A simple Python package to calculate and visualize some popular drought indices such as the SPI, SPEI and SGI.
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Updated
Nov 11, 2024 - Python
A simple Python package to calculate and visualize some popular drought indices such as the SPI, SPEI and SGI.
R package for the calculation of Standardized Index values (SPI, SPEI, SSI,...) on a daily basis.
Drought SPEI Index Spain Map 🔥🌡️🌧️
A Matlab function to calculate Palmer Drought Severity Index (PDSI) using monthly temperature and precipitation data. Can determine values for multiple sites simultaneously.
📊🛰️ Data processing scripts, ML models, and Explainable AI results created as part of my Masters Thesis @ Johns Hopkins
Using atmospheric humidity deficits to discern soil moisture deficits. Python code repository for Baldocchi et al. (2021)
Project on how to predict agricultural drought conditions using Vegetation Health Index in Google Earth Engine
Near Real-Time Drought Exposure: Case Study of the Central Region, Ghana
The "Drought Early Warning System's DataHub" (DEWS-DH) is a satellite datahub which is used to show and store satellite image data. Metrics like the NDVI or SMI are calculated on demand. The images are imported into a PostGIS database were they can be requested by third-party software for further processing.
Future Urban-Wildfire Risk Mapping (FUWRM), pronounced as "form". This repository holds the programming script files and some of the binaries that represent the predictive risk maps for wildfires in urban regions of Southern Victoria (AUS) and Northern California (USA) in 2030 and 2040.
Evaluation and analysis of drought using the SPI, SPEI and PDSI index
Lesson materials for Module 2 (M2), "Open Climate Science for Agriculture"
Agro-meteorological Monitoring INDices
Quantifying drought sensitivity in coconut agriculture
This repo contains javascript code used in Google Earth engine to perform various Geospatial Data analysis tasks on satellite data. The code utilizes Google earth engines own archive of Satellite data.
Simple script for calculating a normalized index showing how intense a month's maximum daily precipitation was.
This project employs R programming to compute the Standardized Precipitation Evapotranspiration Index (SPEI), a widely used drought index. SPEI calculations were conducted for Bahawalnagar District, Punjab, Pakistan.
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