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NASA’s CATS Lidar Instrument Ends 33-Month Mission

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GREENBELT, Md., Jan. 18, 2018 — A space-borne lidar instrument that fired more laser pulses than any previous orbiting instrument has ended its operations on the International Space Station after a successful 33-month mission to measure clouds and tiny atmospheric particles that play key roles in Earth's climate and weather.

During its mission, NASA's Cloud-Aerosol Transport System (CATS) lidar provided measurements of the vertical structure of clouds and aerosols including volcanic eruptions, man-made pollution in China and India, smoke from wildfires in North America and dust storms in the Middle East. The CATS data products are freely available to the science community and have already been cited in numerous research studies as well as at national and international scientific conferences.

The CATS measurements enabled more accurate aerosol modeling and forecasting and improved tracking and forecasting of volcanic plumes and associated costly aviation hazards. It also advanced our understanding of aerosol proximity to clouds, which is critically important to predicting the effects of cloud-aerosol interaction on the Earth's climate system.

CATS was funded by the International Space Station Program to advance the use of the orbiting laboratory as a platform for Earth science research. CATS helped pave the way for future low-cost missions to the station and advanced laser technology designed to measure clouds and aerosols.

"The CATS project was a spectacular opportunity to provide first-of-its-kind science from the space station,” said Matt McGill, CATS principal investigator. “CATS was an amazing combination of enterprising science pathfinder, technology demonstration and programmatic forcing function. The CATS payload operated for more than 200 billion laser pulses – an unprecedented achievement for a space-borne lidar."

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Launched in January 2015, CATS was designed to operate at least six months, but lasted five times its life expectancy. On Oct. 30, 2017, the onboard power and data system stopped working and could not be resuscitated.

The station orbit was valuable for gathering a diverse set of cloud and aerosol observations. The CATS instrument was able to observe the same locations at different times of day, allowing scientists to study day-to-night changes in cloud and aerosol effects from space. The instrument was also the first space-based lidar to provide cloud and aerosol data to users in near real-time, providing more accurate computer models and forecasting of dust storms, fires and volcanic eruptions.

Unlike larger missions, the experiment had a small team, limited budget and a two-year timeline to be built for the station. The mission helped refine and streamline the process for putting future NASA payloads on the station.

CATS was the first high repetition-rate, photon-counting lidar in space first NASA-developed payload for the Japanese Experiment Module - Exposed Facility (JEM-EF) on the space station and the first space-based lidar to provide data products in near real time, with latency of less than six hours, to enable more accurate aerosol modeling and forecasting. It also improved tracking and forecasting of volcanic plumes, which are well-known and costly aviation hazards improved our understanding of aerosol proximity to clouds, which is critically important to predicting the effects of cloud-aerosol interaction on the Earth's climate system.

"CATS provided the opportunity to utilize a small team and streamlined process to highlight that it is possible to build and deliver a low-cost instrument that still provides critical, cutting-edge science measurements," McGill said.

Published: January 2018
Glossary
lidar
Lidar, short for light detection and ranging, is a remote sensing technology that uses laser light to measure distances and generate precise, three-dimensional information about the shape and characteristics of objects and surfaces. Lidar systems typically consist of a laser scanner, a GPS receiver, and an inertial measurement unit (IMU), all integrated into a single system. Here's how lidar works: Laser emission: A laser emits laser pulses, often in the form of rapid and repetitive laser...
Businessresearch and developmentCloud-Aerosol Transport SystemCATSlidarNASATest & MeasurementspaceAmericasaerospace

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