FLOOD STUDY ANALYSIS USING GIS TECHNOLOGY IN DISTRICT BOJONEGORO

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Diterbitkan Agu 23, 2017
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Vol 8 No 1 (2015): Light

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Anna Rosytha M. Taufik

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The incidence of floods in Bojonegoro is common every year during the rainy season, flood events that cause terendamnya thousands of hectares of agricultural land and thousands of homes, flooding that occurred in Bojonegoro caused by the overflow of the Bengawan Solo river, causing flash flooding because the river upstream is derived of limestone mountains south high rainfall. Given the flood events causing substantial losses, the need for a study to analyze the potential of the region is prone to flooding in Bojonegoro. Determination zone flood-prone areas using Landsat ETM 7 integration and Map RBI produce land cover information, road networks, river networks, and Digital Elevation Model (DEM). The data is combined with historical data to produce maps of flood runoff flooding. Furthermore, the GIS analysis, the overlay data and network analyst, can be made map visualization runoff and rainwater so it can be seen the extent and causes of the flooding

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Referensi

  1. Atang, Ramadhany. 2007, Analisa
  2. Perbandingan Penggunaan Software
  3. Autodesk Land Destop 2004 Dengan
  4. Terramodel 9.6 Untuk pengolahan data
  5. Topografi. Program Studi Teknik Geodesi
  6. ITS. Surabaya.
  7. Benyamin Lakitan. 1991, Dasar – dasar
  8. Klimatologi, Raja Grafindo Persada,
  9. Jakarta.
  10. Hardaningrum, Farida. 2005,
  11. Pemanfaatan Penginderaan jauh Dan
  12. Sistem Informasi geografis Untuk Analisa
  13. Limpasan Air Hujan di Kabupaten
  14. Sidoarjo. Program Studi Magister Teknik
  15. Sipil Bidang Keahlian Penginderaan jauh
  16. ITS. Surabaya.
  17. Hardika, Erwin. 2006, Estimasi daerah
  18. Rawan Banjir Menggunakan Metode
  19. Pendekatan Topographic Wetness Index,
  20. http://www.bpdastondano.net/file.upload/
  21. karyailmiah /
  22. rawanbencana banjir.htm. Dikunjungi
  23. pada tanggal 15 Juni 2009.
  24. Hardiyanti, Sri P, Interpretasi Citra
  25. Digital, PT.Grassindo press, Bandung.
  26. Jawa Timur Dalam Angka 2007, (01-9-
  27. , BPS Propinsi Jawa Timur.
  28. Jensen, J.R., 1996, Introductory Digital
  29. Image Processing : A Remote Sensing
  30. Persepective Second Edition, Prentice
  31. hall Inc., New Jersy.
  32. Lillesend, M.T. and Kiefer, R.W. 1987.
  33. Remote Sensing and Image
  34. Interpretation. 2 ed. John Wiley and
  35. Sons. Canada. P:721.
  36. Linsley JR, Ray K, Kohler, Max A dan
  37. Paulhus, Joseph L.H, (1982), Hidrologi
  38. untuk Insinyur, Terjemahan, Edisi ketiga,
  39. Erlangga, Jakarta.
  40. Pohl, 1996, Communication-Driven
  41. Alignment of Sparse Data Structures - An
  42. Approach Towards Algebraic Mapping,
  43. RWC [2 citations — 1 self].
  44. Pohl, C., 1996, Geometric Aspects of
  45. Multisensor Image Fusion for
  46. Topographic Map Uploading In The
  47. Humid Tropics, Ph.D., Dissertation, ITC.,
  48. Publication No. 39, ITC.
  49. Prahasta Eddy, 2006, praktis
  50. penginderaan jauh & pengolahan citra
  51. dijital dengan perangkat lunak ER
  52. Mapper, Informatika, Bandung .
  53. Prahasta Eddy, 2001, Sistem informasi
  54. geografis, Informatika press, Bandung,
  56. Sabins, F.F.Jr., 1986, Remote Sensing
  57. Principles and Interpretation Second
  58. Edition W.H. Freeman and Co.,
  59. Sanfransisco.
  60. Tempfli, K. (1991) DTM and differential
  61. modelling. In: Proceedings ISPRS and
  62. OEEPE joint workshop on updating
  63. digital data by photogrammetric methods,
  64. September 15-17 1991, Oxford, England /
  65. ed. by P.R.T. Newby . - (OEEPE
  66. publication ; 27), pp. 193-200.
  67. Wilson, E.M., (1993), Hidrologi Teknik,
  68. Terjemahan, Edisi keempat, ITB,
  69. Bandung.
  70. Wolf, P.R., 1983, Elements of
  71. Photogrammetry : With Air Photo
  72. Interpretation and Remote Sensing, 2nd
  73. Edition, McGrow-Hill Book Company.