Just 5 days after Christmas, Colorado experienced its worst wildfire disaster on record. In a matter of hours, the Marshall Fire burned more than 1,000 homes and disrupted countless lives, ultimately causing over $1 billion in damages. The unprecedented speed and intensity of the blaze highlights just how volatile our environment has become in the wake of climate change. The need for new technologies to detect fires faster, monitor their spread more precisely and reliably has become increasingly important.
Today, OroraTech has taken a crucial step by launching their first thermal-infrared camera, designed to quickly capture and transmit critical information to decision makers on the ground. The data will be integrated with their existing wildfire intelligence service, significantly enhancing detection speed and precision for clients around the globe. Over the coming years, the company’s space-based cameras will provide new and improved insights for the mitigation of natural disasters.
Munich / Cape Canaveral, January 13, 2022 – With the launch of a Falcon 9 rocket, the U.S. space company SpaceX is bringing a payload from OroraTech into space with its Transporter-3 mission. At an altitude of 525 kilometers (±25 km), a satellite about the size of a shoebox (CubeSat) will orbit the Earth and capture continuous high-resolution thermal images of the surface. The data will be analyzed directly in orbit using an AI-based algorithm and then transmitted back to Earth. This significantly reduces fire detection and notification time from hours down to a few minutes, providing invaluable time to avert danger and prevent damage.
“We capture both mid-wave and thermal infrared radiation with our technology from a great distance,” explains Thomas Gruebler, CEO & co-founder of OroraTech. “We analyze the collected data with our GPU-accelerated onboard processing module in orbit and thus detect characteristic temperature signatures already in space. Our AI-based software ensures that detected wildfires are reported immediately.”
The Munich-based company entered a long-term partnership with Spire, a Luxembourg-based manufacturer of small satellites, reducing the cost of launching satellites into space and thus creating the capacity to focus more resources on developing the technology. “By consistently developing the technology for small satellites, OroraTech is achieving a fundamental change in the industry cost curve,” said Wolfgang Neubert, partner at APEX Ventures. “With the current demonstration mission, OroraTech wants to prove that the technology is suitable for use in space and that usable images can be taken even at around 500 km. The first data will show what will be possible in the future and pave the way to improved coverage and more accurate predictions.”
However, forecasting wildfire risk and creating accurate fire spread models require a large number of precise data points. An entire swarm of satellites – a constellation – is necessary to obtain these. In a sun-synchronous orbit, the CubeSat constellation will provide coverage for every point on earth at the same time each day, several times a day. By the end of 2023, a minimum viable constellation (MVC) composed of eight CubeSats will be in operation focusing on capturing thermal images in the late afternoon, the peak fire time for wildfires which is hardly covered by current satellite missions. OroraTech is now closing this gap in the available data and, at the same time, significantly improving the data-cost ratio.
“OroraTech is addressing a global issue on a large scale,” Florian Erber, Managing Partner & Founder of Ananda Impact Ventures, is pleased to say. “Due to its high scalability, OroraTech is also extremely interesting for investors like us. We believe that the solution portfolio will have a strong economic and social impact but especially in the fight against climate change.” Christian Federspiel of Findus Venture also emphasizes this: “The data has immense value. OroraTech will become even more interesting for investors because of this unique information.”
The effects of climate change can be seen in the devastating fires experienced in North America and Australia. In August 2021 alone, fires in the northern hemisphere released 1,384.6 megatons of CO2 into the atmosphere – worldwide. OroraTech’s service is of interest to commercial forestry, government agencies, and the insurance industry, as timely warning leads to faster response time and, therefore, less damage. “If you are notified in time that a fire is becoming a danger, you can better protect yourself and your property,” says Grübler. “This is especially relevant for those who can’t get insurance, or can only get it at an incredibly high cost, because of a latent wildfire risk.”
In the future, OroraTech’s satellites will not only be able to monitor wildfires, but also other processes that contribute to climate change. One such process is gas flaring, the burning of the byproduct from petroleum production, especially in remote areas such as offshore facilities. According to the World Bank, if all gas flaring were stopped today, CO2 emissions could be reduced by 400 million tons per year. The technology from Munich can also be used to determine the evaporation of water in the soil, which is particularly interesting for agriculture and extremely relevant with increased droughts predicted. Even oil spills on water can be monitored more accurately from orbit.
Whatever the challenge may be, OroraTech is poised to take climate change resiliency to a whole new level – from space.
For more information please visit: ororatech.com