A processor controls a first display section and a second display section provided to a vehicle such that when an occupant of the vehicle has performed a first operation while in a state in which a message is being displayed on the first display section and the second display section, the message is cleared from the first display section and the message continues to be displayed on the second display section.

Provided is a soft upper trim of a vehicle door, in which an upper substrate, a foam, and a transparent skin are laminated, and particularly, to a soft upper trim for switch assembly of a vehicle door, in which a switch, which is configured to preserve continuity of a transparent skin and display lock and unlock symbols on the transparent skin, is easily assembled to an upper substrate, and a method of manufacturing the same.

An operation input device including: a first detection section including a first detection surface that detects a position at which a detection target is touching or within a predetermined distance, the first detection section outputting a first signal representing the position; an operation control section that controls a first operation target based on the first signal; an operation determination section that outputs a second signal only when it has determined that the detection target has moved along the first detection surface; and a switching control section that switches the operation control section between an operation enabled state in which control of the first operation target is enabled, and an operation prevented state in which control of the first operation target is prevented, the switching control section switching from the operation prevented state to the operation enabled state in a case in which the second signal has been received.

A vehicle includes a rolling chassis structure and a working component coupled to the rolling chassis structure. The rolling chassis structure includes a chassis, a non-working component, and a control interface. The non-working component is coupled to the chassis and is configured to facilitate transit operations for the rolling chassis structure. The control interface is disposed in a cab area of the chassis. The control interface is communicably coupled to the non-working component and is configured to control operation of the non-working component. The working component is configured to move relative to the chassis and is communicably coupled to the control interface. The control interface is configured to control movement of the working component.

In at least some implementations, a screen assembly, includes a screen, an internal structure, an isolating material and an actuator. The screen has an outer surface and an input area, and the internal structure is behind the outer surface and defines part of a chamber behind the input area. The isolating material is within the chamber, and the actuator is behind the screen and arranged to provide haptic output to the input area. The isolating material damps the haptic output to reduce transmission of the haptic output to portions of the screen outside of the input area.

A component for a vehicle interior may comprise a light guide to allow light transmission from a light source for a user interface, and a cover to cover the light guide. The user interface may be presented at the cover. The cover may comprise a depression in an inner surface of the cover and the light guide may comprise a projection comprising a light-transmissive resin fit within the depression. The projection may comprise an icon to be presented at the user interface when illuminated, and to be hidden by the cover when not illuminated. The user interface may comprise a light display and an input device connected to a sensor. The icon may comprise an image. The cover thickness may be greater than the projection height. The component may comprise a steering wheel, console, floor console, center console, instrument panel, door panel, dashboard, display, armrest, or cockpit.

A vehicular display control device including: a memory; and a processor coupled to the memory, the processor being configured to: detect when an operation region including plural switches provided to a steering wheel has been operated; and in a case in which operation of the operation region has been detected, display, at a display region set in front of a driving seat, an operation region image corresponding to the operation region and a status image indicating a current status of a function allocated to the switch that is being operated among the plural switches.

In at least some implementations, a screen assembly, includes a screen, an internal structure, an isolating material and an actuator. The screen has an outer surface and an input area, and the internal structure is behind the outer surface and defines part of a chamber behind the input area. The isolating material is within the chamber, and the actuator is behind the screen and arranged to provide haptic output to the input area. The isolating material damps the haptic output to reduce transmission of the haptic output to portions of the screen outside of the input area.

The present invention provides a composite structure comprising a translucent layer (1) having a light transmittance of 1 to 50%, an opaque layer (2) containing a translucent area (6), and a touch sensor area (5) that is at least partly arranged in or above or below the translucent area of layer (2). The present invention also provides a method of producing the composite structure. The composite structure can be used to replace conventional buttons in motor vehicles.

A vehicle includes a chassis, a non-working component, a working component, a control interface module, and a control interface. The non-working component is coupled to the chassis and configured to facilitate transit operations for the vehicle. The working component is coupled to the chassis and configured to move relative to the chassis. The control interface module is communicably coupled to the working component and the non-working component. The control interface is communicably coupled to the control interface module and configured to control operations of the working component and the non-working component.