Oshkosh Defense, LLC, a wholly owned subsidiary of Oshkosh Corporation, delivered the first Stryker Double-V Hull Infantry Carrier Vehicle (ICVVA1) upgraded with the 30 mm Medium Caliber Weapon System (MCWS) to the U.S. Army’s Aberdeen Test Center (ATC) in Aberdeen, Maryland, where the system will undergo Production Verification Testing (PVT).

The contract awarded to Oshkosh in June 2021 requires Oshkosh Defense to deliver seven systems by September 2022 for PVT that will be conducted through June 2023.  Fielding of the MCWS is scheduled to begin in July 2023 with the I-2 Stryker Brigade Combat Team (SBCT), Joint Base Lewis McChord in Washington State, receiving the first upgraded Strykers.

“Our team leveraged our engineering and manufacturing prowess and deep commitment to customer satisfaction to deliver our first MCWS test vehicle on time, despite the dynamic market forces we have all experienced over the last year,” said Pat Williams, Vice President and General Manager of U.S. Army and U.S. Marine Corps Programs, Oshkosh Defense.

“Since the initial contract award, the close collaboration with the U.S. Army has been paramount to achieving this important milestone,” he added.

The U.S. Army selected Oshkosh Defense and partners Pratt Miller Defense and Rafael Advanced Defense Systems to integrate the 30 mm MCWS onto the Stryker ICVVA1 in June 2021. Since then, Oshkosh Defense has completed Risk Management Testing (RMT) and received orders for 269 upgraded Strykers valued at $356 Million.

“We’re incredibly proud to deliver this transformative solution and look forward to equipping our Soldiers with the precision lethality capability they need,” Williams concluded.

Oshkosh Defense is a global leader in the design, production and sustainment of best-in-class military vehicles, technology solutions and mobility systems. Oshkosh develops and applies emerging technologies that advance safety and mission success. Setting the industry standard for sustaining fleet readiness, Oshkosh ensures every solution is supported worldwide throughout its entire life cycle.