MELBOURNE, Fla. L3Harris Technologies has introduced a new small satellite (smallsat) reflector antenna that will help decrease the size, weight, and overall time to produce smallsats.
MELBOURNE, Fla. The Air Force Life Cycle Management Center has awarded L3Harris Technologies a multi-million dollar contract to develop a software platform that will make it easier for analysts to use artificial intelligence (AI) to identify objects in large data sets.
MELBOURNE, Fla. L3Harris Technologies and the U.S. Air Force’s Navigation Technology Satellite-3 (NTS-3) project has passed the preliminary design review (PDR) that defines the spacecraft’s path to delivery and allows the program to move to the next phase of development.
FALLS CHURCH, Va. Northrop Grumman Corporation’s µSAS (micro-sas) will be integrated onto L3Harris Technologies’ Iver4 Unmanned Undersea Vehicle (UUV) for a 12-month test period for the Defense Innovation Unit’s (DIU) Next Generation Small-Class UUV program.
WASHINGTON. The Defense Advanced Research Projects Agency (DARPA) has awarded six contracts for work on the Angler program, which aims to pioneer the next generation of autonomous underwater robotic systems capable of physical intervention in the deep ocean environment. This class of future unmanned underwater vehicles (UUVs) must overcome reliance on GPS and human intervention to support infrastructure establishment and maintenance in the ocean.
WASHINGTON. The Missile Defense Agency (MDA) has chosen four companies to design space sensors that can track hypersonic and ballistic missiles. Northrop Grumman, Raytheon, Leidos, and L3Harris each received a $20 million contract to design a prototype sensor payload by the deadline of October 31, 2020.
MELBOURNE, Fla. The U.S. Air Force has selected L3Harris Technologies to deliver the space hub end cryptographic unit (ECU) for the Protected Tactical SATCOM (PTS) SHIELD program. The Air Force PTS program will implement Protected Tactical Waveform (PTW) over a fully-processed satellite payload, enabling adaptive, anti-jam communications channels.