54 Institut Teknologi Nasional
DAFTAR PUSTAKA
Abe, K., & Ziemer, R. (1991). Effect of Tree Roots on Shallow-Seated Landslides.
Proceedings of the IUFRO Technical Session on Geomorphic Hazards in Managed Forests.
Alhasanah, F. (2006). Pemetaan Dan Analisis Daerah Rawan Tanah Longsor Serta Upaya Mitigasinya Menggunakan Sistem Informasi Geografis (Studi Kasus Kecamatan Sumedang Selatan, Kabupaten Sumedang, Provinsi Jawa Barat) . Bogor: IPB.
Arifin. (2006). Implementasi Penginderaan Jauh dan SIG untuk Inventarisasi Daerah Rawan Bencana Longsor (Provinsi Lampung). Jurnal Penginderaan Jauh dan Pengolahan Citra Digital, 77-86.
Arsyad, S. (1989). Konservasi Tanah dan Air. Bogor: IPB.
Arsyad, S. (2010). Konservasi Tanah dan Air. Bogor: IPB Press.
Barus, B. (1999). Pemetaan Bahaya Longsoran Berdasarkan Klasifikasi Statistik Peubah Tunggal Menggunakan SIG: Studi Kasus Daerah Ciawi-Puncak- Pacet, Jawa Barat. Jurnal Ilmu Tanah dan Lingkungan, 2(1):7-16.
Barus, B. (2000). Sistem Informasi Geografi Sarana Manajemen Sumberdaya.
Bogor: IPB.
BMKG. (2008). Curah Hujan dan Potensi Bencana Gerakan Tanah. Jakarta.
Chung, C. F., & Fabbri, A. G. (1993). The Representation of Geoscience Information for Data. Nonrenewable Resources, 122-139.
Conforti, M. (2012). Application and Validation of Bivariate GIS-Based Landslide Suspectibility Assessment for the Vitravo River Catchment. Nat. Hazards, 127-141.
Corsini, A. (2009). Coupling Geomorphologic Field Observation and LIDAR Derivates to Map Complex Landslide. Proceeding of The Landslide Processes Conference.
Direktorat Geologi dan Tata Lingkungan. (2009). Gerakan Tanah di Indonesia.
Jakarta: Dirjen Pertambangan Umum.
55 Institut Teknologi Nasional ESRI. (2010). Natural Breaks (Jenks). Dipetik dari http://resources.esri.com/
help/9.3/arcgisdesktop/com/gp_toolref/Environment_Settings/natural_brea ks.htm
ESRI. (2019). Cell Size. Dipetik dari http://resources.esri.com/
help/9.3/arcgisdesktop/com/gp_toolref/Environment_Settings/cell_size.ht m
Fawcett, T. (2006). An Introduction to ROC Analysis. Pattern Recognition Letters, 861-874.
Gerrard, A. J. (1981). Soils and Landforms: An Integration of Geomorphology and Pedology. London: George Allen and Unwin.
Jaafari, A. (2014). GIS-Based Frequency Ratio and Index of Entropy Models for Landslide Suspectibility Assesment in the Caspian Forest, Northern Iran.
International Journal of Environmental Science and Tech, 11:909-926.
Keefer, D. R., & Wilson, R. C. (1981). Predicting Global Landslide Spatiotemporal Distribution: Integrating Landslide Susceptibility Zoning Techniques and Real-Time Satellite Rainfall Estimates. International Journal of Sediment Research.
Lee & Talib. (2005). Probabilistic Landslide Suspectibility and Factor Effect Analysis. Environ Geol, 47:982-990.
Lillesand & Kiefer. (1997). Penginderaan Jauh dan Interpretasi Citra (Terjemahan). Yogyakarta: Gadjah Mada University Press.
Liu, C. (2013). Susceptibility Evaluation and Mapping of China’s Landslides Based on Multi-Source Data. Nat. Hazards, 1477-1495.
Mathew, J. (2014). Integrating Intensity–Duration-Based Rainfall Threshold and Antecedent Rainfall-Based Probability Estimate Towards Generating Early Warning for Rainfall-Induced Landslides in Parts of the Garhwal Himalaya, India. Landslide, 575-588.
Piciullo, L. (2017). Definition and Performance of a Threshold-Based Regional Early Warning Model for Rainfall-Induced Landslides. Landslide, 995- 1008.
56 Institut Teknologi Nasional Polykretis, C. (2014). A Comparative Study of Landslide Suspectibility Mapping Using Landslide Suspectibility Index and Artificial Neural Networks in the Krios River and Krathis River Catchments. Geol. Environ.
PUPR. (2015). Rencana Program Investasi Jangka Menengah Kabupaten Bandung Barat 2015-2019. Jakarta: SIPPA Ciptakarya.
PVMBG. (2005). Manajemen Bencana Tanah Longsor. Dipetik dari https://vsi.esdm.go.id/
PVMBG. (2018). Publikasi Peringatan Dini Gerakan Tanah. Dipetik dari https://vsi.esdm.go.id/
Sadisun, A. I. (2005). Usaha Pemahaman Terhadap Stabilitas Lereng dan Longsoran Sebagai Langkah Awal Dalam Mitigasi Bencana Longsoran.
dipetik darih
ttps://www.researchgate.net/publication/264309395_Pemahaman_karakter istik_bencana_Aspek_fundamental_dalam_upaya_mitigasi_dan_penangan an_tanggap_darurat_bencana
Soemantri, L. (2007). Kajian Mitigasi Bencana Longsor Lahan dengan Menggunakan Teknologi Penginderaan Jauh. Makalah Seminar Ikatan Geografi Indonesia.
Soma, A., & Kubota, T. (2016). The Performance of Land Use Change Causative Factor on Landslide Suspectibility Map in Ujung-Loe Watersheeds South Sulawesi. Geoplanning: Journal of Geomatics and Planning , 157-170.
Sugianti, K. (2014). Pengklasan Tingkat Kerentanan Gerakan Tanah Daerah Sumedang Selatan Menggunakan Metode Storie. Riset Geologi dan Pertambangan.
Tazik, E. (2014). Landslide Susceptibility Mapping Using Geographically- Weighted Principal Component Analysis. Geomorphology. Science Direct.
Tien Bui, D. (2011). Landslide Suspectibility Analysis in the Hoa Binh Province of Vietnam Using Statistical Index and Logistic Regression. Nat. Hazards.
Yasilnacar, E. K. (2005). The Application of Computational Intelligence to Landslide Suspectibility Mapping in Turkey. Melbourne: Department of Geomatics the University of Melbourne.
57 Institut Teknologi Nasional Zou, K. H. (2007). Receiver Operating Characteristics Analysis for Evaluating
Diagnostic Test and Predictive Models. Circulation, 654–657.
