A method to control a road vehicle with steering rear wheels when driving along a curve. The control method comprises the steps of: determining an actual attitude angle of the road vehicle; determining a desired attitude angle; and changing the steering angle of the rear wheels based on the difference between the actual attitude angle and the desired attitude angle.

A damping control system for a vehicle having a suspension located between a plurality of ground engaging members and a vehicle frame includes at least one adjustable shock absorber having an adjustable damping profile.

A method of and system for detecting absolute acceleration along various axes relative to a desired movement vector while moving relative to a gravity source includes steps of determining a vertical acceleration, perpendicular to the desired movement vector and substantially anti-parallel to a gravitational acceleration due to the gravity source; determining a longitudinal acceleration, parallel to the desired movement vector and to output at vertical acceleration signal and a longitudinal acceleration signal; determining an inclination of the desired movement vector relative to the gravitational acceleration; and processing the vertical acceleration signal, the longitudinal acceleration signal, and the inclination signal to produce an absolute vertical acceleration signal and an absolute longitudinal acceleration signal.

A sensing system for a vehicle includes at least one radar sensor disposed at the vehicle and having a field of sensing exterior of the vehicle. The at least one radar sensor includes an array of multiple transmitting antennas and multiple receiving antennas. A control is responsive to the outputs of the at least one radar sensor and determines the presence of one or more other vehicles exterior the vehicle and within the field of sensing of the at least one radar sensor. Lane markers may be determined via a vision system of the equipped vehicle. The control determines range and relative lane position of a detected other vehicle relative to the equipped vehicle and determined lane markers, and the sensing system may anticipate a lane change, cut-in or merge intent of the detected other vehicle.

A method of operating a motor vehicle with a chassis system comprising at least two, preferably four vibration damper includes carrying out a body control and a wheel control with the chassis system, and controlling the energy supply for the chassis system via an energy control arrangement. A motor vehicle performing the method is also disclosed.

A steering control device which calculates a steering control amount for controlling steering of a vehicle includes a basic control amount calculation unit which calculate a basic control amount, and a steering control amount arithmetic unit which calculates the steering control amount with reference to self-aligning torque caused by a motion state amount of the vehicle and the basic control amount.

A method of and system for detecting absolute acceleration along various axes relative to a desired movement vector while moving relative to a gravity source includes steps of determining a vertical acceleration, perpendicular to the desired movement vector and substantially anti-parallel to a gravitational acceleration due to the gravity source; determining a longitudinal acceleration, parallel to the desired movement vector and to output at vertical acceleration signal and a longitudinal acceleration signal; determining an inclination of the desired movement vector relative to the gravitational acceleration; and processing the vertical acceleration signal, the longitudinal acceleration signal, and the inclination signal to produce an absolute vertical acceleration signal and an absolute longitudinal acceleration signal.

A method of and system for detecting absolute acceleration along various axes relative to a desired movement vector while moving relative to a gravity source includes steps of determining a vertical acceleration, perpendicular to the desired movement vector and substantially anti-parallel to a gravitational acceleration due to the gravity source; determining a longitudinal acceleration, parallel to the desired movement vector and to output at vertical acceleration signal and a longitudinal acceleration signal; determining an inclination of the desired movement vector relative to the gravitational acceleration; and processing the vertical acceleration signal, the longitudinal acceleration signal, and the inclination signal to produce an absolute vertical acceleration signal and an absolute longitudinal acceleration signal.

A method of controlling the stability of a vehicle. The method comprises acquiring an actual value of a vehicle stability parameter and determining a difference between the actual parameter value and a target value of that stability parameter. The method further comprises applying a damper intervention threshold to the difference between the actual and target parameter values, the damper intervention threshold representing a magnitude of the difference between the actual and target parameter values at which damper intervention may be utilized to mitigate a potential over-steer or under-steer condition. The method still further comprises predicting the occurrence of an over-steer or under-steer condition when the damper intervention threshold is exceeded.

Control system, which is adapted for application in a vehicle and intended to recognise vehicles driving in front on the basis of environmental data which are obtained from at least one environmental sensor (110) disposed on the vehicle. The at least one environmental sensor (110) is adapted to provide an electronic controller (200) of the control system with the environmental data which reflect the area (115) in front of the vehicle. The control system is at least adapted and intended to detect another vehicle (alter) participating in traffic in front of the own vehicle (ego) with the at least one environmental sensor (110) during a predetermined time period or continuously and to recognise a position change of the other vehicle (alter). If a position change of the other vehicle (alter) is recognised, a signal (255) is output, which is suitable to warn a driver of the own vehicle (ego) of an irregularity in the road surface and/or to adjust a speed and/or a vehicle setting of the own vehicle (ego).