When It Comes to Fifth-Generation Assets, Air Force Values Virtual Training over Live Flying
Newer, more capable fifth-generation aircraft platforms and systems are outgrowing even the largest U.S. Air Force training ranges – and the service believes modern simulators and virtual reality may be the answer.
Considering the capabilities of modern advanced threats, even the Nellis Air Force Base ’s Nevada Test and Training Range (NTTR), the U.S. Air Force’s 12,000-square-nautical mile “crown jewel” range, is 50 percent too small for running realistic sorties, according to U.S. Air Force Warfare Center commander, Major General Peter Gersten.
While fighter aircraft used to be able to take off from Nellis and meet in the middle of NTTR to engage each other, modern fighter capabilities like beyond-line-of-sight targeting mean those aircraft can be targeted and engaged the moment they leave the runway, said Gerten during day one of the Air Force Association ’s 2019 Air Warfare Symposium.
Furthermore, through cyber breaches and satellite reconnaissance, adversaries are better equipped to monitor “open air” training.
“We have to start being thoughtful about how we transition a good portion of advanced training into the synthetic space,” said Gersten, suggesting that the best option is to move more training operations into live, virtual training systems.
Read more: Next phase of the USAF Pilot Training Next initiative includes an open call for innovative solutions
Last month, the U.S. Air Force Warfare Center broke ground on a Virtual Test and Training Center (VTTC) designed to enable “full-spectrum readiness through next-generation battlespace environments” while bolstering operational security.
Airman stand at the ground-breaking of the VTTC on Nellis Air Force Base, Nevada, February 8, 2019. (Image courtesy: U.S. Air Force/Airman 1st Class Bailee Darbasie)
“The Virtual Test and Training Center will provide a crucial capability for today’s warfighters to experience, train and dominate today’s threats, across multiple domains through a combination of live, virtual, and constructive environments,” said Gersten.
Learn more about simulated and virtual training environments
The center will give operators from across platforms and domains the capability to plan, brief, execute, and debrief together in one location, with a full complement of fighter aircraft simulators, and a tactical command and control simulator. The simulators will also be able to augment live fly training with mixed virtual/live sorties.
“It’s the first step toward a truly blended solution, in which the simulators can participate in the same scenario as aircraft flying over the Nevada Test and Training Range or in a completely separate scenario somewhere globally,” said Colonel Dean Caldwell, VTTC director.
The $38 million VTTC facility is scheduled to open in the summer of 2021.
Information in this article was first covered by Brian Everstine of Air Force Magazine and Rebekah Mattes, 99th Air Base Wing Public Affairs.
William Kucinski is content editor at SAE International, Aerospace Products Group in Warrendale, Pa. Previously, he worked as a writer at the NASA Safety Center in Cleveland, Ohio and was responsible for writing the agency’s System Failure Case Studies. His interests include literally anything that has to do with space, past and present military aircraft, and propulsion technology.
University of Rochester Lab Creates New 'Reddmatter' Superconductivity Material...
INSIDERElectronics & Computers
MIT Report Finds US Lead in Advanced Computing is Almost Gone - Mobility...
Airbus Starts Testing Autonomous Landing, Taxi Assistance on A350 DragonFly...
Boeing to Develop Two New E-7 Variants for US Air Force - Mobility Engineering...
PAC-3 Missile Successfully Intercepts Cruise Missile Target - Mobility...
Air Force Pioneers the Future of Synthetic Jet Fuel - Mobility Engineering...
Driver-Monitoring: A New Era for Advancements in Sensor Technology
Manufacturing & Prototyping
Tailoring Additive Manufacturing to Your Needs: Strategies for...
How to Achieve Seamless Deployment of Level 3 Virtual ECUs for...
Electronics & Computers
Specifying Laser Modules for Optimized System Performance
The Power of Optical & Quantum Technology, Networking, &...
Electronics & Computers
Leveraging Machine Learning in CAE to Reduce Prototype Simulation and Testing
University of Rochester Lab Creates New 'Reddmatter' Superconductivity Material
INSIDERTest & Measurement
New Consortium to Develop Thermal Protection Materials for Hypersonic Vehicles
Multi-Agent RF Propagation Simulator
Low Distortion Titanium in Laser Powder Bed Fusion Systems
How to Test a Cognitive EW System