Paradigm-Changing Possibilities for Modern Warfare 101
Air Force F-22 aircraft, F-35 aircraft and MQ-9 Reaper drones all shared real-time routing data over a secure, radio-protected connection with protected radio frequencies, bringing the concept of an intertwined network of “networked” nodes closer to operational reality.
While historical capable of making certain radio communications and, of course, sharing information through ground command and control, some existing data links and radiocommunication systems may face latent challenges in terms of data flow speed as well as barriers to data processing. when it comes to must organize, analyze and transmit crucial input targeting data. Now, the F-22 is flowing up F-35 fighters to MQ-9 Reaper drones have real-time information exchange, focused on cooperation, information processing and operational connectivity, without the need to include ground command and control, is an opportunity to change the paradigm of modern warfare.
Some of the latest technical innovations, such as Northrop Grumman’s Freedom 550 software programmable radio, are built with a specific intention to preserve information stability and security. A thief fifth generation platforms, for example, can publish their location by sending a large amount of multifrequency data transmission. The larger the electronic signature, broadcast or transmission, the more noticeable it can be to an enemy. The challenge is to enable connectivity while maintaining a “stealth mode”.
Northrop Grumman is now testing a “radio translator” designed to connect F-22 data connection called Interflight Datalink with the F-35 data connection called Multi-Function Advanced Datalink called MADL.
“We are working on a demonstrator who uses a radio as an interpreter to convert the data sent by and F-35 to F-22 by thief. It involves the use of software-defined radio hardware and software and antennas, “said Colin Fan, Director of Strategic and Technological Communications at Northrop Grumman. National interest.
The breakthrough in communications and targeting was part of an ambitious combat training exercise in Alaska called the Northern Edge, where numerous warheads acted in high-class carpet fighting games to conduct missions in various domains against extremely complex high-class forces. Fifth-generation to fifth-generation real-time flight communication for drones in combat operations is an extremely important development, as it offers something that can be called a major pillar of the Pentagon’s course to its new integrated, multidomain program for joint management of all domains (JADC2). This is an ambitious and extremely powerful concept rooted in the idea that drones, cargo planes, fighter jets and even land forces and ships at sea function as communication “nodes” capable of transmitting full force data in seconds. This accelerates the war decision cycle to conduct “speed” operations, stay in front of the enemy and exponentially reduce the sensor to the firing time.
Referring to these newer types of network innovations in terms of “data-driven battlefield”, Fan explained that the “translator” of free 550 gateway data was created with a specific mindset to make JADC2 operational.
“What we’re all talking about under the JADC2 umbrella is to ensure that sustainable, scalable networks have the ability to read, share and process data on the brink of battle. “It’s key to giving our customers real-time decision-making to deal with the imminent threat and maintain the superiority of decisions,” Fan said.
Kris Osborn is a security editor at National interest. Osborne previously served at the Pentagon as a highly qualified expert in the office of the Assistant Secretary of the Army – Acquisition, Logistics and Technology. Osborne has also worked as a leading and terrestrial military specialist on national television networks. He is a guest military expert on Fox News, MSNBC, The Military Channel and The History Channel. He also has a master’s degree in comparative literature from Columbia University.