Z.-K. Wang, X. Liu and H.-C. Huang, Flow
velocity and temperature measuring in large-scale wave-current
flume by coastal acoustic tomography. OCEANS 2018, MTS/IEEE, Charleston, doi:10.1109/OCEANS.2018.8604626, 2018.
33) Taniguchi, N., C.-F. Huang, M. Arai and B. M. Howe, Variation of
residual current in the Seto Inland Sea driven by sea level difference
between the Bungo and Kii Channels. J. Geophys. Res. Oceans,
32) Chen, M., A. Kaneko, J. Lin and C.-Z. Zhang, Mapping of a typhoon-driven coastal upwelling by assimilating coastal acoustic tomography data, J. Geophys. Res.-Oceans, 122 (10), https://doi.org/10.1002/2017JC012812, 2017.
31) Zhang, C.-Z., X.-H. Zhu, Z.-N. Zhu, W. Liu, Z. Zhang, X.-P. Fan, R.-X. Zhao, M.-H. Dong and M. Wang, High-precision measurement of tidal current structures using coastal acoustic tomography. Estuarine, Coastal and Shelf Science, 193, 12-24, 2017.
30) Syamsudin, F., M. Chen, A. Kaneko, Y. Adityawarman,
H. Zheng, H. Mutsuda, A. D. Hanifa, C.-Z. Zhang, G. Auger, J. C. Wells and X.-H. Zhu,, Profiling measurement of internal tides in Bali Strait by reciprocal sound transmission, Acoust. Sci. & Tech, 38(5), 246-253, 2017
29) Zhu, Z.-N., X.-H. Zhu, X. Guo, X. Fan and C.-Z. Zhang, Assimilation of coastal acoustic tomography data using an unstructured triangular grid ocean model for water with complex coastlines and islands. J. Geophys. Res. Oceans, 122, doi:10.1002/2017JC012715, 2017.
28) Zhang, C.-Z., A. Kaneko, X.-H. Zhu and N. Gohda, Acoustic measurement of the net transport through the Seto Inland Sea, Acoust. Sci. & Tech, 37 (1), 10-20, 2016.
27) Huang, C-F., N. Taniguchi, Y-H. Chen and J-Y. Liu, Estimating temperature and current using a pair of transceivers in a harbor environment. J. Acoust. Soc. Am., 140(1), EL137-EL142, 2016.
26) Zhu, Z.-N, X.-H. Zhu, X. Guo, Coastal tomographic mapping of nonlinear tidal currents and residual currents. Cont. Shelf Res.,143, 219-227, 2016.
25) Razaz, M., K. Kawanisi, A. Kaneko and I. Nistor, Application of acoustic tomography to reconstruct the horizontal flow velocity field in a shallow river, Water Resources Research, doi: 10.1002/2015WR017102, 2015.
24) Zhang, C.-Z., A. Kaneko, X.-H. Zhu and N. Gohda, Tomographic mapping of a coastal upwelling and the associated diurnal internal tides in Hiroshima Bay, Japan. J. Geophys. Res., 120(6), 4288-4305,doi: 10.1002/2014JC010676, 2015.
23) Zhu, X.-H, Z.-N. Zhu, X. Guo, Y.-L. Ma, X. Fan, M.-H. Dong and C.-Z. Zheng, Measurement of tidal and residual currents and volume transport through the Qiongzhou Strait using coastal acoustic tomography. Cont. Shelf Res., 108, 65—75, 2015.
22) Taniguchi, N. and C.-F. Huang, Simulated tomographic reconstruction of ocean current profiles in a bottom-limited sound channel, J. Geophys. Res., 4999-5016, doi:10.1002/2014JC009885, 2014.
21) Taniguchi, N., C-F. Huang, A. Kaneko, B. M. Howe, Y-H. Wang, Y. Yang, J. Lin, X-H. Zhu and N. Gohda, Measuring the Kuroshio Current with ocean acoustic tomography, J. Acoust. Soc. Am.,
134(4), Pt.2, October 2013.
20) Zhu, X.-H. A. Kaneko, Q.-S. Wu, C.-Z. Zhang, N. Taniguchi, and N. Gohda, Mapping Tidal Current Structures in Zhitouyang Bay, China, using Coastal Acoustic Tomography, IEEE J. Oceanic Eng., 28 (2), 285-296, 2013.
19) Zhu, X.-H., C.-Z. Zhang, Q.-S. Wu, A. Kaneko, X.-P. Fan and B. Li, Discharge measurement in a river with tidal bores by the coastal acoustic tomography system, Estuarine, Coastal and Shelf Science,104-105, 54-65, doi:10.1016/j.ecss. 2012.03.022, 2012.
18)Adityawarman, Y., A. Kaneko, N. Taniguch, H. Mutsuda, K. Komai, X. Guo, N. Gohda, Tidal current measurement in the Kurushima Strait by the reciprocal sound transmission method, Acoustical Science and Engineering, 33(1), 45-51, 2012.
17) Adityawarman, Y., A. Kaneko, N. Taniguchi, H. Mutsuda, N. Gohda, Reciprocal sound transmission measurement of the 5-day temperature variation in the Kurushima Strait, Acoustical Science and Engineering, Acoustical Letter, 33(1), 59-63, 2012.
16) Adityawarman, Y., A. Kaneko, K. Nakano, N. Taniguchi, K. Komai, X. Guo, and N. Gohda, Reciprocal sound transmission
measurement of mean current and temperature variations in the central part (Aki-nada) of the Seto Inland Sea, Japan, J. Oceanogr., 67, 173-182, doi 10.1007/s 10872-011-0016-5, 2011.
15)Taniguchi, N., A. Kaneko, Y. Yuan, N. Gohda, H. Chen, G.-H. Liao, C.-H Yang, M. Minamidate, Y. Adityawarman, X.-H. Zhu and J. Lin, Long-term acoustic tomography measurement of ocean currents at the northern part of the Luzon Strait, Geophysical Research Letters, 37, L07601, doi:10.1029/2009GL042327, 2010.
14) Kawanisi, K., M. Razaz, A. Kaneko and S. Watanabe: Long-term measurement of stream flow and salinity in a tidal river by the use of the fluvial acoustic tomography system, J. Hydrology, 380(1-2), 74-81, doi: 10.1016/j.jhydrol.2009.10.024, 2010.
13) Kawanisi, K., A. Kaneko, S. Nigo, M. Soltaniasl, and M. F. Maghrebi, New acoustic system for continuous measurement of river discharge and water temperature, Water Science and Engineering, 3(1), 47-55, 2010.
12) Nguyen, H., A. Kaneko, J. Lin, K. Yamaguchi, N. Gohda and Y. Takasugi: Acoustic Measurement of Multi Sub-Tidal Internal Modes Generated in Hiroshima Bay, Japan、IEEE Journal of Oceanic Engineering, 34(2), 103-112, 2009.
11) Kiyoshi Kawanisi, Arata Kaneko, Mahdi Razaz, Tohru Abe: Measurement of cross-sectional average velocity in a shallow tidal river with a next-generation acoustic velocity meter, Proc. the 3rd IAHR-ISHS Symposium, 5, 1973-1977, 2008.
10) Kawanisi, K., Watanabe, S., Kaneko, A. and Abe, T., Continuous measurement of flood flow and cross-sectional average salinity in the Ota diversion channel with fluvial acoustic tomography. Annual Journal of Hydraulic Engineering-JSCE, 54, 1081-1086, 2010.
9) Kawanisi, K., Kaneko, A., Nigo, S., Soltani, M. and Maghrebi, M.F., New acoustic system for continuous measurement of river discharge and water temperature. Water Science and Engineering, 3(1): 47-55, 2010.
8) Lin, J., A. Kaneko, N. Gohda and K. Yamaguchi; Accurate imaging and prediction of Kanmon Strait tidal current structures by the coastal acoustic tomography data, Geophys. Res. Lett., 32, L14607, doi:10.1029/2005GL022914, 2005.
7) Kaneko, A., K. Yamaguchi, T. Yamamoto, N. Gohda, H. Zheng, Fadli Syamsudin, Ju Lin, Hong-Quang Nguyen, Masaji Matsuyama, Hiroyuki Hachiya and Noriaki Hashimoto: A coastal acoustic tomography experiment in Tokyo Bay, Acta Oceanologica Sinica, 24(1), 86-94, 2005.
6) Yamaguchi, K., J. Lin, A. Kaneko, T. Yamamoto, N. Gohda, H-Q. Nguyen and H. Zheng, A continuous mapping of tidal current structures in the Kanmon Strait, J. Oceanogr., 61, 283-294, 2005.
5) Yamaoka, H., A. Kaneko, J.-H. Park, H. Zheng, N. Gohda, T. Takano, X.-H. Zhu and Y. Takasugi: Coastal acoustic tomography system and its field application, IEEE J. Oceanic Eng., 27(2), 283-295, 2002.
4) Park, J.-H. and A. Kaneko: Computer simulation of coastal acoustic tomography by a two-dimensional vortex model, J. Oceanogr., 57, 593-602,2001.
3) Park, J.-H. and A. Kaneko: Assimilation of coastal acoustic tomography data into a barotropic ocean model, GeophysicalResearch Letters, 27(20), 3373-3376, 2000.
2) Zheng, H., H. Yamaoka, N. Gohda, H. Noguchi and A. Kaneko, Design of the acoustic tomography system for velocity measurement with an application to the coastal sea, J. Acoust. Soc. Japan (E), 19, 199-210, 1998.
1) Zheng, H., N. Gohda, H. Noguchi, T. Ito, H. Yamaoka, T. Tamura, Y.
Takasugi and A. Kaneko: Reciprocal Sound Transmission Experiment for Current Measurement in the Seto Inland Sea, Japan, J. Oceanogr., 53, 117-127, 1997.
MCAT papers:
2) Syamsudin, F., N. Taniguchi, C.-Z. Zhang, A. D. Hanifa, G. Li, M. Chen, H. Mutsuda, Z.-N. Zhu, X.-H. Zhu, T. Nagai and A. Kaneko, Observing internal solitary waves in the Lombok Strait by coastal acoustic tomography. Geophys. Res. Lett., doi:10.1029/ 2019GL084595, 2019.
1) Chen, M., F. Syamsudin, A. Kaneko, N. Gohda, B. M. Howe, H. Mutsuda, A.D. Hanifa, H. Zheng, C-F. Huang, N. Naokazu, X.-H. Zhu, Y. Adityawarman, C.-Z. Zhang and J. Lin, Real-time offshore coastal acoustic tomography enabled with mirror-transpond functionality. IEEE J. Oceanic Eng., doi:10.1109/JOE2018.2878260, 2019.
© 2020 AEM, LLP., All Rights Reserved.