![]() ![]() “It’s from both traditional players that normally ignored small satellites but are now offering services and resources and then also new players that have come up in the past five to seven years to specifically address these booming markets.” ![]() “It’s a taboo word in the launch world, but we’re now seeing just an explosion of options,” he said. Safyan said Planet was able to build up its “flock” of satellites as more affordable rockets came to the fore, which eventually generated a cycle of supply and demand. “When we were starting the company about 10 years ago, it was hard to even get some of the launch providers to pay attention to us, because small sats were still viewed as kind of an academic hobby,” said Mike Safyan, Planet’s vice president of launch. Yet alongside the numerous benefits to society, increasing access to space and supporting an economy in orbit comes with its share of challenges, including how to balance a growing industry with the safe and sustainable use of outer space. ![]() Once a realm dominated by just a few spacefaring nations, the cosmos is opening up to nascent space programs around the world, to entrepreneurs and innovators, to commercial companies and even to students. “It’s a huge sea change from the former paradigm,” said Ariel Ekblaw, founder and director of the MIT Space Exploration Initiative. Smaller satellites and lower launch costs mean startups and students can sometimes launch projects for just a few thousand dollars. It has revamped the orbital landscape, dramatically expanding access to the cosmos and fueling what is projected to grow into a trillion-dollar commercial space industry.Ĭompanies that once had to pay hundreds of thousands of dollars to put a satellite into orbit can now do the same for a fraction of that price. įind more research articles at the SPC publication archive.The flurry of activity has been driven in recent decades by significantly lower costs to launch into space, the availability of smaller, cheaper components to build satellites and other spacecraft, and the growth of private space companies. Berry, 2021: Hazardous Weather Communication en Espanol: Challenges, Current Resources, and Future Practices. Jenkins-Smith, 2021: An Analysis of Tornado Warning Reception and Response across Time: Leveraging Respondents' Confidence and a Nocturnal Tornado Climatology. Brooks, 2021: The Influence of Weather Watch Type on the Quality of Tornado Warnings and Its Implications for Future Forecasting Systems. Brooks, 2021: Examining Subdaily Tornado Warning Performance and Associated Environmental Characteristics. Cohn, 2021: Changes in Tornado Climatology Accompanying the Enhanced Fujita Scale. Nelson, 2021: An Analysis of 2016-18 Tornadoes and National Weather Service Tornado Warnings across the Contiguous United States. Marsh, 2022: Utilizing the High-Resolution Ensemble Forecast System to Produce Calibrated Probabilistic Thunderstorm Guidance. Gallus Jr., 2022: On the Changes in Convection-Allowing WRF Forecasts of MCS Evolution due to Decreases in Model Horizontal and Vertical Grid Spacing. Clark, 2022: Exploring the Watch-to-Warning Space: Experimental Outlook Performance during the 2019 Spring Forecasting Experiment in NOAA's Hazardous Weather Testbed. ![]()
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