A suspension assembly of a work machine being movable in a forward direction. The work machine includes a frame, an undercarriage supporting the frame and at least one ground-engaging track. The suspension assembly includes a torsion assembly having an axle, a torsion bar adapted to be fixedly coupled to the frame, and an axle arm coupled at one end to the axle and at an opposite end thereof to the torsion bar. A locking arm has a first end and a second end, where the first end is coupled to the axle arm. A hydraulic actuator is coupled to the second end of the locking arm. The hydraulic actuator is operably controlled between a locked configuration and an unlocked configuration. In the unlocked configuration, the axle arm is pivotable relative to the frame, and in the locked configuration the axle arm is restricted from pivoting relative to the frame.

A vehicle control device includes a spring mechanism configured to connect a sprung member and an unsprung member of a vehicle, generate a spring force according to a relative displacement between the sprung member and the unsprung member, and be able to variably control the spring force, and a damping mechanism configured to connect the sprung member and the unsprung member, generate a damping force for damping a relative motion between the sprung member and the unsprung member, and be able to variably control the damping force, wherein the spring mechanism and the damping mechanism are controlled based on a first physical quantity relating to a sprung vibration of the vehicle and a second physical quantity relating to an unsprung vibration of the vehicle.

A system and method that may inspect an upcoming road segment and use that information to control certain aspects of a vehicle suspension system. In an exemplary embodiment, several cameras are used to evaluate an upcoming road segment and to provide road information to a control module so that damping and/or other aspects of an active or semi-active suspension system can be controlled in a feed-forward manner. Because the vehicle suspension system assesses a segment of the road that is ahead of the vehicle, as opposed to one currently being encountered by the vehicle, the system may improve ride performance by anticipating and preparing for road conditions before they are actually encountered.