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Starting with Cluster 2, HawkEye 360’s new generation of satellites processes data at a faster rate and is equipped with improved software-defined radios that can simultaneously collect a wide range of frequencies.
Cluster 3 will join HawkEye 360’s Cluster 2 and the Cluster 1 Pathfinder satellites on orbit to expand the company’s baseline constellation.
HawkEye 360’s constellation detects, characterizes, and precisely geolocates RF signals from emitters such as VHF marine radios, UHF push-to-talk radios, maritime and land-based radar systems, L-band satellite devices, and emergency beacons.
Seven additional next-generation clusters are fully funded and scheduled for launch in 2021 and 2022 to complete HawkEye 360’s baseline constellation.
HawkEye 360 Inc. is the first commercial company to use formation-flying satellites to create a new class of radio frequency data and data analytics.
The Cluster 3 satellites will significantly expand HawkEye 360’s constellation collection capacity and reduce revisit rates.
HawkEye 360’s overall system is designed to produce faster and more accurate geolocations.
Cluster 3 consists of three HawkEye 360 second-generation satellites, each containing an RF payload developed by HawkEye 360.
Cluster 3 will join HawkEye 360’s Cluster 2 and the Cluster 1 Pathfinder satellites in orbit to expand the company’s baseline constellation.
HawkEye 360 is the first commercial company to use formation-flying satellites to create a class of RF data and data analytics.
Cluster 3 consists of three HawkEye 360 second-generation satellites each containing an RF payload developed by HawkEye 360.
Seven additional next-generation clusters are fully funded and scheduled for launch in 2021 and 2022 to complete HawkEye 360’s baseline constellation.
Starting with Cluster 2, HawkEye 360’s next-generation satellites process data at a faster rate and are equipped with improved software-defined radios that can simultaneously collect a wide range of frequencies.
HawkEye 360’s constellation detects, characterizes, and precisely geolocates RF signals from emitters such as VHF marine radios, UHF push-to-talk radios, maritime and land-based radar systems, L-band satellite devices, and emergency beacons.
Cluster 2, which launched in January 2021, and Cluster 3 are significantly more powerful than HawkEye 360’s Pathfinder Cluster.
HawkEye 360’s Cluster 3 satellites arrived at the Cape Canaveral launch site on 2021-06-07.
HawkEye 360’s overall system is designed to produce faster and more accurate RF geolocations.
HawkEye 360 operates six in-orbit satellites and raised an extra $55,000,000 to complete its constellation with nine additional satellites.
Other Space Flight Laboratory-built satellites launched in the eight months prior to NorSat-3 included missions for Mohammed Bin Rashid Space Centre, GHGSat Inc., HawkEye 360, Space-SI, and a Canadian-based telecommunications company.
HawkEye 360 developed new maritime security and vessel monitoring capabilities that combine its RF geolocation services with a customized machine learning model developed through Amazon Web Services’ Machine Learning Solutions Lab.