Unfortunately, the plugin is only able to capture one gauging station and thus only the neighbouring area. As there is a difference in height between the gauges along a river, interpolation would be necessary here. Perhaps this work by my colleague will help you answer your question. www.sciencedirect.com/science/article/pii/S1642359323000289
Votre vidéo semble être très intéressante, toutefois vous ne dites pas comment vous avez élaborer les fichiers que vous utilisez comme base de données. Sinon on ne peut pas suivre votre tutorial. Your video seems to be very interesting, but you don't say how you came up with the files you're using as a database. Otherwise we can't follow your tutorial.
Thank you :-) Please have a look at the githubfolder (link in video description). There'll find a PDF document (Report) explaining everything in more detail, including links. If you have more questions, don't hesitate to contact me via email :-)
Thank you, your video is really cool. I will use it in my studies here in Brazil. Please publish more videos of this genre, as your teaching is very good.
You should found the DEM on my Github account which is also linked in the video description. Please contact me again if it doesn't work out, we'll find another way of sharing.
@@ukkikaden Hello there I looked at the example data provided in your GitHub account and found the compressed version of the DEM but not the original 64 bit version on the Google Drive. Has it been removed from there? (The "data DEM" folder is empty)
I see this tutorial in which one thing not clear is that the point shape file are use in it what it represented is it Precipitation. ..or any other water data is it
I'm not sure if I understood you correctly. The point shapefile I used is my survey points (I took soil samples at these points) - but they are not relevant to the functioning of the plugin. For the estimation of the flooding duration we need at least the digital elevation model and water level data (both in the same unit).
Many thanks for your interest 🙂 Please have a look at my Github account (github.com/usk92/Floodplain-Inundation-Calculator, see video description) - there you should find all input data I used as well as a report (pdf file) explaining more details and also links to databases. I hope this helps. Don't hesitate to contact me again if you have any more questions.
Veuillez vous rendre directement sur le site github.com/usk92/Floodplain-Inundation-Calculator, où vous trouverez des liens de téléchargement pour les données utilisées et le rapport .pdf avec des explications complètes.
hello ty very much for this pluggin you mentioned this pluggin needs 64bit DEM tiff files to work. well my tiff file is 32bit and i can't find 64bit version of it can i convert it somehow or is there any other way ?
Hi, thanks for your comment. If your raster data is not in 64bit format please transform it with the help of QGIS Tool "Translate (Convert Format)". Please check the report.pdf in my github repository (link in video description) for any other instructions regarding preparation of input data. Hope it helps :-)
please find all files you need here: github.com/usk92/Floodplain-Inundation-Calculator does it work? I will try to upload it in the QGIS plugin official repository... if I ever find the time ;-)
@@prajwalparmar4486: The plugin version "[2600] Floodplain Inundation Calculator 0.1" is now approved Link: plugins.qgis.org/plugins/inundation_calculator/ I hope it works for you :-) and I would be very happy about a feedback. Best, Ukki