A method and a device for controlling door movements of a controllable door of a motor vehicle. A control device and a sensor arrangement are assigned to the door and the door has a controllable motion influencing device. A motion of a door wing of the door is controlled and influenced by the motion influencing device to alternate between a closed position and an open position. The motion influencing device includes a driving device with a drive motor. The sensor arrangement includes a current sensor which detects the motor current of the drive motor. While closing the door wing the control device detects an obstacle when the door wing is not yet closed and the power input of the drive motor rises above a predetermined threshold. Then the control device stops the drive motor.

A speaker arrangement structure includes: a speaker device provided in an A-pillar (front pillar) of a vehicle and configured to turn and transmit sound, produced upward, toward a vehicle compartment; a curtain airbag extending in an up-down direction along an extending direction of the A-pillar and attached to the front pillar; and a bracket configured to attach a lower end of the curtain airbag to the front pillar. The speaker device is arranged below the bracket.

A speaker arrangement structure includes: a speaker device provided in an A-pillar (front pillar) of a vehicle and configured to turn and transmit sound, produced upward, toward a vehicle compartment; a curtain airbag extending in an up-down direction along an extending direction of the A-pillar and attached to the front pillar; and a bracket configured to attach a lower end of the curtain airbag to the front pillar. The speaker device is arranged below the bracket.

A system for detecting an obstacle includes a detection sensor configured to detect a movement direction or movement speed of a target within a detection range of a vehicle, and form a tracking point for the detected target to track a movement of the target; and a controller configured to extend and track the tracking point based on the movement direction or the movement speed of the target tracked when the tracking point deviates from the detection range.

An apparatus includes a front detection sensor detecting presence of a pedestrian on a driving lane of the vehicle, gaze information of the pedestrian, and a distance and a relative speed between the pedestrian and the vehicle; a vehicle sensor detecting at least one of a speed, an acceleration, a steering angle, a steering angular velocity, or a pressure of a master cylinder of the vehicle; an electronic control unit activating a function of a pedestrian detection and collision mitigation system based on information detected by the front detection sensor and the vehicle sensor; and a warning unit operated to inform a driver of a collision of the pedestrian with the vehicle by controlling the electronic control unit.

A method includes performing, with a compacting machine, a first pass to compact a first portion of a work area to compact a first lane. A guidance system acquires position information representing the first compacted lane. A second pass is performed to compact a second portion of the work area adjacent the first portion. The guidance system acquires current position information of the machine representing current positioning of the machine during the second pass. Comparing the position information of the machine representing the first compacted lane with the current position information, determines whether the current positioning overlaps the first compacted lane a specified amount. When the second pass is determined to overlap the first compacted lane, in-compliance visual indicia is generated. When the second pass is determined to not overlap the first compacted lane with the specified amount, out of compliance visual indicia is generated.

A method includes performing, with a compacting machine, a first pass to compact a first portion of a work area to compact a first lane. A guidance system acquires position information representing the first compacted lane. A second pass is performed to compact a second portion of the work area adjacent the first portion. The guidance system acquires current position information of the machine representing current positioning of the machine during the second pass. Comparing the position information of the machine representing the first compacted lane with the current position information, determines whether the current positioning overlaps the first compacted lane a specified amount. When the second pass is determined to overlap the first compacted lane, in-compliance visual indicia is generated. When the second pass is determined to not overlap the first compacted lane with the specified amount, out of compliance visual indicia is generated.

A cargo detection system for detecting overhanging cargo on a motor vehicle comprises a sensor system configured to provide cargo measurement data for cargo loaded onto the motor vehicle by measuring at least one of exterior dimensions of cargo protruding over an outer edge of the motor vehicle and an opening condition of a tailgate of the motor vehicle. The system further comprises a control device configured to assess, based on the cargo measurement data of the sensor system, whether cargo is overhanging from the motor vehicle and to calculate an updated vehicle length and/or vehicle width for the motor vehicle accounting for the overhanging cargo.

A cargo detection system for detecting overhanging cargo on a motor vehicle comprises a sensor system configured to provide cargo measurement data for cargo loaded onto the motor vehicle by measuring at least one of exterior dimensions of cargo protruding over an outer edge of the motor vehicle and an opening condition of a tailgate of the motor vehicle. The system further comprises a control device configured to assess, based on the cargo measurement data of the sensor system, whether cargo is overhanging from the motor vehicle and to calculate an updated vehicle length and/or vehicle width for the motor vehicle accounting for the overhanging cargo.

A vehicular trailer guidance system includes an electronic control unit (ECU), a plurality of vehicle cameras and at least one trailer camera including a rear trailer camera disposed at a rear portion of a trailer hitched to the vehicle. A display screen is disposed in the vehicle and viewable by a driver of the vehicle. The display screen displays video images derived from captured image data, with the displayed video images including bird's-eye view images of a region at least partially surrounding the vehicle and trailer including an area rearward of the trailer hitched to the vehicle. During a reversing maneuver, and via processing of captured image data, an instruction for maneuvering the vehicle and trailer in reverse toward a target location is generated by the ECU. The generated instruction includes at least an instruction pertaining to steering of the vehicle during the reversing maneuver.