We ingest only publicly available data sources, such as climate data from Copernicus Climate Data Store, Armed Conflict Location & Event Data (ACLED) for conflict data, as well as World Bank and other sources for vulnerability data.

Inclusion criteria

Next to the public availability we considered and selected data sources to generate indicators based on the following criteria with descending importance:

1. Global coverage
2. Subnational spatial resolution
3. Sub-yearly temporal resolution
4. Current data and short-release cycles

Acquisition process

Given the broad variety of data sources incorporated in the CCVI, we follow multiple approaches in acquiring data. Where possible, we use APIs to automatically download the most recent available data when generating a new version of the CCVI. In all other cases, we manually check the data providers for new data releases and keep a copy of the most recent version available in local storage for further processing.

The input data is used to generate climate and conflict hazards indicators, vulnerability indicators and exposure layers. One CCVI indicator can be based on one or multiple external data sources.

As the data comes in a variety of different formats and resolutions, a harmonization step aligns them on the same temporal and spatial grid and handles outliers and missing values. This enables us to calculate globally comparable normalized metrics and finally aggregate them into risk scores.

Spatial grid

The CCVI is calculated globally, except for Antarctica, and operates on a subnational basis. It uses a spatial resolution of 0.5° x 0.5° aligned with the PRIO-GRID, with a minimum requirement of 25% land per grid cell. This balance ensures detailed tracking of climate and conflict patterns without excessive complexity.

Temporal grid

CCVI data is available on a quarterly basis. This allows for frequent updates to provide users with timely information, which is crucial due to the dynamic nature of climate and conflict dynamics. The data displayed is always the most recent available information, with the data shown in the data recency field.

Indicator normalization

Most indicators follow a min-max normalization approach with winsorization performed where necessary to minimize the impact of outliers and to preserve the most relevant data ranges. Winsorization clips the data to a pre-specified minimum and maximum— for instance, the 5th and 95th percentile. After clipping, the scores are normalized to a range of 0 (lowest value) to 1 (highest value). Natural boundaries like zero are generally preserved during normalization. All normalized indicator scales are oriented so that higher hazards or vulnerabilities are also associated with higher numeric values.

After normalization, hazard indicators are combined with their respective exposure layers.

The CCVI uses an exposure layer based on population density as the common exposure variable across all climate and conflict indicators. The rationale behind utilizing population density as a proxy for exposure is to assess impacts of instances of violence (conflict pillar) and climate hazards (climate pillar) to human security.

These combined hazard exposure indicators are then aggregated into dimensions, which are further synthesized into pillar-level hazard exposure scores. Each of these scores is then combined with the vulnerability pillar to generate climate and conflict risk scores.

Aggregation functions

Different varieties of the generalized mean are used to aggregate values along the CCVI hierarchy, depending on the relationship between the individual scores. Where low scores should not be able to compensate for high scores, the quadratic mean is used, where this should be the case the arithmetic mean. If there is a multiplicative relationship (i.e. to calculate risk scores), we employ the geometric mean. Additionally, we employ custom weights based on expert judgements to adjust for unbalanced impacts of different hazards or undue dominance of individual indicators in the overall scores caused by the differences in their distributions.

This approach ensures that significant risks are not diluted in the final assessment, maintaining the impact of pronounced elements in the overall score.

The data sources used to generate vulnerability indicators are updated less frequently and lag up to multiple years behind the present. During aggregation, we use the latest available data to generate the aggregate scores for the current index version.