Abstract: A method for monitoring a vehicle control. Correction values are determined via a correction function. The characteristic of the correction values is recorded and extrapolated. An error is forecast based on the extrapolated correction values.

Abstract: A method and a device for monitoring a signal, in particular a pressure signal that characterizes the pressure differential at the input and output of an exhaust after-treatment system, are described. Errors are recognized on the basis of the occurrence of oscillations in the sensor signal.

Abstract: A method for checking at least three sensors which detect a measured quantity in the area of an internal combustion engine. A measure of the sensor signal of the particular sensor to be checked is compared to a reference signal which is obtained from at least one part of the sensor signals of the sensors to be checked. A sensor is recognized as defective on the basis of a comparison of the measure for the sensor signal with the reference signal. The reference signal is formed, for example, from a mean value of a measure of the sensor signals of at least one part of the sensors to be checked, the individual sensor signals being weighted using correction factors in forming the mean value. The sensors are temperature sensors or pressure sensors, for example, which may be situated in an intake area of the internal combustion engine, on the internal combustion engine itself, in an exhaust area, and/or in an exhaust gas treatment system.

Abstract: A method and a device for monitoring an exhaust gas aftertreatment system, in particular an oxidation catalytic converter, are described. An error is recognized if an operating parameter does not change as expected, when a particular operating state is present.

Abstract: A method for checking at least three sensors which detect a measured quantity in the area of an internal combustion engine. A measure of the sensor signal of the particular sensor to be checked is compared to a reference signal which is obtained from at least one part of the sensor signals of the sensors to be checked. A sensor is recognized as defective on the basis of a comparison of the measure for the sensor signal with the reference signal. The reference signal is formed, for example, from a mean value of a measure of the sensor signals of at least one part of the sensors to be checked, the individual sensor signals being weighted using correction factors in forming the mean value. The sensors are temperature sensors or pressure sensors, for example, which may be situated in an intake area of the internal combustion engine, on the internal combustion engine itself, in an exhaust area, and/or in an exhaust gas treatment system.

Abstract: A method and a device for controlling an internal combustion engine, in which a first quantity characterizing the flow resistance of a first component of the exhaust-gas treatment system is determined based on a first measured quantity and a volumetric-flow quantity, and the volumetric-flow quantity is determined based on a second quantity which characterizes the flow resistance of a second component of the exhaust system.

Abstract: A device and a method for monitoring a sensor for an exhaust-gas after-treatment system, in particular a temperature sensor. In specified operating states, a first signal from the first sensor to be monitored may be compared to a second signal from a second sensor. Errors may be detected when at least the two signals differ from one another by more than a value.

Abstract: A method and a device for controlling an internal combustion engine having an exhaust gas aftertreatment system are described. A quantity which characterizes the state of the exhaust gas aftertreatment system is determined based on at least one characteristic operating quantity of the internal combustion engine.

Abstract: A method for determining the loading of a particle filter, in particular in a particle filter for filtering the exhaust gases of an internal combustion engine. A variable characterizing the flow resistance of the particle filter is determined on the basis of the temperature in the particle filter and the pressure in the particle filter, and a conclusion is drawn regarding the loading of the particle filter on the basis of the flow resistance.

Abstract: A device and a method for monitoring a sensor for an exhaust-gas aftertreatment system, in particular a temperature sensor, are described. In specified operating states a first signal from the first sensor to be monitored is compared to a second signal from a second sensor. Errors are detected when at least the two signals differ from one another by more than a value.

Abstract: A method and a device for controlling an internal combustion engine are described. The internal combustion engine includes an exhaust-gas aftertreatment system. The control and/or regulation of the air quantity supplied to the internal combustion engine are/is implemented as a function of a variable characterizing the exhaust-gas aftertreatment system.

Abstract: A method and a device for monitoring an exhaust gas aftertreatment system, in particular an oxidation catalytic converter, are described. An error is recognized if an operating parameter does not change as expected, when a particular operating state is present.

Abstract: A method and a device for monitoring a signal, in particular a pressure signal that characterizes the pressure differential at the input and output of an exhaust after-treatment system, are described. Errors are recognized on the basis of the occurrence of oscillations in the sensor signal.

Abstract: A method and a device for controlling an internal combustion engine, in which a first quantity characterizing the flow resistance of a first component of the exhaust-gas treatment system is determined based on a first measured quantity and a volumetric-flow quantity, and the volumetric-flow quantity is determined based on a second quantity which characterizes the flow resistance of a second component of the exhaust system.

Abstract: A method and a device for controlling an internal combustion engine having an exhaust gas aftertreatment system are described. A quantity (B) which characterizes the state of the exhaust gas aftertreatment system is determined based on at least one characteristic operating quantity of the internal combustion engine.