AUSA 2019: LeoLabs today announced a unique radar for tracking space objects, based in New Zealand to improve monitoring of satellites and debris over the Souther Hemisphere — where even DoD has limited satellite tracking ability.
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Space situational awareness startup LeoLabs has completed its first radar installation outside the U.S. The Kiwi Space Radar (KSR) in New Zealand will boost the company’s ability to track objects in […]
SAN FRANCISCO, CA — LeoLabs, the Silicon Valley space mapping startup, announced Oct. 14, initial operation of the Kiwi Space Radar, the firm’s third space surveillance radar and first with updated technology to track debris as small as two centimeters in low Earth orbit.
MOUNTAIN VIEW, CA — Some space companies say their greatest hiring difficulty today is recruiting enough software engineers to work on their programs.
SpaceNews: LeoLabs planning to triple number of radar sites for space debris tracking by early 2020s
MOUNTAIN VIEW, CA — LeoLabs, a company using radar sites to track satellites and space debris in low Earth orbit, plans to increase its number of sites from two to six over the next few years.
Space situational awareness startup LeoLabs has launched the first commercial satellite service tailored for smallsat and cubesat operators. LeoTrack is available as a web-based subscription and is […]
US-based LeoLabs has launched LeoTrack, the world’s first commercial satellite tracking service for smallsat and cubesat operators.The service will be available as a web-based subscription and offer satellite operators a full range of monitoring capabilities, including precision tracking and predictive radar availability.
LOGAN, UT — LeoLabs, a space situational awareness company, unveiled a small satellite tracking service called LeoTrack Aug. 5 at the Small Satellite Conference here.
LeoLabs revealed LeoTrack, a commercial satellite tracking service for smallsat and cubesat operators. LeoTrack, delivered as a web-based subscription, offers satellite operators a range of monitoring capabilities, including precision tracking of satellites, orbital state vectors, predictive radar availability, scheduled passes, and real-time orbit visualization for constellations as well as individual satellites.
On April 7, something went very, terribly wrong 36,000km above the Earth’s equator, in geostationary orbit. An IS-29e Intelsat Epic-series satellite was leaking fuel and tumbling.