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HawkEye 360’s HawkEye Cluster 3 satellites have fully deployed to orbit and established communications with the company’s satellite operations center.
HawkEye 360’s satellites were built on a satellite bus designed by the UTIAS Space Flight Laboratory.
HawkEye Cluster 3 satellites have deployed to orbit and established communications with HawkEye 360’s satellite operations center.
HawkEye 360’s Cluster 3 satellites were built on a bus designed by UTIAS Space Flight Laboratory and contain a state-of-the-art RF payload developed by HawkEye 360.
Seven additional HawkEye 360 clusters are fully funded and scheduled for launch in 2021 and 2022 to achieve collection revisits as frequent as every 20 minutes.
HawkEye 360 plans to expand the constellation past the initial ten clusters to achieve near-persistent monitoring of global RF activity.
HawkEye 360’s Cluster 3 trio launched from Cape Canaveral aboard a SpaceX Falcon 9 and was dispensed from Spaceflight, Inc.’s Sherpa-FX orbital transfer vehicle.
HawkEye 360 provides RF intelligence products and services to government, commercial, and humanitarian partners.
Once tested and moved into formation, Cluster 3 will expand HawkEye 360’s constellation global revisit and collection capacity.
HawkEye 360’s satellites were built on a bus designed by UTIAS Space Flight Laboratory and contain an RF payload developed by HawkEye 360.
HawkEye 360 and Kleos each had satellites on Transporter-2 to support radio-frequency tracking constellations.
Once tested and moved into formation, HawkEye Cluster 3 will expand the constellation’s global revisit and collection capacity.
HawkEye Cluster 3 satellites deployed to orbit and established communications with HawkEye 360’s satellite operations center in June 2021.
The HawkEye 360 constellation detects, characterizes, and precisely geolocates RF signals from emitters including VHF marine radios, UHF push-to-talk radios, maritime and land-based radar systems, L-band satellite devices, and emergency beacons.
Seven additional HawkEye 360 clusters are fully funded and scheduled for launch in 2021 and 2022 to achieve collection revisits as frequent as every 20 minutes.
HawkEye 360 plans to expand the constellation past the initial ten clusters to achieve near-persistent monitoring of global RF activity.
HawkEye 360 operates radio-frequency data analytics capabilities and targets geospatial intelligence customers with smallsat constellations.
SeaHawk-1 observes the changing biology of the ocean surface using a compact, multi-spectral camera called HawkEye developed by Cloudland Instruments.
On 2021-06-07, HawkEye 360 incorporated a new trawling behavior detection capability into SEAker.
HawkEye 360’s constellation of satellites geolocates radio frequency signals emitted by ships, including X-band and S-band marine navigation radars and VHF radios.