Abstract: A method is for operating a sensor. Influences on the sensor are detected and compensated for by an artificial neural network (ANN). The influences on the sensor are described by information from surroundings of the sensor, and an output signal of the sensor is linked in the ANN to further data representing the information from the surroundings of the sensor, such that a compensated output signal is obtained.

Abstract: A vehicle wheel monitoring device includes a tire pressure monitoring unit, a tire pressure sensor unit disposed at a wheel of the vehicle and a brake pad wear sensor unit disposed at a wheel of the vehicle. The brake pad wear sensor unit includes a brake pad wear sensor and a wireless transmitter configured to receive the signal emitted from the brake pad wear sensor and wirelessly transmit it to the tire pressure monitoring unit. An energy harvesting device is configured to convert energy derived from an external source into electrical power, and to provide the electrical power to the brake pad wear sensor unit and the transmitter. The brake pad wear sensor unit and the tire pressure sensor unit are monitored by the tire pressure monitoring unit.

Abstract: A method for generating a signal representing an impact intensity including the steps: receiving at least three signals, which represent respectively accelerations in different spatial directions; calculating a direction-independent variable from the three signals; ascertaining an integrated measurand of the direction-independent variable over a time window; generating a signal representing an impact intensity on the basis of the ascertained integrated measurand.

Abstract: A vehicle wheel monitoring device includes a tire pressure monitoring unit, a tire pressure sensor unit disposed at a wheel of the vehicle and a brake pad wear sensor unit disposed at a wheel of the vehicle. The brake pad wear sensor unit includes a brake pad wear sensor and a wireless transmitter configured to receive the signal emitted from the brake pad wear sensor and wirelessly transmit it to the tire pressure monitoring unit. An energy harvesting device is configured to convert energy derived from an external source into electrical power, and to provide the electrical power to the brake pad wear sensor unit and the transmitter. The brake pad wear sensor unit and the tire pressure sensor unit are monitored by the tire pressure monitoring unit.

Abstract: A method for generating a signal representing an impact intensity including the steps: receiving at least three signals, which represent respectively accelerations in different spatial directions; calculating a direction-independent variable from the three signals; ascertaining an integrated measurand of the direction-independent variable over a time window; generating a signal representing an impact intensity on the basis of the ascertained integrated measurand.

Abstract: A sensor device for a vehicle at least one sensor module and at least one connecting line. The sensor module includes at least one sensor. The connecting line is connected to the sensor module and configured to electrically contact the sensor module. The at least one connecting line is configured as a conductor foil. The at least one sensor module is disposed on the conductor foil and is encapsulated by an overmold. The overmold at least partially envelops the conductor foil. The conductor foil includes a two-wire line configured to contact the at least one sensor according to a peripheral sensor interface.

Abstract: A device for activating personal protection devices activates the personal protection devices as a function of a delay between a first signal from an impact sensor system situated in the vehicle front and a second signal from a centrally located acceleration sensor system, the first and second signals each identifying an impact.

Abstract: A device for recognizing a pole crash, situated in a vehicle. The pole crash is determined on the basis of an impact velocity, which is recognized by an environment sensor, and an acceleration, which occurs in upon impact and is recognized by an impact sensor. In particular, the time between the impact and the impact object hitting the engine block is determined to identify a pole crash.

Abstract: An apparatus for protecting a vehicle occupant that triggers a restraint means as a function of the vehicle occupant's motion in the context of an accident. The motion is predicted in that by using an occupant detection system and an impact sensor system, a height of the center of mass of the vehicle occupant and a force action on the vehicle occupant are determined, and the motion of the vehicle occupant is thereby predicted.

Abstract: A method and device for controlling the triggering of passive safety systems, such as airbags in vehicles, in response to criteria being detected that are to be interpreted as the existence of a dangerous impact. One of these criteria is the impact speed. A measure of the impact speed is ascertained in that first the instant of the impact onset of the vehicle against an obstacle is detected and then the instant is detected when the acceleration of the rigid support structure of the vehicle transitions from light to heavy acceleration. The time difference between the impact-onset instant and the acceleration-transition instant is a measure of the impact speed. To ascertain the instants, integral values of acceleration signals from acceleration sensors may be utilized and analyzed in an appropriate manner. The method and device are applicable, in particular, in the discrimination of impact processes at low driving speeds.

Abstract: A method for triggering restraint devices in which at least one collision-indicating signal is generated. From the moment that a collision is detected, temporally defined crash phases are specified, and, for every crash phase, a crash type and a crash severity are determined from the signal. The appropriate restraint devices are triggered as a function of the crash severity and/or the crash type.

Abstract: A device for activating personal protection devices activates the personal protection devices as a function of a delay between a first signal from an impact sensor system situated in the vehicle front and a second signal from a centrally located acceleration sensor system, the first and second signals each identifying an impact.

Abstract: A method of determining a triggering decision for restraint devices in a vehicle, a triggering decision being determined as a function of a float angle, a vehicle sliding velocity and the vehicle tilt angle. The vehicle tilt angle is characterized here by a vehicle lateral acceleration and/or a vehicle sliding velocity. A passenger detection system may be used in addition.

Abstract: A method for determining the trigger time for restraint means in a vehicle is provided, where, by forming two time windows for the speed reduction in a crash, the slope of the speed reduction in the respective time windows and the position of the time windows are determined. In this manner, an exact determination of the trigger time in conjunction with a crash time and the crash speed may be achieved, which are ascertained with the aid of a pre-crash sensory system.

Abstract: A method for triggering a restraining device in a motor vehicle is proposed, where a crash severity and an occupant categorization are implemented independently of each other. By linking the crash severity with the occupant categorization, the restraining device required for the vehicle occupants is triggered. The crash severity is subdivided in accordance with the triggering events frontal impact, side impact, rear impact or vehicle roll-over. A decisive advantage is that the crash severity is implemented independently of the occupant categorization.

Abstract: A method for triggering restraint devices is described in which various algorithms determine values as a function of at least one sensor signal, which are combined to form a measure, and in which the restraint devices are triggered as a function of the measure influenced by at least one signal from a passenger-compartment sensor system.

Abstract: A device is provided for triggering a restraint means, e.g., a two-stage deployment airbag, the device triggering a second airbag stage as a function of a criterion, derived from the acceleration signal, and the closing velocity. The criterion is, in particular, the deployment time for the first airbag stage. As a function of the deployment time of the first airbag stage and the closing velocity, triggering classes are established which in turn define the deployment time for the second airbag stage.

Abstract: A device for recognizing a pole crash, situated in a vehicle. The pole crash is determined on the basis of an impact velocity, which is recognized by an environment sensor, and an acceleration, which occurs in upon impact and is recognized by an impact sensor. In particular, the time between the impact and the impact object hitting the engine block is determined to identify a pole crash.

Abstract: An apparatus for protecting a vehicle occupant that triggers a restraint means as a function of the vehicle occupant's motion in the context of an accident. The motion is predicted in that by using an occupant detection system and an impact sensor system, a height of the center of mass of the vehicle occupant and a force action on the vehicle occupant are determined, and the motion of the vehicle occupant is thereby predicted.

Abstract: A method for triggering restraint devices in which at least one collision-indicating signal is generated. From the moment that a collision is detected, temporally defined crash phases are specified, and, for every crash phase, a crash type and a crash severity are determined from the signal. The appropriate restraint devices are triggered as a function of the crash severity and/or the crash type.