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Journal of Applied Water Engineering and Research Volume 11, 2023 - Issue 3
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Research Article

Flood hazard mapping of the Welang river, Pasuruan, East Java, Indonesia

Entin Hidayaha Department of Civil Engineering, University of Jember, Jember, Indonesia;Correspondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-1233-6850View further author information
ORCID Icon,
Gusfan Halika Department of Civil Engineering, University of Jember, Jember, Indonesia;ORCID Iconhttps://orcid.org/0000-0002-5447-1268View further author information
ORCID Icon,
Indarto Indartob Department of Agricultural Engineering, University of Jember, Jember, IndonesiaORCID Iconhttps://orcid.org/0000-0001-6319-6731View further author information
ORCID Icon &
Dian Wahyu Khaulana Department of Civil Engineering, University of Jember, Jember, Indonesia;View further author information
Pages 333-344 | Received 15 Sep 2021, Accepted 13 Aug 2022, Published online: 24 Aug 2022

References

  • A.C.E., U. S. 2010. HEC-RAS River Analysis System. User’s Manual, Version 4.1, November, 1–790. CPD-68.
  • Akturk E, Altunel AO. 2019. Accuracy assesment of a low-cost UAV derived digital elevation model (DEM) in a highly broken and vegetated terrain. Meas: J Int Meas Confederation. 136(February 2019):382–386. doi:10.1016/j.measurement.2018.12.101.
  • Annis A, Nardi F, Petroselli A, Apollonio C, Arcangeletti E, Tauro F, Belli C, Bianconi R, Grimaldi S. 2020. UAV-DEMs for small-scale flood hazard mapping. Water. 12(1717):1–16. doi:10.3390/w12061717.
  • Aryal D, Wang L, Adhikari TR, Zhou J, Li X, Shrestha M, Wang Y, Chen D. 2020. A model-based flood hazard mapping on the southern slope of Himalaya. Water. 12(2). doi:10.3390/w12020540.
  • Demir V, Kisi O. 2016. Flood Hazard Mapping by Using Geographic Information System and Hydraulic Model: Mert River, Samsun, Turkey. 2016.
  • Farooq M, Shafique M, Khattak MS. 2019. Flood hazard assessment and mapping of River Swat using HEC-RAS 2D model and high-resolution 12-m TanDEM-X DEM (WorldDEM). Natural Hazards. 97(2):477–492. doi:10.1007/s11069-019-03638-9.
  • Febriyanto A, Hidayah E, Halik G. 2018. Peak discharge estimation of Welang watershed in Pasuruan Regency. Jurnal Rekayasa Sipil Dan Lingkungan. 2(02):141. doi:10.19184/jrsl.v2i02.6906.
  • Federal Geographical Data Committee. 1998. Geospatial positioning accuracy standards part 3: national standard for spatial data accuracy. National Spatial Data Infrast. 28. http://www.fgdc.gov/standards/projects/FGDC-standards-projects/accuracy/part3/chapter3.
  • FGDC (Federal Geographic Data Committee). 1998. Draft geospatial positioning accuracy standards. Part 2: standards for geodetic networks. FGDC-STD-007.2-1998. 1–9. https://www.fgdc.gov/standards/projects/FGDC-standards-projects/accuracy/part2/chapter2.
  • Horritt MS, Bates PD. 2002. Evaluation of 1D and 2D numerical models for predicting river flood inundation. J Hydrol. 268(1–4):87–99. doi:10.1016/S0022-1694(02)00121-X.
  • IPCC. 2014. Climate change. Proc Natl Acad Sci USA. 111(SUPPL. 2):9340–9345. doi:10.1177/1368431015579968.
  • Martínez-Carricondo P, Agüera-Vega F, Carvajal-Ramírez F, Mesas-Carrascosa FJ, García-Ferrer A, Pérez-Porras FJ. 2018. Assessment of UAV-photogrammetric mapping accuracy based on variation of ground control points. Int J Appl Earth Obs Geoinformation. 72(May):1–10. doi:10.1016/j.jag.2018.05.015.
  • Mourato S, Fernandez P, Pereira L, Moreira M. 2017. Improving a DSM obtained by unmanned aerial vehicles for flood modelling. IOP Conference Series: Earth Environ Sci. 95(2). doi:10.1088/1755-1315/95/2/022014.
  • Muhadi NA, Abdullah AF, Bejo SK, Mahadi MR, Mijic A. 2020. The use of LiDAR-derived DEM in flood applications: a review. Remote Sensing. 12(14):1–20. doi:10.3390/rs12142308.
  • Nardi F, Annis A, Baldassarre GD, Vivoni ER, Grimaldi S. 2019. GFPLAIN250m, a global high-resolution dataset of earth’s floodplains. Scientific Data. 6(January):1–6. doi:10.1038/sdata.2018.309.
  • Ongdas N, Akiyanova F, Karakulov Y, Muratbayeva A, Zinabdin N. 2020. Application of hec-ras (2d) for flood hazard maps generation for yesil (ishim) river in kazakhstan. Water. 12(10):1–20. doi:10.3390/w12102672.
  • Peña F, Nardi F. 2018. Floodplain terrain analysis for coarse resolution 2D flood modeling. Hydrology. 5(4). doi:10.3390/hydrology5040052.
  • Petroselli A, Vojtek M, Vojteková J. 2019. Flood mapping in small ungauged basins: a comparison of different approaches for two case studies in Slovakia. Hydrol Res. 50(1):379–392. doi:10.2166/nh.2018.040.
  • Rizzi J, Gallina V, Torresan S, Critto A, Gana S, Marcomini A. 2016. Regional risk assessment addressing the impacts of climate change in the coastal area of the Gulf of Gabes (Tunisia). Sustain Sci. 11(3):455–476. doi:10.1007/s11625-015-0344-2.
  • Sari P, Legono D, Sujono J. 2018. Performance of retarding basin in flood disaster risk mitigation in Welang River, East Java Province. Indonesia. J Civil Eng Forum. 4(2):109. doi:10.22146/jcef.31938.
  • Shustikova I, Domeneghetti A, Neal JC, Bates P, Castellarin A. 2019. Comparing 2D capabilities of HEC-RAS and LISFLOOD-FP on complex topography. Hydrol Sci J. 64(14):1769–1782. doi:10.1080/02626667.2019.1671982.
  • Sugiantara KB. 2020. Pemodelan Hujan Aliran Dengan Metode Clark UH dan Snyder UH pada DAS Welang. Paper Report, Unpublished.
  • Vojtek M, Petroselli A, Vojteková J, Asgharinia S. 2019. Flood inundation mapping in small and ungauged basins: sensitivity analysis using the EBA4SUB and HEC-RAS modeling approach. Hydrol Res. 50(4):1002–1019. doi:10.2166/nh.2019.163.
  • Vozinaki AEK, Morianou GG, Alexakis DD, Tsanis IK. 2017. Comparing 1D and combined 1D/2D hydraulic simulations using high-resolution topographic data: a case study of the Koiliaris basin, Greece. Hydrological Sci J. 62(4):642–656. doi:10.1080/02626667.2016.1255746.
  • Yalcin E. 2019. Two-dimensional hydrodynamic modelling for urban flood risk assessment using unmanned aerial vehicle imagery: a case study of Kirsehir. Turkey. J Flood Risk Manag. 12(S1):1–14. doi:10.1111/jfr3.12499.

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