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Harnessing satellite imagery and AI to help fight poverty in Africa

A new tool created by SIEPR's Marshall Burke and David Lobell combines publicly accessible satellite imagery with AI to track poverty across African villages over time.

In combating poverty, like any fight, it鈥檚 good to know the locations of your targets.

That鈥檚 why 黄色电影 scholars Marshall Burke, David Lobell and Stefano Ermon have spent the past five years leading a team of researchers to home in on an efficient way to find and track impoverished zones across Africa. 

The powerful tool they鈥檝e developed combines free, publicly accessible satellite imagery with artificial intelligence to estimate the level of poverty across African villages and changes in their development over time. By analyzing past and current data, the measurement tool could provide helpful information to organizations, government agencies and businesses that deliver services and necessities to the poor.

Details of their undertaking were unveiled in the May 22 issue of . 

鈥淥ur big motivation is to better develop tools and technologies that allow us to make progress on really important economic issues. And progress is constrained by a lack of ability to measure outcomes鈥

鈥淥ur big motivation is to better develop tools and technologies that allow us to make progress on really important economic issues. And progress is constrained by a lack of ability to measure outcomes,鈥 says Burke, a faculty fellow at the 黄色电影 Institute for Economic Policy Research (SIEPR) and an assistant professor of earth system science. 鈥淗ere's a tool that we think can help.鈥

Lobell, a senior fellow at SIEPR and a professor of earth system science, says looking back is critical to identifying trends and factors to help people escape from poverty.

鈥淎mazingly, there hasn鈥檛 really been any good way to understand how poverty is changing at a local level in Africa,鈥 says Lobell, who is also the director of the Center on Food Security and the Environment and the William Wrigley Fellow at the 黄色电影 Woods Institute for the Environment. 鈥淐ensuses aren鈥檛 frequent enough, and door-to-door surveys rarely return to the same people. If satellites can help us reconstruct a history of poverty, it could open up a lot of room to better understand and alleviate poverty on the continent.鈥

In addition to Burke, Lobell and Ermon 鈥 who are all faculty affiliates at the 黄色电影 King Center on Global Development 鈥 the co-authors of the published study are: Christopher Yeh and Anthony Perez, both computer science graduate students and research assistants at the King Center; Anne Driscoll, a research data analyst, and George Azzari, an affiliated scholar, both at the Center on Food Security and the Environment at 黄色电影; and Zhongyi Tang, a former research data analyst at the King Center. The research was funded by the USAID Bureau of Food Security and the King Center's initiative, which Burke, Lobell, and Ermon 鈥 a professor of computer science 鈥 have led since 2017.

The measurement tool uses satellite imagery both from the nighttime and daytime. At night, lights are an indicator of development, and during the day, images of human infrastructure such as of roads, agriculture, roofing materials, housing structures, and waterways, provide characteristics correlated with development.

Then the tool applies the technology of deep learning 鈥 computing algorithms that constantly train themselves to detect patterns 鈥 to create a model that analyzes the imagery data and forms an index for asset wealth, an economic component commonly used by surveyors to measure household wealth in developing nations. 

The researchers tested the measuring tool鈥檚 accuracy for about 20,000 African villages that had existing asset wealth data from surveys, dating back to 2009. They found that it performed well in gauging the poverty levels of villages over different periods of time, according to their study.

Here, Burke 鈥 who is also a center fellow at the 黄色电影 Woods Institute for the Environment and the Freeman Spogli Institute for International Studies 鈥 discusses the making of the tool and its potential to help improve the well-being of the world鈥檚 poor.

Why are you excited about this new technological resource? 

For the first time, this tool demonstrates that we can measure economic progress and understand poverty interventions at both a local level and broad scale. It works across Africa, across a lot of different years. It works pretty darn well, and it works in a lot of very different types of countries.

Can you give examples of how this new tool would be used?

If we want to understand the effectiveness of an anti-poverty program, or if an NGO wants to target a specific product to specific types of individuals, or if a business wants to understand where a market's growing 鈥 all of those require data on economic outcomes. In many parts of the world, we just don't have those data. Now we鈥檙e using data from across sub-Saharan Africa and training these models to take in all the data to measure for specific outcomes.

How does this new study build upon your previous work?

Our initial , published in 2016, was on five countries using one year of data. It relied on costly, high-resolution imagery at a much smaller, pilot scale. Now this work covers about two dozen countries 鈥 about half of the countries in Africa 鈥 using many more years of high-dimensional data. This provided underlying training datasets to develop the measurement models and allowed us to validate whether the models are making good poverty estimates.

We're confident we can apply this technology and this approach to get reliable estimates for all the countries in Africa.

A key difference compared to the earlier work is now we're using completely publicly available satellite imagery that goes back in time 鈥 and it's free, which I think democratizes this technology. And we鈥檙e doing it at a comprehensive, massive spatial scale.

How do you use satellite imagery to get poverty estimates?

We're building on rapid developments in the field of computer science 鈥 of deep learning 鈥攖hat have happened in the last five years and that have really transformed how we extract information from images. We're not telling the machine what to look for in images; instead we're just telling it, "Here's a rich place. Here is a poor place. Figure it out." 

The computer is clearly picking out urban areas, agricultural areas, roads, waterways 鈥 features in the landscape that you might think would have some predictive power in being able to separate rich areas from poor areas. The computer says, 鈥業 found this pattern鈥 and we can then assign semantic meaning to it.

These broader characteristics, examined at the village level, turn out to be highly related to the average wealth of the households in that region.

What鈥檚 next?

Now that we have these data, we want to use them to try to learn something about economic development. This tool enables us to address questions we were unable to ask a year ago, because now we have local-level measurements of key economic outcomes at broad, spatial scale and over time.

We can evaluate why some places are doing better than other places. We can ask: What do patterns of growth in livelihoods look like? Is most of the variation between countries or within countries? If there鈥檚 variation within a country, that already tells us something important about the determinants of growth. It's probably something going on locally.

I'm an economist, so those are the sorts of questions that get me excited. The technological development is not an end in itself. It's an enabler for the social science that we want to do.

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