Abstract: A module for providing control signals for a brake system of a vehicle which has a supply source, including: at least one interface to be connected to a compressed-air source; at least one interface to transmit the control signals to at least one processing unit for the purposes of generating brake pressures; wherein the module is configured to be provided with a supply by a further supply source. Also described are a related redundancy system, an electronically controlled brake system, and a method.

Abstract: A method for defining at least one characteristic curve which, in a pressure-actuated brake system of a vehicle, represents a relationship between a brake pressure and a brake demand), and for operating a pressure-actuated brake system of a vehicle, in which at least one brake cylinder can be supplied with a pressurized medium under a brake pressure, and in which the brake pressure is formed based on at least one such characteristic curve, and to a pressure-actuated brake system of a vehicle in which at least one brake cylinder can be supplied with a pressurized medium under a brake pressure.

Abstract: A method for the computer-aided estimation or determination of a value for the total mass of a vehicle system, comprising a towing vehicle and possibly at least one trailer coupled to the towing vehicle, wherein physical data relating to the vehicle system, which change depending on a load of the vehicle system and a number of trailers coupled to the towing vehicle are captured, and a first value for the total mass of the vehicle system is estimated or determined as part of a first estimation or determination at a first point in time, in particular irrespective of the physical data, wherein the first value is retained as a valid value for the total mass of the vehicle system or is used as an initial value for a further determination or estimation of the total mass of the vehicle system if it has been identified.

Abstract: An electronically controlled pneumatic operating brake system, having a backup control pressure for a pneumatic fall back level, wherein the backup control pressure is generated from a compressed air supply which is independent from two compressed air supplies for a front axle circuit and a rear axle circuit. This assures additional pneumatic redundancy and facilitates omitting a pneumatic channel in a foot brake module.

Abstract: An apparatus for generating non-electric control signals for a brake system, which has a first supply source, including: at least one interface configured to be connected to a pressure accumulator; and at least one interface to output the control signals; in which the apparatus is configured to be supplied via a second supply source. Also described are a related module and an electronic brake system.

Abstract: A brake system for a utility vehicle includes: an electronic brake controller unit, a pneumatic parking brake circuit with at least one spring energy cylinder, a parking brake valve to control a parking brake pressure in the parking brake circuit, and at least one 3/3-way valve arranged in a pneumatic line of the parking brake circuit between the parking brake valve and at least one of the spring energy cylinders. The 3/3-way valve is actuable by the electronic brake control unit, and is configured to ventilate the pneumatic line between the 3/3-way valve and at least one of the spring energy cylinders to a predefined pressure, so as to cause the at least one of the spring energy cylinders to allow a brake, which is assigned to the spring energy cylinder, to pass into engagement.

Abstract: A method for defining at least one characteristic curve which, in a pressure-actuated brake system of a vehicle, represents a relationship between a brake pressure and a brake demand), and for operating a pressure-actuated brake system of a vehicle, in which at least one brake cylinder can be supplied with a pressurized medium under a brake pressure, and in which the brake pressure is formed based on at least one such characteristic curve, and to a pressure-actuated brake system of a vehicle in which at least one brake cylinder can be supplied with a pressurized medium under a brake pressure.

Abstract: A method for defining at least one characteristic curve of a pressure-medium-actuated brake system of a vehicle, the curve representing a relationship between a brake pressure and a brake demand, and for operating a pressure-actuated brake system of a vehicle, in which at least one brake cylinder can be supplied with a pressurized medium under a braking pressure, and in which the braking pressure is formed based on at least one such characteristic curve, and to a pressure-actuated brake system of a vehicle in which at least one brake cylinder can be supplied with a pressurized medium under a braking pressure.

Abstract: The invention relates to electropneumatic equipment (1) of a vehicle comprising an electropneumatic parking brake device (2) having an electropneumatic parking brake control unit (EPB). According to the invention, the electropneumatic parking brake control unit (EPB) is supplied with electric energy by only two electric energy sources 52,54) which are independent of each other, a first electric energy source (52) and a second electric energy source (54).

Abstract: A system for controlling at least partially autonomous operation of a motor-vehicle, including: a sensor-device with which environment-data characterizing the environment of the motor vehicle is generated; an electronic-main-control-unit, which receives the environment-data from the sensor-device, and, depending on the data, inputs adjusting-commands into at least one device/actuator, which device/actuator is used in the at least partially autonomous operation of the motor-vehicle; a first electronic-backup-control-unit, which, for a fault/failure of the electronic-main-control-unit, receives the data from the sensor-device, and, depending on the data, inputs adjusting-commands into the at least one device/actuator, which device/actuator is used in the at least partially autonomous operation of the motor-vehicle; and a second electronic-backup-control-unit, which, for a fault/failure of the electronic-main-control-unit and the first electronic-backup-control-unit, receives the data from the sensor-device, and

Abstract: A system for identifying a change in a load of a commercial vehicle, the commercial vehicle including an electronic stability program with at least one inertial sensor and a control unit for estimating a mass of the commercial vehicle and/or the load, including: a device for querying sensor data of the at least one inertial sensor; and an evaluation unit which is configured to identify the load change if the queried sensor data exceed a variation range, and inform the control unit of the identified load change to allow the load change to be taken into account in the estimation of the mass. Also described are a related commercial vehicle, method, and computer readable medium.

Abstract: A brake system for a vehicle for acquiring at least one status variable for controlling the brake system, including: a primary control unit for controlling the brake system by at least one actuator and taking into account the at least one status variable; and a redundancy control unit for controlling the brake system by part of the at least one actuator and taking into account part of the at least one status variable, in which the brake system is configured such that, when at least one switch-over condition is satisfied, the brake system is no longer controlled exclusively by the primary control unit and is at least partially controlled by the redundancy control unit. Also described are a related method and a computer readable medium.

Abstract: A method, device and control system for controlling vehicle movement, including: reading-in the specification data from an interface with a generating apparatus, the vehicle having a vehicle movement control system having the generating apparatus for generating specification data for the vehicle movement, at least one providing apparatus for providing vehicle property(s) and an actuator element for influencing the vehicle movement, the specification data representing a driving corridor/speed profile for a route section, and the at least one vehicle property from an interface with the at least one providing apparatus; determining vehicle guide data using the specification data and the vehicle property(s), the guide data being for controlling the vehicle movement while complying with the specification data; acquiring at least one manipulated variable for the at least one actuator element using the guide data; and outputting the at least one manipulated variable to an interface with the actuator element.

Abstract: An apparatus for generating non-electric control signals for a brake system, which has a first supply source, including: at least one interface configured to be connected to a pressure accumulator; and at least one interface to output the control signals; in which the apparatus is configured to be supplied via a second supply source.

Abstract: A method and related apparatus for determining an orientation of a sensor unit in a vehicle, the sensor unit having at least one acceleration sensor, including: capturing a first sensor signal from the acceleration sensor in an acceleration-free state of the vehicle; capturing a second sensor signal from the acceleration sensor in response to a linear acceleration of the vehicle; and ascertaining the orientation of the sensor unit relative to the vehicle based on the first sensor signal and the second sensor signal.

Abstract: A system for controlling at least partially autonomous operation of a motor-vehicle, including: a sensor-device with which environment-data characterizing the environment of the motor vehicle is generated; an electronic-main-control-unit, which receives the environment-data from the sensor-device, and, depending on the data, inputs adjusting-commands into at least one device/actuator, which device/actuator is used in the at least partially autonomous operation of the motor-vehicle; a first electronic-backup-control-unit, which, for a fault/failure of the electronic-main-control-unit, receives the data from the sensor-device, and, depending on the data, inputs adjusting-commands into the at least one device/actuator, which device/actuator is used in the at least partially autonomous operation of the motor-vehicle; and a second electronic-backup-control-unit, which, for a fault/failure of the electronic-main-control-unit and the first electronic-backup-control-unit, receives the data from the sensor-device, and

Abstract: An electropneumatic-equipment of a vehicle, including: a) an electropneumatic-parking-brake-device (EPBD) having an electropneumatic-parking-brake-control-device (EPBCD), a compressed-air-supply and pneumatic-spring-type brake-cylinder, b) the EPBCD has an electronic-parking-brake-control-unit (EPBCU), a first valve-device including a first solenoid-valve and valve-pressure controlled thereby, the first solenoid-valve being controlled by the EPBCU, c) a pneumatic-control-input of the pressure-controlled valve is connected to the first solenoid-valve and a working-output of the pressure-controlled valve is connectable to the spring-type brake-cylinder, d) the first solenoid-valve is connected to the compressed-air-supply and pressure-sink, e) the first solenoid-valve is configured such that it connects the pneumatic-control-input of the pressure-controlled valve to the compressed-air-supply/pressure-sink, f) the pressure-controlled valve is configured such that for deaeration of its pneumatic-control-input, it

Abstract: A module for providing control signals for a brake system of a vehicle which has a supply source, including: at least one interface to be connected to a compressed-air source; at least one interface to transmit the control signals to at least one processing unit for the purposes of generating brake pressures; wherein the module is configured to be provided with a supply by a further supply source. Also described are a related redundancy system, an electronically controlled brake system, and a method.

Abstract: A method for preventing a rollover of a vehicle or a tractor-trailer combination in curves, by counteracting a rollover risk of the vehicle by independent regulating interventions, performed without action by a vehicle driver, in a regulation system that actuates the drive and/or the brakes of the vehicle, the method including: capturing the current driving situation and the current load of the vehicle or the tractor-trailer combination as to the current driving position of the vehicle or the tractor-trailer combination, ascertaining a maximum admissible transverse acceleration at the current driving position, at which maximum admissible transverse acceleration the vehicle or the tractor-trailer combination just does not roll over, as to the current driving situation and the current load of the vehicle or the tractor-trailer combination. Also described is a related apparatus for preventing a rollover of a vehicle or a tractor-trailer combination in curves.

Abstract: A method, device and control system for controlling vehicle movement, including: reading-in the specification data from an interface with a generating apparatus, the vehicle having a vehicle movement control system having the generating apparatus for generating specification data for the vehicle movement, at least one providing apparatus for providing vehicle property(s) and an actuator element for influencing the vehicle movement, the specification data representing a driving corridor/speed profile for a route section, and the at least one vehicle property from an interface with the at least one providing apparatus; determining vehicle guide data using the specification data and the vehicle property(s), the guide data being for controlling the vehicle movement while complying with the specification data; acquiring at least one manipulated variable for the at least one actuator element using the guide data; and outputting the at least one manipulated variable to an interface with the actuator element.