Small updates

CV.Rmd

@@ -135,11 +135,13 @@ exp |>
     stringr::str_detect(`department-name`, "Carrera de Ingeniería Ambiental") ~ "08",
     TRUE ~ `end-date.month.value`
   )) |> 
-  mutate(count = c(1,7,1,1,1,1)) |> 
+  mutate(count = c(1,9,1,1,1,1)) |> 
   tidyr::uncount(count) |> 
   mutate(description = c(
     'Researching Earth observation data analysis techniques for geomorphology and landscape dynamics applications.',
-    'Remote sensing and GIS specialist studying natural geohazards in the Risk, Hazard & Climate and EO Analytics research groups for different projects:',
+    'Remote sensing and GIS specialist studying natural geohazards in the Risk, Hazard & Climate and EO Analytics research groups for different projects, including:',
+    'ROGER: EO-based rock glacier mapping and characterisation',
+    'SPACE4AD: Energieraumplanung zur Bestimmung neuer Biogasanlagenstandorte basierend auf Nicht-EOund Sentinel-2 Daten.',
     'SliDEM: Assessing the suitability of DEMs derived from Sentinel-1 for landslide volume estimation | Role: Python package developer.',
     'MontEO: The impact of mass movements on alpine trails and huts assessed by EO data | Role: Susceptibility mapping.',
     'STEC: Smarter Targeting of Erosion Control | Role: Mapping geomorphological features with deep learning and knowledge-based techniques.',
@@ -219,6 +221,7 @@ tribble(
 
 For a complete list of publications see [*my Google Scholar profile*](https://scholar.google.com/citations?user=vDqPwpUAAAAJ&hl=en).
 
+- **Abad, L.** (2024). [*Geomorphic landform monitoring with raster and vector data cubes*](https://doi.org/10.5194/egusphere-egu24-10019). EGU General Assembly 2024, Vienna, Austria.
 - **Abad, L.**, Hölbling, D., Spiekermann, R., Prasicek, G., Dabiri, Z., Argentin, A.-L. (2022). [*Detecting landslide-dammed lakes on Sentinel-2 imagery and monitoring their spatio-temporal evolution following the Kaikōura earthquake in New Zealand*](https://doi.org/10.1016/j.scitotenv.2022.153335). Science of The Total Environment, 820, 153335. 
 - **Abad, L.**, Hölbling, D. W., Dabiri, Z., Robson, B. A. (2022). [*An open-source-based workflow for DEM generation from Sentinel-1 for landslide volume estimation*](https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLVIII-4-W1-2022/5/2022/). ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 48, 4/W1-2022, p. 5-11.
 - **Abad, L.**, Hölbling, D., Albrecht, F., Dias, H. C., Dabiri, Z., Reischenböck, G., Tešić, D. (2022). [*Mass movement susceptibility assessment of alpine infrastructure in the Salzkammergut area, Austria*](https://doi.org/https://doi.org/10.1016/j.ijdrr.2022.103009). International Journal of Disaster Risk Reduction, 103009. 
@@ -236,7 +239,7 @@ For a complete list of publications see [*my Google Scholar profile*](https://sc
 \normalsize
 
 
-```{r, out.width='66%', fig.align='center', fig.link="https://www.fabiocrameri.ch/proac/"}
+```{r, out.width='60%', fig.align='center', fig.link="https://www.fabiocrameri.ch/proac/"}
 knitr::include_graphics("ProAc/ProAc-LorenaAbad.png")
 ```
 <!-- [ProAc](https://www.fabiocrameri.ch/proac/) profile -->

ProAc/ver2/ScientificOutput.csv

@@ -0,0 +1,61 @@
+Tag,Year,Kind,First authored,Single authored,PhD publication,Including PhD supervisor,Publisher,Open access,Link,Full reference,Current number of citations,Title
+Hoelbling2024DataButangbunasi,2023,Community database,0,0,0,1,Zenodo,1,https://zenodo.org/doi/10.5281/zenodo.10635101,,0,Butangbunasi landslide and landslide-dammed lake outlines based on Landsat time series with respect to typhoons
+Abad2024Corrigendum,2023,Peer-reviewed paper,1,0,0,1,Science of The Total Environment,1,https://doi.org/10.1016/j.scitotenv.2023.168302,,0,Corrigendum to Detecting landslide-dammed lakes on Sentinel-2 imagery and monitoring their spatio-temporal evolution following the Kaik?ura earthquake in New Zealand [Sci. Total Environ. 820 (2022) 153335]
+Abad_Blog05,2023,Blog post,1,1,0,0,Lore Abad,1,https://loreabad6.github.io/posts/2023-10-17-stac-across-languages/,"Abad (2023, October 18). Lore Abad: STAC Across Languages. Retrieved from https://loreabad6.github.io/posts/2023-10-17-stac-across-languages/",0,STAC across Languages
+Abad2023IUGG,2023,Conference proceedings,1,0,0,1,IUGG 2023,1,https://doi.org/10.57757/IUGG23-0228,,0,Expert-based and data-driven gully and cliff erosion feature detection in New Zealand
+Argentin2023GPC,2023,Peer-reviewed paper,0,0,0,1,Global and Planetary Change,1,https://doi.org/10.1016/j.gloplacha.2023.104190,,0,The scaling of landslide-dammed lakes
+Argentin2023EGU,2023,Conference proceedings,0,0,0,1,EGU General Assembly 2023,1,https://doi.org/10.5194/egusphere-egu23-9848,,0,Quantification of the damming and sediment trapping capacity of landslides and their dammed lakes: the example of the Hintersee landslide dam
+Hoelbling2023EGU,2023,Conference proceedings,0,0,0,1,EGU General Assembly 2023,1,https://doi.org/10.5194/egusphere-egu23-1670,,0,Semi-automated detection and delineation of earthflows in New Zealand using remote sensing - challenges and opportunities
+Abad2023EGU,2023,Conference proceedings,1,0,0,1,EGU General Assembly 2023,1,https://doi.org/10.5194/egusphere-egu23-1468,,0,"Gully and cliff erosion feature detection in the Wairoa catchment in Hawke’s Bay, New Zealand"
+Abad_SliDEM,2023,Community software,1,0,0,1,Zenodo,1,https://zenodo.org/doi/10.5281/zenodo.10634421,,0,SliDEM: Assessing the suitability of DEMs derived from Sentinel-1 for landslide volume estimation.
+sfnetworks,2023,Community software,0,0,0,0,CRAN,1,https://cran.r-project.org/package=sfnetworks,,0,sfnetworks: Tidy geospatial networks in R
+Abad2022a,2022,Conference proceedings,1,0,0,1,EGU General Assembly 2022,1,https://doi.org/10.5194/egusphere-egu22-693,,0,An open-source Python package for DEM generation and landslide volume estimation based on Sentinel-1 imagery
+a252d1b5a14048beb6a6639fcb4d0db1,2022,Conference proceedings,0,0,0,1,Disaster Research Days 2022,1,https://www.dcna.at/files/tao/img/veranstaltungen/drd22/2022-11%20Konferenzband_DRD22.pdf?utm_source=newsletter&utm_medium=email&utm_campaign=2022-11+Sondernewsletter+Podcast+%2B+Konferenzband,,0,How applicable are DEMs created from Sentinel-1 for estimating the volume of landslides?
+99ebced6d12b492c8a3dcd1a6bda8204,2022,Peer-reviewed paper,0,0,0,1,Anais da Academia Brasileira de Ciências,1,10.1590/0001-3765202220211352,,0,"Landslides associated with recent road constructions in the Río Lucma catchment, eastern Cordillera Blanca, Peru"
+ef749b84bdbf4d4b88012aac498fc94e,2022,Peer-reviewed paper,0,0,0,1,Geomorphology,1,10.1016/j.geomorph.2022.108363,,9,Influence of rheology on landslide-dammed lake impoundment and sediment trapping: Back-analysis of the Hintersee landslide dam
+ABAD2022103009,2022,Peer-reviewed paper,1,0,0,1,International Journal of Disaster Risk Reduction,1,10.1016/j.ijdrr.2022.103009,,8,"Mass movement susceptibility assessment of alpine infrastructure in the Salzkammergut area, Austria"
+Hennig2022,2022,Peer-reviewed paper,0,0,0,1,Environmental Research Letters,1,10.1088/1748-9326/ac8235,,1,Citizen science and geomorphology: the citizenMorph pilot system for observing and reporting data on landforms
+Abad2022,2022,Peer-reviewed paper,1,0,1,1,Science of The Total Environment,1,10.1016/j.scitotenv.2022.153335,,10,Detecting landslide-dammed lakes on Sentinel-2 imagery and monitoring their spatio-temporal evolution following the Kaikōura earthquake in New Zealand
+Dabiri2022LPS,2022,Conference proceedings,0,0,0,1,Living Planet Symposium,1,https://express.converia.de/frontend/index.php?page_id=22746&additions_conferenceschedule_action=detail&additions_conferenceschedule_controller=paperList&pid=62851&hash=9bac4561ddd8ad6c0a86d71c29e02013bf7b61488b01e3a734da12fc3bb646e4,,0,Assessing the suitability of DEMs derived from Sentinel-1 data for landslide volume estimation
+Abad2022c,2022,Peer-reviewed paper,1,0,0,1,"The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences",1,10.5194/isprs-archives-XLVIII-4-W1-2022-5-2022,,1,An open-source-based workflow for DEM generation from Sentinel-1 for landslide volume estimation
+Holbling2022,2022,Conference proceedings,0,0,0,1,EGU General Assembly 2022,1,https://doi.org/10.5194/egusphere-egu22-1013,,0,Exploring knowledge-based and data-driven approaches to map earthflow and gully erosion features in New Zealand
+Albrecht2022,2022,Peer-reviewed paper,0,0,0,1,European Journal of Navigation,0,,,0,Earth observation-based assessment of mass movement impact on alpine infrastructure management
+Abad_Blog04,2022,Blog post,1,1,0,0,Lore Abad,1,https://loreabad6.github.io/posts/2023-04-26-betterposter-at-egu-2023/,"Abad (2023, April 26). Lore Abad: #betterposter at EGU 2023. Retrieved from https://loreabad6.github.io/posts/2023-04-26-betterposter-at-egu-2023/",0,#betterposter at EGU 2023
+Argentin2021,2021,Conference proceedings,0,0,0,1,EGU General Assembly 2021,1,https://doi.org/10.5194/egusphere-egu21-9862,,0,Size-frequency distribution of landslide-dammed lakes from a simulation approach
+Abad2021,2021,Conference proceedings,1,0,0,1,EGU General Assembly 2021,1,https://doi.org/10.5194/egusphere-egu21-11015,,2,"Road Construction and Rainfall as Landslide Triggers in the Rio Lucma Catchment, Eastern Cordillera Blanca, Peru"
+Albrecht2021AHORN,2021,Conference proceedings,0,0,0,1,Kurzfassungen der Beiträge zur AHORN 2021,0,,,0,"Der Einfluss von gravitativen Massenbewegungen auf die alpine Infrastruktur, beurteilt mit Fernerkundungsdaten"
+Dabiri2021,2021,Peer-reviewed paper,0,0,0,1,GI_Forum,1,10.1553/giscience2021_01_s46,,5,Comparing the Applicability of Sentinel-1 and Sentinel-2 for Mapping the Evolution of Ice-marginal Lakes in Southeast Iceland
+Albrecht2021,2021,Conference proceedings,0,0,0,1,EGU General Assembly 2021,1,https://doi.org/10.5194/egusphere-egu21-7718,,0,Qualitative analysis of the impact of mass movements on the alpine hiking infrastructure
+Argentin2021a,2021,Peer-reviewed paper,0,0,0,1,Natural Hazards and Earth System Sciences,1,10.5194/nhess-21-1615-2021,,11,Controls on the formation and size of potential landslide dams and dammed lakes in the Austrian Alps
+Hennig2021a,2021,Peer-reviewed paper,0,0,0,1,Naturschutz und Landschaftsplanung (NuL),1,10.1399/NuL.2021.04.01,,1,Contributory Bürgerwissenschaften und naturräumliche Fragestellungen. Empfehlungen zur Umsetzung webbasierter Anwendung am Beispiel des citizenMorph Projektes
+Hauthaler2021a,2021,Conference proceedings,0,0,0,1,EGU General Assembly 2021,1,https://doi.org/10.5194/egusphere-egu21-12149,,0,"Landslide dams acting as sediment traps: Example of the lake Hintersee, Berchtesgadener Land, south-eastern Germany"
+argentin2021GeoMeet,2021,Conference proceedings,0,0,0,1,Mid-European Geomorphology Meeting 2021,0,,,0,The impact of landslide rheology on river damming and sediment trap formation.
+Abad_Blog01,2021,Blog post,1,1,0,0,Lore Abad,1,https://loreabad6.github.io/posts/2021-03-05-geospatial-network-visualization/,"Abad (2021, March 5). Lore Abad: Geospatial Network Visualization. Retrieved from https://loreabad6.github.io/posts/2021-03-05-geospatial-network-visualization/",0,Geospatial Network Visualization
+Abad_Blog02,2021,Blog post,1,1,0,0,Lore Abad,1,https://loreabad6.github.io/posts/2021-11-18-foss4grspatial/,"Abad (2021, Nov. 18). Lore Abad: FOSS4G: R-Spatial Panel. Retrieved from https://loreabad6.github.io/posts/2021-11-18-foss4grspatial/",0,FOSS4G: R-Spatial Panel
+Abad_Blog03,2021,Blog post,1,1,0,0,Lore Abad,1,https://loreabad6.github.io/posts/2021-11-30-30daymapchallenge-rstats/,"Abad (2021, Nov. 30). Lore Abad: #30DayMapChallenge & #RStats. Retrieved from https://loreabad6.github.io/posts/2021-11-30-30daymapchallenge-rstats/",0,#30DayMapChallenge & #RStats
+467e4448f4b441898b3849874eb18c60,2020,Conference proceedings,0,0,0,1,AGU Fall Meeting,1,https://ui.adsabs.harvard.edu/abs/2020AGUFMH011.0021D,,0,"Multi-temporal Mapping and Analysis of Ice-marginal Lakes using Sentinel-1: a Case Study from the Southern Margin of the Vatnajökull Ice Cap, Southeast Iceland"
+inproceedings,2020,Conference proceedings,1,0,0,1,EGU General Assembly 2020,1,10.5194/egusphere-egu2020-572,,0,Mapping and monitoring of landslide-dammed lakes using Sentinel-2 time series - a case study after the 2016 Kaikōura Earthquake in New Zealand
+Holbling2020,2020,Peer-reviewed paper,0,0,0,1,Applied Sciences,1,10.3390/app10020630,,22,Mapping and Analyzing the Evolution of the Butangbunasi Landslide Using Landsat Time Series with Respect to Heavy Rainfall Events during Typhoons
+Argentin2020,2020,Conference proceedings,0,0,0,1,EGU General Assembly 2020,1,10.5194/egusphere-egu2020-8040,,0,"Landslide dam susceptibility in the Austrian Alps inferred from modelled landslides, potential valley damming and lake formation"
+Hennig2019,2020,Conference proceedings,0,0,0,1,Proceedings of 5th Austrian Citizen Science Conference 2019 — PoS(ACSC2019),1,10.22323/1.366.0005,,1,Technological solutions for contributory citizen science: experiences from citizenMorph
+Dabiri2020a,2020,Conference proceedings,0,0,0,1,GSA 2020 Connects Online,1,https://gsa.confex.com/gsa/2020AM/webprogram/Paper357105.html,,0,"Generation of Multi-temporal DEMs from Sentinel-1 for Assessing Geomorphological Changes in the Hítardalur Valley, Western Iceland"
+Dabiri2020,2020,Peer-reviewed paper,0,0,0,1,Applied Sciences,1,10.3390/app10175848,,24,"Assessment of Landslide-Induced Geomorphological Changes in Hítardalur Valley, Iceland, Using Sentinel-1 and Sentinel-2 Data"
+Hennig2020,2020,Peer-reviewed paper,0,0,0,1,InterCarto. InterGIS,1,10.35595/2414-9179-2020-1-26-116-126,,2,Geo citizen science and the role of participatory design in the field of geomorphology
+Albrecht2020a,2020,Conference proceedings,0,0,0,1,EGU General Assembly 2020,1,10.5194/egusphere-egu2020-21325,,2,Assessing the impact of mass movements on alpine trails and huts using EO data
+Emmer2020,2020,Peer-reviewed paper,0,0,0,1,Science of The Total Environment,1,10.1016/j.scitotenv.2020.139997,,19,"Distinct types of landslides in moraines associated with the post-LIA glacier thinning: Observations from the Kinzl Glacier, Huascarán, Peru"
+Hennig2020a,2020,Peer-reviewed paper,0,0,0,1,GI_Forum,1,10.1553/giscience2020,,5,Implementing Geo Citizen Science Solutions: Experiences from the citizenMorph Project
+inproceedings,2020,Conference proceedings,0,0,0,1,EGU General Assembly 2020,1,10.5194/egusphere-egu2020-13593,,0,Observation and Reporting of Landforms and Landscape Dynamics by Citizens
+Albrecht2020b,2020,Conference proceedings,0,0,0,1,Disaster Research Days 2020,0,,,0,Mass movements documentation with EO data for assessing the impact on the alpine trails and huts infrastructure
+Holbling2019,2019,Conference proceedings,0,0,0,1,27th IUGG General Assembly,0,,,2,"Mapping the Evolution of the Butangbunasi Landslide, Taiwan, using Landsat Time Series"
+Emmer2019,2019,Conference proceedings,0,0,0,1,17th International Symposium on Geo-disaster Reduction,0,,,0,"Distinct mechanisms of landslides in moraines associated with the post-LIA glacier thinning: observations from the Kinzl glacier, Huascarán, Peru"
+dabiri2019,2019,Peer-reviewed paper,0,0,0,1,"The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences",1,10.5194/isprs-archives-XLII-3-W8-103-2019,,5,An Object-Based Approach for Monitoring the Evolution of Landslide-dammed lakes and Detecting Triggering Landslides in Taiwan
+Dabiri2019ISPRS,2019,Peer-reviewed paper,0,0,0,1,"The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences",1,10.5194/isprs-archives-XLII-3-W8-109-2019,,2,"Assessment of Landslide-Induced Morphology Changes using an Object-Based Image Analysis Approach: a Case Study of Hítardalur, Iceland"
+Abad2020Thesis,2019,MSc thesis,1,1,0,0,Westfählische Wilhelms Universität Münster; Universidade Nova de Lisboa; Universitat Jaume I,1,https://run.unl.pt/handle/10362/67511?locale=en,,0,Validating a bike network analysis score based on open data as a connectivity measure of urban cycling infrastructure adapted for European cities
+Mejia-Coronel2018,2018,Peer-reviewed paper,0,0,0,1,Revista de la Facultad de Ciencias Químicas,1,https://publicaciones.ucuenca.edu.ec/ojs/index.php/quimica/article/view/2215/1505,,12,Distribución Potencial del Género Polylepis en la Cuenca del Río Paute bajo un Escenario de Cambio Climático
+Abad2018,2018,Peer-reviewed paper,1,0,0,0,Information,1,10.3390/info9110287,,13,Quantifying Bicycle Network Connectivity in Lisbon Using Open Data
+Abad2018,2018,Peer-reviewed paper,1,0,0,1,MASKANA,1,10.18537/mskn.09.01.13,,4,"Análisis exploratorio de comportamientos de ciclistas voluntarios mediante minería de patrones espacio-temporales en Cuenca, Ecuador"
+Abad2017,2017,Peer-reviewed paper,1,0,0,1,Memorias y Boletines de la Universidad del Azuay,1,10.33324/memorias.v1iXVI.85,,11,EJE 07-07 Estimación de la concentración de material particulado menor a 10 micras a través de sensores remotos en el área urbana de la ciudad de Cuenca
+Abad2017b,2017,Conference proceedings,1,0,0,1,V Congreso REDU,1,https://www.researchgate.net/publication/338455493_Exploring_space-time_patterns_of_volunteered_cycling_data_in_an_intermediate_city,,0,Exploring Space-Time Patterns of Volunteered Cycling Data in an Intermediate City
+Abad2017Poster,2017,Conference proceedings,1,0,0,1,Congreso Anual de Meteorología y Calidad del Aire CAMCA 2017,0,,,0,Estimación de la concentración de material particulado menor a 10 micras a través de sensores remotos en el área Urbana de la ciudad de Cuenca
+Abad2017,2017,Peer-reviewed paper,1,0,0,1,Revista de la Facultad de Ciencias Químicas,1,https://publicaciones.ucuenca.edu.ec/ojs/index.php/quimica/article/view/1691,,2,Calidad del Agua y Variables Ambientales en Hábitats para Anfibios Amenazados en la Zona Urbana de Cuenca
+abad2016estimacion,2016,BSc thesis,1,1,0,0,Universidad de Cuenca,1,http://dspace.ucuenca.edu.ec/handle/123456789/25484,,0,Estimación de la concentración de material particulado menor a 10 micras a través de sensores remotos en el área urbana de la ciudad de Cuenca