Help from friends key to natural disaster recovery

“Preliminary insights show that the support people received from their neighborhood groups, faith-based organizations and local agencies in the early hours and days during and after Sandy hit moved them toward recovery,” said co-principal investigator Seungyoon Lee, an associate professor in Purdue’s Brian Lamb School of Communication. “These were the people and organizations that provided shelter, food, and clothing and even helped each other with filling out insurance claims and other documents. These community interactions seem to be the glue that binds a community together in the face of crisis. Some of these ties existed before the disaster, but some were quickly assembled ad hoc to meet the needs of people.”

The social media data collected identified the geolocation of where people were before and after a disaster and what types of information they shared with each other.

“We have many months of post-event data that tell us what the residents’ concerns are, how far from home they were and when they returned to their homes,” Ukkusuri said. “This information helps us understand exactly what was happening in their communities throughout the disaster.”

Studying the returning patterns of citizens and the relationship reactions to physical network recovery is current work that the team is doing by correlating the returning data observed from various sensors with other socio-economic variables at the community level.

“People impacted by Hurricane Sandy shared with us the type of support they received from each other and government institutions. They talked about improvising shared tasks and how the churches and neighborhood groups all came into play after the disaster. There was lots of communication provided by local agencies, and we continue to conduct studies and examine the information we’ve collected,” said Shreyas Sundaram, an assistant professor in Purdue’s School of Electrical and Computer Engineering, a co-investigator. “A community where people interact on a regular basis is a huge takeaway.”

 Questions asked by the researchers included ‘How did those impacted prioritize resources? What did they fix first – electricity, water, roads, schools?’

“Also, how do you bring people back to a community? Our research shows that a community can lose as much as 20 percent of its pre-disaster population. How does that affect a community long-term?” Sundaram added.

The study reports that following Hurricane Katrina, the affected population went from about 484,000 to 386,000 after 10 years.

“These numbers also reflect major demographic changes. In the New Orleans area, about 70,000 African Americans left and never returned and the area experienced influx of other demographics,” Ukkusuri said. “The whole dynamics of a community changes long-term when a population shift like that occurs.”

These same dynamics could be applicable to other hurricanes.

“Communities hit by Hurricane Maria are experiencing these same challenges right now – how can they encourage people to come back?” Lee said.

Insights from the current phase of the study include:

• People rely on their community connections first in times of disaster.

• Interdependencies of social and physical networks play a crucial role in the recovery process

• The returning behavior of people follows universal return patterns across many disasters.

 “The takeaways of the study may seem like logical conclusions, but having a study support conclusions is the first step in helping communities become better prepared so that communities recover faster,” Ukkusuri said. “The project is an interesting collaboration of engineering research with social research. Its interdisciplinary and data-driven perspective can provide guidance for emergency preparedness agencies so that both rural and city governments can be more prepared when disasters happen.”

Ukkusuri added that the research team plans to revisit the communities in the coming years to see how the areas have evolved. Ultimately, they hope the information will allow governmental and emergency agencies to take actions that will accelerate system recovery and enhance the resilience of communities.

The research study aligns with Purdue’s ‘Giant Leaps’ Ideas Festival celebrating the university’s global advancements made in health, space, artificial intelligence and sustainability as part of Purdue’s 150th anniversary.

The project was funded with a $2.5 million, four-year grant from the National Science Foundation. It serves as part of the NSF’s multiyear initiative on modeling resilience in interdependent systems. Funding is from a program known as CRISP: Critical Resilient Interdependent Infrastructure Systems and Processes. Researchers will probe how to more efficiently allocate resources, better prepare, and reduce the time and cost of recovery when a community is struck by a disaster.