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Hemanta Hazarika Last modified date:2023.11.22

Professor / Geodisaster Engineering
Faculty of Engineering


Graduate School
Undergraduate School
基幹物理学I,基幹物理学II,基幹物理学III,基幹物理学IV
力学基礎A,力学基礎B
Other Organization


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Homepage
https://kyushu-u.elsevierpure.com/en/persons/hemanta-hazarika
 Reseacher Profiling Tool Kyushu University Pure
https://kyushu-univ-hazarika.wixsite.com/global-geo-disaster
1. Ground improvement
2. Foundation reinforcement
3. Protecting ground from disasters
4. Site investigation after the disasters
5. Technologies for effective utilization of industrial wastes
6. Characterization of geomaterials during earthquake
7. Development of technology that harmonizes disaster mitigation and environmental protection
8. Disaster mitigation through use of IoT and Artificial Intelligence AI
9. Adaptation of climate change from geotechnical disaster perspectives
10. Creation of a resilient society through multi disciplinary collaboration .
Phone
092-802-3369
Fax
092-302-3368
Academic Degree
Dr. Eng.
Country of degree conferring institution (Overseas)
No
Field of Specialization
Geomechanics, Earthquake Disaster Mitigation, Geo-environmental Engineering, Sustainability
Total Priod of education and research career in the foreign country
00years00months
Outline Activities
In recent years, concerns are growing regarding climate change induced disasters associated with global warming. Approaches and efforts to reduce emissions of CO2, and to implement those through the collaborations with industry, government and academia are the motto of our research group. Developing technologies for climate change adaptation from the Geotechnical perspectives are the urgent need of the society, and our research is focused on those.
On the other hand, the world has been experiencing large scale earthquake induced hazards or other natural hazards such as landslides and floods. Such natural hazards are too frequent in recent years. Developing research methodology, which incorporates and combines these two important aspects that the present day society is confronting (disaster mitigation and environmental protection), is, thus, one of the important goals of our research group.
The research areas include field survey and testing, model testing and their simulations, element testing of natural and recycled materials, characterization of those materials, developing disaster mitigation system using drones, IoT and Artificial Intelligence (AI) etc. Aim of our research is to make us best prepared for the immediate and present dangers facing the global community through geo-disaster risk mitigation. To achieve that purpose, our research is aimed towards combining sustainability and innovation through cross-disciplinary and multi-disciplinary collaborations and creating a resilient society.
Research
Research Interests
  • Development of Early Warning System Based on IoT towards Rainfall Induced Landslides Disaster Mitigation

    keyword : IoT, Heavy Rainfall, Landslide Disaster, Early Warning System
    2022.05~2023.03.
  • Mechanism of long-distance flow-type geo-disasters on gentle slopes caused by inland earthquakes and their prevention measures
    keyword : Field Testing, Element Testing, Model Testing, Numerical Analysis
    2020.05~2023.03.
  • A NEW JET GROUTED GRID FORM METHOD WITH HORIZONTAL SLAB FOR LIQUEFACTION MITIGATION

    keyword : Model Testing, Numerical Analysis
    2017.10~2022.03.
  • Slope Reinforcing Method against Earthquake Disaster Mitigation through Combined use of Sheet Pile and Slanted Micro-Pile
    keyword : Model Testing, Numerical Analysis
    2018.04~2022.03.
  • Risk Assessment and Precursor Evaluation for Rain-induced Landslides
    keyword : Sensor development, Model Testing, Data Analysis
    2018.04~2022.03.
  • Sustainability and Disaster Mitigation Research and Education for Climate Change Adaptation
    keyword : Numerical Analysis, Model Testing
    2018.07~2020.03.
  • Mechanism of Fluidized Flow due to the 2018 Indonesia Palu Earthquake and Risk Evaluation
    keyword : Field Survey, Laboratory Test, Fluidized Landslides, Hazard Evaluation
    2018.11~2020.03.
  • Mitigation of Geotechnical Disasters using Recycled Materials Derived from Scrap Tires
    keyword : Laboratory Test, Numerical Analysis, Model Testing
    2010.07~2024.03.
  • Geotechnical Disasters due to the 2017 July Torrential Rainfall in Northern Kyushu
    keyword : Field Survey, Laboratory Test, Slope failure mechanism
    2017.07~2020.03.
  • Mechanism of Fluidized Landslides due to the 2016 Kumamoto Earthquake and Risk Evaluation of Unstable Soils- A Factual Investigation by Japan-USA Joint Research
    keyword : Field Survey, Laboratory Test, Fluidized Landslides, Hazard Map
    2016.04~2017.03.
  • Survey and Research Related to Damage due to the 2016 Kumamoto Earthquake
    keyword : Earthquake Disaster, Field Survey, Laboratory Test, Analysis
    2016.04~2017.03.
  • Techniues against Seepage and Scouring induced damage of Breakwater foundation using Steel Piles and Steel Slag
    keyword : Sheet pile, Steel slag, Seepage, Scouring, Breakwater
    2014.03~2018.03.
  • Application of Small Diameter Steel Piles as Restraining Piles against Slope Failures
    keyword : Small Diameter Steel Piles , Slope, Installation Angle, Bending Stiffness
    2010.04~2016.03.
  • Development of Earthquake and Tsunami Resistant Breakwater using Steel Sheet Piles and Gabion
    keyword : Sheet pile, Gabion, Tsunami, Scouring, Breakwater
    2012.04~2015.03.
  • Tsunami Resistant Waterfront Structures Considering Scouring and Environment
    keyword : Tsunami, Scouring, Disaster Prevention, Environmental Protection
    2012.04~2015.03.
  • Survey and Research Related to Compound Disaster due to the East Japan Disaster
    keyword : Compound Disaster, Field Survey
    2011.03~2015.03.
  • Earthquake Resistant Reinforcemnet Method of Gravity Type Structures using Tire-derived Geomaterials
    keyword : Earthquake resistant
    2006.04~2000.01.
  • Improvement Effect of Foundation Soils with Tirechips as Isolating Layer
    keyword : Base Isolation
    2008.04~2000.01.
  • Bearing Capacity of Grouted Screw Piles
    keyword : Micro Piles
    2007.04~2000.01.
  • Load Reduction against Retaining Structures using Lightweight Geomaterials
    keyword : Lightweight geomaterials
    2001.04~2000.01.
  • Constitutive Modeling of EPS under Large Strain
    keyword : Constitutive modeling
    2001.04~2006.01.
  • Field Testing on Earth Pressure Reduction using Artificial Geomaterials
    keyword : Load Reduction
    1999.04~2004.01.
Current and Past Project
  • The project study aimed to pursue on-site application methods for environmental impact-reducing slope disaster countermeasures, and invited two researchers specialising in geotechnical engineering to give a public lecture on 1 July. Subsequently, based on the findings from the public lecture, the observation of field data at a certain location in Fukuoka Prefecture were compared and verified with the data from the laboratory model tests conducted in the previous year. We will continue to accumulate observation data by increasing the number of sites to be monitored in the next and subsequent years.
    Through the research discussions this year, we were able to identify the precursor phenomena of slope failure caused by heavy rainfall at an early stage, develop measures to implement a useful early warning and evacuation system (EWS) in the field, identify issues for social implementation and formulate an action plan. The research results will be presented at the 2nd International Conference on Environmentally Sustainable Construction Technologies (CREST 2023) to be held in Fukuoka City in November 2023. The action plan will also continue to be promoted from FY2023 onwards.
  • n early warning system was developed as a soft measure for slope disaster prevention in this study. First, model tests were performed and the data obtained from the communication system were analysed to assess the risk of the slope during heavy rainfall. During the tests, the movement of soil particles was recorded by a high-speed camera and their images were analysed to clarify the failure mechanism. Furthermore, an equation for the local factor of safety (Fs) within the slope during rainfall was proposed and the results of the analysis using this equation clarified the influence of rainfall intensity and the initial moisture content of the soil on the slope failure. Finally, to verify the developed EWS, a filed test was conducted in Fukuoka Prefecture, and it was confirmed that continuous data communication using this system was possible.
  • The objective of this research is to develop and improve low-cost sensor platforms for early detection of precursor phenomena of slope failure caused by heavy rainfall and to provide a useful Early Warning System (EWS) to national and local governments. The objective is to develop and improve low-cost sensor platforms, and to propose effective evaluation indicators from among the various precursor phenomena of slope failure through analysis of experimental data and image analysis obtained from the communication system.
  • This study aims to elucidate the mechanism of vulnerability of gently-sloped ground during an inland earthquake through laboratory tests, model experiments, and numerical simulations that take into account the ground characteristics. The study will elucidate the mechanism of slope failure and establish a method to evaluate the flow distance.
    The objectives of this study are: The main objective of this study is to investigate the long-distance fluidized failure phenomenon of loose sloping ground in several locations in Palu city caused by the 2018 inland earthquake (Mw 7.5) in central Sulawesi, Indonesia. Based on these results, the study aims to identify areas in Japan where similar damage is highly likely to occur and propose earthquake disaster prevention measures for those areas.
Academic Activities
Books
1. Hazarika, H., Nakazawa, J. & Nakahara, I., Practices and Trends in Ground Improvement Techniques, Springer, Singapore, ISBN: 978-981-19-3321-9, 2022.12, [URL].
2. Hazarika, H., Haigh, S.K., Kanaya, H., Chaudhary, B, Kochi, Y., Murai, M., & Fujishiro, T. , Sustainable Geo-Technologies for Climate Change Adaptation, Springer, Singapore, ISBN: 978-981-19-4073-6, 2022.10, [URL].
3. Hazarika, H., Madabhushi, S.P.G., Yasuhara, K., and Bergado, D. T., Advances in Sustainable Construction and Resource Management, Springer Nature, Singapore, ISBN: 978-981-16-0077-7, 2021.02, [URL].
4. Hazarika, H., Yokota, H., Endo, S. and Kinoshita, T., Cascaded Recycle of Waste Tires - Some Novel Approaches towards Sustainable Geo Construction and Climate Change Adaptation -, Geotechnics for Natural and Engineered Sustainable Technologies, A.M. Krishna et al (eds.), Springer Nature, Chapter 4, pp. 63-81., 2019.04.
5. Hazarika, H., Pasha, S. M. K., Madabhushi, G. S. P., and Haigh, S. K., Sustainable Geo-Materials in Construction Towards Climate Change Adaptation, Reference Module in Materials Science and Materials Engineering, Elsevier, 2019.06.
6. Hemanta Hazarika, Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls , Sringer Japan, 2016.09.
7. Ishibashi, I: Hazarika, H. , Soil Mechanics Fundamentals and Applications , Taylor & Francis, 2015.03.
8. Hemanta Hazarika, Fundamentals of Mechanics B: Tutorial Problems and Solutions, 九州大学, 2015.03.
9. Hemanta Hazarika, Fundamentals of Mechanics A: Tutorial Problems and Solutions, 九州大学, 2015.03.
10. Hemanta Hazarika, Yoshimi Sonoda and Mitsuteru Asai, Fundamentals of Mechanics , 九州大学, 2012.03.
11. Ishibashi, I: Hazarika, H. , Soil Mechanics Fundamentals, Taylor & Francis, 2010.12.
12. Hazarika, H.: Yasuhara, K. , Scrap Tire Derived Geomaterials - Opportunties and Challenges, Taylor & Francis, 2008.07.
13. Ayothiraman, R.: Hazarika, H., Earthquake Hazards and Mitigations, I.K. International, 2008.12.
14. Hazarika, H.: Boominathan, K. , Liquefaction and Ground Failure during the 2001 Bhuj Earthquake, India, Taylor & Francis, 2009.01.
Reports
1. 九大 Hidayat, M.N.(九州大学大学院工学府 建設システム工学専攻・博士学生) 九大 ハザリカ へマンタ(九州大学大学院工学研究院・教授), Building EWS with Edge AI (Artificial Intelligence) and IoT (Internet of Things), 2022年度九州大学マス・フォア・インダストリ研究所短期共同研究, 2022.04, The research is already in the implementation phase in the field. The Early Warning System (EWS) developed in the laboratory was deployed in the field to evaluate the results obtained in the laboratory. Sustainable solar power-controlled batteries were used to supply the required power for the system to operate under any conditions of weather. LPWA (Low Power Wide Area) technology was also used in our EWS in addition to the conventional Wifi router for data transmission. LPWA consumes less power than WiFi and also is a free data transmission system because it uses a frequency similar to the radio signal. Therefore, a low-cost EWS could be realized. Thus, the LPWA-based system can be installed even in remote areas with limited Internet and WiFi access.
The developed EWS meets the requirement of the SDGs (Sustainable Development Goals). The results of this research will be published in international conferences and reputed international journals..
Papers
1. 九大 Chen, Y. Y., Wang, Y. K., 九大 Hazarika, H., Wan, Y. S, Strength and deformation behavior of the Yellow River silt under triaxial drained condition considering characteristic states, Journal of Mountain Science, https://doi.org/10.1007/s11629-021-7289-y, 273-284, Vol. 20, No.1, pp. 272-284, 2023.01.
2. 九大 Rohit, D., 九大 Hazarika, H.,九大 Qin, C., 九大 Maeda, T., Kokusho, T., 九大 Yahiro, Y., Prabhakaran, A., Simulation of water film formation during the 2018 Sulawesi earthquake, Forensic Engineering, https://doi.org/10.1680/jfoen.21.00024, 1-15, Vol. 1, pp. 1-15, 2022.11.
3. Tanaka, K., Maeda, H., Yamashita, K., 九大 Liu. Y., 九大 Hazarika, H., Implementation and Proof Experiment of Communication Network for Disaster Prevention Using LPWA, Proceedings of the International Conference on Lecture Notes in Artificial Intelligence, https://doi.org/10.1007/978-3-031-10545-6_4, 47-56, 47-56, 2022.07.
4. 九大 Liu. Y., 九大 Hazarika, H., 九大 Rohit, D., Ali, S., 九大 Fukumoto, Y., Murai, M., 九大 Linh, N.T.H., 九大 Taguchi, Y., Motion Analysis of Ground Failure Considering Rainfall and Ground Water Migration in Sandy Slopes, Proceedings of the 5th International Conference on New Developments in Soil Mechanics and Geotechnical Engineering, 10.1007/978-3-031-20172-1_31, 321-329, 321-329, 2023.03.
5. 九大 Qin, C., 九大 Hazarika, H., 九大 Rohit, D., Ogawa, N., Kochi, Y., Liu, G., Numerical Simulation of Seismic Performance of Road Embankment Improved with Hybrid Type Steel Pile Reinforcement, Proceedings of the 4th International Conference on Performance Based Design in Earthquake Geotechnical Engineering (PBD-IV 2022), https://doi.org/10.1007/978-3-031-11898-2_137, 1332-1339, 1332-1339, 2022.09.
6. 九大 Hu, Y., 九大 Hazarika, H., Madabhushi, G.S.P., Haigh, S.K., Liquefaction Countermeasure for Existing Structures Using Sustainable Materials, Proceedings of the 4th International Conference on Performance Based Design in Earthquake Geotechnical Engineering (PBD-IV 2022), https://doi.org/10.1007/978-3-031-11898-2_137, 1543-1551, 1543-1551, 2022.09.
7. 九大 Hu, Y., 九大 Hazarika, H., Deformation of Earthquake Resistant Gravel-Tire Chips Mixture as Drains, Proceedings of the 5th International Conference on New Developments in Soil Mechanics and Geotechnical Engineering, 10.1007/978-3-031-20172-1_40, 413-420, 413-420, 2023.03.
8. 九大 Hazarika, H., 九大 Qin, C., Kochi, Y., Furuichi, H., Ogawa, N., Murai, M. , Hybrid Type Reinforcement of Highway Embankment Against Earthquake Induced Damage, Proceedings of the 4th International Conference on Performance Based Design in Earthquake Geotechnical Engineering (PBD-IV 2022), https://doi.org/10.1007/978-3-031-11898-2_27, 472-499, 472-499, 2022.09.
9. 九大 Hao Chunrui,九大 Hazarika Hemanta,Isobe Yusaku, Evaluation of gravel-tire chips mixtures for their use in marine landfill leachate collection systems, Proceedings of 20th International Conference on Soil Mechanics and Geotechnical Engineering (ICSMGE 2022), 3791-3796, 3791-3796, 2022.07.
10. 九大 Hao Chunrui,九大 Hazarika Hemanta,Isobe Yusaku, Reinforcement effect and permeability assessment of gravel-tire chips mixture (GTCM) used in marine landfill, Open Journal of Civil Engineering, https://doi.org/10.4236/ojce.2022.122013, 208-230, Vol. 12, pp. 208-230, 2022.07.
11. Hu, Y., Hazarika, H., Madabhushi, G. S. P. and Haigh, S. K., Drains with sustainable materials in mitigating liquefaction induced damage to existing structures, 第14回環境地盤工学シンポジウム論文集, 429-432, pp. 429-432, 2021.08.
12. Rohit, D., Pasha, S. M. K., Hazarika, H., Kokusho, T. and Nurdin, S., Influence of low permeability capping layers on liquefaction induced failure in stratified ground, Proceedings of the Indian Geotechnical Conference 2019, https://doi.org/10.1007/978-981-33-6564-3_30, 343-355, pp. 343-355, 2021.05.
13. Hazarika, H., Rohit, D., Kiyota, T., Okamura, M., Pasha, S. M. K. and Nurdin, S., Forensic evaluation of long-distance flow in gently sloped ground during the 2018 Sulawesi earthquake, Indonesia, Latest Developments in Geotechnical Earthquake Engineering and Soil Dynamics, https://doi.org/10.1007/978-981-16-1468-2, 247-280, pp. 247-280, 2021.07.
14. Rohit, D., Hazarika, H., Qin, C., Maeda, T., Kokusho, T., Yahiro, Y. and Prabhakaran, A., Experimental and numerical simulation on water film formation during the 2018 Sulawesi Earthquake, Proceedings of the Institution of Civil Engineers - Forensic Engineering, https://doi.org/10.1680/jfoen.21.00024, 2022.05.
15. Rohit, D., Hazarika, H., Maeda, T., Sumartini, W. O., Kokusho, T., Pasha, S. M. K. and Nurdin, S., Forensic investigation of flowslides triggered by the 2018 Sulawesi earthquake, Progress in Earth Planet Science, https://doi.org/10.1186/s40645-021-00452-5, 1-20, Vol. 8, Article No. 60, pp. 1-20, 2021.10.
16. Pasha, S. M. K., Hazarika, H., and Yoshimoto, N., Shear Strength Behavior of Gravel–Tire Chips Mixture, Geotechnics for Natural Disaster Mitigation and Management. Springer Nature, Singapore, 33-41, pp. 33-41., 2019.12.
17. Pasha, S. M. K., Hazarika, H., and Yoshimoto, N., Shear Strength Behavior of Gravel–Tire Chips Mixture, Geotechnics for Natural Disaster Mitigation and Management. Springer Nature, Singapore, 33-41, pp. 33-41. , 2019.12.
18. Pasha, S. M. K., Hazarika, H., and Yoshimoto, N., Estimating Dynamic Characteristics of Gravel-Tire Chips Mixtures Using Artificial Intelligence Techniques, Journal of The Society of Materials Science, Japan, 1-8, Vol. 69, No. 1, 1-8., 2020.01.
19. He, Y., Liu, Y., Hazarika, H., and Yuan, R, Stability analysisi of seismic slopes with tensile strengh cut-off, Computer and Geotechnics, 245-256, Vol 112, pp. 245-256., 2019.05.
20. Hazarika, H., Pasha, S.M.K., Madabhushi, G.S.P., and Haigh, S.K., Sustainable Geo-Materials in Construction Towards Climate Change Adaptation, In Reference Module in Materials Science and Materials Engineering:Elsevier, 2019.05.
21. Ohsumi, T., Dohi, Y. and Hazarika, H., Damage related to the 2011 Tohoku Earthquake in and around Kamaishi City - Beyond the Tsunami Disaster, Journal of Disaster Research, 1185-1200, Vol.14, No.7, pp. 1185-1200, 2019.12.
22. Chaudhary, B., Hazarika, H. Murakami, A. and Fujisawa, K., Development of resilient breakwater against earthquake and tsunami, Intl. Journal of Geomechanics, ASCE, 10.1061/(ASCE)GM.1943-5622.0001314, Vol. 19, No. 1, pp. 1-17., 2019.01.
23. Chaudhary, B. and Hazarika, H., Centrifuge modeling for stability evaluation of a breakwater foundation subjected to an earthquake and a tsunami, Ocean Engineering, 169-181, Vol. 148, pp. 169-181., 2018.12.
24. Chaudhary, B., Hazarika, H. Murakami, A. and Fujisawa, K., Mitigation of earthquake induced damage of breakwater by geogrid reinforced foundation, Marine Georesources & Geotechnology, 827-840, Vol. 36, No. 7, pp. 827-840., 2018.12.
25. Chaudhary, B., Hazarika, H. Murakami, A. and Fujisawa, K., Geosynthetic-sheet pile reinforced foundation for mitigation of earthquake and tsunami induced damage of breakwater, Geotextiles and Geomembranes, 597-610, Vol. 46, pp. 597-610., 2018.10.
26. Chaudhary, B., Hazarika, H. Murakami, A. and Fujisawa, K., Countermeasures for enhancing the stability of composite breakwater under earthquake and subsequent tsunami, Acta Geotechnica, 997-1017, Vol. 13, No. 4, pp. 997-1017., 2018.10.
27. Ohsumi, T., Dohi, Y. and Hazarika, H., Investigation of Evaluation of the Strong Motion and Tsunami Related to the AD365 Crete Earthquake, Journal of Disaster Research, 943-956, Vol.13, No.5, pp.943-956., 2019.03.
28. Pasha, S.M.K., Hazarika, H., and Yoshimoto, N., Physical and mechanical properties of Gravel-Tire Chips Mixture (GTCM), Geosynthetics International, 92-110, Vol. 26, No. 1, pp. 92-110., 2019.01.
29. Pasha, S.M.K., Hazarika, H., and Yoshimoto, N., Dynamic Properties and Liquefaction Potential of Gravel-Tire Chips Mixture (GTCM), Journal of Japan Society of Civil Engineers, Ser. A1 Structural Engineering & Earthquake Engineering (SE/EE), 649-655, Vol. 74, No. 4, pp. 649-655., 2018.06.
30. Hazarika, H., Yokota, H., Endo, S. and Kinoshita, T., Cascaded Recycle of Waste Tires - Some Novel Approaches towards Sustainable Geo Construction and Climate Change Adaptation -, Geotechnics for Natural and Engineered Sustainable Technologies, A.M. Krishna et al (eds.), Springer Nature Publication, Singapore, 63-81, 2018.03.
31. Y. Kochi, T. Kariya, D.Matsumoto, T. Hirose and H. Hazarika, Investigation of slopes on the Takanoobane lava dome using the resistivity imaging method
, Lowland Technology International, Special Issue on Kumamoto Earthquake and Disasters, Vol. 19, 261-266, 2018.03.
32. Ogo, K., Hazarika, H., Kokusho, T., Matsumoto, D., Ishibashi, S., Sumartini, W. O. , Analysis of liquefaction of volcanic soil during the 2016 Kumamoto Earthquake based on boring data, Lowland Technology International, Special Issue on Kumamoto Earthquake and Disasters, Vol. 19, 245-250, 2018.03.
33. Sumartini, W. O., Hazarika, H., Kokusho, T., Ishibashi, S., Matsumoto, D., and Chaudhary, B. , Deformation and Failure Characteristics of Volcanic Soil at Landslide Sites due to the 2016 Kumamoto Earthquake, Lowland Technology International, Special Issue on Kumamoto Earthquake and Disasters, Vol. 19, 237-244, 2018.03.
34. Tran, T.T.T., Hazarika, H., Karnawati, D. and Indrawan, I.G.B. , Prediction of Time to Failure of Soil Based on Creep Strength Reduction Approach, Geotechnical and Geological Engineering (GEGE), DOI: 10.1007/s10706-018-0496-9, 2017.10.
35. Chaudhary, B., Hazarika, H., Murakami, A., and Fujisawa, K. , Countermeasures for Enhancing the Stability of Composite Breakwater under Earthquake and Subsequent Tsunami, Ocean Engineering, DOI: 10.1007/s11440-017-0615-4, 1-21, 2017.10.
36. Chaudhary, B., and Hazarika, H. , Centrifuge Modelling for Stability Evaluation of a Breakwater Foundation Subjected to an Earthquake and a Tsunami, Ocean Engineering, DOI: 10.1016/j.oceaneng.2017.11.005, Vol. 148, 169-181, 2017.11.
37. Chaudhary, B., Hazarika, H., and Nishimura, N. , Effects of Duration and Acceleration Level of Earthquake Ground Motion on the Behavior of Unreinforced and Reinforced Breakwater Foundation, Soil Dynamics & Earthquake Engineering, DOI: 10.1016/j.soildyn.2017.04.006, Vol. 98, 24-37, 2017.03.
38. Chaudhary, B., Hazarika, H., Murakami, A., and Fujisawa, K., Mitigation of Earthquake Induced Damage of Breakwater by Geogrid Reinforced Foundation, Marine Georesources & Geotechnology, DOI: 10.1080/1064119X.2017.1313342, 1-13, 2017.09.
39. Chaudhary, B., Hazarika, H., and Pasha, S.M.K. , Countermeasures for Breakwater Foundation Subjected to Foreshocks and Main Shock of Earthquake Loading, Marine Georesources & Geotechnology, DOI: 10.1080/1064119X.2017.1313342, 1-15, 2017.07.
40. Chaudhary, B., and Hazarika, H., An Overview on Development of Countermeasures for Breakwater against Earthquake and Tsunami Induced Damage , Recent Advances in Petrochemical Science, Vol. 1, No. 5, 1-3, 2017.08.
41. Hazarika, H., Kokusho, T., Kayen, R.E., Dashti, S., Fukuoka, H., Ishizawa, T., Kochi, Y., Matsumoto, D., Hirose, T., Furuichi, H., Fujishiro, T., Okamoto, K., Tajiri, M. and Fukuda, M. , Geotechnical Damage due to the 2016 Kumamoto Earthquake and Future Challenges, Lowland Technology International, Special Issue on Kumamoto Earthquake & Disaster, Vol. 19, No. 3, 189-204, 2017.04.
42. Babloo Chaudhary, Hemanta Hazarika, Monji Naoya, Nishimura Kengo, N. Yasufuku, Ryohei Ishikura, Use of Low Carbon and Low Cost (LC2) Materials in Climate Change Adaptation Measures, Geotechnical Engineering, South East Asian Geotechnical Society Journal, Special Issue on Climate Change, Vol. 48, No. 1, 45-52, 2017.01.
43. Babloo Chaudhary, Hemanta Hazarika, Monji Naoya, Nishimura Kengo, N. Yasufuku, Ryohei Ishikura, Numerical Study on the Seismic Response of Waterfront Retaining Wall Reinforced with Cushion, Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls (Eds. Hazarika, Kazama and Lee), 545-554, 2016.09.
44. Babloo Chaudhary, Hemanta Hazarika, Monji Naoya, Nishimura Kengo, N. Yasufuku, Ryohei Ishikura, Behavior of breakwater foundation reinforced with steel sheet piles under seismic loading, Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls (Eds. Hazarika, Kazama and Lee), 449-461, 2016.09.
45. Hemanta Hazarika, Babloo Chaudhary, Murali Krishna, A., Effect of backfill reinforcement on retaining wall under dynamic loading, Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls (Eds. Hazarika, Kazama and Lee), 535-544, 2016.09.
46. Hemanta Hazarika, 福本 康秀, Hara Tadashi, Resilient and Sustainable Geotechnical Solution: Lessons Learned from the 2011Great East Japan Disaster, Sustainability Issues in Civil Engineering (Eds. Babu, Saride and Basha), Chapter 9, 125-151, 2016.12.
47. Babloo Chaudhary, Hemanta Hazarika, Ishibashi Isao, Amizatuhani Abdullah, Sliding and overturning stability of breakwater under combined effect of earthquake and tsunami, Ocean Engineering, DOI: 10.1016/j.oceaneng., 136, 106-116, 2016.10.
48. Manafi Khajeh Pasha, S, Hemanta Hazarika, Bahaduri H., Babloo Chaudhary, Dynamic behaviour of saturated sandy soil reinforced with non-woven polypropylene fibre, International Journal of Geotechnical Engineering, 1-12. doi:10.1080/19386362.2016.1250978., International Journal of Geotechnical Engineering, doi:10.1080/19386362.2016.1250978, 2016.09.
49. Babloo Chaudhary, Hemanta Hazarika, 西村 謙吾, Effects of reinforcement on the performance of breakwater foundation subjected to earthquake loadings., International Journal of Geotechnical Engineering, DOI:10.1080/19386362.2016.1205167, 2016.07.
50. Hemanta Hazarika, The 2015 Nepal Gorkha Earthquake ~ An Overview of the Damage, Lessons Learned and Challenges ~, International Association of Lowland Technology (IALT), Vol. 18, No. 2, 105-118, 2016.10.
51. Hemanta Hazarika, 福本 康秀, Sustainable Solution for Seawall Protection against Tsunami-induced Damage, ASCE, doi: 10.1061/(ASCE)GM.1943-5622.0000687, 2016.12.
52. Hemanta Hazarika, Use of Low Carbon and Low Cost (LC2) Materials in Climate Change Adaptation Measures, Geotechnical Engineering Journal of the South East Asian Geotechnical Society, Vol. 48, No. 1, 45-52, 2017.03.
53. Hemanta Hazarika, Estimation of lateral force acting on piles to stabilize landslides, Natural Hazards, 10.1007/s11069-015-1942-0., 2015.12.
54. Hemanta Hazarika, Three-dimensional limit analysis of seismic displacement of slope reinforced with piles, Soil Dynamics and Earthquake Engineering, Vol. 77, 446-452, 2015.12.
55. Hemanta Hazarika, Evaluating the effect of slope angle on the distribution of the soil-pile pressure acting on stabilizing piles in sandy slopes, Computers and Geotechnics, Vol. 69, No. 1, 153-165, 2015.12.
56. Hemanta Hazarika, Reconnaissance report on geotechnical and structural damage caused by the 2015 Gorkha Earthquake, Nepal, Soils and Foundations, Vol. 55, No. 5, 1030-1043, 2015.12.
57. Hemanta Hazarika, Numerical Analysis of the Multirow Arrangement of Small Diameter Steel Piles for Landslide Prevention, International Journal of Current Engineering and Technology, Vol. 3, No. 1, 1-20, 2013.07.
58. Hemanta Hazarika, The design methods of slope stabilizing piles: A review
, International Journal of Current Engineering and Technology, Vol. 3, No. 2, 224-229, 2013.09.
59. Hemanta Hazarika, Evaluation of the mechanical properties of recycled glass fibers-derived three dimensional geomaterial for ground improvement


, Journal of Cleaner Production, Vol. 52, 495-503, 2013.04.
60. Qiang LIU, Automatic Soil Water Retention Test System with Volume Change Measurement for Sandy and Silty Soils.



, Soils and Foundations , Vol. 52, No. 2, 368-380, 2012.04.
61. Compound Geotechnical Disaster in Aomori Prefecture and Northern Iwate Prefecture
due to the Earthquake and Tsunami
.
62. Novel Earthquake Resistant Reinforcing Technique (SAFETY) using Recycled Tire Materials.
63. Stability of Earth Structures against Overflow of Tsunami during the 2011 off the Pacific Coast of Tohoku Earthquake
.
64. Hemanta Hazarika, Damage to geotechnical structures in waterfront areas of northern Tohoku due to the March 11, 2011 tsunami disaster
, Indian Geotechnical Journal, Vol. 43, No. 2, 1-18, 2012.10.
65. Hemanta Hazarika, Evaluation of Tyre Products as Ground Improving Geomaterials
, Ground Improvement, Vol. 165, No. GI1, 1-16, 2012.07.
66. Hemanta Hazarika, Assessing the potential reuse of recycled glass fibre in problematic soil applications
, Journal of Cleaner Production , Vol. 35, 102-107, 2012.06.
67. Earthquake Resistant Reinforcement of Coastal Structures using Recycled Materials from Scrap Tires.
68. Hemanta Hazarika, Numerical Analysis of the Multirow Arrangement of Small Diameter Steel Piles for Landslide Prevention
, International Journal of Current Engineering and Technology, Vol. 3, No. 1, PP. 1-PP. 20, 2013.03.
69. Plate Loading Tests and Bearing Capacity Characteristics of Grouted Screw Pile Method.
70. Reconnaissance Report on Damage in Aomori and Northern Iwate Areas Inflicted by the 2011 off the Pacific Coast of Tohoku Earthquake
.
71. Earthquake Resistant Reinforcement using Waste Tires.
72. On-Line Pseudo-Dynamic Response Test for Evaluating Seismic Isolation Effect by Tire Chips on Response of Saturated Sand Deposits.
73. Hazarika, H., Yasuhara, K., Karmokar, A.K., Kikuchi, Y., & Mitarai, Y. , Multifaceted Potentials of Tire Derived Three Dimensional Geosynthetics in Geotechnical Application and Their Evaluation
, Geotextiles and Geomembranes , Vol. 28, 303-315, 2010.01.
74. Hazarika, H., Yasuhara, K., & Hyodo, M. , Investigation of Tire Chips-Sand Mixtures as Preventive Measure against Liquefaction

, Geotechnical Special Publication, ASCE, , No.207, 338-345, 2000.01.
75. Hazarika, H.. , Prediction of Seismic Active Earth Pressure Using Curved
Failure Surface with Localized Strain, American J. of Engineering and Applied Sciences , 2 (3), 544-558, 2009.01.
76. Hazarika, H., Kohama, E., and Sugano, T. , Underwater Shaking Table Tests on Waterfront Structures Protected with Tire chips Cushion

, Journal of Geotechnical and GeoEnvironmental Engineering, ASCE, , Vol. 134, No. 12 , 1706-1719 , 2008.01.
77. Hazarika, H. , Recycle Material as Geosynthetics ? A Dual Approach for Mitigating Earthquake Disasters

, Journal of Korean Geotechnical Society , Vol. 24, No. 6, 8月17日, 2008.01.
78. Hazarika, H. , Stress-strain Modeling of EPS Geofoam for Large-strain Applications
, Geotextiles and Geomembranes , Vol. 24, No. 2 , 79-90, 2000.01.
79. Hazarika, H., Sugano, T., Kikuchi, Y., Yasuhara, K., Murakami, S., Takeichi, H., Karmokar, A.K., Kishida, T., & Mitarai, Y. , Flexibility and Stability Enhancement of Structures during Earthquakes using a Novel Geosynthetic Material
, ジオシンセティックス論文集, Vol. 21, 125-130., 2006.01.
80. Hazarika, H. and Okuzono, S. , Modeling the Behavior of a Hybrid Interactive System Involving Soil, Structure and EPS Geofoam

, Soils and Foundations , Vol. 44, No. 5 , 149-162., 2000.01.
81. Hazarika, H., and Matsuzawa, H. , Coupled Shear Band Method and Its Application to the Seismic Earth Pressure Problems


, Soils and Foundations , Vol. 37, No. 3 , 65-77., 1997.01.
82. Matsuzawa, H. and Hazarika, H. , Analyses of Active Earth Pressure Against Rigid Retaining Wall Subjected to Different Modes of Movement



, Soils and Foundations , Vol. 36, No. 3 , 51-65., 1996.01.
83. Hazarika, H. and Matsuzawa, H. , Wall Displacement Modes Dependent Active Earth Pressure Analyses Using Smeared Shear Band Method with Two Bands




, Computers and Geotechnics , Vol. 19, No. 3 , 193-219., 2020.02.
Presentations
1. Hazarika, H., Earthquake Induced Fluidized Flow in Gently Sloped Ground - Two Forensic Investigations -, International Webinar on Recent Advances in Geotechnical Engineering Research and Practice, 2020.07.
2. Hazarika, H., AI Based Approach for Constitutive Modeling of Geomaterials used inEarthquake Hazard Mitigation, 1st Indo-Japan Webinar Series on Geotechnics for Disaster Mitigation, 2020.06.
3. Hazarika, H., Sustainability and Disaster Mitigation through Cascaded Recycling of Waste Tires- Climate Change Adaptation from Geotechnical Perspectives, 1st International Symposium on Construction Resources for Environmentally Sustainable Technologies (CREST 2020), 2021.03.
4. Hazarika, H., Pasha, S.M.K., Yoshimoto, N., Artificial Intelligence Approach for Modeling Ground Improving Materials used in Earthquake Hazard Mitigation, Proc. of International Conference on Infrastructure Developments, 2018.12.
5. Hazarika, H., Pasha, S.M.K., Yoshimoto, N., Kinoshita, T., Endo, S., Karmokar, A.K., and Hitosugi, T. , Tire Chips Reinforced Foundation As Liquefaction Countermeasure of Residential Building, Proc. of the 11th International Conference on Geosynthetics, 2018.09.
6. Sumartini, W.O., Hazarika, H., Kokusho, T., and Ishibashi, S., Hydraulic Conductivity of Volcanic Soils and Its Significance to Landslide Mechanism Triggered by the 2016 Kumamoto Earthquake, Proc. the Eighth Japan – Taiwan Joint Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls, 2018.10.
7. Ogo, K., Hazarika, H., Kokusho, T., Yamamoto, S., Ishibashi, S., Matsumoto, D. and Sumartini, W. O. , Liquefaction strength evaluation of undisturbed pyroclastic soil focusing on excess pore water pressure and strain, Proc. the Eighth Japan – Taiwan Joint Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls, 2018.10.
8. Pasha, S.M.K., Hazarika, H., and Yoshimoto, N., Performance Evaluation of Gravel-Scrap Tire Derived Mixture for Mitigating Earthquake Induced Liquefaction, Proc. the Eighth Japan – Taiwan Joint Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfalls, 2018.10.
9. Sumartini, W. O., Hazarika, H., Kokusho, T., Ishibashi, S., Matsumoto, D., & Chaudhary, B. , Microstructural Characteristics of Volcanic Soil in Aso Caldera related to the Landslide Triggered by the 2016 Kumamoto Earthquake, Proc. of the 16th European Conference on Earthquake Engineering (16ECEE), 2018.06.
10. Pasha, S.M.K., Hazarika, H., and Yoshimoto, N., Dynamic properties and liquefaction resistance of Gravel-Tire Chips Mixture, Proc. of the 16th European Conference on Earthquake Engineering (16ECEE), 2018.06.
11. Pasha, S.M.K., Hazarika, H., and Yoshimoto, N., Physical and mechanical properties of Gravel-Tire Chips Mixture
, Proc. of the 16th European Conference on Earthquake Engineering (16ECEE), 2018.06.
12. Yamamoto, S. and Hazarika, H. , Characteristics of Slope Failures Induced by the 2016 Kumamoto Earthquake:slope failure types and distribution, Proc. of the 4th International Conference on Continental Earthquake, 2018.05.
13. Hazarika, H., Kokusho, T., Kochi, Y., Ishibashi, S., and Sumartini, W.O., Mechanism of Landslides in Gentle Slopes during The 2016 Kumamoto Earthquake in Japan, Proc. of the 4th International Conference on Continental Earthquake, 2018.05.
14. Pasha, S.M.K., Hazarika, H., and Yoshimoto, N. , Dynamic properties of granular mixtures using artificial intelligence methods, Proc. of the 4th International Conference on Continental Earthquake, 2018.05.
15. Ohsumi, T. and Hazarika, H. , Flash Report on Damage Caused in Mexico City, Mexico, by the 2017 Puebla-Morelos Earthquake, Proceedings of the 1st International Conference on Press-in Engineering 2018, Kochi , 2018.09.
16. Sumartini, W. O., Hazarika, H., Kokusho, T., and Ishibashi, S., Volcanic Cohesive Soil Behavior under Static and Cyclic Loading, Proceedings of 20th South East Asian Geotechnical Conference (SEAGC), 2018.11.
17. Hazarika. H., Yamamoto, S., Ishizawa, T., Danjo, T., Kochi, Y., Fujishiro, T., Okamoto, K., Matsumoto, D., and Ishibashi, S., The 2017 July Northern Kyushu Torrential Rainfall Disaster~Geotechnical and Geological Perspectives~, 3rd Indo-Japan Workshop on Geotechnics for Natural Disaster Mitigation and Management, 2017.12.
18. Manafi Khajeh Pasha, S., Hazarika, H., Yoshimoto, N. , Shear Strength Behavior of Gravel-Tire Chips Mixture (GTCM), 3rd Indo-Japan Workshop on Geotechnics for Natural Disaster Mitigation and Management, 2017.12.
19. Chaudhary, B., Hazarika, H., Murakami, A., and Fujisawa, K. , Instability of Composite Breakwater Subjected to Earthquake and Tsunami and Its Countermeasures, 3rd Indo-Japan Workshop on Geotechnics for Natural Disaster Mitigation and Management, 2017.12.
20. Chaudhary, B., Hazarika, H., Murakami, A., and Fujisawa, K. , Reinforcing foundation model to mitigate earthquake induced failure of breakwater: model tests and numerical simulations, 15th International Conference of the International Association for Computer Methods and Advances in Geomechanics, 2017.10.
21. Hazarika, H., Watanabe, N., Sugahara, H., and Suzuki, Y. , Influence of placement and configuration of small diameter steel pipe pile on slope reinforcement, 19th International Conference on Soil Mechanics and Geotechnical Engineering (19th ICSMGE), 2017.09.
22. Chaudhary, B., Hazarika, H., Nishimura, K., Murakami, A., and Fujisawa, K. , Evaluation of a resilient breakwater foundation against earthquakes using model tests and numerical simulations, 19th International Conference on Soil Mechanics and Geotechnical Engineering (19th ICSMGE), 2017.09.
23. Watanabe, N., Hazarika, H., Sugahara, H., and Suzuki, Y., Reinforcing effect of multiple-row small diameter steel pipe pile on slope stability, 2nd International Conference on Advancement of Pile Technologies and Case Histories, 2017.09.
24. Chaudhary, B., Hazarika, H. and Nishimura, K. , Stability of breakwater foundation under earthquake and tsunami: centrifuge tests, 16th World conference on Earthquake Engineering, 2017.01.
25. Hazarika, H., Hara, T., Chaudhary, B., Nishimura, K., Yamazaki, N. and Kasama, K. , Seismic resistant of breakwater foundation reinforced by steel sheet pile and gabion - Evaluation through model shaking table test, 16th World conference on Earthquake Engineering, 2017.01.
26. Hara, T., Hazarika, H., Chaudhary, B., Yamazaki, N., and Nishimura, K. , Seismic Resistant of Breakwater Foundation Reinforced by Steel Sheet Pile and Gabion - Evaluation through Element Test, , 16th World conference on Earthquake Engineering, 2017.01.
27. Hemanta Hazarika, Takaji Kokusho, Robert Kayen, Shiedh Dashti, Shinsuke Kuroda, Kentaro Kuribayashi, 平成28年熊本地震による大切畑ダム周辺の被害と要因分析, 熊本自然災害研究会, 平成28年度研究発表会, 2016.11.
28. Kengo Nishimura, Hemanta Hazarika, Babloo Chaudhary, New Reinforcement Technique for Breakwater Foundation to Make Breakwater Resilient against Tsunami, International Conference on Coastal Zone Management, 2016.05.
29. Tran, T.T.T., Karnawati D., Indrawan, I.G.B., Hemanta Hazarika, Ratri, D., Creep related slope instability in volcanic residual soils, 19th Southeast Asian Geotechnical Conference and 2nd AGSSEA Conference, 2016.05.
30. Hemanta Hazarika, Abdullah Amiza, Prediction of the soil liquefaction of an improved backfill-a numerical simulation, 19th Southeast Asian Geotechnical Conference and 2nd AGSSEA Conference, 2016.06.
31. Hemanta Hazarika, Kengo Nishimura, Babloo Chaudhary, Resilient Breakwater for protection against Level 2 tsunami, 19th Southeast Asian Geotechnical Conference and 2nd AGSSEA Conference, 2016.05.
32. Hemanta Hazarika, Takaji Kokusho, Robert Kayen, Shideh Dashti, Hiroshi Fukuoka, Kazuya Yasuhara, Osamu Saitoh, Naoki Sakai, Tomoharu Ishizawa, GUANGQI CHEN, Geotechnical Damage during the 2016 Kumamoto Earthquake, Japan, Keynote Lecture, 7th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfall, 2016.09.
33. Tran, T.T.T., Karnawati D., Indrawan, I.G.B, Hemanta Hazarika, Impacts of tropical climate on weathering of volcanic residual soils and its implication for slope stability, 7th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfall, 2016.09.
34. Chu Chu, Hemanta Hazarika, Isao Ishibashi, Experimental evaluation of the tire chips and gravel mixed reinforced layer on preventing liquefaction under residential building, 7th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfall, 2016.09.
35. Mamoru Suzuki, Hemanta Hazarika, Shear strength characteristics of an undamaged tire retaining wall in Iwate Prefecture during The 2011 off the Pacific Coast of Tohoku Earthquake, 7th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfall, 2016.09.
36. Kengo Nishimura, Hemanta Hazarika, Babloo Chaudhary, Influence of Foundation Reinforcement Pattern on Resiliency of Breakwater against Tsunami, 7th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquakes and Heavy Rainfall, 2016.09.
37. Tsuneo Ohsumi, Hemanta Hazarika, Correlation between Building Damage and Ground Motion based on the findings from The 2015 Gorkha, Nepal Earthquake, Workshop of TC207 “Soil-Structure Interaction and Retaining Walls”, International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE), 2016.10.
38. Tadashi Hara, Hemanta Hazarika, Babloo Chaudhary, Naoya Yamazaki, Kengo Nishimura, Seismic Resistant of Breakwater Foundation Reinforced by Steel Sheet Pile and Gabion - Evaluation through Element Test, 16th World conference on Earthquake Engineering, 2017.01.
39. Babloo Chaudhary, Hemanta Hazarika, Kengo Nishimura, Stability of breakwater foundation under earthquake and tsunami: centrifuge tests, 16th World conference on Earthquake Engineering, 2017.01.
40. Hemanta Hazarika, Tadashi Hara, Babloo Chaudhary, Kengo Nishimura, Naoya Yamazaki, Kiyonobu KASAMA, Seismic resistant of breakwater foundation reinforced by steel sheet pile and gabion - Evaluation through model shaking table test, 16th World conference on Earthquake Engineering, 2017.01.
41. Hemanta Hazarika, Kazuya Yasuhara, Tsuneo Ohsumi, Minoru Yamanaka, Low cost and resilient solution against geodisaster – Case history based adaptation -, 1st International Conference on Civil Engineering for Sustainable Development, 2016.12.
42. Hemanta Hazarika, Nishimura Kengo, Babloo Chaudhary, 粘り強さを有した防波堤基礎構造の耐津波化に関する検討, 第12回地盤改良シンポジウム論文集, 2016.10.
43. Hemanta Hazarika, Model testing on resilient solution for breakwater protection against tsunami, The second Japan-Indian Workshop in Geotechnical Engineering, 2015.11.
44. Hemanta Hazarika, New reinforcing technique for mitigation of earthquake-induced failure of breakwater, The 6th International Conference on Earthquake Geotechnical Engineering, 2015.11.
45. Hemanta Hazarika, Stability of Breakwater Foundation Reinforced with Steel Sheet Piles under Dynamic Loading, The 25th International Offshore and Polar Engineering Conference, 2015.06.
46. Hemanta Hazarika, Analyses of the lateral force on stabilizing piles in sandy slope, 15th Asian Regional Conference on Soil Mechanics and Geotechnical Engineering, 2015.11.
47. Hemanta Hazarika, Analysis of Coastal Structure Damaged by the 2011 Off the Pacific Coast of Tohoku Earthquake - Field Investigation and Numerical Simulation -, 15th Asian Regional Conference on Soil Mechanics and Geotechnical Engineering, 2015.11.
48. Hemanta Hazarika, Environmentally Friendly and Cost Reducing Technique towards Tsunami Disaster Mitigation of Coastal Structures, 15th Asian Regional Conference on Soil Mechanics and Geotechnical Engineering, 2015.11.
49. Hemanta Hazarika, Improvement effects of two and three dimensional geosynthetics used in liquefaction countermeasures, 15th Asian Regional Conference on Soil Mechanics and Geotechnical Engineering, 2015.11.
50. Hemanta Hazarika, Physical and Numerical Modeling of Resilient Breakwater Foundation Subjected to Earthquake and Tsunami, 50th Indian Geotechnical Conference, 2015.12.
51. Hemanta Hazarika, Overview of the Damage and Lessons Learned from the 2015 Nepal Earthquake, Joint Workshop of TC207 and TC212 of ISSMGE, 2015.12.
52. Abdullah Amiza, The effectiveness of tire chips cushion as isolation layer under shallow foundation against dynamic loading, 59th Geotechnical Engineering Symposium, 2014.11.
53. Pradhan Kiranhari, Experimental Evaluation of Tsunami Impact Force Absorption by Scrap Tires, The Great East Japan Earthquake - Geotechnical Society special symposium, 2014.05.
54. Hemanta Hazarika, Protection of Seawall against Earthquake and Tsunami using Flexible Material, 14th International Conference of the International Association for Computer Methods and Advances in Geomechanics (IACMAG), 2014.09.
55. He Yi, Analysis of the lateral force on stabilizing piles in c-φ soil, 6th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquqkes and Heavy Rainfall, 2014.07.
56. He Yi, Study on the distribution of the lateral force loading on stabilizing piles in sandy slope, 14th International Conference of the International Association for Computer Methods and Advances in Geomechanics (IACMAG), 2014.09.
57. Babloo Chaudhary, Behavior of Breakwater Foundation Reinforced with Steel Sheet Piles under Seismic Loading, 6th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquqkes and Heavy Rainfall, 2014.07.
58. Babloo Chaudhary, Effect of Backfill Reinforcement on Retaining Wall under Dynamic Loading, 6th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquqkes and Heavy Rainfall, 2014.07.
59. Babloo Chaudhary, Earth Pressures on Reinforced Soil Retaining Wall under Dynamic Loading, 14th International Conference of the International Association for Computer Methods and Advances in Geomechanics (IACMAG), 2014.09.
60. Babloo Chaudhary, Effect of Layer Spacing on the Behavior of Reinforced Soil Retaining Wall under Cyclic Loading, International Symposium on Geohazards: Science, Engineering, and Management, 2014.11.
61. Abdullah Amiza, Numerical study on seismic response of quay wall reinforced with tire chips, 14th International Conference of the International Association for Computer Methods and Advances in Geomechanics (IACMAG), 2014.09.
62. Abdullah Amiza, Numerical Study on the Seismic Response of Quay Wall Protected with Cushion, 6th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquqkes and Heavy Rainfall, 2014.07.
63. Hemanta Hazarika, Analysis of a coastal structure damaged due to compound effect of earthquake and tsunami, 6th Japan-Taiwan Workshop on Geotechnical Hazards from Large Earthquqkes and Heavy Rainfall, 2014.07.
64. Hemanta Hazarika, Investigation and Analysis of a River Dike Damaged during the 2011 East Japan Disaster, 14th International Conference of the International Association for Computer Methods and Advances in Geomechanics (IACMAG), 2014.09.
65. Koay, S.P., The Prediction of Water Table Flow in Slope for Early Warning System in Malaysia, 6th International Geotechnical Symposium on Disaster Mitigation in Special Geoenvironmental Conditions, 2015.01.
66. Babloo Chuadhary, Influence of Reinforcement Spacing on the Behavior of Reinforced Soil Retaining Wall under Dynamic Loading, 6th International Geotechnical Symposium on Disaster Mitigation in Special Geoenvironmental Conditions, 2015.01.
67. Babloo Chuadhary, Influence of Reinforcement Spacing on the Behavior of Reinforced Soil Retaining Wall under Dynamic Loading, 6th International Geotechnical Symposium on Disaster Mitigation in Special Geoenvironmental Conditions, 2015.01.
68. Hemanta Hazarika, Case Study of a River Dike Damaged due to the 2011 Off the Pacific Coast of Tohoku Earthquake and Associated Tsunami, 6th International Geotechnical Symposium on Disaster Mitigation in Special Geoenvironmental Conditions, 2015.01.
69. Hemanta Hazarika, Resilient and Sustainable Geotechnical Solution -Lessons Learned from the 2011 Great East Japan Disaster, International Conference on Sustainable Civil Infrastructure, 2014.10.
70. Hemanta Hazarika, Resilient Breakwater against Level II Earthquake and Tsunami, 6th International Geotechnical Symposium on Disaster Mitigation in Special Geoenvironmental Conditions, 2015.01.
71. Hemanta Hazarika, Paradigm Shift in Earthquake Induced Geohazards Mitigation -Emergence of Nondilatant geomaterials- , Annual conference of Indian Geotechnical Society, Roorkee, India, 2013.12.
72. Hemanta Hazarika, Time to Deviate from Wrong Perception – A Lesson Relearned from the 2011 Great East Japan Disaster-, The 5th International Geotechnical Symposium, IGS-Incheon 2013, 2013.05.
73. Hemanta Hazarika, Resilient Breakwater for Protection of Coastal Facilities against Level 2 Earthquake and Tsunami, AUN/SEED-Net Regional Conference on Natural Disaster, Yogyakarta, Indonesia, 2014.01.
74. Hemanta Hazarika, Deformation Properties of Gravel Mixed Tire Chips as Ground Improving Geomaterials, Proc. of Geotechnics for Sustainable Development , Hanoi, Vietnam, 2013.11.
75. Hemanta Hazarika, Soil-Structure Interaction during Earthquake and Tsunami - Two Case Studies from the Latest Disaster in Japan , Proc. of the special workshop on challenges of soil-structure interaction and retaining walls, 18th ICSMGE, 2013.09.
76. Hemanta Hazarika, Multirow Arrangement of Laterally Loaded Passive Piles in Sand, Proc. of the 18th Southeast Asian Geotechnical & Inaugural AGSSEA Conference, 2013.05.
77. Hemanta Hazarika, Deflection behavior of small diameter steel piles model in FEM analysis for landslide countermeasure, Proceedings of the 8th CUTSE International Conference 2013, 2013.12.
Membership in Academic Society
  • Global Society for Smart Geo-Sustainnovation (GLOSS)
  • Geowaste Technology for Recycle Based Society
  • Nepal Geotechnical Society
  • Japan Society for Material Science
  • International Press-in Association (IPA)
  • Japan Society for Civil Engineers
  • American Society for Civil Engineers (ASCE)
  • Japanese Geotechnical Society
  • International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE)
  • Japan Landslide Society
  • International Association for Computer Methods and Advances in Geomechanics
  • International Association for Offshore and Polar Engineers
  • Indian Geotechnical Society
  • Architectural Institute of Japan
Awards
  • The best paper amongst 93 papers that were accepted for publications in the international symposium (CREST 2020)
Educational
Educational Activities
Motto of my education: Solving problems facing the society
Courses taught: Geomechanics and Disaster, Natural Disaster and Resources, Kyoso Kiso Project II, Practices for Earth and Environment, Fundamentals of Physics, Soil Mechanics, Fundamentals of Mechanics, Advanced Engineering, Engineering Mathematics, Advanced Geomechanics and Foundation, Global Environmental Engineering I, Research Planning, Civil Engineering A.
Social
Professional and Outreach Activities
1) JICA Project: AUN/SeedNET ASEAN Member Student Supervisor
2) JICA Project: Research and Development for Reducing Geo-Hazard Damage in Malaysia caused by Landslide and Flood
3) JICA Project: AUN/SeedNET Project Member and Japanese Lecturer
4) JICA Project: Member of Friendship Project between Japanese Universities and IIT, Hyderabad, India
5) Institute of Engineers, Malaysia(Kuala Lampur):Invited Lecturer for Oneday Workshop on Seismic Design of Structures
6) Indian Government Sponsored GIAN Lecture: Two weeks intensive course on Ground Improvement Techcniques to students, engineers and researchers at National Institute of Technology, Warangal, India
7) Involved with the Indian High Speed Railway Project as an advisor to JR East, Japan
8) As a project leader (Project name: Resiliency of Nepal's Road Corridors) successfully completed a project funded by World Bank
9) Member of technical committee on mechanism of geotechnical disasters caused by 2018 Palu Earthquake, Indonesia
10) Advisor, Liquefaction Research Center, Palu, India
11) Organizing chairman of CREST 2020 (Ist International Symposium on Construction Resources for Environmentally Sustainable Technologies)
12) Leader of collaborative project (Progress 100) with University of Cambridge
13) Organizing chairman of CREST 2023 (2nd International Conference on Construction Resources for Environmentally Sustainable Technologies)
14) Founding President of GLOSS (Global Society for Smart Geo-Sustainnovation)
15) Industry/Government/Academia collaborative project on regional disaster mitigation
16) Free seminar organized by GLOSS (4 times a year)
17) International Seminar through Multi Disciplinary Activities.