A professor of engineering leads an effort to digitalize New Jersey communities to predict flooding and gauge storm damage risk
The forecast calls for a foot of rain. Floodwater will submerge roads and ruin structures. The question is which roads and structures.
While flood maps have provided some answers, surveys are laborious and expensive, so they rarely have all the data needed. Surveyors fix a few point elevations and estimate the rest. Updates are infrequent. Structural elements are generally ignored.
When Superstorm Sandy hit a decade ago, these limitations cost New Jersey billions of dollars. Forecasters warned of record flooding, but predictions lacked the detail needed for house-by-house decisions about moving cars to high ground or carting heirlooms upstairs.
As receding floodwaters revealed catastrophic and, in some instances, avoidable damage, Jie Gong, a Rutgers engineering professor, imagined a better way to predict flooding and other threats to infrastructure and buildings.
"The idea was to capture accurate elevation data for everything within the 500-year flood plain," Gong said. "Every foot of roadway, every window, every front door, an accurate 3D model of reality. Combine that with good rainfall data, hydrological modeling and a lot of computing power, and you know where the water will reach on every building."
Gong and his research team sent an ambitious proposal to Trenton, where it received an enthusiastic welcome and enough funding to get underway. The team has since mapped elevation data on more than ten thousand miles of roadway and all the homes along these roadways.
In years past, Gong's plan would have required an army of surveyors. But by 2013, it only required a single modified van with advanced optical sensing instruments.
The van resembles a poorly disguised surveillance vehicle from a spy movie, the generic white delivery truck with several telltale antennas the heroes spot immediately. A black, basketball-size camera sits atop a three-foot pole on the roof, just behind the antennas and some other bits of white metal.
Lidar, an acronym for laser imaging, detection and ranging, creates three-dimensional maps by bombarding its surroundings with lasers and noting how long it takes the lasers to bounce back from different locations.
The hardware inside the van combines this time data with lidar sensing, geographical information system mapping and conventional digital imaging. It all works fast enough that the vehicle can move through towns at normal traffic speeds.
Back in the lab, software integrates information from the van with satellite images, open-source street maps, and other data to create precisely georeferenced 3D data of both the natural landscape and the built objects on it.
Advanced machine learning tools developed by Gong's team analyze these 3D data automatically to extract elevation information for key building structure elements and create city-scale building models for flood exposure analysis. These models are accessible online so that users can overlay historical flood data or flood predictions onto them, and the system can tell you what was or will be underwater at any given time.
Gong illustrated this by calling up a model of Manville Township, which sustained heavy damage from Hurricane Ida. The model contains hundreds of Manville buildings and the roads that connect them - all with precise structure elevation data. An Ida simulation shows exactly how flood waters surged and receded at individual properties during the storm and how many homes lost access to emergency services such as firefighters and ambulances runs due to impassable roads.
Gong's team has also worked with NJ Transit to create an automated flood warning system for the Hoboken train station and the adjoining rail yard. Each update to tide and weather forecasts generates a new simulation to gauge flood risk. If the simulation predicts a flood within 96 hours, the system warns NJ Transit.
"Forecasting has a lot of uncertainties, so we allow users to add various safety factors, just in case the forecasts underestimate," Gong said.
