A parking assistance method of the present invention includes detecting an empty parking space around a moving object, displaying a first assistance image indicating a position of the empty parking space on a surrounding image viewed from above the moving object, and setting a parking target using the displayed first assistance image. The parking assistance method includes: determining whether the detected empty parking space meets a display condition for displaying the first assistance image; and displaying the first assistance image in the empty parking space not meeting the display condition when a currently set mode is an adjustable mode that allows an occupant of the moving object to manually adjust the parking target.

The invention relates to a method for monitoring a surrounding area (6) of a motor vehicle (1), wherein measurement points of surfaces of objects (7) in the surrounding area (6) detected by at least two sensor devices (4, 5) of the motor vehicle (1) are received, and wherein first measurement points of a first surface area (13) detected by a first sensor device (4) are received and second measurement points of a second surface area (14) with no overlap with the first surface area (13) detected by a second sensor device (5) are received, the first and second measurement points are used to determine a relative position of the surface areas (13, 14) with respect to each other, it is determined whether the surface areas (13, 14) are to be assigned to a single object (7) based on the relative position and, if so, the surface areas (13, 14) are combined into a total surface area (12) of the object (7). The invention also concerns a sensor control unit (9), a driver assistance system (2) and a motor vehicle (1).

A parking assistance method of the present invention includes detecting an empty parking space around a moving object, displaying a first assistance image indicating a position of the empty parking space on a surrounding image viewed from above the moving object, and setting a parking target using the displayed first assistance image. The parking assistance method includes: determining whether the detected empty parking space meets a display condition for displaying the first assistance image; and displaying the first assistance image in the empty parking space not meeting the display condition when a currently set mode is an adjustable mode that allows an occupant of the moving object to manually adjust the parking target.

Objects are sensed by a distance sensor of a vehicle. Reflected signals are received as echo signals by the driving-environment sensor. Object distance is calculable, for example, from the propagation time of the signals. Of the sensed objects, those objects are identified which, e.g., based on their spatial disposition, are parking-space-delimiting objects. It is possible to differentiate between objects delimiting a parking space to the side (e.g., parked vehicles) and lateral parking-space delimitations (e.g., a curbstone) by evaluating the echo signals. The parking-space-delimiting objects are classified through characteristic structures of the echo signals assigned to the parking-space-delimiting objects, and an object class is assigned to each parking-space-delimiting object. A parking-space quality is determined as a function of the classification, and a parking space defined by the parking-space-delimiting objects is recognized as a possible parking space if the quality of the parking space meets a threshold.

A method is provided which comprises: acquiring, from a set of ranging sensors, recognition information about a plurality of parked vehicles existing in a parking frame group comprising a plurality of parking frames arranged side by side; selecting representative points of the parked vehicles from the recognition information; calculating a distance between representative points that is a distance between the representative points adjacent to each other; and calculating a width of the parking frames on the basis of the distance between representative points.

A method, a device and a computer-readable storage medium with instructions for processing data in a motor vehicle for forwarding to a back end. In a first step, sensor data are detected along a route of the motor vehicle. On the basis of the sensor data, features and context information on the features are then identified within segments of the route. Finally, the features and the context information on the features are combined into a message for the route.

The invention relates to a method for identifying parking spaces, including emitting an ultrasonic signal and receiving a reflected signal; and providing a grid which of a region having a plurality of cells. Each cell is assigned to a partial region of the region surrounding the vehicle and an occupancy value is assigned to each cell. The reflected signal is assigned to a set of cells of the grid based on a transit time of the ultrasonic signal between emission and reception. The occupancy values of the cells to which the reflected signal is allocated are increased by a specific value. An occupancy information item is determined based on the occupancy values of the cells. The signal emitting/receiving and the reflected signal assigning are repeated multiple times. Parking space identification is performed based on an occupancy status of the cells specified using the occupancy information item determination.

Objects are sensed by a distance sensor of a vehicle. Reflected signals are received as echo signals by the driving-environment sensor. Object distance is calculable, for example, from the propagation time of the signals. Of the sensed objects, those objects are identified which, e.g., based on their spatial disposition, are parking-space-delimiting objects. It is possible to differentiate between objects delimiting a parking space to the side (e.g., parked vehicles) and lateral parking-space delimitations (e.g., a curbstone) by evaluating the echo signals. The parking-space-delimiting objects are classified through characteristic structures of the echo signals assigned to the parking-space-delimiting objects, and an object class is assigned to each parking-space-delimiting object. A parking-space quality is determined as a function of the classification, and a parking space defined by the parking-space-delimiting objects is recognized as a possible parking space if the quality of the parking space meets a threshold.

A method is provided which comprises: acquiring, from a set of ranging sensors, recognition information about a plurality of parked vehicles existing in a parking frame group comprising a plurality of parking frames arranged side by side; selecting representative points of the parked vehicles from the recognition information; calculating a distance between representative points that is a distance between the representative points adjacent to each other; and calculating a width of the parking frames on the basis of the distance between representative points.

A sensor-based parking space searching system and a method thereof may include a switch receiving a request for searching for a parking space from a driver, an ultrasonic sensor searching for the parking space, and a controller activating the ultrasonic sensor in response to the request for searching for the parking space, setting a speed of an ego-vehicle and a reference value for detecting an effective detecting point of the ultrasonic sensor based on a distance from an object to the ego-vehicle, which is measured by the ultrasonic sensor, and recognizing the parking space based on an output of the ultrasonic sensor.