Want more accurate weather forecasts? You鈥檙e in luck: Last month, researchers at 抖阴旅行射 Boulder saw the fruits of their labors launch aboard a new satellite. That satellite is the first in a planned fleet of Earth-orbiters that the team says will one day record weather data at every point on the globe every 15 minutes.听
The project, led by 抖阴旅行射 Boulder electrical engineering professor Al Gasiewski, is a partnership between the university and Colorado-based (翱惭厂).听
The team鈥檚 inaugural eye-in-the-sky blasted off from NASA鈥檚 Wallops Flight Facility in Virginia onboard a Northrop Grumman rocket. The satellite, dubbed IOD-1 GEMS, will be placed in orbit from the International Space Station in the coming months.
That satellite will pack a lot of power in a tiny package, Gasiewski said. The team鈥檚 satellite is about the size of a loaf of bread and carries a precise鈥攁lbeit shrunken-down鈥攎icrowave sensor for observing weather patterns.听
Over the next several years, OMS hopes to launch close to 50 more of these 鈥淐ubeSats鈥 into low-Earth orbit, creating a constellation that the team said will vastly improve global weather observation coverage.
That global coverage, Gasiewski added, could improve the timeliness of current weather reports for people across the U.S. and provide early warnings for storms and dangerous weather events in other parts of the world.
鈥淭hese are areas where many countries don鈥檛 have the money to pay for a weather service like we have in the U.S.,鈥 said Gasiewski, a professor in the Department of Electrical, Computer and Energy Engineering. 鈥淚t鈥檚 these emerging economies that could be served by this global fleet.鈥
Such information won鈥檛 be free, but Gasiewski hopes that it will be the first step in creating a weather system that moves at the pace of actual weather鈥攆rom freak blizzards to sudden downpours.听
鈥淲e are trying to stare down at the Earth and see the atmosphere changing at its natural rate of variation for improved weather forecasting,鈥 he said.
Peering through clouds
For Gasiewski, the launch has been a long time coming. He was a graduate student in the 1980s when he and his advisor first had the idea of monitoring weather in near real-time using microwave technology.
The researcher explained that microwave radiation is the ideal tool for observing patterns in Earth鈥檚 atmosphere. Unlike many current weather satellites, which rely on visual or infrared cameras, microwave sensors can peer through thick cloud cover to record the movement of oxygen or water vapor below.
As Gasiewski put it, 鈥淭his is the range of frequencies that makes sense for planetary awareness.鈥
Some current satellites, such as a small fleet operated by the U.S. National Weather Service, do include those kinds of sensors. But, Gasiewski said, their coverage is poor. Those satellites, for example, only pass over the same spot of land once every few hours鈥攁nd even then, only above North and South America.
Gasiewski wanted to do better. In 2013, he helped found Orbital Micro Systems, headquartered in Boulder, and facilitated the licensing of key 抖阴旅行射 Boulder-developed technology that powers the company鈥檚 commercial satellite program. Gasiewski currently serves as the chief scientist for the company.
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The partnership is all about thinking small, not big. Over several years, Gasiewski and his colleagues have taken technology that traditionally rides on satellites the size of cars and miniaturized it. As a result, his team has developed a model for replaceable satellites.
Each of the group鈥檚 planned 48 CubeSats, Gasiewski said, would stay in orbit for just a few years then get switched out with a new version.
鈥淲e start out with a satellite that鈥檚 simple, and each one is going to add a little more complexity,鈥 he said.
Once that system is up and running, Orbital Micro Systems plans to market its data to agricultural producers, transportation providers and other business owners around the world. The company will also link its up-to-date observations to tools that create weather forecasts.
Gasiewksi points to recent floods in Africa and the U.S. as examples of why such timely alerts are needed. Large portions of the Midwest flooded following March鈥檚 鈥渂omb cyclone,鈥 while severe downpours caused hundreds of deaths in Mozambique.
鈥淚f those events could have been better predicted, then people could have been better prepared,鈥 Gasiewski said.
He鈥檚 also looking forward on a personal level to the steps beyond the launch鈥攖he culmination of more than 30 years of work.
鈥淚 can鈥檛 tell you how excited I am,鈥 Gasiewski said. 鈥淲atching the launch was an important step, but proving the commercial value of what we鈥檝e developed at 抖阴旅行射 in space is a huge step forward for the team and the world.鈥