HO SI LANHSI LANH HO

Last Updated :2021/04/15

所属・職名
大学院先進理工系科学研究科 助教
ホームページ
メールアドレス
hosilanhhiroshima-u.ac.jp
自己紹介
He is an Assistant professor of Department of Civil and Environmental Engineering at Hiroshima University. He received his D.Eng. from Hiroshima University in 2018. His research interests include cementitious materials (specifically cement-treated soils for ground improvement) and geotechnical engineering such as soil properties and landslide.

基本情報

主な職歴

  • 2011年02月, 2014年09月, University of Transpot Technology, 講師
  • 2018年04月, 2019年03月, University of Transpot Technology, 講師
  • 2019年04月01日, 2020年03月31日, 広島大学, 大学院工学研究科, 助教

学歴

  • 広島大学, 大学院工学研究科, 博士課程社会基盤環境工学専攻, 日本, 2015年04月, 2018年03月
  • University of Transport and Communications, Faculty of Civil Engineering, Highway Engineering, ベトナム, 2011年09月, 2013年09月
  • University of Transport and Communications, Faculty of Civil Engineering, Department of Urban Transport Works, ベトナム, 2005年09月, 2010年06月

学位

  • Master of Engineering(Higway Engineering) (University of Transport and Communications)
  • 博士(工学) (広島大学)

教育担当

  • 【学士課程】 工学部 : 第四類(建設・環境系)
  • 【博士課程前期】 先進理工系科学研究科 : 先進理工系科学専攻 : 社会基盤環境工学プログラム

研究キーワード

  • Engineering;Civil engineering; Geotechnical engineering, construction and building materials

教育活動

授業担当

  1. 2021年, 学部専門, 2ターム, 社会基盤環境工学実験
  2. 2021年, 修士課程・博士課程前期, セメスター(前期), 社会基盤環境工学講究IIB
  3. 2021年, 修士課程・博士課程前期, セメスター(前期), 社会基盤環境工学セミナーIIB
  4. 2021年, 修士課程・博士課程前期, 1ターム, 社会基盤環境工学特別演習A
  5. 2021年, 修士課程・博士課程前期, 2ターム, 社会基盤環境工学特別演習A
  6. 2021年, 修士課程・博士課程前期, 3ターム, 社会基盤環境工学特別演習A
  7. 2021年, 修士課程・博士課程前期, 4ターム, 社会基盤環境工学特別演習A
  8. 2021年, 修士課程・博士課程前期, 3ターム, 社会基盤環境工学特別演習B
  9. 2021年, 修士課程・博士課程前期, 4ターム, 社会基盤環境工学特別演習B
  10. 2021年, 修士課程・博士課程前期, 年度, 社会基盤環境工学特別研究
  11. 2021年, 修士課程・博士課程前期, 年度, 社会基盤環境工学特別研究

研究活動

学術論文(★は代表的な論文)

  1. Identification, Monitoring and Assessment of Active Landslide in Tavan-Hauthao, Sa Pa, Laocai, Vietnam- A Multidisciplinary Approach, Journal of Disaster Research (Accepted)
  2. ★, Performances of eco-fine-grained concrete containing saline sand as partial fine aggregate replacement, Journal of Applied Science and Engineering (accepted)
  3. Groundwater Potential Mapping Using GIS Based Hybrid Artificial Intelligence Methods, Groundwater (accepted)
  4. ★, Properties of fine-grained concrete containing fly ash and bottom ash, Magazine of Civil Engineering
  5. Influence of Data Splitting on Performance of Machine Learning Models in Prediction of Shear Strength of Soil, Mathematical Problems in Engineering
  6. A novel approach for classification of soils based on laboratory tests using Adaboost, Tree and ANN modeling, Transportation Geotechnics, 202012
  7. ★, Bearing capacity of drilled shaft in intermediate geomaterials, Magazine of Civil Engineering, 99巻, 7号, 202011
  8. ★, Difference in Strength Development between Cement-Treated Sand and Mortar with Various Cement Types and Curing Temperatures, Materials, 13巻, 21号, 20201106
  9. Soft-computing techniques for prediction of soils consolidation coefficient, Catena, 202007
  10. GIS-Based Ensemble Soft Computing Models for Landslide Susceptibility Mapping, Advances in Space Research, 2020 May
  11. Novel Ensemble Landslide Predictive Models Based on the Hyperpipes Algorithm: A Case Study in the Nam Dam Commune, Vietnam, Applied Sciences, 10巻, 11号, 202003
  12. ★, Strength development of cement-treated soils: Effects of water content, carbonation, and pozzolanic reaction under drying curing condition, Construction and Building Materials, 134巻, pp. 703-712, 2017
  13. Development of Hybrid Artificial Intelligence Approaches and a Support Vector Machine Algorithm for Predicting the Marshall Parameters of Stone Matrix Asphalt, APPLIED SCIENCES-BASEL, 9巻, 15号, 20190801
  14. ★, Analysis of strength development in cement-treated soils under different curing conditions through microstructural and chemical investigations, Construction and Building Materialas, 166巻, pp. 634-646, 2018
  15. ★, Effect of internal water content on carbonation progress in cement-treated sand and effect of carbonation on compressive strength, Cement and Concrete Composites, 85巻, pp. 9-21, 2018
  16. Physicomechanical properties and durability of a new lightweight porous mortar utilizing woodchips, Journal of cleaner productions, 235巻, pp. 158-165, 2019
  17. ★, Soil Treatment by Benotnite and Fly Ash for Liners of Waste Landfill: A Case Study in Vietnam, International journal of GEOMATE, 17巻, pp. 315-322, 2019
  18. Development of Artificial Intelligence Models for the Prediction of Compression Coefficient of Soil: An Application of Monte Carlo Sensitivity Analysis, Science of the Total Environment, 679巻, pp. 172-184, 2019
  19. Adaptive Network Based Fuzzy Inference System with Meta-Heuristic Optimizations for International Roughness Index Prediction, Applied sciences, 99巻, 21号, pp. 4715
  20. A Novel Hybrid Soft Computing Model Using Random Forest and Particle Swarm Optimization for Estimation of Undrained Shear Strength of Soil, Sustainability, 20203013
  21. GIS-based ensemble soft computing models for landslide susceptibility mapping, ADVANCES IN SPACE RESEARCH, 66巻, 6号, pp. 1303-1320, 20200915

招待講演、口頭・ポスター発表等

  1. Effects of water supplying on carbonation progress and its contribution to strength development of cement-treated soils., Proceeding of International Conference on Civil and Environmental Engineering (ICCEE-2016), 2016年10月, 通常, 英語, Higashi-Hiroshima, Japan
  2. Contribution of carbonation under drying curing condition to strength development of cement-treated soils, Proceedings of The 11th fib International PhD Symposium in Civil Engineering, 2016年08月, 通常, 英語, Tokyo, Japan
  3. Effects of Carbonation and Water Content on Strength Development of Cement-Treated Soils, Proceedings of the Fourteenth East Asia-Pacific Conference on Structural Engineering and Construction (EASEC-14), 2016年01月, 通常, 英語, Ho Chi Minh, Viet Nam
  4. Effect of cement types on strength development of cement-treated soils, Proceeding of The Seventh International Conference on Geotechnique, Construction Materials and Environment, GEOMATE 2017, 2017年11月, 通常, 英語, Mie, Japan
  5. Strength development of cement-treated sand using different cement types cured at different temperatures, Conference on Rehabilitation and Maintenance in Civil Engineering, 2018年07月, 通常, 英語, Inonesia
  6. Study on Cement-Treated Soil with RoadCem Additive in Construction of Rural Traffic Road: A Case Study in Viet Nam, International Conference on Geotechnics, Civil Engineering Works and Structures, 2019年10月, 通常, 英語, Ha Noi, Viet Nam

受賞

  1. 2016年08月, The best lecture award of the 11th fib International PhD Symposium in Civil Engineering, Fib

社会活動

学術雑誌論文査読歴

  1. 2020年, Journal of Applied Science and Engineering, その他, Reviewer, 02
  2. 2020年, Scientific reports, その他, Reviewer, 01
  3. 2020年, Advances in Civil Engineering, その他, Reviewer, 02
  4. 2021年, Frontiers Earth Science, その他, Reviewer, 01
  5. 2020年, Environmental Earth Sciences, その他, Reviewer, 01
  6. 2020年, Journal of marine science and engineering, その他, Reviewer, 01
  7. 2020年, Arabian Journal for Science and Engineering, その他, Reviewer, 01
  8. 2020年, Minerals, その他, Reviewer, 02
  9. 2020年, Sustainability, Reviewer, 03
  10. 2020年, Applied sciences, Reviewer, 02
  11. 2020年, Materials, その他, Reviewer, 7