Zahra Dabiri

Zahra Dabiri
Researcher

Schillerstraße 30, 5020 Salzburg
Tel.: +43 (0) 662 / 8044 – 7571
Fax: +43 (0) 662 / 8044 – 7560
E-Mail:

RESEARCH INTERESTS

Remote sensing digital image processing | Radar and optical data analysis | Data mining | Object-based image analysis | Geomorphology | Landslide | Natural hazards

 

PUBLICATIONS

Peer-reviewed Journal Articles (selected)

  • Dabiri, Z., Hölbling, D. W., Abad, L. & Guðmundsson, S., 2021, Comparing the Applicability of Sentinel-1 and Sentinel-2 for Mapping the Evolution of Ice-marginal Lakes in Southeast Iceland, GI_Forum 2021. 9, 1, S. 46-52.  doi: http://10.1553/giscience2021_01_s46
  • Dabiri, Z., Hölbling, D., Abad, L., Helgason, J.K., Sæmundsson, Þ., Tiede, D., 2020. Assessment of Landslide-Induced Geomorphological Changes in Hítardalur Valley, Iceland, Using Sentinel-1 and Sentinel-2 Data. Applied Sciences, 10, 5848.  doi: http://10.1553/giscience2021_01_s46
  • Hölbling, D., Abad, L., Dabiri, Z., Prasicek, G., Tsai, T.-T., Argentin, A.-L., 2020. Mapping and Analyzing the Evolution of the Butangbunasi Landslide Using Landsat Time Series with Respect to Heavy Rainfall Events during Typhoons. Applied Sciences, 10(2), 630.  doi:https://doi.org/10.3390/app10020630
  • Dabiri, Z. & Blaschke, T., 2019. Scale matters: a survey of the concepts of scale used in spatial disciplines, European Journal of Remote Sensing, 52, 1, S. 419-434 16 S.  doi: https://doi.org/10.1080/22797254.2019.1626291
  • Dabiri, Z. & Lang, S., 2018. Comparison of independent component analysis, principal component analysis, and minimum noise fraction transformation for tree species classification using APEX hyperspectral imagery, ISPRS International Journal of Geo-Information, 7, 12, 488.  doi: https://doi.org/10.3390/ijgi7120488

Projects

Current Projects

  • MontEO: The impact of mass movements on alpine trails and huts assessed by EO data [FFG ASAP; 01/2020 – 12/2021]
  • RiCoLa: Detection and Analysis of Landslide-induced River Course Changes and Lake Formation [ÖAW; 08/2017 – 06/2021]

Completed Project

  • MORPH: Mapping, Monitoring and Modelling the Spatio-Temporal Dynamics of Land Surface Morphology [FWF; 11/2016 – 09/2020]