Deep Excavation Hazard Assessment Zoning in District 1 in Shiraz Municipality Using Geographic Information System (GIS)
Subject Areas : Structural EngineeringSara Afarid 1 , Alireza Hajiani Boushehrian 2
1 - Master of Science Student in Geographic Information System, Larestan Branch, Islamic Azad University, Larestan, Iran
2 - Assistant professor of geotechnical engineering, Department of Civil Engineering, Islamic Azad University, Shiraz Branch, Shiraz, Iran
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[1] Ladeira, F. L., and Ferreira Gomes, L. M. (1994). “Bearing capacity in engineering geological mapping.” In Proceedings of the 7th congress of the International Association of Engineering Geology, Lisbon, Vol. 2, 1245-1250.
Ghafoori, M., Lashkaripour, G. R., and Azali, S. T. (2011). “Investigation of the geological and geotechnical characteristics of Daroongar Dam, Northeast Iran.” Geotechnical and Geological Engineering, 29(6), 961-957.
[2] Dearman, W. R. (1991). “Engineering Geological Mapping” First published, Butter worth Heinemann Ltd.387p.
[3] Nadi, M., Jamei, M., Bazrafshan, J. and Janat Rostami, S. (2011). “Evaluation of different methods of interpolation of monthly and annual rainfall data: Khuzestan province Case study.” National Geographical Researches, 44(4), 117-130.
[4] Andrus, R. D., Stokoe, K. H., Chung, R. M., and Juang, C. H. (1999). “Draft Guidelines for Evaluating Liquefaction Resistance Using Shear Wave Velocity Measurements and Simplified Procedures.” NIST (No. NIST Interagency/Internal Report (NISTIR)-6277).
[5] Sharma, B. and Chetia, M., (2016). “Deterministic and probabilistic liquefaction potential evaluation of Guwahati city.” Japanese Geotechnical Society Special Publication, 2(22), 823-828.
[6] Sana, H. and Nath, S.K., (2005). “Liquefaction potential analysis of the Kashmir valley alluvium, NW Himalaya.” Soil Dynamics and Earthquake Engineering, 85, 11-18.
[7] Thoithoi, L., Dubey, C.S., Ningthoujam, P.S., Shukla, D.P., Singh, R.P. and Naorem, S.S., (2016). “Liquefaction potential evaluation for subsurface soil layers of Delhi region. Journal of the Geological Society of India.” 88(2), 147-150.
[8] Rao, K.S. and Satyam, D.N., (2007). “Liquefaction studies for seismic microzonation of Delhi region.” Current Science Association, 92(5), 646-654.
[9] Lodi, S.H., Sultan, W., Bukhary, S.S. and Rafeeqi, S.F.A. (2015). “Liquefaction potential along the coastal regions of Karachi.” Journal of Himalayan Earth Sciences Volume, 48(1), 89-98.
[10] Singh, N.K. and Jawaid, S.A., (2015). “A SPT Based Evaluation of Liquefaction Potential of Rapti Main Canal in District Balrampur.” Global Journal for Research Analysis” 4(11), 100-103.
[11] Rakesh, K., Rao, G.R.S. and Prasad, D.S.V., (2016). “Seismic soil liquefaction susceptibility assessment of District Krishna.” Andhra Pradesh. IJAR, 2(2), 477-482.
[12] Boushehrian, A.H. and Zarei, M. (2018). “Boushehr liquefaction hazard zonation based on SPT and result presentation by using GIS plat form.” Journal of Civil and Environmental Engineering, online published, (92) 48.3, 109-119.
[13] El May, M., Dlala, M., & Chenini, I. (2010). “Urban geological mapping: Geotechnical data analysis for rational development planning.” Engineering Geology, 116(1-2), 129-138.
[14] Wan-Mohamad, W. N. S., & Abdul-Ghani, A. N. (2011). “The use of geographic information system (GIS) for geotechnical data processing and presentation.” Procedia Engineering, 20, 397-406.
[15] Labib, M. and Nashed, A. (2012). “GIS and geotechnical mapping of expansive soil in Toshka region.” Ain Shams Engineering Journal, 4(3), 423-433.
[16] Bhatt, G. D. (2001). “Knowledge management in organizations: examining the interaction between technologies, techniques, and people.” Journal of knowledge management, 5(1), 68-75.
[17] Iran 7th national regulation building code, (2012).
[18] Johnston, K., Ver Hoef, J. M., Krivoruchko, K., and Lucas, N. (2004). “Using ArcGIS geostatistical analyst.” ESRI Press.
[19] Ashiq, M.W., Zhao, C., Ni, J. and Akhtar, M. (2010). “GIS-based high-resolution spatial interpolation of precipitation in mountain–plain areas of Upper Pakistan for regional climate change impact studies.” Theoretical and Applied Climatology, 99(3-4), 239-253.
[20] Mardikis, M. G., Kalivas, D. P., and Kollias, V. J. (2005). “Comparison of interpolation methods for the prediction of reference evapotranspiration—an application in Greece.” Water Resources Management, 19(3), 251-278.
[21] Zhao, C., Nan, Z., and Cheng, G. (2005). “Methods for estimating irrigation needs of spring wheat in the middle Heihe basin, China.” Agricultural water management, 75(1), 54-70.
[22] Zhang, X., Kang, S., Zhang, L., and Liu, J. (2010). “Spatial variation of climatology monthly crop reference evapotranspiration and sensitivity coefficients in Shiyang river basin of northwest China.” Agricultural Water Management, 97(10), 1506-1516.
[23] Ashraf, M., Loftis, J. C., and Hubbard, K. G. (1997). “Application of geostatistics to evaluate partial weather station networks.” Agricultural and forest meteorology, 84(3-4), 255-271.
[24] Phillips, D. L., and Marks, D. G. (1996). “Spatial uncertainty analysis: propagation of interpolation errors in spatially distributed models.” Ecological Modelling, 91(1-3), 213-229.
[25] Bechini, L., Ducco, G., Donatelli, M., and Stein, A. (2000). “Modelling, interpolation and stochastic simulation in space and time of global solar radiation.” Agriculture, ecosystems and environment, 81(1), 29-42.
[26] Webster, R., and Oliver, M. A. (2007). “Geostatistics for environmental scientists.” John Wiley and Sons Press.
[27] Tewolde, M. G., Beza, T. A., Costa, A. C., and Painho, M. (2010). “Comparison of different interpolation techniques to map temperature in the southern region of Eritrea.” In 13th AGILE International Conference on Geographic Information Science (1), 1-5.
[28] Creutin, J. D., and Obled, C. (1982). “Objective analyses and mapping techniques for rainfall fields: an objective comparison.” Water resources research, 18(2), 413-431.
[29] Isaaks, E. H., and Srivastava, R. M. (1989). “An introduction to applied geostatistics.” Oxford university press.
[30] Weber, D., and Englund, E. (1992). Evaluation and comparison of spatial interpolators. Mathematical Geology, 24(4), 381-391.
[31] Martínez-Cob, A. (1996). “Multivariate geostatistical analysis of evapotranspiration and precipitation in mountainous terrain.” Journal of Hydrology, 174(1-2), 19-35.
[32] Caruso, C., and Quarta, F. (1998). “Interpolation methods comparison.” Computers and Mathematics with Applications, 35(12), 109-126
[33] Nalder, I. A., and Wein, R. W. (1998). “Spatial interpolation of climatic normals: test of a new method in the Canadian boreal forest.” Agricultural and forest meteorology, 92(4), 211-225.