UNH Space Tech Hub and Rogue Space Systems to Develop Satellite Protection Model

The University of New Hampshire (UNH) Space Tech Hub has announced a partnership with Rogue Space Systems to develop a 3D learning model for predicting high-energy electrons in space. This collaboration, supported by a $180,000 Phase I SBIR award from SpaceWERX, aims to enhance the protection of satellites and spacecraft operating in Earth's outer radiation belt.

High-energy electrons in Earth's radiation belts pose a significant threat to space assets, potentially causing interference or permanent damage. The project's goal is to create a predictive model that will provide valuable forecasts of changes in the intensity and location of the outer radiation belt during geomagnetic storms. This information will allow operators to take preemptive measures to protect their assets, significantly improving their chances of survival.

The partnership between UNH's world-class researchers in radiation modeling and Rogue Space Systems demonstrates the practical application of scientific expertise to address critical needs in the commercial space sector. Réka Winslow, Director of UNH Space Tech Hub, emphasized the project's potential to translate scientific knowledge into practical tools for improved satellite operation.

Jon Beam, Rogue co-founder and CEO, highlighted the broader implications of this project. A robust flux predictive model could lead to proactive adjustments in satellite and space platform operations, minimizing damage, reducing catastrophic failures, and extending operational mission lifespans. This capability has the potential to lower insurance costs, provide critical early warnings for geomagnetic storms, and ensure space-service continuity.

The collaboration between UNH Space Tech Hub and Rogue Space Systems represents a significant step forward in space weather resilience. By developing advanced predictive models, the project aims to solidify U.S. leadership in space research and operational security. This partnership also showcases the effectiveness of the Small Business Innovation Research (SBIR) program in fostering innovation and collaboration between academic institutions and commercial entities in the rapidly evolving space sector.

As the commercial space industry continues to grow, the demand for accurate space weather forecasting and asset protection becomes increasingly critical. This project not only addresses immediate concerns for satellite operators but also contributes to the long-term sustainability and reliability of space-based services that have become integral to modern society.