A vehicle wheel assembly includes a brake rotor and a wheel lock. The brake rotor has at least one of a plurality of studs and a plurality of threaded openings disposed at a rim. The brake rotor has a first lock opening that is spaced of the plurality of studs and the plurality of threaded openings. The wheel lock is received by the first lock opening when the wheel lock is installed to the brake rotor.

A method and apparatus for controlling an airflow. The method draws air through a group of inlets. The group of inlets is located in a group of locations on the vehicle such that the group of inlets actively controls the airflow relative to an aircraft when drawing the air. The method compresses the air drawn by the group of inlets in a group of air compressor units located in an aircraft structure to form pressurized air. Further, the method sends the pressurized air through a group of exit ports in the aircraft structure. The pressurized air flowing out of the group of exit ports actively controls the airflow for an aircraft, enabling an improved performance of the aircraft.

A vehicle active damper includes a damping actuator that is provided between a radiator and a vehicle body so as to be interposed in a substantially vertical direction, and a coupling member that elastically couples between the vehicle body and an engine. The damping actuator is formed from a elastic modulus-variable member having an elastic modulus that varies according to the strength of an applied magnetic field. The coupling member transmits vibrations of the engine to the vehicle body along a substantially vertical direction.

A center pillar structure may include a center pillar inner upper connected to a side inner, a center pillar inner connected to the center pillar inner upper in up and down directions, a center pillar reinforcement outer connected to a front pillar reinforcement outer and connected to the center pillar inner along the up and down directions, a center pillar reinforcement disposed along the up and down directions on the inner side between the center pillar inner and the center pillar reinforcement outer, and coupled between front/rear flange combined portions of the center pillar inner and the center pillar reinforcement outer, and a seat belt reinforcement shaped corresponding to the center pillar reinforcement, and connected to the center pillar reinforcement to form an inner closed section along the up and down directions.

An aeronautical car includes a ground-travel system including a drivetrain; an air-travel system including a detachable portion configured to house a propulsion device configured to provide thrust and to be driven by the drivetrain when the detachable portion is connected to the aeronautical car, and at least one flight mechanism configured to provide lift once the aeronautical car is in motion; and a weather manipulation device. The weather manipulation device may be configured to manipulate at least one aspect of a weather condition while the aeronautical car is in the air.

Provided is a hub unit bearing wherein a cover can be firmly fitted with an outer ring member, and it is difficult for foreign matter to enter inside through a water drainage hole formed in the cover. The cover that covers the inside end section in the axial direction of the hub unit bearing includes a disk section, a small-diameter cylindrical section bent in the axial direction from the outer perimeter edge section of the disk section and a large-diameter cylindrical section. A cut and raised section that is cut and raised toward the inside in the radial direction is formed in the small-diameter cylindrical section, and a water drainage hole that passes through from inside to outside the cover is provided in the portion that is cut and separated from the small-diameter cylindrical section.

A method for controlling vehicle systems in a vehicle includes providing a steering wheel having a plurality of sensors configured to sense contact on the steering wheel. The steering wheel has a left zone and a right zone. The method includes determining a left contact value based on one or more signals received from at least one of the plurality of sensors. The left contact value indicates contact with the steering wheel within the left zone. The method includes determining a right contact value based on the one or more signals received from the at least one of the plurality of sensors. The right contact value indicates contact with the steering wheel within the right zone. The method includes determining a driver state index based on the left contact value and the right contact value and modifying control of the vehicle systems based on the driver state index.

A diving support Electronic Control Unit (ECU) initializes a target trajectory calculation parameter at a start of Lane Change Assist Control (LCA), calculates, based on the target trajectory calculation parameter, a target trajectory function representing a target lateral position in accordance with an elapsed time from the start of LCA; and calculates a target control amount according to the target trajectory function. When it is determined that the own vehicle has crossed a boundary white line, the diving support ECU again initializes the target trajectory calculation parameter, and calculate the target trajectory function based on the target trajectory calculation parameter.

A device for the operation of a digitizer includes a data input, an evaluation unit, and a data output. The evaluation unit is configured, in connection with the data input, to ascertain an approach by an input medium toward the digitizer without contact with the digitizer via an optical sensor. The evaluation unit is configured to transition the digitizer, in connection with the data output and in response to the data input, from a sleep mode to an operating mode.

A vehicle display device includes a display control unit configured to display a first content image in a first display region on the basis of first information and display a second content image in a second display region on the basis of second information on a display unit on which an image is superimposed on an outside scenery so that the superimposed image is viewed. The display control unit changes a display aspect of the first content image on the basis of content of the second information when the first content image and the second content image are simultaneously displayed on the display unit.