Abstract: The invention relates to a method for creating a current situation depiction, particularly a current city-center situation depiction, in which environment data and/or map data and/or position data describing a locally bounded situation are sent to a database by a multiplicity of vehicles using vehicle-to-X communication means. The environment data are captured by means of ambient sensors and/or vehicle sensors, the map data are read from a digital memory, and the position data are determined at least by means of a global satellite position system. The method is distinguished in that the environment data and/or the map data and/or the position data are continually merged with a situation depiction that is already present in the database to form a current situation depiction, and both the database and the situation depiction are fixed in location. The invention also relates to an appropriate system.

Abstract: The invention relates to a distance-determining method by means of a camera sensor, wherein a distance between the camera sensor and a target object is determined on the basis of camera information, which method is defined by the fact that the camera information comprises a spatial extent of the region covered by the target object on a light sensor in the camera sensor.

Abstract: An interface device having a first connection to a vehicle communication unit which is designed to carry out a vehicle-to-environment communication is described, the interface device having a second connection to an infrastructure unit and a computing unit which is designed to convert the signals between the first and second connections. In addition, a vehicle communication unit equipped with the interface device and a use of a vehicle communication unit are described.

Abstract: By reducing the packet size for C2X data transmission, it is possible to increase the transmission range and the number of transmitted data packets per unit time. By way of example, only component information items are transmitted, which can be converted into a full information item by the receiver using supplementary information items that come from a different source. In order to obtain the full information items, it is possible to utilize firstly transmission properties of the radio medium and secondly common information bases as determined by the system.

Abstract: An assessment module for assessing data from a digital map for a vehicle. The assessment is made on the basis of a piece of dedicated map quality information and measurement data from an ambient sensor system in the vehicle. The connected driver assistance systems and safety systems in the vehicle use the digital map data on the basis of the assessment.

Abstract: A method for checking communication messages in vehicle-to-environment communication, a communication message being received and evaluated, and to a receiver suitable for carrying out the method. In order to check a communication message, a feature obtained from the content of the communication message is compared to a feature that corresponds to said feature, the corresponding feature being obtained by a sensory system that is independent of the vehicle-to-environment communication.

Abstract: A method for filtering data in a tire pressure monitoring system for a vehicle includes the steps of: recording a variable that is dependent on the tire radius for a wheel of the vehicle, and filtering the variable that is dependent on the tire radius on the basis of driving dynamics data and/or a global navigation satellite system signal, called GNSS signal below. A vehicle control system and a vehicle having the control system are also described.

Abstract: A method for operating a communication system in wireless vehicle-to-environment communication includes: transmitting, using the communication system, different information as signals on various radio channels in accordance with its content, the communication system having at least two reception paths each having at least one separate antenna and an associated separate receiver for receiving the transmitted signals; and changing over the communication system between two modes of operation when a changeover criterion is satisfied, such that the at least two reception paths receive signals on a different radio channel in a first mode of operation and receive signals on the same radio channel in a second mode of operation.

Abstract: A method and system for preventing a following vehicle from driving up on a vehicle driving directly in front. The following vehicle detects a behavior of the vehicle driving directly in front by sensor information and a behavior of at least one vehicle driving in front by vehicle-to-X information. The vehicle-to-x information requests an intervention in the steering of the following vehicle by a steering angle to be set and/or an intervention in the braking of the following vehicle by a deceleration to be set in order to prevent driving up on the vehicle, and wherein the steering angle and/or the deceleration requested by the vehicle-to-X information is greater than a steering angle and/or a requested deceleration requested by the sensor information and/or driver inputs. The intervention is only carried out if the steering angle and/or the deceleration is confirmed by sensor information and/or driver inputs.

Abstract: The invention relates to a method for the communication signal-based position determination of objects in road traffic, in which at least one data transporting communication signal is wirelessly transmitted from at least one sender (217, 218, 219, 220, 221, 34) and is reflected at least proportionally as a reflection signal on at least one object (211, 212, 213, 214, 215, 216, 35), wherein the at least one communication signal and the reflection signal are received by a receiver (222, 33), and wherein the of at least one sender (217, 218, 219, 220, 221, 34). The method is characterized in that a propagation time difference of the communication signal and the reflection signal is determined by the received (222, 33). The invention further relates to a corresponding device (100) and to the use thereof.

Abstract: The invention describes a controller for data processing in bidirectional adhoc-network radio communication with a computation unit for data processing and ports for data input and data output. The computation unit is set up to process the data according to the ITS standard, wherein the data processing is limited to processing steps of the ITS Facility layer, which performs content-oriented evaluation and/or conditioning of the data which are received or need to be sent by means of the bidirectional adhoc-network radio communication, and a first wideband communication port is provided at least for receiving the data from an ITS communication unit for the purpose of bidirectional adhoc-network radio communication.

Abstract: A method and device for detecting the presence of objects in a passenger compartment of a vehicle, wherein electromagnetic signals are radiated into the passenger compartment. The signals are reflected in accordance with at least one object property of at least one object that is present in the passenger compartment. The reflected signals are received and are evaluated with regard to the at least one object property. The method is performed by a vehicle-to-X communication device that communicates wirelessly.

Abstract: A method for determining a reference position as the basis for a starting position for an inertial navigation system which is designed to determine the location of a vehicle on the basis of the starting position and a change in the relative position of the vehicle, the method including the steps of: detecting an ambient condition around the vehicle, determining a position of the vehicle at the location of the detected ambient condition, and assigning the determined position to the detected ambient condition as a reference position.

Abstract: A method for steering assistance of a motor vehicle driver of a motor vehicle in dangerous situations. The vehicle is equipped with a mechanism which influences its steering device and a vehicle environment detection mechanism. A trajectory calculation unit calculates driving cases of all drivable and stable movement trajectories on the basis of the data of the vehicle environment detection mechanism. A mechanism detects and evaluates a current steering wheel actuation with regard to the presence of a dangerous situation, wherein, when a dangerous situation is detected, the movement trajectory from the currently determined driving case is determined which corresponds to the driving maneuver that is indicated by the associated current steering wheel actuation, and the driver is assisted, by way of the mechanism which influences the steering device, in continuing the driving maneuver as a function of the determined movement trajectory.

Abstract: A method for reducing a total computation capacity that needs to be kept, in which an electronic computation module of a vehicle system keeps the total computation capacity, wherein a multiplicity of software modules are executed by the electronic computation module, wherein the software modules take up computation capacity for data processing processes and for input data checking processes and wherein the input data checking processes are repeated in accordance with clocking. The method is distinguished in that the clocking is adjustable. Furthermore, the invention relates to a vehicle-to-x communication apparatus and to a use of the vehicle-to-x communication apparatus.

Abstract: A method for detecting a phase angle difference between a first periodic measurement signal and a second periodic measurement signal, wherein, for the purpose of determining a torque applied to a shaft, the two periodic measurement signals describe a rotation of the shaft at an axial distance from one another including superimposing a periodic auxiliary signal which simulates a previously known rotational speed for the shaft on the first periodic measurement signal in order to form a superimposition signal, and determining the phase angle difference on the basis of the superimposition signal and the second measurement signal.

Abstract: A method for determining initial data for determining position data of a vehicle based on driving dynamics data, the method including: assigning a determined environment status at a determined position of the vehicle to the determined position of the vehicle; detecting an environment status; and—using the determined position as initial data if a contrast of the detected environment status and the determined environmental status satisfies a predetermined condition.

Abstract: A device for outputting a measurement signal indicating a physical measurement variable in a vehicle, the device—a first processor that is designed to determine, on the basis of a first sensor signal a first comparison signal for the physical measurement variable, a second processor that is designed to determine, on the basis of a second sensor signal, a second comparison signal for the physical measurement variable and—a filter device that is designed to determine an error between the two comparison signals and to output this error to the first processor,—wherein the first processor is designed to determine the measurement signal on the basis of a correction of the first comparison signal taking into account the error.

Abstract: A method and system for autonomous tracking of a following vehicle on the track of a leading vehicle. A lead message is received by the following vehicle and rejected by the following vehicle or confirmed with a follow message. After receipt of the follow message, a first element of coordination information for coordination of the autonomous tracking is sent to the following vehicle by the leading vehicle. A second element of coordination information is detected for coordination of the autonomous tracking by environment sensors of the following vehicle on the basis of movements of the leading vehicle. The first and second elements of coordination information are compared by the following vehicle. In the case of a matching comparison result, the autonomous tracking is performed corresponding to the first and second elements of coordination information and, in the case of a deviating comparison result, the autonomous tracking is ended.

Abstract: A method for optimizing the provision of a predictive eHorizon in a driver assistance system. A method for providing a predictive eHorizon in a driver assistance system is provided, wherein a horizon provider in a driver assistance system makes information about an expected route course available to an assistance application. The horizon provider creates a planning table including information about the expected route course and/or including data to be provided as a function of the route course, associated with an expected position of the vehicle in the planning table. The planning table data to be provided by the assistance system application are taken at least partially from the planning table as a function of the current position of the vehicle.