As Nevada and California endure a fourth year of unprecedented drought and this year’s Sierra Nevada snowpack is verified as a 500-year low, a group of Ph.D. scientists from Nevada are knocking on the front door of the tech-industry with a pitch for investment in next generation weather intelligence.

Extreme weather events such as the ongoing drought and mega-fires in the West, record-setting hurricanes in the East, and flash floods across the Mid-West cause upwards of $11 billion in damages each year in the United States.

According to a recent U.S. Commerce Department report, weather data is the single most accessed government data by the public. The sum of private and public sector investment on weather forecasting totaled $5.1 billion in 2014. The aggregate annual valuation of weather forecasts across U.S. households was about $31.5 billion – a six-fold difference compared to the amount invested in producing the forecasts.

Unveiled today at TechCrunch Disrupt in San Francisco, a weather intelligence platform developed by DRI’s Applied Innovation Center (AIC) showcases a real-world application for managing business and government decisions impacted by extreme weather.

“Our team has designed a platform that not only provides improved weather forecast data, but also translates that data into actionable information across a range of business sectors,” said Eric Wilcox, Ph.D., an associate research professor of climatology at the Desert Research Institute. “We have drawn on decades of combined scientific expertise in observing and modeling the environment, which is essential for understanding how to derive actionable insight from weather data, and using sensors to effectively ground-truth our forecasts.”

WINDSTM (Weather Intelligence and Numerical Decision Support) is an applied prediction platform at the nexus of weather, climate, agriculture, energy and society, explained Brian Speicher, AIC Business Development Leader.

DRI’s new platform improves traditional numerical weather prediction (NWP) applications with a fine spatial resolution suitable for urban, energy, and agricultural applications. It is also ground-truthed through a series of existing environmental data and sensor networks that DRI scientists have monitored and maintained for decades.

“We have integrated an advanced numerical weather forecasting system with sensor networks to provide actionable insight and decision support frameworks that can be applied in nearly every natural resource industry and weather-impacted business, utility, event, or municipality,” Speicher added. “This (WINDSTM) can be applied to everything from drought monitoring to extreme fire behavior, to operational energy demand and distributed solar forecasting, to urban weather and anticipating weather-related infrastructure vulnerabilities.”

Supported by the State of Nevada’s Knowledge Fund and the Governor’s Office of Economic Development, the team of environmental researchers and high performance computing experts in DRI’s Applied Innovation Center are working at the forefront of new approaches to natural resource and urban infrastructure instrumentation, advanced data collection and integrated analysis to support intelligent decision-support systems.