Title Page
Abstract
Contents
List of Abbreviations 12
Chapter 1. Introduction 13
Chapter 2. Literature Review 17
2.1. Landslide 17
2.2. Factors that can affect areas prone to landslides 20
2.3. Geographic Information System (GIS) 23
2.3.1. Geographic Information System (GIS) 23
2.3.2. Components of Geographic Information System (GIS) 24
2.4. Q-GIS and Features 25
2.4.1. Q-GIS 25
2.4.2. Q-GIS Features 25
Chapter 3. Research Site And Methodology 30
3.1. Research Site 30
3.1.1. Research Site 30
3.1.2. Reasons for Research 30
3.1.3. Profile of Research Area 32
3.2. Methodology 33
3.2.1. Base map collection 33
3.2.2. Scoring of each parameter map 34
3.2.3. Overlay of all maps 38
3.2.4. Output maps of prone landslide 39
3.2.5. Ground check and correction 39
3.2.6. Layout map 39
3.3. Systematic analysis of the process of mapping landslide 40
Chapter 4. Results and Discussion 41
4.1. Creating Base Map 41
4.1.1. Map of Slope 41
4.1.2. Land Use Map 44
4.1.3. Map Type of Soil 46
4.1.4. Map of Rainfall Precipitation 47
4.2. Classification of score maps 52
4.2.1. Slope map 52
4.2.2. Land Use Map 52
4.2.3. Soil Map 53
4.2.4. Rainfall Map 53
4.3. Overlay of all maps 54
4.4. Output database and maps of prone landslide. 55
4.5. Ground check result 57
4.6. Layout of landslide prone map 61
4.7. Result for each classification 64
4.8. Management of landslide prone areas. 66
Chapter 5. Conclusion and Recommendation 68
5.1. Conclusion 68
5.2. Recommendation 69
Literature Cited 71
Appendix 74
요약 75
Table 1. Scoring for Landslide parameter 35
Table 2. Scoring for Slope Parameter 35
Table 3. Scoring for land use parameters 36
Table 4. Scoring for erodibility of soil parameters 36
Table 5. Monthly rainfalls coring classification BMKG 37
Table 6. Accumulation Score of Total Parameter 37
Table 7. Attribute data of slope map 43
Table 8. Attribute data of land use map 45
Table 9. Attribute data of Soil Type map 47
Table 10. Rainfall monitoring station data 47
Table 11. Attribute data from thiesen polygon 49
Table 12. Attribute data from Isohyetal contour line 50
Table 13. Adding score field on Attribute data of slope map 52
Table 14. Adding score field on attribute data of land use map 53
Table 15. Adding score field on attribute data of soil map 53
Table 16. Adding score field on attribute data of Rainfall map 54
Table 17. Attribute data after overlaying all Map. 56
Table 18. Explanation of attribute table 56
Table 19. Ground check location. 58
Table 20. Output data overlay of landslide prone map with 2015-2018 landslide... 60
Figure 1. Landslide Translation 17
Figure 2. Landslide Rotation 18
Figure 3. Block Movements 18
Figure 4. Rock Collapse/Stone Ruins 19
Figure 5. Soil crawling 19
Figure 6. Debris of Flow Material 20
Figure 7. Map of Research Location 30
Figure 8. Map of Distribution of Landslides in 2015-2018 MGPNP 31
Figure 9. Overlaying Technique 39
Figure 10. Systematic analysis of the process of mapping landslide 40
Figure 11. Creating DEM from Google Earth using add path 41
Figure 12. Clipping DEM with National Park Boundaries 42
Figure 13. Output of terrain analysis 42
Figure 14. Map of Slope Mount Gede Pangrango National Park 43
Figure 15. Percentage slope of area Mount Gede Pangrango National Park 44
Figure 16. Map of Land Use Mount Gede Pangrango National Park 45
Figure 17. Map of Type of Soil Mount Gede Pangrango National Park 46
Figure 18. Thiesen polygon line using Qgis 48
Figure 19. Isohyetal contour line using Q-gis 50
Figure 20. Map of Annual Percipitation 51
Figure 21. Overlaying all Map 54
Figure 22. Output after union process 55
Figure 23. Map of landslide prone map with 2015-2018 landslide events. 59
Figure 24. Inserts Map 63
Figure 25. Map of Landslide Prone Areas Mount Gede Pangrango National Park 63