Embodiments of the present invention provide a computer-implemented method of determining a weather forecast, comprising receiving data indicative of ambient conditions from one or more sensors associated with a vehicle, determining if the data is indicative of a forecast of one or more weather conditions according to at least one predetermined condition, outputting data indicative of the forecast and configuring one or more systems of the vehicle responsive to the output data indicative of the forecast.

A motor vehicle has an automatically controllable rear-tailgate arrangement, which either is comprised of a single pivotable tailgate or a pivotable lower tailgate and a pivotable upper tailgate. An electronic control unit for the motorized control of the pivotable tailgates is associated with the rear-tailgate arrangement assembly. In particular, the control unit is designed to perform the following functionality by an appropriately programmed function module: the control unit evaluates information of a sensor unit for sensing the longitudinal tilt of the motor vehicle; after an opening command by an operating person, the control unit prevents complete opening either of the single rear tailgate or at least of the lower rear tailgate at least in the case of a rearward longitudinal tilt exceeding a defined threshold.

A power closure member actuation system for moving a closure member of a vehicle is provided. The system includes an actuator configured to move the closure member relative to a vehicle body and a closure member accelerometer configured to determine a steady state gravitational force on the closure member according to an orientation of the vehicle. A controller is configured to determine the steady state gravitational force on the closure member using the closure member accelerometer while the closure member is in a predetermined position and is not moving. The controller is also configured to control movement of the closure member by the actuator to compensate for variable gravitational forces on the closure member during movement of the closure member. The variable gravitational forces used to control the movement are predetermined and selected according to a position of the closure member and the steady state gravitational force.

A method and a system for contactless obstacle detection for a motor vehicle having a front side door and a rear side door, using a single primary obstacle sensor provided on the motor vehicle, preferably in the form of a ToF sensor, which is configured to monitor an opening region of the front side door, and, at least as long as the front side door is closed, also to monitor an opening region of the rear side door, the method comprising the following step, which is carried out repeatedly: determining a current maximum allowed opening angle for the rear side door based on an output of a monitoring of the opening region of the rear side door by the primary obstacle sensor and taking into account a current opening state of the front side door.

A computer-implemented method comprises: collecting, in a vehicle having an advanced driver assistance system (ADAS), sensor data using an ADAS sensor suite of the vehicle, the sensor data collected while the vehicle is moving and reflecting surroundings of the vehicle; generating a three-dimensional (3D) map of the surroundings using the sensor data; defining a boundary condition regarding the vehicle based on the 3D map; and controlling a closure actuator of a closure of the vehicle based on the boundary condition, the closure actuator configured for opening or closing the closure, the closure actuator controlled without the closure having any obstacle detection sensor.

A system for monitoring a vehicle used in providing a service is disclosed. The system detects when the service is complete, and upon detecting that the service is complete, the system determines, from one or more sensors of the vehicle, that an object which should have been removed from the vehicle after completion of the transport service, remains in the vehicle. The system then automatically initiates performance of a remedial action.

An opening prevention device for a sliding door which is slidably installed in a side surface of a vehicle is provided. The opening prevention device includes a vehicle movement detection unit that is installed within a vehicle body of the vehicle and is configured to detect movement of the vehicle, and a door opening prevention unit that is installed in the vehicle body and configured to prevent lateral translation of the sliding door when the vehicle movement detection unit detects movement of the vehicle. Additionally, an opening prevention latch is installed on the sliding door to be engageable with a portion of the door opening prevention unit.

A vehicle barrier gate system which is positioned above a roadway through which vehicles pass. Some of the various embodiments of the present disclosure include a gate comprised of an arm and barrier which is adjustable between a raised position in which a vehicle may pass and a lowered position in which a vehicle is prevented from passing. The gate may be movably connected to a ceiling or an overhead support structure positioned above the roadway. Various types of actuators may be utilized to adjust the gate along a linear and/or angular path between the raised and lowered positions. A control unit may be in communication with one or more sensors and/or an authorization system to control the actuator. The gate may include a breakaway mechanism which allows the gate to be manually raised or lowered in the event of actuator failure or a vehicle ramming through the gate.

A door control device has a processor configured to determine whether or not an emergency situation has occurred in a vehicle, based on operation by a user on an operating unit that is to be operated to open a door of the vehicle, and to decide to open the door when it has been determined by the first assessment unit that the emergency situation has occurred.

A method for adjusting an adjusting part of a vehicle including controlling by an electronic detection device configured to detect a potential obstacle in an adjustment path of the adjusting part based on at least one first measured value and generates at least one control signal. The method including storing and correlating, over a defined time period, at least one of a curve of the control signal the first measured value, and a curve of at least one second measured value changing significantly in response to a collision of the adjusting part and an obstacle for a subsequent plausibility check.