Oshkosh Defense, LLC, an Oshkosh Corporation company, announced that the U.S. Army Contracting Command, Detroit Arsenal has placed an order for 248 Joint Light Tactical Vehicles (JLTVs) and associated kits.
The order is valued at $127 million and includes vehicles for the U.S. Army, U.S. Marine Corps and the Department of State.
“The JLTV was designed to provide our troops with unmatched mission capabilities,” said George Mansfield, Vice President and General Manager of Joint Programs for Oshkosh Defense.
“And while adversaries, terrains, and tactics have all evolved immensely since the vehicle’s conception, the JLTV’s flexible design allows the light tactical vehicle fleet to evolve at a similar pace,” he added.
One such example of the JLTV’s flexibility is its capability to accept any number of advances in weapons, lasers, sensors, networking, and communications.
To date, Oshkosh has successfully integrated multiple weapons on the JLTV such as Remote Weapon Systems up to 30mm, anti-tank missile systems, anti-aircraft missile systems, Unmanned Aerial Vehicle (UAV) systems, and Counter-UAV systems. These systems on the JLTV offer both the protection and the highly reliable defense technologies needed for troops to defeat near-peer adversaries.
Over 7,500 total vehicles have been delivered to the U.S. Army, U.S. Marine Corps, U.S. Air Force, and U.S. Navy since the production contract was awarded in 2015. Additionally, foreign interest in the JLTV continues to grow. Several NATO countries have publicly expressed interest in procuring the vehicle, including Lithuania, Slovenia, United Kingdom, and Montenegro.
Oshkosh Defense is a global leader in the design, production and sustainment of best-in-class military vehicles and mobility systems. As a pioneer of combat-ready vehicle solutions, Oshkosh develops and applies emerging technologies that advance troop safety and mission success. Setting the industry standard for sustaining fleet readiness, Oshkosh ensures every vehicle is supported worldwide throughout its entire life cycle.