Tag Archives: Gray Wolf

Air Force, Missiles & Guided Weapons

Gray Wolf

The 416th Flight Test Squadron recently completed a round of tests of the Air Force Research Laboratory’s «Gray Wolf» prototype cruise missile at Edwards Air Force Base, California.

Members from the Gray Wolf test team and 416th Flight Test Squadron, pose for a photo following a captive-carry flight test of the Gray Wolf cruise missile prototype at Edwards Air Force Base, California, June 9 (Air Force photo by Kyle Brazier)

Gray Wolf is a DoD-directed prototype production and demonstration of low-cost, subsonic and networked collaborative cruise missiles. The missiles are designed to launch in a swarm to target enemy integrated air defense threats.

«Gray Wolf is a science & technology demonstration effort, intended as a proof of concept program», said Conor Most, 416th FLTS Flight Test Engineer. «AFRL serves as the System Program Office (SPO) for the weapon and developed the original request for proposal».

The missiles offer a stand-off solution for the warfighter through its variable payload capability. Earlier this year, the Gray Wolf’s TDI-J85 engine completed a successful flight test campaign culminating in multiple inflight windmill starts and operation at high altitude.

The program has already reached certain test milestones: Electromagnetic Interference & Compatibility (EMIC) and a «captive carry» flight. A live release test at the Naval Air Station Point Mugu Sea Test Range is scheduled later this summer.

«The EMIC check is ground check to confirm the missile is okay to fly on our specific test aircraft», Most explained. «A captive-carry flight is the first flight with the weapon; the goal is to rehearse the weapon flight profile and gather critical state/environmental data about the weapon».

Most added that the importance of successfully conducting physical tests, as opposed to laboratory-simulated, provides the Gray Wolf team with invaluable critical data.

«Getting the weapon airborne and gathering data is crucial to the development for a new weapon system like this», Most said. «With just one captive carry flight, the team learned more than in weeks or months of laboratory testing. Modeling and simulation go a long way to helping you predict how a new weapon will behave, but they will never replace actually putting the weapon on an aircraft and observing how it actually behaves in a real-world environment».

Conducting physical flight tests is critical to mission success, and the Gray Wolf test team faced challenges amidst COVID-19 restrictions as different portions of the test team were located throughout the country. Besides the test team at Edwards, the Gray Wolf tests included personnel from AFRL, Point Mugu, and others throughout the Air Force Test Center enterprise, namely at Eglin Air Force Base, Florida.

«Key support from AFRL and AFTC leadership enabled the missions to take place», said Captain Adam Corley, AFRL Gray Wolf Program Manager. «These tests overcame, and were accomplished, during the COVID-19 posture. Collaboration between Eglin, Edwards, and the Point Mugu Sea Range made these flight tests possible. Through close partnership, we were able to fly on the sea range and stream live feeds to Edwards and Eglin control rooms overcoming the travel ban issue and allowing key personnel to participate in the flight tests».

Air Force

Gray Wolf

Lockheed Martin received a $110 million, five-year Phase 1 contract from the U.S. Air Force Research Laboratory (AFRL) to develop and demonstrate a new low-cost cruise missile called Gray Wolf.

Gray Wolf will operate in highly contested environments, and will be capable of collaborative, networked «swarming» behaviors to address air-defense system threats
Gray Wolf will operate in highly contested environments, and will be capable of collaborative, networked «swarming» behaviors to address air-defense system threats

The Gray Wolf program seeks to develop low-cost, subsonic cruise missiles that use open architectures and modular design to allow for rapid prototyping and spiral growth capabilities. The AFRL is developing the missiles to feature networked, collaborative behaviors (swarming) to address Integrated Air Defense (IAD) system threats around the world. The Gray Wolf missile design will allow for maximum mission flexibility.

«Lockheed Martin’s concept for the Gray Wolf missile will be an affordable, counter-IAD missile that will operate efficiently in highly contested environments», said Hady Mourad, Advanced Missiles Program director for Lockheed Martin Missiles and Fire Control. «Using the capabilities envisioned for later spirals, our system is being designed to maximize modularity, allowing our customer to incorporate advanced technologies such as more lethal warheads or more fuel-efficient engines, when those systems become available».

The Gray Wolf program consists of four spiral-development phases that allow for rapid technology prototyping and multiple transition opportunities. This first phase, defined by an Indefinite Delivery/Indefinite Quantity (IDIQ) contract, is anticipated to run until late 2019. Initial demonstrations will be from an F-16 Fighting Falcon aircraft. In addition to the F-16 Fighting Falcon, the system will be designed for compatibility with F-35 Lightning II, F-15 Eagle, F/A-18 Hornet, B-1 Lancer, B-2 Spirit and B-52 Stratofortress aircraft.

«Our AFRL customer will benefit from decades of Lockheed Martin experience in building high-quality, low-cost systems like Guided Multiple Launch Rocket System (GMLRS), while capitalizing on the experience of our team in developing and integrating advanced cruise missiles such as Joint Air-to-Surface Standoff Missile (JASSM) and Long Range Anti-Ship Missile (LRASM) on military aircraft», Mourad said.