Shinji SATO, Dr. Eng. (sato.shinji_at_kochi-tech.ac.jp, Japanese CV) Professor of Civil Engineering, Kochi University of Technology
		B403, School of Systems Engineering, 185, Miyanokuchi, Tosayamada, Kami, Kochi, 782-8502 JAPAN Fax: +81-887-57-2420

Identifier

ORCID: http://orcid.org/0000-0002-3718-1859

Publons: https://publons.com/a/1528003

Web of Science ResearcherID: N-4823-2018

Researchmap: https://researchmap.jp/read0061011

Google Scholar: https://scholar.google.co.jp/citations?user=77075QgAAAAJ

Career

• 1981 Bachelor, Civil Engineering Department, The University of Tokyo
• 1983 Master of Engineering, Civil Engineering Department, The University of Tokyo
• 1984 Research Assistant, Civil Engineering Department, The University of Tokyo
• 1985 Research Associate, Civil Engineering Department, The University of Tokyo
• 1987 Dr. Eng., The University of Tokyo
• 1987 Research Associate, Civil Engineering Department, Yokohama National University
• 1988 Associate Professor, Civil Engineering Department, Yokohama National University
• 1994 Senior Researcher, Public Works Research Institute, Minisitry of Construction
• 1997 Head of Seacoast Division, Public Works Research Institute, Minisitry of Construction
• 1999 Associate Professor, Civil Engineering Department, The University of Tokyo
• 2000 Professor, Civil Engineering Department, The University of Tokyo
• 2019 Professor, School of Systems Engineering, Kochi University of Technology

Major Field: Coastal Engineering

• Nearshore processes, Large-scale long-term coastal evolution
• Nearshroe waves, currents and infra-gravity motion
• Sediment movement in watersheds and environmental conservation
• Mechanisms and countermeasures of coastal erosion
• Disaster mitigation due to storm surge and tsunami
• Sustainability of coastal environment

Awards

• Excellent Paper Award, Japan Society of Civil Engineers, May, 1998.
• APAC Excellent Paper Award, International Steering Committee, APAC, March, 2004.
• Coastal Engineering Journal Award, Japan Society of Civil Engineers, November, 2005.
• Excellent Paper Prize in Coastal Engineering, Japan Society of Civil Engineers, November, 2008.
• Excellent Book Publication Award, Japan Society of Civil Engineers, June, 2014.
• Outstanding Reviewer, Elsevier, May, 2018.
• JAMSTEC Nakanishi Award, October, 2019.

Publications

Degree

Master Thesis: Oscillatory boundary layer flow over rippled bed, 160p., March 1983.

Dr. Eng. Thesis: Oscillatory boundary layer flow and sand movement over ripples, 135p., March, 1987.

Books

1. Coastal Waves, JSCE, 520p.�C1994 (in Japanese)
2. Toward management of sediemntary environment, JSCE, 359p., 1998 (in Japanese)
3. Hydraulic manual, JSCE, 713p., 1999 (in Japanese)
4. Design manual for coastal facilities, JSCE, 577p., 2000.
5. Handbook of Coastal Engineering, Chapter 7, "Sediment Transport And Beach Profile Change Due To Random Waves", pp. 7.1-7.24, McGraw-Hill�C2000.[PDF]
6. Sciences of the Great East Japan Earthquake, UT Press, 243p., 2014 (in Japanese).
7. Post-Tsunami Hazard, Reconstruction and Restoration, Chapter 13, Seawall Performance along Southern Coast of East Japan Impacted by the 2011 Tohoku Tsunami; A Note for the Reconstruction Process, Springer, 191-210, 2014.
8. International Compendium of Coastal Engineering, World Scientific, 514p., 2015.
9. Disaster Resilient Cities, Elsevier, 191p., 2016.
10. Handbook of Applied Hydrology, Second Edition, McGraw Hill, 2016.
11. Santiago-Fandino, V., Sato, S., Maki, N. and Iuchi, K. (eds.) (2017): The 2011 Japan Earthquake and Tsunami: Reconstruction and Restoration, Insights and Assessment after 5 Years, Advancec in Natural and Technologinal Hazards Research, Vol. 47, Springer, 485p.

Research Papers (in English, The list of Japanese papers is available here)

1. Sato, S., N. Mimura and A. Watanabe: Oscillatory boundary layer flow over rippled beds, Proc. 19th Int. Conf. on Coastal Eng., pp. 2293-2309, 1984.

2. Sato, S., H. Uehara and A. Watanabe: Numerical simulation of the oscillatory boundary layer flow over sand ripples by a k-epsilon turbulence model, Coastal Eng. in Japan, Vol. 29, pp.65-78, 1986.

3. Sato, S. and K. Horikawa: Laboratory study on sand transport over ripples due to asymmetric oscillatory flows, Proc. 20th Int. Conf. on Coastal Eng., pp.1481-1495, 1986.

4. Sato, S., K. Shimosako and A. Watanabe: Measurements of oscillatory turbulent boundary layer flow above ripples with a laser-Doppler velocimeter, Coastal Eng. in Japan, Vol.30, No.1, pp.89-98, 1987.

5. Shibayama, T. and S. Sato: A model for mud transport due to waves, Proc. Offshore Tech. Conf., Vol.19, pp.513-519, 1987.

6. Sato, S., K. Mitani and A. Watanabe: Geometry of sand ripples and net sand transport rate due to regular and irregular oscillatory flows, Coastal Eng. in Japan, Vol.30, No.2, pp.89-98, 1988.

7. Sato, S. and K. Horikawa: Sand transport mechanism due to irregular oscillatory flows, Proc. 21st Int. Conf. on Coastal Eng., pp.1748-1762, 1988.

8. Sato, S., M. Fukuhama and K. Horikawa: Measurements of near-bottom velocities in random waves on a constant slope, Coastal Eng. in Japan, Vol.31, No.2, pp.219-229, 1988.

9. Sato, S., T. Isayama and T. Shibayama: Long-wave component in near-bottom velocities under random waves on a gentle slope, Coastal Eng. in Japan, Vol.32, No.2, pp.149-159, 1989.

10. Shibayama, T., S. Sato, H. Asada and T. Temmyo: Sediment transport rate in wave-current coexistent field, Coastal Eng. in Japan, Vol.32, No.2, pp.161-171, 1989.

11. Sato, S. and N. Mitsunobu: A numerical model for sand transport under compound waves, Proc. 22nd Int. Conf. on Coastal Eng., pp. 2658-2670, 1990.

12. Sato, S., K. Homma and T. Shibayama: Laboratory study on sand suspension due to breaking waves, Coastal Eng. in Japan, Vol.33, No.1, pp.219-231, 1990.

13. Sato, S., M. Ozaki and T. Shibayama: Breaking condition of compound and random waves, Coastal Eng. in Japan, Vol.33, No.1, pp.133-143, 1990.

14. Sato, S. and N. Mitsunobu: A numerical model of beach profile change due to random waves, Coastal Sediments '91, pp.674-687, 1991.

15. Sato, S.: Sand transport under wave groups, Proc. 23rd Int. Conf. on Coastal Eng., pp.2411-2423, 1992.

16. Sato, S., M. Kabiling and H. Suzuki: Prediction of near-bottom velocity history by a nonlinear dispersive wave model, Coastal Eng. in Japan, Vol.35, No.1, pp.67-82, 1992.

17. M. Kabiling and S. Sato: Two-dimensional nonlinear dispersive wave-current model and three-dimensional beach deformation model, Coastal Eng. in Japan, Vol.36, No.2, pp. 195-212, 1993.

18. M. Kabiling and S. Sato: A numerical model for nonlinear waves and beach evolution including swash zone, Coastal Eng. in Japan, Vol.37, No.1, pp.67-86, 1994.

19. Sato, S. and M. Kabiling: A numerical simulation of beach evolution based on a nonlinear dispersive wave-current model, Proc. 24th Conf. on Coastal Eng., pp. 2557-2570, 1994.

20. Sato, S.: Characteristics of waves and currents induced by low pressures in Japan Sea, Proc. 2nd International Workshop on Wind and Earthquake Engineering for Offshore and Coastal Facilities, 1995.

21. Sato, S.: Characteristics of currents induced by low pressures in the Japan Sea, Coastal Eng. in Japan, Vol. 38, No. 1, pp. 5-18, 1995.

22. Noguchi, K., S. Sato and S. Tanaka: Propagation of Hokkaido Nansei-Oki earthquake tsunami around Cape Aonae, Coastal Eng. in Japan, Vol. 38, No. 2, pp. 133-142, 1995.

23. Sato, S.: Numerical simulation of 1993 Southwest Hokkaido earthquake tsunami around Okushiri island, J. Waterway, Port, Coastal, and Ocean Engineering, ASCE, Vol. 122, No. 5, pp. 209-215, 1996. [PDF]

24. Sato, S.: Effects of winds and breaking waves on large-scale coastal currents developed by winter storms in Japan Sea, Coastal Eng. in Japan, Vol. 39, No. 2, pp. 129-144�C1996.[PDF]

25. Sato, S. and M. Kasai: Forced and free long waves generated by winter storms and typhoons, Proc. 27th Conf. on Coastal Eng., pp. 1462-1475, 2000.

26. Kato, F., S. Sato and H. Yeh: Large-scale experiment on dynamic response of sand bed around a cylinder due to tsunami, Proc. 27th Conf. on Coastal Eng., pp. 1848-1859, 2000.

27. Kobayashi, H., A. Watanabe, M. Isobe, S. Sato and T. Ishii: Three-dimensional beach deformation model for nonlinear multi-directional waves, Proc. 27th Conf. on Coastal Eng., pp. 2728-2739, 2000.

28. Takagi, T., S. Sato, K. Yamamoto, W. Sakurai, U. Murano, Y. Atsuzaka and Y. Ding: Performance of gravel nourishment for erosion control at Fuji coast, Proc. 27th Conf. on Coastal Eng., pp. 3333-3344, 2000.

29. Hashimoto, S., Y. Ohtani, S. Sato and S. Hotta: A field study of wind-blown sand at the Niigata coast, Proc. 27th Conf. on Coastal Eng., pp. 2547-2560, 2000.

30. Ahmed, A.S.M. and S. Sato : Investigation of bottom boundary layer dynamics of movable bed by using enhanced PIV technique, Coastal Engineering Journal, Vol. 43, No. 4, pp. 239-258, 2001.

31. Yeh, H.H., F. Kato and S. Sato : Tsunami scour mechanisms around a cylinder, Tsunami Research at the End of a Critical Decade, Kluwer Academic Publishers, pp. 33-46, 2001.

32. Sato, S., M. Iisobe, T. Sekimoto, K. Torii and K. Yamamoto: Field investigation on coastal morphological processes of the South Kashimanada coast, Proc. 28th. Int. Conf. on Coastal Engineering, 2002.

33. Ahmed, A.S.M. and S. Sato: Prediction of selective sheetflow transport for mixed grain size sands, Proc. Coastal Sediments 2003.

34. Ahmed, A.S.M. and S. Sato: A sheetflow transport model for asymmetric oscillatory flows, Part I: Uniform grain size sediments, Coastal Eng. Journal, Vol. 45, No. 3, pp. 321-337, 2003.

35. Ahmed, A.S.M. and S. Sato: A sheetflow transport model for asymmetric oscillatory flows, Part II: Mixed grain size sediments, Coastal Eng. Journal, Vol. 45, No. 3, pp. 339-361, 2003.

36. Tonkin, S., H. Yeh, F. Kato and S. Sato : Tsunami scour around a cylinder, J. Fluid Mech., Vol. 496, pp. 165-192, 2003.

37. Sato, S., T. Kajimura, M. Abe and M. Isobe : Sand movement and long-term beach evolution in a fluvial system composed of the Samegawa River and the Nakoso Coast, Coastal Eng. Journal, Vol. 46, No. 2, pp. 219-241, 2004. [PDF]

38. Mina, K.M. and S. Sato : A transport model for sheetflow based on two-phase flow, Coastal Eng. Journal, Vol. 46, No. 3, pp. 329-367, 2004.

39. Watanabe, A. and S. Sato : A sheet-flow transport rate formula for asymmetric, forward-leaning waves and currents, Proc. 29th Conf. on Coastal Eng., pp. 1703-1714, 2004.

40. Sato, S., T. Fukuyama, T. Matsuda and S. Tanaka : Field investigation on regional sediment movement around the Shounan Coast, Proc. 29th Conf. on Coastal Eng., pp. 2668-2680, 2004. [PDF]

41. Torii, K., S. Sato, T. Uda and T. Okayasu : Regional sediment management based on sediment budget for graded sediments, Proc. 29th Conf. on Coastal Eng., pp. 3110-3122, 2004. [PDF]

42. Liu, H. and S. Sato : Laboratory study on sheetflow sediment movement in the oscillatory turbulent boundary layer based on image analysis, Coastal Eng. Journal, JSCE, Vol. 47, No. 1, pp. 21-40, 2005.

43. Ranasinghe, S. and S. Sato: Beach morphology behind an impermeable submerged breakwater under obliquely incident waves, Proc. 30th International Conf. on Coastal Engineering, pp. 3682-3694, 2006.

44. Ranasinghe, S. and S. Sato: Beach morphology behind single impermeable submerged breakwater under obliquely incident waves, Coastal Engineering Journal, pp. 1-24, 2007.

45. Ranasinghe, R.S., Sato, S. (2007) �gLongshore sand transport rate measurements using small-scale physical models,�h in Proc. Coastal Sediments �f07, ASCE, New Orleans, Lousiana, USA, pp. 68-81.

46. Haijiang Liu, Shinji Sato, Yoshimitsu Tajima, Guangwei Huang, Hirokazu Fujiwara, Investigation on the historical evolution of alluvial deposits along the Tenryu River and the Enshu Coast, APAC, 1139-1150, �i2007�j

47. Masaaki Shirai, Yoshimitsu Tajima, Haijiang Liu and Shinji Sato, Sand grains transport around river mouth revealed by OSL measurement technique, XVII INQUA Congress, 2007.8.3.

48. Ranasinghe, R.S., Sato, S., Tajima, Y., Muliawan, M.J. (2008) �gEvolution of nearshore currents around submerged breakwaters,�h in Proc. 31st Int. Conf. Coastal Engineering, ASCE, Hamburg, Germany, pp. 927-939.

49. Takuya Yoshii, Hirokazu Fujiwara, Shinji Sato, Guangwei Huang, Masaaki Shirai, Yoshimitsu, Tajima, Sediment transport study on the Tenryu River and the Enshu Coast based on analyses of surface sediments, Proc. Intl. Conf. Coastal Engrg., 2008. [PDF]

50. Tomohiro Takagawa, Fukase Yutaro, Haijiang Liu, Shinji Sato, Coastal erosion surfaces detected by ground penetrating radar and coring survey: a case study in coastal area around the Tenryu River mouth, Proceedings of 4th International Conference on Scour and Erosion,�i2008�j

51. Tian, Y. and S. Sato: A numerical model on the interaction between nearshore nonlinear waves and strong currents, Coastal Engineering Journal, Vol. 50, No. 4 (2008) 369-395 [PDF]

52. Haijiang Liu, Yoshimitsu Tajima, Shinji Sato, Field study on the nearshore sediment process around the Tenryu Estuary using image analysis, Proceedings of Intl. Conf. Coastal Engrg.(2008) [PDF]

53. Takewaka, S., Y. Takahashi, Y. Tajima and S. Sato, Observation of morphology and flow motion at the river mouth of Tenryu with X-band radar, Proc. of Coastal Dynamics 2009, P116, 2009. [PDF]

54. Tajima, Y. and S. Sato, Local sand deposition due to asymmetric characteristics of tidal current velocity observed around Imagire-Guchi inlet, Proc. 31st ICCE, 2136-2148, 2009.

55. Tajima Y., H. Liu, and S. Sato, Dynamic changes of waves and currents over the collapsing sandbar of the Tenryu River mouth observed during typhoon T0704, Proc. of Coastal Dynamics 2009, P28, 2009. [PDF]

56. Niu, X., S. Ueyama, S. Sato, Tajima Y. and H. Liu, Sediment movement under combined waves, tide and river discharge in a river mouth, Proc. of Coastal Dynamics 2009, P67, 2009. [PDF]

57. Liu, H., Y. Ogawa, T. Takagawa and S. Sato, Longshore sediment movement along the Enshunada Coast inferred from feldspar thermoluminescence, Proc. of Coastal Dynamics 2009, P57, 2009. [PDF]

58. Ranasinghe, R. S., S. Sato and Y. Tajima, Modeling of waves & currents around porous submerged breakwaters, Proc. of Coastal Dynamics 2009, P12, 2009. [PDF]

59. Ranasinghe, R.S., Sato, S., Tajima, Y. (2009) �gBoussinesq modeling of waves and currents over submerged breakwaters,�h Proc. 5th International Conference on Asian and Pacific Coasts, Singapore, pp 58-64.

60. Liu, H., Y. Tajima and S. Sato, Field study on the nearshore sediment process around the Tenryu estuary using image analysis, Proc. 31st ICCE, 2064-2076, 2009.

61. Liu, H., Kishimoto, S., Takagawa, T., Shirai, M., Sato, S., Investigation on the sediment movement along the Tenryu-Enshunada fluvial system based on feldspar thermoluminescence properties. Journal of Coastal Research, 25(5), 1096-1105, 2009. [PDF]

62. S. Sato, S. Kishimoto, H. Hiramatsu, Long-Term Evolution of Sand and Gravel Beaches on the Miyazaki Coast, Proc. 32nd Coastal Engineering Conference, 2010. [PDF]

63. Y. Tajima, S. Sato, Local Concentration of Slowly Varying Wave and Current Fields Around the Abruptly Changing Bottom Slopes Along the Shore, Proc. 32nd ICCE, 2010. [PDF]

64. H. Liu, Y. Tajima, S. Sato, Long-Term Monitoring on the Sand Spit Morphodynamics at the Tenryu River Mouth, Proc. 32nd ICCE, 2010. [PDF]

65. Dong, L.P., S. Sato, Sheetflow sediment transport under asymmetric waves and strong currents, Proc. 32nd ICCE, 2010. [PDF]

66. Ranasinghe, R. S., Y. Fukase, S. Sato, Y. Tajima, Locally concentrated damage at Shimoniikawa coast, Toyama bay, Japan due to giant swell waves, Proc. 32nd ICCE, 2010. [PDF]

67. Sakashita, T., Sato, S., Tajima, Y., Alongshore extension of beach erosion around a large-scale structure, Proceedings of Coastal Sediments 11, 952-964, 2011. [PDF]

68. Liu, H., Hamamoto, A., Sato, S., Monitoring the nourished sand longshore movement based on feldspar luminescence measurement. Proceedings of Coastal Sediments 11, 57-70, 2011. [PDF]

69. Tajima, Y., Liu, H., Takagawa, T., Sato, S., (2011). Selective movements of sand and gravels and resulting dynamic morphology changes observed around the Tenryu River mouth. Proceedings of Coastal Sediments 11, 1135-1148, 2011. [PDF]

70. Takagawa, T., Tajima, Y., Liu, H., Takewaka, S., Sato, S., (2011). Dynamic topography changes of sand spit of the Tenryu River mouth due to overtopping waves. Proceedings of Coastal Sediments 11, 1217-1228, 2011. [PDF]

71. Mostafa, A., Tajima, Y., Liu, H., Sato, S., (2011). Impacts of coastal protection structures around Rosetta promontory on large scale morphology change of the Nile River Delta. Proceedings of Coastal Structures 2011.

72. Liu, H., Sato, S., (2011). Evaluation on the sediment movement along the Miyazaki coast in terms of feldspar luminescence features. Proceedings of the 6th Asian and Pacific Coastal Engineering Conference, 2011.

73. Ranasinghe, R.S., Y. Fukase, S. Sato and Y. Tajima: Local concentration of waves due to abrupt alongshore variation of nearshore bathymetry, Coastal Engineering Journal, 53, 3, 201-222, 2011.

74. Shimozono, T., S. Sato, A. Okayasu, Y. Tajima, M. F. Hermann, H. Liu and T. Takagawa: Propagation and inundation characteristics of the 2011 tohoku tsunami on the central sanriku coast, Coastal Engineering Journal, Vol. 54, No. 1, (2012), 1250004.

75. Mori N., Takahashi T. and the 2011 Tohoku Earthquake Tsunami Joint Survey Group: Nationwide post event survey and analysis of the 2011 Tohoku earthquake tsunami, Coastal Engineering Journal, Vol. 54, No. 1, (2012), 1250001.

76. Sato, S., S. Takewaka, H. Liu and H. Nobuoka: Tsunami damages of Nakoso Coast due to the 2011 Tohoku Earthquake, Proc. 33rd ICCE, Santander, 2012.

77. Haijiang Liu, Tomohiro Takagawa and Shinji Sato: Sand Transport and Sedimentary Feature Based on Feldspar Thermoluminescence: A Synthesis of the Tenryu-Enshunada Fluvial System, Japan, J. Coastal Research, 28, 2012.

78. Le Phuong Dong, Shinji Sato, Haijiang Liu: A sheetflow sediment transport model for skewed-asymmetric waves combined with strong opposite currents, Coastal Engineering, Elsevier, Vol. 71, pp. 87-101, January 2013.

79. Haijiang Liu, Takenori Shimozono, Tomohiro Takagawa, Akio Okayasu, Hermann M. Fritz, Shinji Sato and Yoshimitsu Tajima: The 11 March 2011 Tohoku Tsunami Survey in Rikuzentakata and Comparison with Historical Events, Pure and Applied Geophysics, 170 (2013), 1033-1046, DOI: 10.1007/s00024-012-0496-2

80. Harry Yeh, Shinji Sato and Yoshimitsu Tajima: The 11 March 2011 East Japan Earthquake and Tsunami: Tsunami Effects on Coastal Infrastructure and Buildings, Pure Appl. Geophys. 170 (2013), 1019-1031, DOI: 10.1007/s00024-012-0489-1

81. Shinji Sato, Harry Yeh, Masahiko Isobe, Koki Mizuhashi, Hiroshi Aizawa, Hideaki Ashino: Coastal and nearshore behaviors of the 2011 Tohoku Tsunami along the central Fukushima coast, Coastal Dynamics 2013, Bordeaux, 2013.

82. Sanuki, H., Y. Tajima, H. Yeh and S. Sato: Dynamics of tsunami flooding to river basin, Proc. Coastal Dynamics 2013, Bordeaux, 2013.

83. Shinji Sato, Akio Okayasu, Harry Yeh, Hermann M. Fritz, Yoshimitsu Tajima and Takenori Shimozono: Delayed survey of the 2011 Tohoku Tsunami in the former exclusion zone in Minami-Soma, Fukushima Prefecture, Pure and Applied Geophysics, Springer, DOI:10.1007/s00024-014-0809-8, 2014.

84. Shinji Sato, Shohei Ohkuma: Destruction mechanism of coastal structures due to the 2011 Tohoku Tsunami in the south of Fukushima, Proc. 34th ICCE, Seoul, 2014.

85. Morika Ohmura, Shinji Sato: Long-term sediment transport in Kuzuryu River and Kaetsu Coast under Holocene sea level variation, Proc. 34th ICCE, Seoul, 2014.

86. Ahmed, M. T. T., S. Sato, and Y. Tajima: Quantitative estimation of longshore sediment transport based on thermoluminescence: Two case studies around Tenryu and Nile River mouths, Journal of Coastal Research, vol. 30, issue 3, pp. 537-547, 2014.

87. Ahtesham K. M. H. Raju, Shinji Sato: An experimental investigation on influence of air void in sand dune sediment transport due to overwash, Coastal Sediments 2015, San Diego, 2015.

88. Shinji Sato, Kanto Nishiguchi, Yusuke Yamanaka: Tsunami sediment analysis based on luminescence measurement, Coastal Sediments 2015, San Diego, 2015.

89. Yuya Sasaki, Shinji Sato: Morphology changes of sand spit around the Tenryu River mouth due to floods accompanied with overtopping waves, Coastal Sediments 2015, San Diego, 2015.

90. Shimozono, T., Y. Tajima, A. B. Kennedy, H. Nobuoka, J. Sasaki, and S. Sato (2015): Combined infragravity wave and sea-swell runup over fringing reefs by super typhoon Haiyan, J. Geophys. Res. Oceans, 120, 4463-4486, doi:10.1002/2015JC010760.

91. Sato, S.: Characteristics of the 2011 Tohoku Tsunami and introduction of two level tsunamis for tsunami disaster mitigation, Proc. Japan Academy, Ser. B, Vol. 91, 262-272 (2015).

92. Shimozono, T. and Sato, S. (2015) Coastal vulnerability analysis during tsunami-induced levee overflow and breaching by a high-resolution flood model, Coastal Engineering, doi:10.1016/j.coastaleng.2015.10.007.

93. Sato, S. and S. Ohkuma: Formation of breaking bores in Fukushima Prefecture due to the 2011 Tohoku Tsunami, Proc. 35th ICCE, 2016.

94. Pamuk, A., Okabe, Y. and Sato, S.: Acceleration mechanism of void development in concrete riprap seawalls, Proc. 35th ICCE, 2016.

95. Ahtesham, K. M. and Sato, S.: An experimental study on sand dune sediment transport due to tsunami overwash, Proc. 35th ICCE, 2016.

96. Harry Yeh and Shinji Sato: Tsunami effects on buildings and coastal structures, Journal of Disaster Research, Vol.11, No.4, pp. 662-669, 2016, doi: 10.20965/jdr.2016.p0662

97. Matsuba, Y., S. Sato and K. Hadano: Rapid change in coastal morphology due to sand-bypassing captured by UAV-based monitoring system, Proc. Coastal Dynamics 2017, Helsingor, 2017.

98. Maeda, Y., M. Unno, M. Sato, T. Kurita, T. Uda and S. Sato: Laboratory experiments on erosion control performance of an L-shaped permeable structure, Proc. Coastal Dynamics 2017, Helsingor, 2017.

99. Sato, S. and S. Ohkuma (2017) Formation of breaking bores in Fukushima Prefecture coastline due to the2011 Tohoku Tsunami: A comprehensive study five years after, The 2011 Japan Earthquake and Tsunami: Reconstruction and Restoration, Springer, pp. 423-434, doi:10.1007/978-3-319-58691-5_24.

100. Yoshinao Matsuba and Shinji Sato (2018) Nearshore bathymetry estimation using UAV, Coastal Engineering Journal, Vol. 60, No.1, 51-59, DOI: 10.1080/21664250.2018.1436239

101. Yusuke Yamanaka, Shinji Sato, Takenori Shimozono and Yoshimitsu Tajima (2018) A parametric study of tsunami fission generation in a bay geometry based on numerical simulation, Coastal Engineering Journal, Vol.60, No.1, 22-38, DOI: 10.1080/05785634.2017.1418797

102. Yoshimitsu Tajima, Tomohiro Takagawa, Shinji Sato & Satoshi Takewaka (2018) Collapse and recovery process of the sand spit at the Tenryu River mouth on the Pacific Coast of Japan, Coastal Engineering Journal, 60:4, 532-547, DOI: 10.1080/21664250.2018.1546264

103. Lianhui Wu, Yoshimitsu Tajima, Yusuke Yamanaka, Takenori Shimozono & Shinji Sato (2019) Study on characteristics of synthetic aperture radar (SAR) imagery around the coast for shoreline detection, Coastal Engineering Journal, 61:2, 152-170, DOI: 10.1080/21664250.2018.1560685

104. Yusuke Yamanaka, Shinji Sato, Takenori Shimozono & Yoshimitsu Tajima (2019) A numerical study on nearshore behavior of Japan Sea tsunamis using Green�fs functions for Gaussian sources based on linear Boussinesq theory, Coastal Engineering Journal, 61:2, 187-198, DOI: 10.1080/21664250.2019.1579462

105. Ryotaro Shibata, Shinji Sato & Yusuke Yamanaka (2019) Study on the comprehensive countermeasures for coastal erosion of Kujukuri Beach, Coastal Engineering Journal, 61:2, 256-265, DOI: 10.1080/21664250.2019.1586289

106. Aykut Pamuk, Shinji Sato & Yumi Okabe (2019) Acceleration mechanism of void development in concrete riprapped seawalls, Coastal Engineering Journal, 61:3, 340-353, DOI: 10.1080/21664250.2019.1593309

107. Naohiro Hattori, Shinji Sato & Yusuke Yamanaka (2019) Development of an imagery-based monitoring system for nearshore bathymetry by using wave breaking density, Coastal Engineering Journal, 61:3, 308-320, DOI: 10.1080/21664250.2019.1588522

108. Yoshimitsu Tajima, Lianhui Wu, Takashi Fuse, Takenori Shimozono & Shinji Sato (2019) Study on shoreline monitoring system based on satellite SAR imagery, Coastal Engineering Journal, 61:3, 401-421, DOI: 10.1080/21664250.2019.1619252

109. Ryota Nomura, Shinji Sato and Kenji Noguchi (2019) Mechanism of beach deformation elucidated by bathymetry survey and beach trench survey on Miyazaki Coast, Proceedings of the 10th International Conference on Asian and Pacific Coasts, 353-360, Springer, https://doi.org/10.1007/978-981-15-0291-0_50.

110. Naohiro Hattori and Shinji Sato (2019) Extraction of wave crests from UAV imagery, Proc. 10th Asian Pacific Coast Conference, 913-919, Springer, https://doi.org/10.1007/978-981-15-0291-0_125.

111. R. Shibata, S. Sato, K. Noguchi, F. Kato and R. Kondo (2019) Spatial and temporal spectra of swash motions estimated by multiple synchronized UAVs, Proc. 10th Asian Pacific Coast Conference, 971-977, Springer, https://doi.org/10.1007/978-981-15-0291-0_133.

112. K. Noguchi, Y. Suwa, F. Kato and S. Sato (2019) Trench survey technique for sand-gravel mixed beach with application at Hamamatsu-Shinohara beach, Proc. 10th Asian Pacific Coast Conference, 427-434, Springer, https://doi.org/10.1007/978-981-15-0291-0_59.

113. Kevin Bobiles & Shinji Sato (2020) Investigation of proposed countermeasures against coastal erosion and sediment invasion around half-buried floodway, Coastal Engineering Journal, 62:1, 85-100, DOI: 10.1080/21664250.2019.1685447.

114. Matsuba Y, Shimozono T, Sato S (2020) Wave-breaking modulation by infragravity waves during an extreme typhoon. PLOS ONE 15(4): e0231242. https://doi.org/10.1371/journal.pone.0231242.

115. Yoshinao Matsuba, Takenori Shimozono and Shinji Sato (2020) Infragravity wave dynamics on Seisho Coast during Typhoon Lan in 2017, Coastal Engineering Journal, 62:2, 299-316, DOI: 10.1080/21664250.2020.1753901

116. Jumpei Morioka, Yoshimitsu Tajima, Yusuke Yamanaka, Magnus Larson, Yoshiaki Kuriyama, Takenori Shimozono and Shinji Sato (2020) Numerical modeling of ship wave generation using Green�fs functions based on linear dispersive wave theory, Coastal Engineering Journal, 62:2, 317-335, DOI: 10.1080/21664250.2020.1755794

Plenary Speeches, Invited Lectures (in English)

1. Sato, S., Large-scale currents and sea-bottom elevation change developed by winter storms, Annual Meeting of Korean Society of Coastal and Ocean Engineers, October 1996.

2. S. Sato and H. Liu: A comprehensive study on sediment movement in Tenryu river watershed and Enshu coast, International Conference on Scour and Erosion, ICSE-3, Tokyo, November, 2008. [PDF]

3. Sato, S. : Organizer of a Special Session of Tohoku Tsunami, Coastal Sediments 11, 2011.

4. Sato, S.: Guest Editor of the Special Issue of Tohoku Tsunami, Coastal Engineering Journal, 54, 1, March 2012.

5. Sato, S.: Coastal and Nearshore Behaviors of the 2011 Tohoku Tsunami along the Central Fukushima Coast, BICTAM Tsunami Workshop, Beijing, October, 2012.

6. Sato, S.: 2011 Tohoku Tsunami and Future Directions for Tsunami Disaster Mitigation, Keynote Lecture, 35th IAHR World Congress, Chengdu, September, 2013.

7. Sato, S.: Characteristics of the 2011 Tohoku Tsunami revealed by field surveys, Keynote Lecture, 7th International Conference on Asian and Pacific Coasts, Bali, September, 2013.

8. Sato, S.: Coastal Erosion caused by Sediment Movement in Watershed Scale, Invited Lecture, Taishan Academic Forum on Estuarine, Coastal and Nearshore Science and Engineering, Yantai, China, Nov 27, 2016.

9. Sato, S. and T. Ando : Tsunami Risk Assessment of Niigata City accounting for Soil Liquefaction and Snow Melt, 11th South China Sea Tsunami Workshop, Zhejiang, China, Oct 27, 2019.