A non-contact brake pedal position sensing system is provided with components for each of first and second brake pedal units configured for angular displacement about a rotation axis at respective first ends thereof, responsive to manual engagement at respective second ends thereof. The components include a sensor cam located at the first end of each respective brake pedal unit and configured for angular displacement along therewith, a sensor housing mounted at a fixed position with respect to the rotation axis, and a sensor mounted within the sensor housing and configured to generate output signals corresponding to a sensed air gap between the sensor and the sensor cam, wherein the sensed air gap between the sensor cam and the sensor corresponds to an amount of angular displacement for the respective brake pedal unit. The sensor housing may preferably be oriented orthogonally with respect to the rotation axis.

A vehicle display control device includes: an acceleration prediction section that predicts a direction of an acceleration acting on a vehicle based on information including at least one of: information regarding a planned travel path of the vehicle, information acquired from a periphery information detection sensor that detects information regarding a vehicle periphery, or information acquired from an acceleration sensor that detects an acceleration of the vehicle; and a display control section that, in a case in which an acceleration predicted by the acceleration prediction section is greater than a predetermined threshold, displays a direction of the predicted acceleration at a display portion in a vehicle cabin.

To provide a capacitive input device that enables the user to feel that the input operation has been done. A capacitive input device includes a surface sheet, a soft member, and a sensor sheet configured to detect a change in capacitance. The surface sheet includes an operation area on which a touching operation is to be performed. The soft member is provided between the operation area and the sensor sheet. The sensor sheet includes a sensor electrode located at a position corresponding to the operation area. When the operation area is pressed in a touching operation, the surface sheet and the soft member are displaced toward the sensor sheet and the sensor electrode detects the capacitance.

When a gearshift of a vehicle is in drive, a video image of a movement state of the vehicle moving forward depending on the rotation of the wheels detected by a wheel rotation sensor is displayed on a monitor. Thereafter, when the gearshift is in neutral, a video image of a movement state of the vehicle moving forward depending on the rotation of the wheels is displayed on the monitor. When the gearshift is in rear where the vehicle moves in a second direction opposite to a first direction, a video image of a movement state of the vehicle moving in the second direction depending on the rotation of the wheels is displayed on the monitor. Thereafter, when the gearshift is in neutral, a video image of a movement state of the vehicle moving in the second direction depending on the rotation of the wheels is displayed on the monitor.

Systems, methods and computer program products that facilitate driver assist interface in a vehicle. A system can include a memory and a processor that executes computer executable components. The computer executable components can include: a monitoring component that monitors driver operation of a vehicle, an analysis component that analyzes the driver operation of the vehicle, a recommendation component that generates real-time recommendations regarding improving at least one of driver turning, accelerating or braking of the vehicle, and an interactive display component that generates a real-time graphical user interface that visually represents the real-time recommendations relative to the driver's current operation of the vehicle.

In a display control device for a head-up display of a vehicle, it is determined whether a lane change control unit is in a standby state waiting for a lane change of the vehicle. When it is determined that the lane change control unit is not in the standby state, a fulfillment notification content indicating an execution state of the lane change is displayed on a road surface in a foreground in a superimposing manner. When it is determined that the lane change control unit is in the standby state, a standby notification content in a mode different from the fulfillment notification content is displayed on the road surface of the foreground in a superimposing manner, or a standby notification content in a mode associated with the fulfillment notification content is displayed as a non-superimposition content independent of a superimposition target.

A trim panel for a vehicle interior to provide a user interface for an occupant is disclosed. The trim panel may comprise a composite structure comprising a light-transmissive cover, a light panel/display, a functional layer and a positioning layer. The user interface may facilitate interaction with the vehicle occupant so that operation of the user interface for the vehicle occupant comprises output from illumination from the light panel through the functional layer and through the cover to an exterior surface of the cover. The positioning layer may comprise a deformable spacer. The positioning layer may comprise a foam layer under the cover. The trim panel may comprise a sensor to detect input from the occupant at or adjacent to the cover. The composite structure may comprise a cover segment comprising a fabric and/or leather and a cover segment comprising a plastic or film.

A display and voice output control system of a vehicle on which automated driving is performed includes a display device, a voice output device and a controller. The controller controls a notification of a recommended behavior by the display device and the voice output device. In the notification control, it is judged whether or not a notification condition of the recommended behavior is satisfied. If it is judged that the notification condition is satisfied, it is judged whether a notification relaxation condition of the recommended behavior is satisfied based on a status of a driver and a driving status of the vehicle. If it is judged that the notification relaxation conditions is satisfied, relaxation notification processing is executed. Otherwise, normal notification processing is executed. In the relaxation notification processing, an output status of the recommended behavior in the voice output device is controlled to an inactive state.

A method for a situation-controlled display of an actuation element for a function in a vehicle on a touch-sensitive display surface operable by a person using the vehicle involves the actuation element as a blocking element for a window lifter of the vehicle. The actuation element is always displayed if a child is detected on a seat in the vehicle, and a window lifter associated with the seat is actuated, if a contradicting actuation of window lifters for the same window is carried out, the window lifters being accessible to different people in the vehicle, and/or if the occurring actuation of the window lifters deviates from the conventional actuation type.

In at least some implementations, a system for communicating threshold conditions for use of a powered device to a user, includes an engine, a controller coupled to the engine to control starting of the engine and a first indicator associated with a first threshold condition. The first indicator has a first state when the threshold condition is not satisfied and the first indicator has a second state when the threshold condition is satisfied, and the first indicator is coupled to the controller so that the controller is responsive to a change of the state of the first indicator, and wherein the controller is adapted to provide information for display that is indicative of the state of the first indicator.