Hidemi Mutsuda

Last Updated :2022/12/01

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Professor
Web Site
E-mail
mutsudahiroshima-u.ac.jp
Other Contact Details
1-4-1,Kagamiyama,Higashi-Hiroshima, Japan
TEL : (+81)82-424-7778 FAX : (+81)82-422-7194
Self-introduction
1. Fluid Engineering for Vehicle and Environmental Engineering 2. Ocean Energy (Wave, Current, Wind) 3. Energy Harvesting (PENG/TENG) 4. Computational Fluid Dynamics (CFD) for Vehicle and Environmental Engineering 5. Atmosphere and Ocean dynamics Using CFD

Basic Information

Major Professional Backgrounds

  • 2020/04/01, Hiroshima University, Graduate School of Advanced Science and Engineering, Transportation and Environmental Systems Program, Professor
  • 2010/04/01, 2020/03/31, Hiroshima University, Institute of Engineering, Associate Professor
  • 2007/02/01, 2007/05/31, Stanford University, Computer Science Department, Visiting Faculty member
  • 2006/06/01, 2007/02/01, Norwegian University of Science and Technology(NTNU), Center for Ships and Ocean Structures, Visiting professor
  • 2000/02/01, 2002/03/31, Japan Agency for Marine-Earth Science and Technology, Researcher
  • 2007/04/01, 2010/03/31, Hiroshima University, Graduate School of Engineering, Associate Professor
  • 2002/10/01, 2007/03/31, Hiroshima University, Graduate School of Engineering, Assistant Professor
  • 2001/04/01, 2002/09/30, Hiroshima University, Graduate School of Engineering, Research Associate
  • 2000/04/01, 2001/03/31, Hiroshima University, Faculty of Engineering, Research Associate
  • 1998/04/01, 2000/03/31, Gifu University, Research Associate
  • 1995/04/01, 1998/03/31, Gifu University, Research Associate

Educational Backgrounds

  • Gifu University, Graduate School, Division of Engineering, Japan, 1993/04, 1995/03
  • Gifu University, Faculty of Engineering, Japan, 1989/04, 1993/03

Academic Degrees

  • Doctor of Engineering, Gifu University
  • Master of Engineering, Gifu University

Educational Activity

  • [Bachelor Degree Program] School of Engineering : Cluster 1(Mechanical Systems, Transportation, Material and Energy) : Program of Transportation Systems
  • [Master's Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Transportation and Environmental Systems Program
  • [Doctoral Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Transportation and Environmental Systems Program

In Charge of Primary Major Programs

  • Vehicle and Environmental Systems

Research Fields

  • Engineering;Integrated engineering;Naval and maritime engineering
  • Engineering;Mechanical engineering;Fluid engineering
  • Engineering;Integrated engineering;Energy engineering
  • Environmental science;Environmental conservation;Environmental engineering and reduction of environmental burden
  • Engineering;Civil engineering;Hydraulic engineering

Research Keywords

  • Fluid Engineering for Vehicle and Environmental Engineering
  • Ocean Renewable Energy (Wave, Tide and Current)
  • Innovative Energy Harvesting (PENG/TENG)
  • Computational fluid dynamics for Vehicle and Environmental Engineering
  • Numerical Simulation of Atmospheric and Ocean Environment

Affiliated Academic Societies

Educational Activity

Course in Charge

  1. 2022, Liberal Arts Education Program1, 4Term, Industry and Technology
  2. 2022, Liberal Arts Education Program1, 4Term, Seminar in Basic Mathematics II
  3. 2022, Liberal Arts Education Program1, 4Term, Science of Vehicle and Transportation
  4. 2022, Undergraduate Education, 3Term, Introduction of Mechanical and Transportation Engineering
  5. 2022, Undergraduate Education, 2Term, Fluid Dynamics I
  6. 2022, Undergraduate Education, 4Term, Fluid Dynamics for Vehicle and Environmental Systems
  7. 2022, Undergraduate Education, 1Term, Viscous fluid and Turbulence
  8. 2022, Graduate Education (Master's Program) , 1Term, Special Exercises on Transportation and Environmental Systems A
  9. 2022, Graduate Education (Master's Program) , 2Term, Special Exercises on Transportation and Environmental Systems A
  10. 2022, Graduate Education (Master's Program) , 3Term, Special Exercises on Transportation and Environmental Systems B
  11. 2022, Graduate Education (Master's Program) , 4Term, Special Exercises on Transportation and Environmental Systems B
  12. 2022, Graduate Education (Master's Program) , Academic Year, Special Study on Transportation and Environmental Systems
  13. 2022, Graduate Education (Master's Program) , 1Term, Advanced Computational Fluid Dynamics
  14. 2022, Graduate Education (Doctoral Program) , Academic Year, Special Study on Transportation and Environmental Systems

Award of Education

  1. 2019/11/21

Research Activities

Academic Papers

  1. An improved system for efficient shape optimization of vehicle aerodynamics with noisy computations, Structural and Multidisciplinary Optimization, 65(215), 1-12, 20220805
  2. A Python Toolbox for Surrogate-based Optimization, Proc. of 2022 IEEE 12th International Conference on Electronics Information and Emergency Communication (ICEIEC), 1(1), 80-84, 20220715
  3. Coastal Acoustic Tomography of the Neko-Seto Channel with a Focus on the Generation of Nonlinear Tidal Currents—Revisiting the First Experiment, remote sensing, 14(7), 1-12, 20220331
  4. Identification of wake vortices in a simplified car model during significant aerodynamic drag increase under crosswind conditions, Journal of Visualization, 1(1), 1-15, 20220330
  5. A Proposed Seaplane Float in Water Entry Problem and Landing in Waves Using Particle Based Method, Proc. of 2nd International Conference on Applied Thermo-fluids & Computational Fluids Mechanics, 2(1), 1-8, 20220326
  6. Characteristics of Electric Performance and Key Factors of a Hybrid Piezo/Triboelectric Generator For Wave Energy Harvesting, Sustainable Energy Technologies and Assessments, 50(101757), 20220301
  7. The effects of smoothing length on the onset of wave breaking in smoothed particle hydrodynamics (SPH) simulations of highly directionally spread waves, Computational Particle Mechanics, 1(1), 1-17, 20220207
  8. Optimizing Effect of Wavy Leading Edge (WLE) in Rectangular Wing and Taper Wing, Journal of Mechanical Engineering, Science and Innovation, 1(2), 20211029
  9. Highly directionally spread, overturning breaking waves modelled with Smoothed Particle Hydrodynamics: a case study involving the Draupner wave, Ocean Modelling, 164, 20210801
  10. Influence of wave direction on the electrical performance of a piezoelectric paint based ocean energy harvester attached to a fish aggregating device, Proceedings of the 31th International Society of Offshore and Polar Engineers, ISOPE-I-21-1248, 20210620
  11. Constructive and Destructive Interference Locations of Waves in a Circular Wave Basin - Study of Velocity Component Perpendicular to Wave Direction, Proceedings of the 31th International Society of Offshore and Polar Engineers, ISOPE-I-21-3147, 20210620
  12. Harvesting ocean energy using a hybrid type of nanogenerator with PENG and TENG, Proceedings of the 31th International Society of Offshore and Polar Engineers, ISOPE-I-21-1247, 20210620
  13. Reciprocal acoustic transmission experiment at Mihara-Seto in the Seto Inland Sea, Japan, Acoustical Science and Technology, 42(5), 290-293, 20210501
  14. Simulations of directionally spread and crossing breaking waves in intermediate water depth using DualSPHysics, Proceedings of the 5th DualSPHysics Users Workshop, 20210315
  15. A reciprocal acoustic transmission experiment for precise observations of tidal currents in a shallow sea, OCEAN ENGINEERING, 219, 20210101
  16. Fluid-Dynamic Force Measurement of Ahmed Model in Steady-State Cornering, Energies, 13(6592), 20201215
  17. A Reciprocal Acoustic Transmission Experiment for Precise Observations of Tidal Currents in a Shallow Sea, Ocean Engineering, 219, 108292, 20201028
  18. Harvesting contact-separation-compression vibrations using a flexible and compressible triboelectric generator, Sustainable Energy Technologies and Assessments, 42, 100869, 20201026
  19. Modified Algorithms for Fast Construction of Optimal Latin-hypercube Design, IEEE Access, 8, 191644-191658, 20201021
  20. Simply supported FPEDs connected by springs for broadband energy harvesting, International Journal of Applied Electromagnetics and Mechanics, 1-10, 20200904
  21. Active aerodynamics control of simplified vehicle body in a crosswind condition, The Journal of Engineering, 20200901
  22. Numerical Recreation of the Draupner Wave in Crossing Wave Systems Using Smoothed Particle Hydrodynamics, Proc. of the 39th International Conference on Ocean, Offshore & Arctic, 20200803
  23. Revisiting a coastal acoustic tomography experiment in Hiroshima Bay: Temporal variations in path-averaged currents and its relation to wind, Applied Ocean Research, 102, 102303-102303, 20200722
  24. Effect of Wavy Leading Edge with Various Aspect Ratios on a Rectangular Wing, 2nd Maritime Safety International Conference, 20200718
  25. Identification of the vortex around a vehicle by considering the pressure minimum, Journal of Visualization, 20200616
  26. A Bellows Type of Flexible Piezo-electric Energy Harvester for Structural Health Monitoring of Pipelines, International Ocean and Polar Engineering Conference, 20200601
  27. Spatiotemporal Measurement for Strong Current Fields in a Ferry Route Using Coastal Acoustic Tomography, International Society of Offshore and Polar Engineers, 20200601
  28. Numerical re-creation of multi-directional waves in a circular basin using a particle based method, Ocean Engineering, 209(107446), 107446-107446, 20200525
  29. Tomographic measurement of tidal current and associated 3-hour oscillation in Bali Strait, Estuarine, Coastal and Shelf Science, 236, 20200505
  30. Effect of Wavy Leading Edge on Pitching Rectangular Wing, Journal of Aero Aqua Bio-mechanisms, 9(1), 1-7, 20200129
  31. Reciprocal Acoustic Transmission Experiment for Water Flow Information at a Narrow Strait in the Seto Inland Sea, Proceedings of Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 20191114
  32. Numerical Recreation of a Giant Freak Wave in Crossing Waves Using a Particle Based Method, Proceedings of Workshop on Environmental Technologies in Naval Architecture and Ocean Engineerin, 20191114
  33. Active Aerodynamics Control of Simplified Vehicle Body in a Crosswind Condition, Proc. of the 20th International Conference of Fluid Power and Mechatronic Contorl Engineering, 20191108
  34. Observing Internal Solitary Waves in the Lombok Strait by Coastal Acoustic Tomography, Geophysical Research Letters, 46, 1-15, 20190830
  35. Harvesting Ocean Energy with a Small-Scale Tidal-Current Turbine and Fish Aggregating Device in the Indonesian Archipelagos, Sustainable Energy Technologies and Assessments, 35, 160-171, 20190709
  36. Short-Term Variation of the Surface Flow Pattern South of Lombok Strait Observed from the Himawari-8 Sea Surface Temperature, remote sensing, 20190624
  37. Numerical Simulation of Multidirectional Waves with Full-Spectrum Using DualSPHysics, Proc. of the 38th International Conference on Ocean, Offshore & Arctic Engineering, CD-R, 20190609
  38. Predicting the motions of a fishing boat caused by improving the stern part using a hybrid particle-grid scheme, International Journal of Technology, 10(2), 236-246, 20190425
  39. Coupled FPEDs using springs for broadband energy harvesting, International Journal of Applied Electromagnetics and Mechanics, 59(2), 557-565, 20190321
  40. Application of a flexible device coating with piezoelectric paint for harvesting wave energy, OCEAN ENGINEERING, 172(15), 170-182, 20190115
  41. Development and Experimental Validation of a Multidirectional Circular Wave Basin using Smoothed Particle Hydrodynamics, Coastal Engineering Journal, 61(1), 109-120, 20190109
  42. Occurrence of stern slamming pressure and its characteristics in following irregular waves, OCEAN ENGINEERING, 170(1), 222-236, 20181215
  43. Physical mechanisms and characteristics of a stern slamming using Particle Based Method, Proc. of 6th World Maritime Technology Conference, CD-R, 1-11, 20181204
  44. Realtime offshore coastal acoustic tomography enabled with mirror transpond functionality, IEEE Journal of Oceanic Engineering, 1(1), 1-11, 20181127
  45. Multidirectional Wave Making with Full-Spectrum Using DualSPHysics, Proceeding of Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 1(1), 37-41, 20181109
  46. Mapping Tidal Current Fields around Ferry Route Area in the Bali Strait by Coastal Acoustic Tomography, Proceeding of Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 1(1), 75-78, 20181109
  47. Application of a Multidirectional Circular Wave Basin Using DualSPHysics, Proc. of the 4th DualSPHysics Users Workshop, 1(1), 1-5, 20181022
  48. Fluid Structure Interactions Between Waves and Coastal Structures Using SWE-SPH, Proceedings of the 26th International Society of Offshore and Polar Engineers(ISOPE), 1(1), 539-545, 20180610
  49. Numerical Investigation into the Restoration of Ocean Environments Using Steelmaking Slag, Marine Pollution Bulletin, 131(A), 428-440, 20180425
  50. Fluid structure interactions between floating debris and tsunami shelter with elastic mooring caused by run-up tsunami, Coastal Engineering, 137(1), 120-132, 20180421
  51. 定置網漁船(19GT型)の船型開発について, 海洋水産エンジニアリング, 138(1), 77-84, 20180310
  52. バネで接続された圧電エネルギーハーベスターに関する研究, 日本AEM学会誌, 26(1), 166-171, 20180301
  53. 沖合サンマ棒受網漁船(19GT型)の開発について, 海洋水産エンジニアリング, 137(1), 114-122, 20180101
  54. Development of numerical tank for multi-directional wave basins using GPUSPH, Proceeding of Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 20171116
  55. Harvesting flow-induced vibration using a highly flexible piezoelectric energy device, APPLIED OCEAN RESEARCH, 68, 39-52, 20171001
  56. A painting type of flexible piezoelectric device for ocean energy harvesting, APPLIED OCEAN RESEARCH, 68, 182-193, 20171001
  57. Characteristics of a fish aggregating device with ocean energy harvester, JOURNAL OF MARINE SCIENCE AND TECHNOLOGY, 23(3), 435-452, 20170930
  58. Profiling measurement of internal tides in Bali Strait by reciprocal sound transmission, ACOUSTICAL SCIENCE AND TECHNOLOGY, 38(5), 246-253, 20170901
  59. Characteristics of a fish aggregating device with ocean energy harvester, Journal of Marine Science and Technology, 23, 435-452, 20170901
  60. Fertilizer application to enhance the growth of raft-cultured oysters, The JSFS 85th Anniversary-Commemorative International Symposium, Fisheries Science for Future Generations, 1-2, 20170901
  61. Flow generation in a circular wave/current basin, Proceedings of Offshore Energy and Storage 2017, 20170701
  62. Characteristic of tsunami force acting on shelter with mooring, APPLIED OCEAN RESEARCH, 64, 70-85, 20170301
  63. Ocean Energy Platform using a Floating Fishing Bank,, Proc. of Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 69-73, 20161208
  64. Simply-supported multi-layered beams for energy harvesting, Journal of Intelligent Material Systems and Structures, 28(6), 740-759, 20160801
  65. Simply-supported multi-layered beams for energy harvesting, JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 28(6), 740-759, 20160801
  66. Numerical Estimation for Tidal-current Energy Resources in Indonesia,, Proceedings of the 25rd International Society of Offshore and Polar Engineers(ISOPE), 519-527, 20160626
  67. Interactions between Run-Up Tsunami and Structures Using Particle Based Method,, Proceedings of the 25rd International Society of Offshore and Polar Engineers(ISOPE), 228-235, 20160626
  68. Numerical Simulation of a Strongly Interaction between Tsunami wave and Obstacles Using Particle Based Method,, Proceedings of 3rd International Conference on Violent Flows (VF-2016), CD-R(CD-R), 20160309
  69. Wave Energy Converter Using a Compressed Type of Flexible Piezoelectric Device, Proceedings of the 25rd International Society of Offshore and Polar Engineers(ISOPE), 1059-1065, 20150623
  70. Numerical Simulation of Tsunami Force Acting on a Floating/Submerged Tsunami Shelter,, Proc. of VI Coupled Problems in Science and Engineering (Coupled Problem 2015),, 1171-1184, 20150518
  71. 柔軟発電体を用いた波力発電の特性評価方法に関する研究, 日本AEM学会誌, 23(1), 111-117, 20150301
  72. An Experimental study of wave power generation using a flexible piezoelectric device, Journal of Ocean and Wind Energy, 2, 28-36, 20150201
  73. 浮沈式大型津波シェルターに作用する流体力低減とその運動特性, 日本船舶海洋工学会論文集, 20, 49-57, 20141201
  74. Ocean Power Generator Using Flexible Piezoelectric Device, Proceedings of the ASME 32nd International Conference on Ocean, Offshore and Arctic Engineering, 20130609
  75. Elastic Floating Unit with Piezoelectric Device for Harvesting Ocean Wave Energy, Proceedings of the ASME 31rd International Conference on Ocean, Offshore and Arctic Engineering, 7, 233-240, 20120701
  76. Numerical Study on Propulsion and Seakeeping Performance of a Ship Using an Eulerian Scheme with Lagrangian Particles, 20110601
  77. An Eulerian Scheme with Lagrangian Particle for Evaluation of Seakeeping Performance of Ship in Nonlinear Wave, 20110601
  78. A Technology of Electrical Energy Generated from Ocean Power Using Flexible Piezoelectric Device, Proceedings of the ASME 29th International Conference on Ocean, Offshore and Arctic Engineering, ISBN:978-0-7918-3873-0, 20100606
  79. Lagrange粒子付Euler型スキームによる流体構造連成解析法の適用性, 土木学会論文集,B2(海岸工学), 65(1), 51-55, 20091101
  80. 弾性圧電デバイスを用いた波エネルギー利用技術の開発, 土木学会論文集,B2(海岸工学), 65(1), 1296-1300, 20091101
  81. SPH法による流力弾性解析法と水面衝撃圧問題への適用, 土木学会論文集,B編, 65(2), 70-80, 20091101
  82. 波状前縁を用いた3次元翼の失速抑制に関する実験的研究, 日本船舶海洋工学論文集, 9, 55-62, 20090601
  83. Numerical Simulation of Dynamic Response of Structure Caused By Wave Impact Pressure Using an Eulerian Scheme with Lagrangian Particles, Proceedings of the ASME 28th International Conference on Ocean, Offshore and Arctic Engineering, 661-670, 20090531
  84. 自然的攪乱後の干潟地盤の自律的再生過程とその数値予測モデルの開発, 海岸工学論文集, 55, 526-530, 20081101
  85. 江田島湾における流動・物質収支モデルの構築と広島牡蠣養殖の影響, 海岸工学論文集, 55, 1201-1205, 20081101
  86. Numerical analysis of wind drag reduction with corner cut and step shaped accommodation tower of ships, Proceedings of the 3rd Pan Asian Association of Maritime Engineering Societies / Advanced Maritime Engineering Conference 2008, 75-82, 20081020
  87. Numerical Analysis of Wind Drag Reduction with Corner Cut and Step Shaped Accommodation Tower of Ships, Proceedings of PAAMES and AMEC2008, 75-82, 20081001
  88. SPH法によるViolent Sloshing解析, 応用力学論文集, 11, 89-96, 20080825
  89. An Eulerian Scheme With Lagrangian Particles For Solving Impact Pressure Caused By Wave Breaking, Proceedings of the Eighteenth (2008) International Offshore and Polar Engineering Conference, 162-169, 20080706
  90. Particle CIP法による砕波解析, 海岸工学論文集, 54, 21-25, 20071101
  91. Particle CIP法による水面衝撃問題の数値解析, 応用力学論文集, 10, 121-130, 20070801
  92. Particle CIP 法による高精度な移動境界面の捕獲, 土木学会論文集,B編, 62(4), 376-387, 20061101
  93. N分散相二流体モデルに基づく干潟土壌の粒径別挙動及び地下水面の数値解析, 海岸工学論文集, 53, 1016-1020, 20061101
  94. 潮汐と波浪外力による干潟域の流動・地形変化の数値解析, 水工学論文集, 1459-1464, 20061101
  95. 砕波による衝撃圧の直接推定と構造物の動的解析, 土木学会論文集,B編, 62(3), 224-237, 20060701
  96. 沿岸音響トモグラフィーによるデータ同化を利用した広島湾の流況解析, 海岸工学論文集, 52, 326-330, 20051101
  97. 重合ソロバン格子法による自由表面境界層の数値解析, 海岸工学論文集, 52, 16-20, 20051101
  98. N分散相二流体モデルに基づく干潟の流動・地形変化の数値解析, 海岸工学論文集, 53, 431-435, 20051101
  99. Numerical Study on Breaking Phenomena of Ships' Waves in Narrow and Shallow Waterways, Journal of Marine Science and Technology, 11-21, 20050301
  100. Numerical study of the effect of waterway shape on ship wave characteristics, Journal of the Japan Society of Naval Architects and Ocean Engineers, 192, 81-87, 20020710
  101. Numerical simulation of wind-waves interaction in the turbulent boundary layer, Proceedings of the 28th International Conference on Coastal Engineering, 28, 625-637, 20020707
  102. CIP and CA based large deformation analysis of collapse of a soil column, 1, in press, 20011101
  103. 乱流境界層中の砕波を伴う風波乱流場の3次元数値解析, 海岸工学論文集, 48, 61-65, 20011101
  104. 広島湾奥部の赤潮発生に及ぼす陸域起源の降雨量の影響, 海岸工学論文集, 48, 1071-1075, 20011101
  105. Numerical simulation of turbulent air-water mixing layer within surf-zone, Proceedings of 27th International Conference on Coastal Engineering, 27, 755-768, 20000716
  106. 砕波後の気液混相流体場の力学的運動機構に関する数値解析, 海岸工学論文集, 46, 161-165, 19991101
  107. Relationships of plunging jet size to kinematics of breaking waves with entrained air bubble, Proc. of 4th Air-Sea Interface Sympo, 4, 19990301
  108. Relationships of plunging jet size to kinematics of breaking waves with spray and entrained air bubble, Coastal Eng. Journal, 41(3-4), 269-280, 19990215
  109. トラップ式ダブルリーフの不規則波に対する消波・セットアップ抑制効果について, 海岸工学論文集, 45, 706-710, 19981101
  110. Numerical Simulation of Two-Phase Complicated Flows with bubbles and acrosol., Proc. 4th Int. Conf. on Virtual Systems and Maltimedia, 116-121, 19980401
  111. Kinematics of overturning solitary waves and their relations to breaker types, Coastal Engineering, 29(4), 317-346, 19970101
  112. トラップ式ダブルリーフの消波機能(1), 海岸工学論文集, 43, 786-790, 19961101
  113. リーフ上の孤立波の砕波形式に及ぼす2次波峯と波峯間干渉の影響, 海岸工学論文集, 43, 76-80, 19961101
  114. A new type breaker forming a giant jet and its decaying properties, Proceedings of the 25th International Conference on Coastal Engineering, 25, 300-313, 19960902
  115. Cause and Characteristics Impact Pressure Exerted by Spilling and Plunging Breakers on a Vertical Wall,, Proceedings of 25th International Conference on Coastal Engineering, 25, 2442-2455, 19960902
  116. Breaker-type effect on impact pressure exerted on a vertical wall, Coastal Engineering Journal, 39(1), 39-57, 19960101
  117. ジェット放出過程の孤立波の水粒子速度と砕波形式の関係, 海岸工学論文集, 41, 166-170, 19941101
  118. ステップ上の直立壁に作用する衝撃砕波圧と砕波形式の関係, 海岸工学論文集, 40, 756-760, 19931101
  119. Internal velocity field at incipient breaking of a solitary wave over a submerged dike, Boundary Elements XV Vol 1 Fluid Flow and Computational Aspect, WIT Transactions on Modelling and Simulation, 179-192, 19930101
  120. Coastal Acoustic Tomography of the Neko-Seto Channel with a Focus on the Generation of Nonlinear Tidal Currents-Revisiting the First Experiment, REMOTE SENSING, 14(7), 202204
  121. Characteristics of electric performance and key factors of a hybrid piezo/triboelectric generator for wave energy harvesting, SUSTAINABLE ENERGY TECHNOLOGIES AND ASSESSMENTS, 50, 202203
  122. Highly directionally spread, overturning breaking waves modelled with Smoothed Particle Hydrodynamics: A case study involving the Draupner wave, OCEAN MODELLING, 164, 202108
  123. Fluid-Dynamic Force Measurement of Ahmed Model in Steady-State Cornering, ENERGIES, 13(24), 202012
  124. Harvesting contact-separation-compression vibrations using a flexible and compressible triboelectric generator, SUSTAINABLE ENERGY TECHNOLOGIES AND ASSESSMENTS, 42, 202012
  125. Active aerodynamics control of simplified vehicle body in a crosswind condition, JOURNAL OF ENGINEERING-JOE, 2020(14), 1005-1011, 202011
  126. Real-Time Offshore Coastal Acoustic Tomography Enabled With Mirror-Transpond Functionality, IEEE JOURNAL OF OCEANIC ENGINEERING, 45(2), 645-655, 202004
  127. 圧縮型柔軟発電デバイスを用いた波エネルギー発電技術の開発, 土木学会論文集,B2(海岸工学),, 70(2), I_1316-I_1320, 201411
  128. Numerical Study on Propulsion and Seakeeping Performance of a Fishing Boat Improving in Bow and Stern, Proc. of 2nd International Symposium on Naval Architecture and Maritime, 2, 263-272, 201410
  129. Chlorophyll and suspended sediment mapping to the Caribbean Sea from rivers in the capital city of the Dominican Republic using ALOS AVNIR-2 data, ENVIRONMENTAL MONITORING AND ASSESSMENT, 186(7), 4181-4193, 201407
  130. An Experimental study of wave power generation using flexible piezoelectric device, Proceedings of the 24rd International Society of Offshore and Polar Engineers(ISOPE), 537-544, 201406
  131. Characteristics of fluid force and impact pressure on a large-sized tsunami shelter, Proceedings of the 24rd International Society of Offshore and Polar Engineers(ISOPE), 38-45, 201406
  132. Study on flexible piezoelectric device for compressive loads, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 45(1-4), 163-170, 201405
  133. Forced Vibration Experiments on Flexible Piezoelectric Devices Operating in Air and Water Environments, International Journal of Applied Electromagnetics and Mechanics, 45(1-4), 573-580, 201405
  134. Reduction of Tsunami Force Acting on Large-sized Tsunami Shelter,, The Coasts & Ports 2013 Conference,, 201309
  135. Development of Floating Tsunami Shelter with Mooring, Proceedings of the 23rd International Society of Offshore and Polar Engineers(ISOPE), 60-67, 201307
  136. A Hybrid Particle-Grid Scheme for Computing Hydroelastic Behaviors Caused by Slamming, 5th International Conference on Computational Methods in Marine Engineering, MARINE2013, 201305
  137. Evaluation of organic matter load in different methods of oyster culture, NIPPON SUISAN GAKKAISHI, 77(6), 1043-1050, 201111
  138. An Eulerian Scheme with Lagrangian Particles for Evaluation of Seakeeping Performance of Ship in Nonlinear Wave, INTERNATIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING, 21(2), 103-110, 201106
  139. Simply supported FPEDs connected by springs for broadband energy harvesting, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 64(1-4), 201-210, 2020
  140. Model refinements and experimental testing of highly flexible piezoelectric energy harvesters,, Journal of Sound and Vibration, 368, 87-102, 2016
  141. Study of power generation using FPED assuming engine vibration,, International Journal of Applied Electromagnetics and Mechanics, 52, 1377-1383, 2016
  142. Study on Flexible Piezoelectric Device for Compressible load, Proc. 16th International Symposium on Applied Electromagnetic and Mechanics, 313-314, 2013
  143. Forced Vibration Experiments on Flexible Piezoelectric Devices Operating in Air and Water Environments, Proc. 16th International Symposium on Applied Electromagnetic and Mechanics, 353-354, 2013
  144. An experimental study of power generation and storage using a flexible piezoelectric device, INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, 39(1-4), 603-608, 2012
  145. An experimental study of power generation and storage using a flexible piezoelectric device, International Journal of Applied Electromagnetics and Mechanics, 39(1-4), 603-608, 2012
  146. Wind Energy Harvesting Using Flexible Piezoelectric Device, Proc. of International Conference on Power and Energy Engineering, CD-R, 2012
  147. An Experimental Study of a Submerged Power Generator that Uses Fexible Power Generation Devices, Journal of the Japan Society of Applied Electromagnetic and Mechanisc, 20(2), 541-546, 2012
  148. 弾性圧電デバイスを用いた風力エネルギー利用に関する研究, 日本機械学会論文集, 78(789), 1068-1072, 2012
  149. Reciprocal sound transmission measurement of the 5day temperature variation in the Kurushima Strait, Acounstical Science and Technology, 33(1), 59-63, 2012
  150. Tidal current measurement in the Kurushima Strait by the reciprocal sound transmission method, Acoustical Science and Technology, 33(1), 45-61, 2012
  151. Historic reconstruction of the environmental condition of the coastal waters of Santo Domingo using remote sensing technologies and public infromation, Proc. of VIII International Interdisciplinary Scientific Research Congress, 2012
  152. Estimation of water quality in the coastal area near Santo Domingo by remote sensing, Prof. of VIII International Interdisciplinary Scientific Research Congress, 2012
  153. Chlorophyll-a and Suspended Solids Mapping to the Caribbean Sea from Rivers in the Capital City of Dominican Republic using ALOS/AVNIR-2, Proc. of The 33rd Asian Conference on Remote Sensing, 2012
  154. Simulation of Chlorophyll-a Estimation by World View-2 in the Urban Rivers of the Dominican Republic using Field Spectral Data, Proc. of Asian Conference on Remote Sensing, 2012
  155. Historic reconstruction of the environmental condition of the coastal waters of Santo Domingo using remote sensing technologies and public infromation, VIII International Interdisciplinary Scientific Research Congress, CD-R, 2012
  156. Field survey and satellite validation of water quality parameters of rivers in the surroundings of Santo Domingo Metropolitan area, Proc. of 9th International Conference on the Environmental Management of Enclosed Coastal Seas (EMECS 9), CD-R, 2011
  157. Mapping water quality using satellite remote sensing technique in eutrophic Ozama-Isabela and Haina rivers of Dominican Republic, Proc. of VII International Interdisciplinary Scientific Research Congress, 2011
  158. Monitoring of Water Quality of Ozama, Isabela and Haina rivers, Dominican Republic, Proc. of VII International Interdisciplinary Scientific Research Congress, 2011
  159. Pollution Loading to the Caribbean Sea from rivers in the capital city of The Dominican Republic, Proc. of International Sessions in Conference on Coastal Engineering, 2, 41-45, 2011
  160. Initial study for the estimation of PM2.5 distribution in Hiroshima using GOSAT CAI data, Proc. of 7th International Workshop on Greenhouse Gas Measurements for Space, 2011
  161. 垂下式弾性浮体ユニット型海洋エネルギー発電方式の開発, 日本船舶海洋工学論文集, 14, 151-158, 2011
  162. カキ養殖の実施形態別有機物負荷特性の評価, 日本水産学会誌, 77(6), 1043-1050, 2011
  163. An Experimental Study of a Submerged Power Generator that Uses Fexible Power Generation Devices, Proc. of The 20th MAGDA Conference in Pacific Asia, 524-529, 2011
  164. 漁船の省エネを考える(下), 海洋水産エンジニアリング, 100, 112-120, 2011
  165. 江田島湾のカキ筏配置の季節変動と海水交換率への影響, 土木学会論文集,B3(海洋開発), 67(2), I_364-I_369, 2011
  166. Numerical Simulation on Hydroelastic Response of Structures under Impact Loads from Water Using Eulerian scheme with Lagrangian Particles, Proceedings of the 4th International Conference on Computational Methods in Marine Engineering, CD-R, 2011
  167. An Experimental Study of Power Generation and Storage Using a Flexible Piezoelectric Device, Proc. of 15th International Symposium on Applied Electromagnetics and Mechanics, 279-280, 2011
  168. Numerical Study on Nonlinear Hydroelastic and Hydrodynamic Effects on Floating Body Using Eulerian Scheme with Lagragian Particles, Proceedings of the 21st International Society of Offshore and Polar Engineers(ISOPE), 610-617, 2011
  169. Study on Wave Power Generator Using Flexible Piezoelectric Device, Proceedings of the ASME 30th International Conference on Ocean, Offshore and Arctic Engineering, CD-R, 2011
  170. Numerical Study on Propulsion and Seakeeping Performance of a Ship Using an Eulerian Scheme with Lagrangian Particles, Journal of the Japan Society of Naval Architects and Ocean Engineers, 13, 19-26, 2011
  171. 漁船の省エネを考える(上), 海洋水産エンジニアリング, 99, 40-50, 2011
  172. Hydrodynamic Performance of Wing with Wavy Leading Edge, Proc. of Advanced Maritime Engineering Conference(AMEC2010) and 4th Pan Asia Association of Maritime Engineering Societies (PAAMES) Forum, 3(1.2), 54-59, 2010
  173. 波状前縁付き矩形翼周りの流れ解析, 日本船舶海洋工学論文集, 12, 34-41, 2010
  174. A Study on Stall Delay by Various Wavy Leading Edges, Journal of Aero Aqua Bio-mechanisms, 1(1), 18-23, 2010
  175. 弾性圧電デバイスを用いた海洋エネルギー利用技術に関する研究, 土木学会論文集,B2(海岸工学), 66(1), 1276-1280, 2010
  176. 沿岸都市部から発生した人為起源栄養塩の海面沈着量の推定, 土木学会論文集,B2(海岸工学), 66(1), 1166-1170, 2010
  177. 弾性圧電デバイスを用いた波浪発電に関する研究, 土木学会論文集,B2(海岸工学), 66(1), 1281-1285, 2010
  178. Study on flexible power generation device using piezoelectric film, Proc. of 16th International Conference on Electrical Engineeing, ISBN:978-89-86510-10-2 98560, 2010
  179. Numerical Simulation of Interaction Between Wave and Floating Body using Eulerian Scheme with Lagrangian Particles, Proc. of IV European Conference on Computational Mechanics, ~ Solids, Structures and Coupled Problems in Engineering ~, ECCM2010, CD-R, 2010
  180. An Eulerian Scheme with Lagrangian particle for evaluation of seakeeping performance of a ship in nonlinear wave, Proceedings of the 20th International Society of Offshore and Polar Engineers(ISOPE), ISBN:978-1-880653-77-7, 611-618, 2010
  181. Lagrange粒子付Euler型スキームによる波浪中耐航性評価のためのCFDツールの開発, 日本船舶海洋工学論文集, 11, 7-16, 2010
  182. A Study on Stall Delay by Various Wavy Leading Edges, Proceedings of 4th International Symposium on Aero Aqua Bio-Mechanisms, CD-R, 2009
  183. Numerical Study on Interaction between Violent Wave and Structure using SPH, Proc. of Particle-Based Methods, -Fundamentals and Applications, PARTICLES 2009, ECCOMAS(European Community in Computational Methods in Applied Science), ISBN:978-84-96736-82-5, CD-R, 2009
  184. Lagrange粒子付Euler型スキームを用いた衝撃圧による構造物の動的応答解析, 日本船舶海洋工学論文集, 8, 195-203, 2008
  185. Highly accurate Free Surface Capturing Technique for Wave Breaking, Proceedings of International 31th Conference on Coastal Engineering, 38-50, 2008
  186. Numerical Analysis of Wind Drag Reduction with Corner Cut and Step Shaped Accommodation Tower of Ships, Proceedings of PAAMES and AMEC2008, 75-82, 2008
  187. 衝撃砕波圧作用下における固体流体連成解析法と構造物の動的応答特性, 海岸工学論文集, 55, 31-35, 2008
  188. An Eulerian Scheme with Lagrangian particles for Solving Impact Pressure Caused by Wave Breaking, Proceedings of International Society of Offshore and Polar Engineers(ISOPE), ISBN 978-1-880653-70-8, 162-169, 2008
  189. A Coupled Eulerian-Lagrangian Method for Free Surface Problems, Proc. of International Conference on Violent Flows (VF-2007), 227-234, 2007
  190. Modeling of Intertidal Flow and Geomorphology Using N+2-Field Model, Proceedings of the 7th International Conference on HydroScience and Engineering (ICHE 2006), ISBN: 0977447405, 2006
  191. Data Assimilation of Coastal Circulation Model with Coastal Acoustic Tomography in Hiroshima-Bay, Proceedings of 13th International Marine Science Symposium on the Physical, Biological, Chemical and Geological Processes in the Pacific Ocean and Asian Marginal Seas, CD-R, 2005
  192. Numerical Simulation for Large Deformation Fluid-Structure Interaction Using CIP-EDEM method, Proceedings of 5th Int. Sympo. on Ocean Wave Measurement and Analysis, CD-R, 2005
  193. Characteristics of Coastal Circulation in the Semi-Enclosed Seto Inland Sea Using Regional Atmosphere-Ocean Model, Proceedings of the 8th International Conference on Estuarine and Coastal Modeling, ASCE, 325-341, 2003
  194. Characteristics of Coastal Circulation in the Semi-Enclosed Seto Inland Sea Using Regional Atmosphere-Ocean Model, Proceedings of the 9th Symposium on Nonlinear and Free-Surface Flows, 111-118, 2003
  195. Numerical Simulation of Wind-Waves Interactions in the Turbulent Boundary Layer, Proceedings of 28th Int. Conf. on Coastal Eng., 625-637, 2002
  196. Numerical study of the effect of waterway shape on ship wave characteristics, Proceedings of 8th Symposium on Nonlinear and Free-Surface Flows, 29-32, 2002
  197. CG animation of tsunamis, storm surges and breaking waves, Proceedings of 2nd Int. Conf. on Virtual System and Multimedia, 295-300, 1996
  198. Modelling of surfzone waves in field and their momentum diffusion coefficients, Proceedings of 10th ASCE Specialty Conf. on Eng. Mechanics, CD-R, 1251-1254, 1995

Publications such as books

  1. 2019/03/01, 水理公式集(2018年度版), 水理公式集(2018年度版), 流体力と流体振動, 20190301, 2019, 03, Scholarly Book, Joint work, 日本語, 陸田ほか, 978-4-8106-0835-9, 929, 162-164
  2. 2014/03, コンバーティングのすべて, 加工技術研究会, 2014, 3, Book(general), Joint work
  3. 2013/08, 技術シーズを活用した研究開発テーマの発掘, 技術情報協会, 2013, 8, Book(general), Joint work
  4. 2013/06, Computational Wave Dynamics, (Advanced Series on Ocean Engineering), World Scientific Publishing Company, 2013, 6, Scholarly Book, Joint work
  5. 2012/11, Fluid Structure Interaction with Nonlinear Free Surface Flow, ~Marine Engineering Applications using Eulerian Scheme with Lagrangian Particles~, LAMBERT Academic Publishing, 2012, 11, Scholarly Book, Joint work
  6. 2012/07, 数値波動水槽 -砕波波浪計算の深化と耐波設計の革新を目指して-, 土木学会, 2012, 7, Scholarly Book, Joint work

Invited Lecture, Oral Presentation, Poster Presentation

  1. Key Factors for Improving the Electrical Performance from a Hybrid Piezo/Triboelectric Generator, Ede Mehta Wardhana, Hidemi Mutsuda, Yoshikazu Tanaka, Takuji Nakashima, Taiga Kanehira, Shuhei Maeda, Masaaki Yamauchi, 2021/12/07, Without Invitation, English, preprint
  2. Electrical performance of a piezoelectric-paint based wave energy harvester, Xinru Du, Xinru Du, Hidemi Mutsuda, Yoshikazu Tanaka, Takuji Nakashima, Taiga Kanehira, 2021/05/19, Without Invitation, English, preprint
  3. A Reciprocal Acoustic Transmission Experiment in an Area of Complex Coastlines in the Seto Inland Sea for Measuring Path-Averaged Current Velocity, Naokazu Taniguchi, Yuji Sakuno, Hidemi Mutsuda, Toshiyuki Takahashi, Kengo Yoshiki, Hironori Yamamoto, 2020/11/16, Without Invitation, Japanese, preprint
  4. Numerical Simulation of the Draupner Wave Breaking in Crossing Seas Using SPH, Taiga Kanehira, Takuya Yamasaki, Takuji, Nakashima, Hidemi Mutsuda, 2020/11/16, Without Invitation, Japanese, published
  5. Numerical re-creation of multi-directional waves in a circular basin for Ocean Renewable Energy, Hidemi Mutsuda, Coastal Acoustic Tomography Training seminar 2019, 2019/09/20, With Invitation, English
  6. A Flexible Sensor and Energy Harvester for Bellows Pipes Using a Painted Piezoelectric Material, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2019/07/25, Without Invitation, Japanese, other
  7. A New Type of Wave Energy Harvester Using Fish Aggregating Device with Flexible Piezoelectric Device, International Summer School on Naval Architecture, Ocean Engineering and Mechanics,, 2019/07/25, Without Invitation, English, other
  8. Numerical Recreation of Multi-directional Waves with Full-spectrum Using Particle Based Method, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2019/07/25, Without Invitation, English, other
  9. A Flexible Sensor and Energy Harvester for Bellows Pipes Using a Painted Piezoelectric Material, Xinru, D., H. Mutsuda, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2019/07/25, Without Invitation, English
  10. A New Type of Wave Energy Harvester Using Fish Aggregating Device with Flexible Piezoelectric Device, Kubota, H., H. Mutsuda, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2019/07/25, Without Invitation, English, published
  11. Numerical Recreation of Multi-directional Waves with Full-spectrum Using Particle Based Method, Yamasaki, T., H. Mutsuda, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2019/07/25, Without Invitation, English
  12. Physical mechanisms and characteristics of a stern slamming using Particle Based Method, Kanehira, T., H. Mutsuda*, Kento Kawawaki and Yasuaki Doi, Kanehira, T., H. Mutsuda*, Kento Kawawaki and Yasuaki Doi, 6th World Maritime Technology Conferece, 2018/12/04, Without Invitation, English, Shanghai, China, published
  13. Characteristics of Stern Slamming Pressure in Following Irregular Waves, Kanehira, T., H. Mutsuda*, Kento Kawawaki, Yasuaki Doi, Hironori Yasukawa, Kanehira, T., H. Mutsuda*, Kento Kawawaki, Yasuaki Doi, Hironori Yasukawa, 日本船舶海洋工学会,秋季講演会, 2018/11/26, Without Invitation, Japanese, 日本船舶海洋工学会, 千葉県柏市, preprint
  14. Numerical Simulation of Multidirectional Waves in FloWave, Kanehira, T., H. Mutsuda*, Yasuaki Doi, Naokazu Taniguchi, Samuel Draycott and David Ingram, Kanehira, T., H. Mutsuda*, Yasuaki Doi, Naokazu Taniguchi, Samuel Draycott and David Ingram, 日本船舶海洋工学会,秋季講演会, 2018/11/26, Without Invitation, Japanese, 日本船舶海洋工学会, 千葉県柏市, published
  15. Multidirectional wave making with full-spectrum using DualSPHysics, Kanehira, T., H. Mutsuda*, Sam Draycott, David Ingram, Yasuaki Doi, Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 2018/11/09, Without Invitation, English, published
  16. Mapping tidal current fields around ferry route area in the Bali strait by Coastal Acoustic Tomography, Aruni Dinan Hanifa, H. Mutsuda*, Fadli Syamsudin, Minmo Chen, Yasuaki Doi, Arata Kaneko, Aruni Dinan Hanifa, H. Mutsuda*, Fadli Syamsudin, Minmo Chen, Yasuaki Doi, Arata Kaneko, Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 2018/11/09, Without Invitation, English, published
  17. Application of a Multidirectional Circular Wave Basin Using DualSPHysics, Kanehira, T., H. Mutsuda*, Yasuaki Doi, Naokazu Taniguchi, Samuel Draycott, David Ingram, Kanehira, T., H. Mutsuda*, Yasuaki Doi, Naokazu Taniguchi, Samuel Draycott, David Ingram, Proc. of the 4th DualSPHysics Users Workshop, 2018/10/22, With Invitation, English, DualSPHysics User Group, Lisbon,Spain, published
  18. Computational Fluid Dynamics in Naval Engineering and Ocean Engineering, Hidemi Mutsuda, Hidemi Mutsuda, Special Lecture in Hasanuddin University, Indonesia, 2018/09/26, With Invitation, English, Hasanuddin University,, Special Lecture in Hasanuddin University, Indonesia, published
  19. Fluid Structure Interactions Between Waves and Coastal Structures Using SWE-SPH, Taiga Kanehira, Andi Ardianti, Hidemi Mutsuda, Yasuaki Doi, Taiga Kanehira, Andi Ardianti, Hidemi Mutsuda, Yasuaki Doi, the 26th International Society of Offshore and Polar Engineers(ISOPE), 2018/06/10, Without Invitation, English
  20. Development of Numerical Tank for Multidirectional Wave Basins Using GPUSPH, Taiga Kanehira, Hidemi Mutsuda, Sam Draycott, David Ingram, Yasuaki Doi, Taiga Kanehira, Hidemi Mutsuda, Sam Draycott, David Ingram, Yasuaki Doi, Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 2017/11/01, Without Invitation, English, published
  21. Fertilizer application to enhance the growth of raft-cultured oysters, Tamiji Yamamoto1, Shigma Ishida, Shinya Nakahara, Kiyonori Hiraoka, Yuhei Omichi, and Hidemi Mutsuda, Tamiji Yamamoto1, Shigma Ishida, Shinya Nakahara, Kiyonori Hiraoka, Yuhei Omichi, and Hidemi Mutsuda, The JSFS 85th Anniversary-Commemorative International Symposium, Fisheries Science for Future Generations, 2017/09/01, Without Invitation, English, published
  22. Characteristics of Fluid Forces on a Floating/Submerged Tsunami Shelter with Elastic Mooring, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2017/08/02, Without Invitation, English
  23. Characteristics of Fluid Forces on a Floating/Submerged Tsunami Shelter with Elastic Mooring, Fukushima, K., H. Mutsuda, International Summer School on Naval Architecture, Ocean Engineering and Mechanics, 2017/08/01, Without Invitation, English, published
  24. ​Flow generation and testing in a circular experimental basin,, Guangming Li,David Ingram, Arata Kaneko, Noriaki Gohda,Donald Noble, Hidemi Mutsuda, Nick Polydorides, Guangming Li,David Ingram, Arata Kaneko, Noriaki Gohda,Donald Noble, Hidemi Mutsuda, Nick Polydorides, Offshore Energy and Storage 2017, 2017/07/01, Without Invitation, English, published
  25. Ocean Energy Platform using a Floating Fishing Bank, Shade Rahmawati, Hidemi Mutsuda, Yasuaki Doi, Shade Rahmawati, Hidemi Mutsuda, Yasuaki Doi, Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 2016/12/10, Without Invitation, English, published
  26. Marine energy plants suitable for Indonesian Archipelago Seas, Hidemi MUTSUDA, CAT Training Course 2016, 2016/09/22, With Invitation, English, published
  27. Interactions between Run-Up Tsunami and Structures Using Particle Based Method, Andi Ardianti, Mutsuda,H., K. Kawawaki and Y. Doi, Andi Ardianti, Mutsuda,H., K. Kawawaki and Y. Doi, Proceedings of the 25rd International Society of Offshore and Polar Engineers(ISOPE), 2016/06/27, Without Invitation, English
  28. Numerical Estimation for Tidal-current Energy Resources in Indonesia, Shade Rahmawati, Mutsuda,H., E. Yoshitomi and Y. Doi, Shade Rahmawati, Mutsuda,H., E. Yoshitomi and Y. Doi, Proceedings of the 25rd International Society of Offshore and Polar Engineers(ISOPE), 2016/06/27, Without Invitation, English
  29. 柔軟発電素材による浮漁礁型海洋エネルギー利用技術に関する研究, 横田俊介,秦 俊介,陸田秀実,土井康明,田中義和, 2016/05/18, Without Invitation, Japanese, published
  30. 柔軟発電素材を用いた弾性振動翼による流れエネルギー利用技術に関する研究,, 志村 仁,陸田秀実,土井康明,田中義和, 第28回「電磁力関連のダイナミクス」シンポジウム, 2016/05/18, Without Invitation, Japanese, published
  31. Numerical Simulation of a Strongly Interaction between Tsunami wave and Obstacles Using Particle Based Method, Andi Ardianti, Hidemi Mutsuda, Kento Kawawaki, Shunsuke Fujii and Yasuaki Doi, Andi Ardianti, Hidemi Mutsuda, Kento Kawawaki, Shunsuke Fujii and Yasuaki Doi, Proceedings of 3rd International Conference on Violent Flows (VF-2016), 2016/03/09, Without Invitation, English
  32. Interactions between Run-up Tsunami and Structures Using Particle Based Method, Andi Ardianti, Hidemi Mutsuda, Yasuaki Doi , H26年度 日本船舶海洋工学会秋季講演会, 2015/11/16, Without Invitation, English, published
  33. Numerical Estimation for Tidal-Current Energy Resources in Indonesia , Shade Rahmawati, Hidemi Mutsuda, Yasuaki Doi , H26年度 日本船舶海洋工学会秋季講演会, 2015/11/16, Without Invitation, English, published
  34. Characteristics of tidal current in Indonesia, tidal-current energy resources ant its utilization in Lombok, Hidemi MUTSUDA, Tomography Lombok Strait Meeting 2015, A vast challenge to monitor Indonesian Throughflow (ITF), 2015/11/04, Without Invitation, English, published
  35. 柔軟発電デバイスによる水力エネルギー発電技術に関する研究, 奥本悠季,横田俊介,陸田秀実,田中義和, 第27回「電磁力関連のダイナミクス」シンポジウム, 2015/05/14, Without Invitation, Japanese, published
  36. 柔軟発電デバイスによる風力エネルギー発電技術に関する研究, 森崎健一,大竹基喜,陸田秀実,田中義和, 第27回「電磁力関連のダイナミクス」シンポジウム, 2015/05/14, Without Invitation, published
  37. Introduction of Flexible Piezoelectric Device and Its Application to Mechanical Energy Harvesting, Hidemi Mutsuda, Special Lecture in University of Strathclyde, 2014/09/01, Without Invitation, English, published
  38. Elastic Floating Unit with Flexible Piezoelectric Device for Wave Energy Harvesting, 2nd World NAOE Forum, 2012/10/29, Without Invitation, English, other
  39. Elastic Floating Unit with Flexible Piezoelectric Device for Wave Energy Harvesting, Azuma S., R. Watanabe, H. Mutsuda, 2nd World NAOE Forum, 2012/10/29, Without Invitation, English, published
  40. Initial study for the estimation of PM2.5 distributions in Hiroshima using GOSAT CAI Data, 7th International Workshop on Greenhouse Gas Measurements for Space (IWGGMS), 2011/05/16, Without Invitation, English, other
  41. Prediction of propulsion and seakeeping performance of a ship using an Eulerian scheme with Lagrangian particles, Suandar Baso, H. Mutsuda*, Yasuaki Doi, 2010/11/01, Without Invitation, Japanese, published
  42. 船首および船尾改良による漁船の抵抗低減効果に関する数値シミュレーション, 郷 卓紘,陸田秀実,土井康明, H26年度 日本船舶海洋工学会秋季講演会, 2014/11, Without Invitation, Japanese, published
  43. 海事産業における体験型モノづくり教育, 陸田秀実,土井康明,北村 充, 第62回工学教育研究講演会講演論文集, 2014/06, Without Invitation, Japanese, published
  44. 大型津波シェルターに作用する津波力の数値シミュレーション, 藤井俊輔,鎌田正也,陸田秀実,土井康明, 第19回計算工学講演会, 2014/06, Without Invitation, Japanese, published
  45. CFD解析を用いた養殖水槽内の水流特性, 高橋勇樹・安間洋樹・木村暢夫・田丸修・大村智宏・三好潤・永岡 史治崇・陸田秀実, H26年度 日本水産工学会春季シンポジウム, 2014/05, Without Invitation, Japanese, published
  46. 海洋エネルギー利用に向けた柔軟発電デバイスの開発とその発電特性, 東翔太,渡邉隆太,陸田秀実,田中義和,土井康明, H25年度 日本船舶海洋工学会春季講演会, 2013/05, Without Invitation, Japanese, published
  47. 津波シェルターに作用する津波力低減効果に関する研究, 鎌田正也,藤井俊輔,陸田秀実,土井康明, H25年度 日本船舶海洋工学会春季講演会, 2013/05, Without Invitation, Japanese, published
  48. 船尾改良による漁船の抵抗低減効果に関する研究, 石田 晃大,陸田秀実,土井康明, H25年度 日本船舶海洋工学会春季講演会, 2013/05, Without Invitation, Japanese, published
  49. はり理論による柔軟発電体の理論解析に関する検討, 田中義和,尾古卓也,品川和毅,陸田秀実, 第25回「電磁力関連ダイナミクス」シンポジウム, 2013/05, Without Invitation, Japanese, published

Awards

  1. 2018/03/01, Outstanding contribution in Reviewing, Applied Ocean Research (SCI Journal) 2017, Elsevier
  2. 2016/10/01, Outstanding contribution in Reviewing, Applied Ocean Research (SCI Journal),2016, Elsevier
  3. 2012/09/02, Excellent Oral Presentation Award in ICPEE, Conference Chair, ICPEE 2012, Wind Energy Harvesting Using Flexible Piezoelectric Device
  4. 2012/10/01, Best poster award in 2nd World NAOE Forum, 2nd World NAOE Forum, Elastic Floating Unit with Flexible Piezoelectric Device for Wave Energy Harvesting
  5. 2012/01/01, 日本機械学会第21回環境工学総合シンポジウム若手優秀講演フェロー賞, 日本機械学会, 弾性圧電デバイスを用いた風力エネルギー利用技術の開発
  6. 2011/11/01, 日本船舶海洋工学会秋季講演会優秀講演賞, 日本船舶海洋工学会, 垂下式弾性浮体ユニット型海洋エネルギー発電方式に関する研究
  7. 2011/11/01, 日本船舶海洋工学会秋季講演会ポスターセッション最優秀賞, 日本船舶海洋工学会, 弾性圧電デバイスを用いた洋上風力エネルギー利用技術の開発
  8. 2009, 日本機械学会環境部門研究奨励表彰, 日本機械学会
  9. 2008, 土木学会中国支部優秀発表賞, 土木学会中国支部
  10. 2008, 日本船舶海洋工学会秋季講演会ポスターセッション優秀賞, 日本船舶海洋工学会

Patented

  1. Patent, 6960128, 2021/10/13
  2. Patent, US Patent No. 10,461,669, 2019/10/29, Wind Power Generation Deice
  3. Patent, 3173616 (ドイツ,フランス,イギリス), 2019/06/26, Wind Power Generation Device
  4. Patent, ZL 2015 8 0040924.7 (中国), 2019/05/14, 風力発電装置
  5. Patent, 6502004, 2019/03/29, 橋梁
  6. Patent, 10,075,103号(アメリカ), 2018/09/11, Power Generation Device for Mobile Body
  7. Patent, ZL20148 0059428.1 (中国), 2018/06/29, 移動体用発電装置
  8. Patent, EP 3 068 030 B160 2014 -2- 669.7(欧州:ドイツ,フランス,イギリス), 2018/03/13, Power Generation Device for Mobile Body
  9. Patent, 6212780, 2017/09/29
  10. Patent, 6087790, 2017/02/10
  11. Patent, 5858357, 2015/12/25
  12. Patent, 5807302, 2015/09/28
  13. Patent, 3461264, 1999/01/19

External Funds

Acceptance Results of Competitive Funds

  1. 2020, 2022
  2. Adaptable and Seamless Technology transfer Program through targetdriven R&D, 2019/09/02, 2020/08/31
  3. KAKENHI(Grant-in-Aid for Challenging Research (Exploratory)), 2019, 2020
  4. 2017/04/01, 2020/03/31
  5. KAKENHI, 2016, 2017
  6. 2015/04/01, 2017/03/31
  7. 2015, 2015
  8. Adaptable and Seamless Technology transfer Program through targetdriven R&D, 2014/10, 2014/12/31
  9. KAKENHI, 2013, 2014
  10. Adaptable and Seamless Technology transfer Program through targetdriven R&D, 2012/11/01, 2013/10/31
  11. Adaptable and Seamless Technology transfer Program through targetdriven R&D, 2012/10/01, 2013/09/30
  12. KAKENHI, Energy Harvesting Technology from Ocean Power Using Flexible Piezoelectric Material, 2011, 2013
  13. 2011, 2012
  14. 2009, 2011
  15. KAKENHI, A biomimetics technology of electrical energy generated from current and wave power using an artificial muscle, 2008, 2009
  16. KAKENHI, 2004, 2005
  17. KAKENHI, 2002, 2003
  18. KAKENHI, 1998, 1999

Social Activities

History as Committee Members

  1. Associate Editor (Coastal Engineering Journal), 2019/07/01, 9999
  2. Editorial Board (Applied Ocean Research), 2014/06/01, 9999, Elsevier
  3. Editorial Board (Applied Ocean Research), 2014/04, 9999

Organizing Academic Conferences, etc.

  1. 2022/05, 2022/05
  2. 2022/02, 2022/02
  3. 日本船舶海洋工学会, 2019/12, 9999/99
  4. Workshop on Environmental Technologies in Naval Architecture and Ocean Engineering, 2019/11, 9999/99
  5. 広島大学, 2019/08, 9999/99

Other Social Contributions

  1. CAT Training Course 2019, Numerical re-creation of multi-directional waves in a circular basin for Ocean Renewable Energy, Hiroshima University, 2019/09/20, 2019/09/20, Hiroshima University, Lecturer, Seminar or workshop, Researchesrs
  2. 高校模擬授業(尾道北高校), 2010/06/30, 2010/06/30

History as Peer Reviews of Academic Papers

  1. 2021, Applied Ocean Research, Editor
  2. 2021, Applied Energy, Others, 1
  3. 2020, Coastal Engineering, Others, 2
  4. 2020, Journal of Marine Science and Engineering, Others, 1
  5. 2020, Journal of Ship Research, Others, 1
  6. 2020, Marine Structures, Others, 1
  7. 2020, Ocean Engineering, Others, 2