Raytheon space sensor tasked for first-of-its-kind military use
Raytheon Company's hyperspectral imaging sensor known as ARTEMIS is being prepared for a first-of-its-kind tactical military role by the Air Force Space Command.
The company's Advanced Responsive Tactically Effective Military Imaging Spectrometer has successfully completed its one-year experimental mission aboard the Air Force Research Laboratory's Tactical Satellite-3. Based on the success of that mission, Raytheon has been notified that the Air Force Space Command will take control of TacSat-3 with the intent to use ARTEMIS in an operational capacity.
"The ARTEMIS hyperspectral imager gives military commanders an important new advantage in the asymmetric battlefield," said Bill Hart, vice president for Raytheon Space Systems. "ARTEMIS can detect various man-made and natural materials, which adds a fundamentally new capability for the DoD."
Unlike visible imagers, hyperspectral sensors capture light across a wide swath of the electromagnetic spectrum, providing unprecedented spectral detail. That spectral information produces a distinct "signature," which can be compared against the spectral signatures of known objects to rapidly identify potential areas of interest.
The ARTEMIS hyperspectral imager combines spectral information with geo-location coordinates in an easy-to-read map. This information is then sent directly to troops on the ground in near real time.
"Air Force Space Command looks forward to taking ownership of the TacSat-3 ARTEMIS system," said Lt. Col. Ryan Pendleton, Air Force Space Command, Chief, Operationally Responsive Space Integration. "We plan to operationalize the system as soon as possible to provide direct benefit to warfighters."
TacSat-3 originated as part of the US Department of Defense's operationally responsive space initiative, which seeks to give field commanders flexible, affordable options for obtaining real-time tactical surveillance data from space. Aided by the ORS Office, and led by the Air Force Research Laboratory, the TacSat-3 program was designed to demonstrate the feasibility of developing and launching a military payload within extremely tight schedule and budget constraints.
"TacSat-3 has been a pathfinder to explore concepts of operation for future ORS systems and demonstrates how great things can be achieved on a small budget and in a short time," said Dr. Peter Wegner, director of the Pentagon's ORS Office. "It has also demonstrated the utility of hyperspectral information to benefit soldiers, sailors, airmen and Marines around the world."
Raytheon is discussing with several government customers opportunities for rapidly deploying additional hyperspectral space sensors. "Based on our experience on TacSat-3, we're ready to build operational hyperspectral systems like ARTEMIS quickly and affordably," said Raytheon's Hart.
Source: Raytheon
More from Digital Battlespace
-
British Army’s ISR commander warns of new challenges facing defence forces
The race between using ISR and resisting the use of it by enemies has accelerated, leading to new methods and systems being required, according to the British Army’s lead on its ISR efforts.
-
Jacobs wins MoD cyber-security support contract
The deal with Jacobs will run until November 2027 and will see the company deliver a range of digital and IT specialist professional services to Defence Digital.
-
Orbit upgrades two multi-purpose terminals and carries out land testing
The communications company has upgraded two of its Beyond Line-of-Sight Multi-Purpose Terminals (MBTs) by introducing advancements in satellite communication technology and AI-driven maintenance capabilities.
-
Norway to receive maritime surveillance satellite data from Kongsberg
Norway's Kongsberg Defence and Aerospace has announced that its subsidiary Kongsberg NanoAvionics will produce three satellites and launch them in 2025.
-
First South Korean 425 Project observation satellite launched
In 2015, South Korea named a consortium of Korea Aerospace Industries (KAI) and Hanwha Systems, along with Thales Alenia Space providing the SAR payload derived from its HE-R1000 product, as preferred bidder to develop new Korea 425 Project reconnaissance satellites.