A method and an arrangement are provided for detecting the measurement quantity in a vehicle, which is characterized by at least one extreme value. The measurement quantity is evaluated for the control in combination with a vehicle while considering the extreme value. This extreme value is adapted. The adaptation is only enabled under pregiven conditions. When these conditions are present, the method and arrangement proceed on the premise of a measurement quantity which is uninfluenced by factors which make this measurement quantity incorrect.

A system to control a chassis vibration damping device with a variable damping characteristic in a vehicle with the use of a single acceleration sensor and a subsequent processing of the signal by means of filters and of an additional signal of a primary detector, whereby the processing corresponds to a breakdown of the acceleration signal into its individual components which relate to the longitudinal, transverse and vertical axes of the vehicle.

A controllable secondary suspension system (20) for vehicle cabs (18) and the like which flexibly suspends and controls movement of the vehicle's cab (22) relative to the vehicle's frame (24). The system (20) includes at least one flexible support (26), which are preferably two spaced apart air springs flexibly suspending the cab (22) relative to the frame (24), at least one controllable fluid damper, and preferably two spaced-apart controllable fluid dampers, such as Magnetorheological (MR) fluid dampers (28, 28'), interconnected between the cab (22) and the frame (24). In one aspect, the system (20) may include at least one sensor, such as a relative position sensor (30), for providing relative vibration information between the cab (22) and the frame (24), and a controller (36) for processing the relative vibration information to determine current to be supplied to the controllable fluid damper (28) to control the degree of damping thereof. Signals from additional sensors, such as a speed sensor (32), steering angle sensor (34), brake sensor (46), throttle position sensor (48), and vertical and lateral acceleration sensors (40, 44) may be used to enhance control. Roll, pitch, lurch and ride may be simultaneously or independently controlled.