

M-ATV Special Forces
Broad visibility and storage for sophisticated missions. Protected agility and precision for mobile operations. The Oshkosh Defense® MRAP All-Terrain Vehicle (M-ATV) Special Forces variant is built for the uncertainties of the battlefield.
Fully configurable and integrated C4ISR systems provide advanced situational awareness and operational versatility. With the TAK-4® independent suspension system, the M-ATV Special Forces delivers unprecedented off-road mobility across severe landscapes and improves personnel safety against escalating battlefield threats.
UNMATCHED CAPABILITIES
Operate in -26°F (-32°C) to 130°F (54°C)
Traverse 60% grades and 30% side slopes
TAK-4® independent suspension system
70% off-road duty cycle
The M-ATV Special Forces is designed for the specific demands of special reconnaissance, target acquisition, military intelligence, unconventional warfare and counterinsurgency operations. Featuring proven best-in-class mobility with the TAK-4® independent suspension system, the M-ATV Family of Vehicles dominates the most challenging terrain with an average 16 inches (400mm) of ground clearance and nearly 310 miles (500km) of cruising range.
Comprehensive Protection System
Blast seats: Driver, commander & rear positions
Protected cargo area
Option: Gunner Protection Kit (GPK)
Scalable crew protection
Integrated blast protection and advanced technologies work in concert to provide military and security forces with the capability, versatility, mobility and protection to meet mission demands.
Vehicle Systems & Technology
2nd row center seat converts to gunner stand
Remote Weapon Station (RWS) compatible
Infrared driving lights
From its large windshield for improved visibility to its rear hatch for easy access to the cargo body to it full-sized, rear-mounted runflat, the M-ATV is built for mission success. And our proven history of world-class Tactical Wheeled Vehicle (TWV) design and extensive C4 systems integration capabilities give fleets the flexibility to expand and reconfigure components in the field to meet mission demands.