Unmanned Satcom BLOS
L3Harris Technologies
Melbourne, FL
585-465-3592
www.l3harris.com
During a live demonstration in April, L3Harris Technologies deployed two RASOR multifunctional processors on an unmanned aircraft operated by General Atomics Aeronautical Systems, Inc. (GA-ASI). The live demonstration of Beyond-Line-of-Sight (BLOS) command and control and data movement was enabled by the modular open systems approach (MOSA) embedded systems architecture of L3Harris’s Rapidly Adaptable Standards Compliant Open Radio (RASOR) technology.
RASOR is chassis capable of enclosing three to twelve slots with single board computer, SOSA Aligned Modem Module (SAMM) and a network processor among its embedded modules. Processing capabilities include data links (ISR, C2, Voice, Sensor),electronic warfare, mission processing, and security, according to L3Harris.
The live demonstration featured one of the RASOR processors housing the unmanned aircraft’s transceiver card and the other controlled its BLOS active electronically scanned array. The demonstration showcased a cross-industry deployment of military grade low-Earth orbit satellite communications, illustrating a MOSA solution available today that positions the Department of Defense for next-generation fights in a revolutionary way.
“The successful demonstration illustrates our commitment to enabling commercial space internet capabilities for the United States and its allies on unmanned platforms,” said Ron Fehlen, L3Harris vice president and general manager of Air Force programs. “Our goal is to extend this type of connection for all collaborative combat aircraft and other autonomous collaborative platforms around the globe, utilizing LEO satellites.”
This specific demonstration was intentional in highlighting RASOR’s applicability for U.S. Air Force manned and unmanned platforms, primarily Collaborative Combat Applications (CCA). Additional focus areas for RASOR are the U.S. Army’s Command, Control, Computers, Communications, Cyber, Intelligence, Surveillance and Reconnaissance Modular Open Systems Standards Mounted Form Factor (CMFF) program and the U.S. Navy’s Landing Autonomous Navigation Technology for Enhanced Recovery to Navy Ship (LANTERNS) program.
The successful flight demonstration with GA-ASI follows a series of similar military-industry tests incorporating RASOR across domains, including events with the U.S. Air Force and Air Force Research Laboratory.
For more information, visit here .
Top Stories
INSIDERMechanical & Fluid Systems
Starliner to Perform Uncrewed Return Flight From International Space Station...
INSIDERDefense
Archer Delivers First Midnight eVTOL to US Air Force
INSIDERAerospace
ESA to Test Canadian Startup's Diamond Quantum Sensors in Space
INSIDERAerospace
EA-37B Compass Call: The US Air Force's New Electronic Attack Aircraft
INSIDERAerospace
Modern Commercial Jets Create Longer Living Contrails Than Older Aircraft,...
INSIDERManufacturing & Prototyping
Anduril Takes Software-Defined Approach to Hyperscale Defense Manufacturing
Webcasts
Automotive
Mitigating Risks, Ensuring Reliability: Deep Dive into Automotive...
Automotive
Accelerating Time to Market: Tackling NVH Challenges in Electric...
Communications
Space Communications and Navigation Summit 2024
Electronics & Computers
Utilizing Model-Based Systems Engineering for Vehicle Development
Software
Meeting the Challenges of Software-Defined Vehicles With...
Software
Automotive Hardware Security Modules: Functionality, Design, and...
Similar Stories
Application BriefsImaging
Rapidly Adaptable Standards-Compliant Radio
INSIDERTest & Measurement
MQ-25, H-1 Test Next-Gen Satellite Communications
INSIDERSensors/Data Acquisition
First Annual Maritime Reconnaissance and Surveillance Technology USA
NewsManned Systems
Five-Satellite MUOS Constellation to Deliver Secure, Next-Gen SATCOM on...