1.Garg, A., Huang, Y., He, H., Huang, X., Lin, P., Kalra, K., ... & Singh, L. (2022). Geotechnical engineering educational modules demonstrating measurement and regulation of soil moisture. Computer Applications in Engineering Education. 2.Garg, A., Wani, I., Zhu, H., & Kushvaha, V. (2021). Exploring efficiency of biochar in enhancing water retention in soils with varying grain size distributions using ANN technique. Acta Geotechnica, 1-12. 3. 4.Zhu, H., Yuan-Xu, H., Huang, H., *Garg, A., Mei, G. and Song, H. (2022). Development and Evaluation of Arduino-Based Automatic Irrigation System for Regulation of Soil Moisture. International Journal of Geosynthetics and Ground Engineering. https://doi.org/10.1007/s40891-022-00360-8 5.Dagliya, M., Satyam, N., Sharma, M., & Garg, A. (2022). Experimental study on mitigating wind erosion of calcareous desert sand using spray method for microbially induced calcium carbonate precipitation. Journal of Rock Mechanics and Geotechnical Engineering. https://doi.org/10.1016/j.jrmge.2021.12.008 6.Kalra, K., Gadi, V. K., Alybaev, D., Garg, A., Sreedeep, S., & Sahoo, L. (2021). A simple trilingual app for determining near-surface soil moisture. Indian Geotechnical Journal, 51(4), 870-875. 7.Gan, L., Garg, A. Wang, H., Mei, G., & Liu, J. (2021). Influence of biochar amendment on stormwater management in green roofs: experiment with numerical investigation. Acta Geophysica, 1-10. 8.Bora, M. J., Bordoloi, S., Pekkat, S., * Garg, A., Sekharan, S., & Rakesh, R. R. (2021). Assessment of soil erosion models for predicting soil loss in cracked vegetated compacted surface layer. Acta Geophysica, 1-15. 9.Garg, A., Huang, H., Kushvaha, V., Madhushri, P., Kamchoom, V., Wani, I., Koshy, N & Zhu, H. H. (2020). Mechanism of biochar soil pore–gas–water interaction: gas properties of biochar-amended sandy soil at different degrees of compaction using KNN modeling. Acta Geophysica, 68(1), 207-217. 10.Wang, H., Garg, A., Huang, S., & Mei, G. (2020). Mechanism of compacted biochar-amended expansive clay subjected to drying–wetting cycles: Simultaneous investigation of hydraulic and mechanical properties. Acta Geophysica, 68(3), 737-749. 11.Wang, H., Garg, A., Zhang, X., Xiao, Y., & Mei, G. (2020). Utilization of coconut shell residual in green roof: hydraulic and thermal properties of expansive soil amended with biochar and fibre including theoretical model. Acta Geophysica, 68(6), 1803-1819. 12.Gopal, P., Bordoloi, S., Ratnam, R., Lin, P., Cai, W., Buragohain, P., Garg, A* & Sreedeep, S. (2019). Investigation of infiltration rate for soil-biochar composites of water hyacinth. Acta Geophysica, 67(1), 231-246. 13.Garg, A., Wani, I., Zhu, H., & Kushvaha, V. (2021). Exploring efficiency of biochar in enhancing water retention in soils with varying grain size distributions using ANN technique. Acta Geotechnica, 1-12. 14.Garg, A., Zhu, Z., & Ju, J. W. W. (2021). Special Issue on “Innovative Materials for Damage Mitigation in Civil Engineering” in The International Journal of Damage Mechanics. International Journal of Damage Mechanics, 30(4), 483-483. (Most Downloaded from January to June, 2021) 15.Garg, A., Huang, H., Cai, W., Reddy, N. G., Chen, P., Han, Y., ... & Zhu, H. H. (2021). Influence of soil density on gas permeability and water retention in soils amended with in-house produced biochar. Journal of Rock Mechanics and Geotechnical Engineering, 13(3), 593-602. 16.Kumar, H., Ganesan, S. P., Sang, H., Sahoo, L., *Garg, A., Sekharan, S., & Leung, A. K. (2022). Exploring relations between plant photochemical quantum parameters and unsaturated soil water retention for biochars and pith amended soils. Science of The Total Environment, 804, 150251. 17.Huang, H., Reddy, N. G., Huang, X., Chen, P., Wang, P., Zhang, Y., ... & *Garg, A. (2021). Effects of pyrolysis temperature, feedstock type and compaction on water retention of biochar amended soil. Scientific Reports, 11(1), 1-19. 18.Garg, A., Bordoloi, S., Ni, J., Cai, W., Maddibiona, P. G., Mei, G., & Lin, Peng. (2019). Influence of biochar addition on gas permeability in unsaturated soil. Géotechnique Letters, 9(1), 66-71. (Telford Premium Prize from British Civil Engineers Association, UK) 19.Wang, J., Garg, A., Huang, S., Mei, G., Liu, J., Zhang, K., & Gan, L. (2021). The rainwater retention mechanisms in extensive green roofs with ten different structural configurations. Water Science and Technology, 84(8), 1839-1857. 20.Wang, J., Garg, A., Huang, S., Wu, Z., Wang, T., & Mei, G. (2021). An experimental and numerical investigation of the mechanism of improving the rainwater retention of green roofs with layered soil. Environmental Science and Pollution Research, 1-13. 21.Garg, A., Bordoloi, S., Ganesan, S. P., Sekharan, S., & Sahoo, L. (2020). A relook into plant wilting: observational evidence based on unsaturated soil–plant-photosynthesis interaction. Scientific Reports, Springer Nature 10(1), 1-15. 22.Bordoloi, S., Leung, A. K., Gadi, V. K., Hussain, R., *Garg, A., & Sekharan, S. (2019). Water Retention and Desiccation Potential of Lignocellulose-Based Fiber-Reinforced Soil. Journal of Geotechnical and Geoenvironmental Engineering, ASCE 145(11), 06019013. 23.Kumar, H., Huang, S., Mei, G., & Garg, A*. (2021). Influence of feedstock type and particle size on efficiency of biochar in improving tensile crack resistance and shear strength in lean clayey soil. International Journal of Damage Mechanics, 1056789521991194. (SCI, IF: 3.2) 24.Xing, X., Liu, Y., *Garg, A., Ma, X., Yang, T., & Zhao, L. (2021). An improved genetic algorithm for determining modified water-retention model for biochar-amended soil. Catena, 200, 105143. (SCI, IF: 4.2) 25.Das, G,Hazra, *Garg, AB, Ng, C.W.W. (2018). Stochastic hydro-mechanical stability of vegetated slopes: An integrated copula based framework. Journal of Catena. Accepted. Vol 160 (In press). (Impact factor: 3.7) 26.Bordoloi , S,*Garg, A, Yasmani, S and Sreedeep S. (2014). Critical assessment of infiltration measurements for soils with varying fine content using mini disk infiltrometer.Geotechnical Testing Journal, ASTM(Accepted. In press) 27.Gaurav Das, Budhaditya Hazra, *Garg, Aand Ng ,Charles (2017). Impact of hydrological and mechanical correlations on the reliability of vegetated slopes.ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering. ASCE. (Accepted. In Press). DOI: 10.1061/AJRUA6.0000934. 28.Gadi, V, Priya I, *Garg,Aand Sreedeep S (2017). Understanding soil compaction state using light reflection theory: Demonstration of a simple non-intrusive and cost effective colour analysis technique.Geotechnique (Accepted with revision) (Impact factor: 3.1) 29.Gadi, V, Priya I, *Garg,A, Berretta, C and Sreedeep S (2017). novel colour analysis technique for investigating heterogeneity in grass cover in green infrastructures.Advances in Civil Engineering, ASTM(In Press) 30.Garg, A. and Ng, C.W.W. (2015). Investigation of soil density effect on suction induced by root water uptake. Journal of Plant Nutrition and Soil Science.DOI: 10.1002/jpln.201400265. (Impact factor: 1.7; Class A) 31.Garg, A., Coo, J.L. and Ng, C.W.W. (2015). Field investigations on suction distributions in slopes vegetated with Cynodon dactylon and Schefflera heptaphylla. Earth Surface Processes and Landforms. DOI: 10.1002/esp.3743 (Impact factor: 3.6; Class A) 32.Garg, A., Ng, C.W.W., and Leung, A.K., (2015) New transpiration reduction and root distribution functions for Schefflera heptaphylla. Catena 135, 78-82 . (Class A;Impact factor: 3.5) 33.B Hazra, V Gadi, *A Garg, CWW Ng, GK Das (2017). Probabilistic analysis of suction in homogeneously vegetated soils. Journal of Catena, 149, 394-401 (Impact factor: 3.5; Class A) 34.V Gadi, Tang, YR, Das, Monga, C, *Garg, A,Berretta,C, Sahoo, L. (2017). Spatial and temporal variation of hydraulic conductivity and vegetation growth in green infrastructures using infiltrometer and visual technique. Journal of Catena. 20, 155-209 (Impact factor: 3.5; Class A) 35.*Garg, Ankit, Li, J, Berretta, C and Garg, Akhil (2017). A New Computational Approach for Estimation of Wilting Point for Green Infrastructure. Journal of Measurement (Accepted: Impact factor: 2.3; Class A) 36.Garg, A. Leung, A.K., and Ng, C.W.W. (2015). Comparisons of suction induced by evapotranspiration and transpiration of S. heptaphylla. Canadian Geotechnical Journal. 52 (999), 1-7. (Class A; Impact factor: 1.2)
国际会议出版物: 1.K. Harsha Vardhan , Shubhankar Jha , Sanandam Bordoloi,Ankit Garg, Sreedeep S (2015). Compressive Strength Model of Soil Reinforced with Polypropylene Fiber. Proceedings of Indian Geotechnical Conference, Pune, India 2.Bordoloi, S.,Yamsani, S. K., Sreedeep,S.,Garg, A(2015). Unconfined compressive strength of natural fiber reinforced soil. Tech Expo 2015, Techniche, Indian Institute of Technology Guwahati, Guwahati, India. 3.Bordoloi, S., Mourya, S., Paramar, S., Sreedeep,S., Garg, A(2015). Soil reinforced with harmful Eichornia Crasspes fiber as a cheap alternative for rural infrastructure. Proceedings of IISF 2015 (India International Science Festival), New Delhi, India. 4.Bordoloi, S., Mourya, S., Kashyap, V., Sreedeep,S.,Garg, A(2015).Effect of variation in soil density on the strength characteristics of soil reinforced with Eichornia crassipes fiber. 19th Southeast Asian Geotechnical Conference & 2nd AGSSEA Conference (19SEAGC & 2AGSSEA) KualaLumpur 31 May – 3 June 2016. 5.Ng, C.W.W., Leung, A.K.,Garg, A., Woon, K.X., and Hau, B.C.H (2013). Soil suction induced by grass and tree in an atmospheric-controlled plant room. Proceedings of the 18th International Conference on Soil Mechanics and Geotechnical Engineering, Paris 2013 6.Garg, A.,Leung, A.K., Ng, C.W.W. and Hau, B.C.H (2012). Effects of Plant Transpiration on Suction Distribution in a Vegetated Soil Slope. Proceedings of EUNSAT 2012 (Europeon conference on unsaturated soils), Napoli, Italy. 7.Garg, A., Malaya, C. and Sreedeep, S. (2010). "Influence of different suction measuring procedures on SWCC and seepage modeling in unsaturated soils" 6ICEG 2010 (International Congress on Environmental Geotechnics), New Delhi,India. 8.Garg, A., Malaya, C. and Sreedeep, S. (2009). "A study on the influence of soil-water characteristic curve on the seepage modeling of unsaturated soil" International Conference on Advances in Concrete, Structural, and Geotechnical Engineering, BITS Pilani, India.
1.边坡工程(研究生) 2.环境岩土工程(研究生) 3.非饱和土力学(研究生) 4.土力学(实验室1和2)(本科) 5.工程制图(本科)
邀请讲座 •改善地面土壤的生物技术。同济大学,2017年7月17日。 •改善土壤的天然纤维和植被的最新研究。中国科学院,厦门,2017年5月27日 •土壤-植物-大气相互作用的机理研究。南京大学,2016 12月30日 ·土壤-根-水-大气相互作用:边坡智力中的挑战。浙江大学,2016 12月29日 ·土壤-植物-水-大气相互作用:我们了解一切吗?哈尔滨工业大学,深圳,中国,2016年12月25日 •对生物工程边坡的智能监测:利用彩色技术监测植被生长。汕头大学,2016年12月25日 •了解土壤-植物-水-大气相互作用的最新挑战。澳门大学,澳门,2016年12月22日 •绿色岩土工程:加强澳门大学土壤植被的使用。澳门大学,2015年6月25日 •利用有害和废弃杂草增强土壤强度。澳门大学,2015年12月24日 •绿色植被在增强土体强度中的应用。华南理工大学,2015年12月19日 •诺贝尔奖得主圣诞节期间在澳门大学举行的岩土工程可持续发展专题讨论会。2015年12月25日 •跨学科的研究和国际合作研究会议:受邀主讲人,印度理工学院,古瓦哈提,2016年3月19日 •“进气值测定”的研讨与评价。德国鲁尔大学,德国,2016年2月25日 •岩土工程可持续发展,马来西亚首都。2016年6月2日 •跨学科研究在岩土工程中的重要性。马来西亚博特拉大学,2016年6月3日 •植被和天然纤维在岩土工程中的应用,汕头大学,2016年6月13日 •国际教育合作。曼谷学院,2016年6月19日 •人工智能在岩土工程中的应用。马来西亚莫纳什大学,2016年6月3日 •水葫芦的天然纤维开发及其对土壤加固的影响。马来西亚诺丁汉大学,2016年6月3日 •探讨非饱和土参数与植物特性的联系。岐阜大学,日本,2016年8月30日 •绿色基础设施的跨学科研究和设计在岩土工程的作用。曼谷,2016年6月19日 •探索跨学科知识在可持续岩土基础设施中的应用。台湾,2016年9月7日。 •植被和非饱和土壤相互作用:我们了解一切吗?英国利兹大学,Time ??
编辑 ·Journal of Earth and Environmental Science. Proceedings of International Conference on Agricultural and Biological Sciences (ABS2015) ·Journal of Civil and Architectural Engineering ·Journal of geological resource and Engineering
特邀审稿人 ·Geotechnique ·Geotechnique letters ·Journal of Hydrology ·Journal of Engineering Mechanics ·Soil Science Society of America ·Pedosphere ·Measurement ·Journal of Hydrologic engineering ·Canadian Geotechnical Journal ·Computer and Geotechnics ·Ecological Engineering ·Environmental Geotechnics ·Journal of Measurement ·Journal of Cleaner production ·Engineering Computations ·International Conference on Agricultural and Biological Sciences (ABS2015). ·Journal of Geological Resource and Engineering (ISSN 2328-2193) ·European journal of Soil Science ·Neural Computing and Applications ·Journal of Cleaner Production ·Journal of Zhejiang University, ·Frontiers of Mechanical Engineering ·Neural Computing and Applications
指导学生:
1、在印度理工学院古瓦哈提分校指导本科生6名。 2、在香港科技大学指导8名本科生和3名硕士生。其中3名本科的毕业论文获得香港科技大学总统杯,1名本科生获得由香港工程师学颁发的最佳本科岩土工程奖。
荣誉: ·在中国香港攻读博士期间,获得了香港博士学位奖学金。该奖项面向所有学科,共110人获奖(2010年)。 ·在全印度工程入学考试的100万名学生中,获得省内第四名,全印度排名140位。 ·在全印度工程入学考试中表现出色,获得印度政府颁发的优秀奖学金。 ·在德国夏季研究项目中获得DAAD奖学金。 ·在印度理工学院古瓦哈提分校攻读本科学位期间,获得MCM(Merit cum mean)奖学金。 ·担任35个不同期刊(SCI)的邀请审稿人,其中包括两次Geotechnique以及四次加拿大岩土工程学报的邀请审稿人。 ·在德国推广高等教育活动中担任DAAD青年大使(2010-2011年)。 |
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