Nowadays, fresh water availability is a problem and require serious attention from all parties. Urbanization in Kayuambon Village causes highly growth population and require fresh water to support the needs, it resources come from groundwater. This research aims to determine the groundwater direction and accumulation based on groundwater modeling using IDW, Kriging, Spline, and Minimum Curvature interpolation techniques. Result shows that Kriging interpolation technique has the highest validity then others with ME = 0.316833, RMSE = 10.68147, and R2 = 0.88934. Groundwater modeling results also found that Kayuambon Village has two cone of depression are located in the central and northern of the village which known as concentration of groundwater flow. This study is expected to be a consideration for people and stakeholders to realize sustainable groundwater utilization.

Anugrahadi, A., Purwadhi, F. S. H., dan Haryani, N. S. (2017). Terapan Penginderaan Jauh dan Sistem Informasi Geografis dalam Geologi, Geomorfologi, dan Mitigas Bencana Beraspek Hidrometeorologi. Jakarta: Universitas Trisakti Jakarta.

Baalousha, H. (2008). “Fundamentals of Groundwater

Modelling”. on Konig, L. W. & Weiss, J. L. (eds.). Groundwater: Modelling, Management and Contamination. New York: Nova Science Publishers, Inc.

BPS Kab. Bandung Barat. (2016). Bandung Barat Regency in Figures. Bandung: BPS Kab. Bandung Barat.

Bourgoyne, A.T., dkk. (2016). Applied Drilling Engineering. Texas: Society of Petroleum Engineers, Inc.

Charoenpong, S ., Suwanprasit, D. dan Thongchumnum, P. (2012). “Impacts of Interpolation Techniques on Groundwater Potential Modelling using GIS in Phuket Province, Thailand”. Proceeding the 33rd Asian Conference of Remote Sensing, November 26th – 30th, 2013 at Pataya, Thailand, pp. 1 – 7.

Dressler, M. (2009). Art of Surface Interpolation. Kunštát: Technical University of Liberec.

Hadi, B. S. (2013). “Metode Interpolasi Spasial Dalam Studi Geografi (Ulasan Singkat dan Contoh Aplikasinya)”. Geomedia, 11 (2): 235 – 252.

HWE. (2009). Groundwater Engineering. Ramallah: Birzeit University & House and Water Environment Publication.

Keckler, D. (1994). Surfer for Windows: User Guide. Colorado: Golden Software, Inc.

Kresic, N. (2007). Hydrogeology and Groundwater Modelling. New York: CRC Press.

Kumar, C. P. (2015). “Modelling of Groundwater Flow and Data Requirements”. International Journal of Modern Sciences and Engineering Technology, 2 (2): 18 – 27.

Pasaribu, J. M. dan Haryani, N. S. (2012). “Perbandingan Teknik Interpolasi DEM SRTM dengan Metode Inverse Distance Weight (IDW), Natural Neighbor dan Spline”. Pusat Pemanfaatan Penginderaan Jauh, Lapan, 9 (2): 126 – 139.

Pramono, G. H. (2008). “Akurasi Metode IDW dan Kriging untuk Interpolasi

Sebaran Sedimen Tersuspensi”. Forum Geografi, 22 (1): 97 – 110.

Qiu, S., dkk. (2015). “Numerical Simulation of Groundwater Flow in a River Valley Basin in Jilin Urban Area, China”. Journal of Water, 7 (10): 5768 – 5787.

Rhonda, G. M. (1995). Groundwater Modelling Calculation for the Cone of Depression. Retrieved at http://math.clemson.edu/~warner/ground.pdf. Accessed on Feb 17th, 2018.

Saldanela, S., Sutikno, S., dan Hendri, A. (2015). “Pemetaan Pola Aliran Air Tanah Berabasis Sistem Informasi Geografis (SIG) di Kawasan Kecamatan Tampan Kota Pekanbaru”. Jurnal Jom FTEKNIK, 2 (1): 1 – 8.

Sarangi, A., Cox, A., dan Madramootoo, C. A. (2005). “Geostatistical Methods for Prediction of Spatial Variability of Rainfall in a Mountainous Region”. Journal American Society of Agricultural Engineers, 48 (3): 943 – 954.

Silitonga, P. H. (1973). Geologic Map of the Bandung Quadrangle. Bandung: Geological Survey of Indonesia.

Sun, Y., dkk. (2009). “Comparison of Interpolation Methods for Depth to Groundwater and its Temporal and Spatial Variations in the Minqin Oasis of Northwest China”. Journal of Environmental Modelling & Software, 24 (10): 1163 – 1170.

Tonkin, M. J. dan Larson, S. P. (2001). “Kriging Water Levels with a Regional-Linear and Point-Logarithmic Drift”. Journal of Groundwater, 4 (2): 185 – 193.

UNESCO. (2005). Groundwater Resource Issues, Problems, and Recommendations. Tersedia di https://srbc.net/programs/docs/GWMngtPlanJune2005/2.0%20%20Groundwater %20Resource%20Issues,%20Problems,%20and%20Recommendations.pdf. Diakses pada 17 Februari 2018.

Wang, S., dkk. (2014). “Comparison of Interpolation Methods for Estimating Spatial Distribution of Precipitation in Ontario, Canada”. International Journal of Meteorology, 34: 3745 – 3751.

Winter, T. C., dkk.. (1998). Ground Water and Surface Water: a Single Resource. Denver: U.S. Government Printing Office.

Xiao, Y., dkk. (2016). “Geostatistical Interpolation Model Selection Based on ArcGIS and Spatio-Temporal Variability Analysis of Groundwater Level in Piedmont Plains, Northwest China”. Journal SpringerPlus, 5 (425): 2 – 15.

Yao, X., dkk. (2013). “Comparison of Four Spatial Interpolation Methods for Estimating Soil Moisture in a Complex Terrain Catchment”. Journal PLoS ONE, 8 (1): 1 – 13.