Systems, computer-implemented methods, and computer program products relating to jerk of a vehicle damper are provided. According to an embodiment, a system can comprise a memory that stores computer executable components and a processor that executes the computer executable components stored in the memory. The computer executable components can comprise a control signal determination component that determines movement of a front damper of a vehicle, an amount of time between a first time when the movement of the front damper occurs and a second time when a rear damper of the vehicle will experience a condition which caused the movement of the front damper, and a front damping coefficient of the front damper, and determines a rear damping coefficient of the rear damper configured to mitigate rear suspension impact with an end stop caused by rear suspension compression or rebound based on the movement of the front damper, the amount of time, and the front damping coefficient, and a damper adjustment component that adjusts the rear damper to the rear damping coefficient.

Systems and methods for adjusting a rear damping coefficient to control to jerk of a rear damper of a vehicle based on movement of a front damper of the vehicle, an amount of time between a first time when the movement of the front damper occurs and a second time when the rear damper of the vehicle is expected experience a condition which caused the movement of the front damper, and a front damping coefficient of the front damper.

The present invention relates to a method for controlling a suspension system of a motor vehicle comprising a vehicle body and a plurality of wheel pairs (2a/2b, 2c/2d), wherein the suspension system comprises spring members arranged for resilient connection between the wheels of the vehicle and said vehicle body. The method comprises the step of: monitoring at least one first parameter indicating braking of thee motor vehicle, and when said parameter indicates braking of the motor vehicle, preventing compression of the spring members of at least one wheel pair (2a/2b, 2c/2d) of the motor vehicle for counteracting a rotation of the vehicle body in connection to braking.

A vehicle may include a vehicle body, a plurality of wheels, an active suspension system operatively coupled to the plurality of wheels and the vehicle body, and at least one processor configured to control the active suspension system. The at least one processor may be configured to determine a first force command based on a vehicle body parameter, determine a second force command based on the vehicle body parameter and a suspension parameter, determine a blend ratio based on the first force command, determine a third force command based at least partly on the blend ratio, the first force command, and the second force command, and command the at least one actuator to apply force between at least one of the plurality of wheels and the vehicle body based at least partly on the third force command.