Geo Spatial Data

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The proliferation of remote sensing technology has created new opportunities for high-resolution, affordable geospatial data, which have great potential as a source of impact evaluation data.







Guidelines

Repositories of Spatial Data

The following are repositories of spatial data. In the following sites pull in spatial data from a variety of sources.

Satellite-Based Datasets

The following are commonly used datasets from satellite imagery or derived from satellite imagery.

  • Nighttime Lights: Nighttime lights have increasingly been used as a metric for local economic development. The Visible Infrared Imaging Radiometer Suite (VIIRS) provides monthly data from April 2012 to the present at a 300m resolution. The Defense Meteorological Satellite Program (DMSP) provides nighttime light data on an annual basis from 1992 to 2013.
  • Landcover: There are a number of datasets that classify the earth into different land cover categories.
    • ESA Land Cover: The European Space Agency (ESA) has global landcover dataset, produced on an annual basis from 1992 to 2015 at a 300 meter resolution.
  • Landsat: The Landsat satellite program captures images at a 30 meter resolution of the earth every 16 days. Landsat images capture the earth across multiple spectral bands, including spectra unobservable to the human eye. Different combinations of these spectral bands emphasize different aspects of the earth. One of the most common indices is the Normalized Difference Vegetation Index (NDVI), which provides a measure of vegetation biomass. A list of common indices can be found here.

Georeferenced Data Sources

  • AidData: AidData has geocoded foreign aid projects from a number of different donors and countries, including all approved World Bank projects from 1995 to 2014, Chinese official finance from 2000 to 2014, and African Development Bank projects approved in 2009-2010.
  • Afrobarometer: Afrobarometer has surveyed attitudes on democracy, governance and society across 36 countries in Africa in 6 survey rounds from 1999 to 2015. In partnership with AidData, Afrobarometer has recently geocoded the surveys.

Impact Evaluation with Geospatial Data

The emergence of georeferenced data has provided opportunities to evaluate foreign investments at lower costs than traditional RCTs. These evaluations have been dubbed Geospatial Impact Evaluations (GIEs); see here for a working paper from AidData that describes methods and applications to perform GIEs. The paper describes a number of papers that conduct GIEs. In addition, it highlights two R packages that employ methods relevant to using geospatial data: (1) geoMATCH, which employs matching while accounting for geographic spillover from treatment to control units and (2) geoSIMEX, which allows users to account for spatial imprecision in analysis.

Use of intersection to produce usable data for Stata

  • For a particular project that has a spatial component, you first need to have geographical polygons that are representative of your project. For instance, the polygons that shows the limits of your villages.
  • Then, for some particular themes you will only find data in the form of GIS data. Examples of this are hospitals and clinics, or rainfall. The data in question is then intrinsically accompanied with coordinates, that allows to position the information in a spatial setting.
  • So then, after importing the particular data to a GIS software, you overlay your new data to the geographical layer that represents your project.
  • Once done, and simply intersect both layers, and ask for instance for a mean over your geographical polygons, or for a maximum or for a count. In QGIS, for instance, you will find a bunch of these useful spacial operations in the Vector/Geoprocessing Tools section.
  • These tools also allow you for instance to substract polygons from others; Then why not intersecting with data layer afterwards? It is much useful.
  • All that needs to be done then is to export your newly generated data.

Data Interpolation

This is useful for those who want to generate information in between spatial measurements. You will not want to this is several settings, since the granularity of your data has a value. However for some themes, like for the level of a groundwater table, or for the level of a ground contamination, this is useful as the nature of the subject itself (ex: contamination) is continuous.

  • The main thing one should know, is that the mathematical method you chose for the interpolation has a large impact on your results.
  • In case of doubts (or in much of cases, let's say), one should chose to use krigging, since the interpolation (let's visualize it as a surface) goes through the measurement points exactly. It's distance at a measurement point is equal to zero.
  • GIS softwares usually have modules that allow to do interpolation. They also allow to do dynamic modelling (state of your variables, in space, with time).
  • The interpolation of your data lead to the production of heat maps.

Heat Maps

  • When producing heat maps, one should know that there exist mathematical tools that allow you to enhance the spatial shapes that your data.
  • These "tools" are in fact transformations on your surface, such as first difference, Fourrier, ect. They can provide a much better definition of your results, and even allow you to "see" something that you might have missed when not using them.

Examples of Papers

  • Many influential papers using these type of data have been published in journals
  ** J. Vernon Henderson, Adam Storeygard, and David N. Weil. 2012. Measuring Economic Growth from Outer Space. In American Economic Review, 102(2): 994-1028.  Link: http://pubs.aeaweb.org/doi/pdfplus/10.1257/aer.102.2.994
  ** Dave Donaldson and Adam Storeygard. 2016. 'The View from Above: Applications of Satellite Data in Economics'. Journal of Economic Perspectives, 30(4):171-198. Link:  http://pubs.aeaweb.org/doi/pdfplus/10.1257/jep.30.4.171

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