Provided is a vehicle cruise control device 10 that performs trajectory control for causing a vehicle to travel along a traveling road by steering vehicle wheels. The vehicle cruise control device includes: a roll control device (active stabilizers 56 and 58, etc.) configured to control a lateral-direction inclination angle of a vehicle body; and an inclination angle estimation device (a roll rate sensor 72, a stroke sensor 74i, etc.) configured to determine a lateral-direction inclination of a traveling road. When the trajectory control is executed in a situation in which the vehicle travels on a laterally inclined traveling road (S150, S250, S300, S500), the lateral-direction inclination angle of the vehicle body is controlled by the roll control device so that the lateral-direction inclination angle of the vehicle body is greater than 0 and smaller than the lateral-direction inclination angle of the traveling road (S450).

A shock absorber for a wheel suspension of a vehicle, wherein the shock absorber is configured to absorb wheel steering forces. The shock absorber has an outer tube with a plunger piston movable in the outer tube in and against a longitudinal direction of the outer tube for damping a movement when changing a length of the shock absorber in a first direction, and a piston provided with a radial seal for damping a movement when changing the length of the shock absorber in a second direction opposite the first direction.

Aspects of the present invention relate to a control system (100, 200) for a vehicle suspension system (300) of a vehicle (600). The control system comprises one or more controllers. The control system is configured to: determine that a first subsystem (302) of the plurality of connected subsystems is operating in a de-rated mode in response to a subsystem operating condition of the first subsystem being outside a predetermined operating window; and in dependence on determining that the first subsystem is operating in the de-rated mode, transmit a de-rate indicator to a further subsystem (304, 306) of the plurality of connected subsystems, wherein the de-rate indicator is configured to: indicate, to the further subsystem, that the first subsystem is operating in a de-rated mode; and cause the further subsystem to operate in a de-rate response mode, wherein the operation of the vehicle suspension system with the first subsystem operating in the de-rated mode and the further subsystem operating in the de-rate response mode provides a higher level of vehicle control in comparison to the vehicle suspension system operating with the first subsystem operating in the de-rated mode without the further subsystem operating in the de-rate response mode.

A biaxially extensible and retractable wheel-leg mechanism for a vehicle includes a pantograph coupling limb assembly with a plurality of coupling limbs which are coupled together in an articulated manner. A wheel hub motor and a steering actuator operatively connected thereto are arranged on a first coupling limb, and the wheel hub motor is designed to rotate a vehicle wheel drivingly connected to the wheel hub motor. The steering actuator is designed to set a steering angle of the wheel of the vehicle. The wheel-leg mechanism additionally comprises a rotary drive for positioning the coupling limb, said rotary drive being drivingly arranged on a first joint between a second coupling limb and a third coupling limb. The rotary drive is designed to set a relative angular position between the coupling limbs coupled together in an articulated manner such that the position of the wheel hub motor relative to the rotary drive can be adjusted in the longitudinal direction and/or in the vertical direction of the vehicle.