Ball Aerospace Selected by NASA for Three Studies to Develop Future Sustainable Land Imaging Technologies
Ball Aerospace has been selected by NASA to conduct three studies aimed at developing innovative Sustainable Land Imaging (SLI) technologies for future Landsat missions. This initiative builds on previous SLI advancements, including the Operational Land Imager 2, set to launch with Landsat 9 in 2021. Dr. Makenzie Lystrup emphasized the importance of these studies in advancing technology for precise calibration in compact sensor packages. The studies focus on key challenges and innovative approaches designed to improve Landsat performance while reducing resource requirements.
- Selected by NASA for three studies on Sustainable Land Imaging technologies.
- Studies build on previous technology, including the upcoming Operational Land Imager 2.
- Focus on innovative solutions to improve Landsat mission performance.
- None.
BOULDER, Colo., Sept. 14, 2020 /PRNewswire/ -- Ball Aerospace was selected by NASA to move forward with three studies to develop and demonstrate innovative Sustainable Land Imaging (SLI) technologies for potential use on future missions of the Landsat program, a series of Earth-observing satellite missions jointly managed by NASA and the U.S. Geological Survey that is entering its fifth decade of existence.
The studies leverage previous SLI Technologies, including the Ball-built Operational Land Imager 2, which will fly on the Landsat 9 mission launching in 2021.
"We are honored and excited that Ball was chosen by NASA for three studies to explore next-generation technologies for the Landsat Program," said Dr. Makenzie Lystrup, vice president and general manager, Civil Space, Ball Aerospace. "These studies reflect the importance of continued advancement and the development of creative solutions. We are pushing the boundaries of what's possible when it comes to innovating robust, precisely-calibrated sensors in increasingly compact packages."
The selection came on the heels of the final airborne science flights of two other Sustainable Land Imaging (SLI) technology demonstrations – the Reduced Envelope Multispectral Imager - Airborne (REMI-AB) and the Compact Hyperspectral Prism Spectrometer - Airborne (CHPS-AB). Both were designed to demonstrate improved Landsat mission performance in compact instrument packages.
The three studies include:
- Landsat Calibration Satellite (LCS) – This study builds on the CHPS instrument and aims to provide the cross-calibration and validation capability required to knit together a future Land Imaging Constellation. LCS-B focuses on the key technical challenges to providing an on-orbit reference instrument – specifically, differences in spatial and spectral performance between disparate platforms, such as Sentinel-2, Planet, and Landsat-8.
- TransCal – This is an innovative calibration approach using Polymer Dispersed Liquid Crystal material to continue the precise on-orbit calibration method used extensively in the Landsat program, while significantly reducing the size and complexity of the calibration subsystem. This study aims to reduce resources needed (e.g., cost, size, volume and mass) for next-generation SLI instruments, while meeting or exceeding the current Land Imaging capabilities.
- Reduced Envelope Multispectral Infrared Radiometer (REMIR) – This study will design and build a single, full spectral range (visible through thermal infrared) instrument suite that represents the next step in meeting the thermal infrared band requirements for future Landsat missions. The proposed technology leverages the previous success of the REMI instrument, as well as NASA and Ball investments in new detectors, innovative calibration subsystems (e.g. the NASA Compact Infrared Radiometer in Space CubeSat mission, built by Ball and currently in orbit) and a scanning approach that enables significant reductions in size, weight
Ball Aerospace has more than six decades of experience providing leading-edge systems and instruments to help predict the weather, map air quality and monitor the Earth's environment. Ball has played a key role in the continuity of the current Landsat program having built the OLI instrument flying on the Landsat 8 satellite and the OLI-2 instrument for Landsat 9. As a partner on the NASA SLI-Technology program, Ball has developed and demonstrated innovative instruments that provide for a flexible and sustainable next-generation Landsat architecture.
Powered by endlessly curious people with an unwavering mission focus, Ball Aerospace pioneers discoveries that enable our customers to perform beyond expectation and protect what matters most. We create innovative space solutions, enable more accurate weather forecasts, drive insightful observations of our planet, deliver actionable data and intelligence, and ensure those who defend our freedom go forward bravely and return home safely. Go Beyond with Ball.® For more information, visit www.ball.com/aerospace or connect with us on Facebook or Twitter.
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