The present disclosure refers to a method for operating a user terminal (7) of an agricultural machine, comprising providing a user terminal (7) in a control system (3) of an agricultural machine, the user terminal (7) connected to a power supply and configured to transmit, through a control bus (6), control signals to functional elements (10a; 10b) of the agricultural machine; enabling operation of the user terminal (7), after a period of time the user terminal was turned-off before, comprising enabling a user control mode of operation of the user terminal (7); running software applications in the user terminal (7); enabling a display device of the user terminal (7); and enabling the control bus (6), thereby, operating the control bus (6) in a bus control mode allowing for transmission of the control signals through the control bus (6); controlling operation of one of the functional elements (10a; 10b) of the agricultural machine in the user control mode of operation; in response to a user input, generating present control signals; transmitting the present control signals to the control unit assigned to the one of the functional elements (10a; 10b) through the control bus (6); and operating the functional elements (10a; 10b) according to the present control signals; disabling the user control mode of operation and enabling a standby mode of operation for the user terminal (7), comprising continuing with running one or all of the software applications in the user terminal (7); disabling the display device of the user terminal (7); and disabling the control bus (6); and re-enabling the control mode of operation for the user terminal (7). Further, an agricultural machine is provided. (FIG. 1)

A vehicle display device includes a display unit having a pointer, a dial plate as a background of the pointer, and a frame surrounding the dial plate, at least one of the pointer, the dial plate, and the frame being a physical element, and a virtual image display device that displays a virtual image overlapping with the physical element, in which the virtual image display device changes at least one of a color and a design of the virtual image overlapping with the physical element.

A display control device having a processor is configured to acquire detection information representing a closed target indicating that a lane detected around a vehicle is closed and operation information representing driver operation of an operating unit for operation of the vehicle, and to display a target icon representing the closed target on a display screen, wherein a first target icon representing the closed target is displayed on the display screen when the detection information has been acquired and the operation information has not been acquired, and a second target icon representing the closed target, which is less visible to the driver than the first target icon, is displayed on the display screen when the detection information has been acquired and the operation information has been acquired.

A screen with a transmissive image generator with pixels which is operable in at least two operating modes, B1 for a free viewing mode and B2 for a restricted viewing mode, and with an illuminating apparatus comprising a backlight that has a planar extension and radiates light in a restricted angular range, a plate-shaped light guide arranged in front of the backlight and provided with outcoupling elements on one of the large surfaces and/or within its volume, the light guide being transparent to at least 70% of the light emitted by the backlight; and light sources arranged laterally at edges of the light guide. In mode B2, the backlight is switched on and the light sources are switched off, and in mode B1 at least the light sources are switched on. In interaction with the transmissive image generator the illuminating apparatus constitutes an advantageous screen permitting the operating modes.

An instrument cluster assembly includes first and second light emitting elements. The first and second light emitting elements are spaced apart from one another. An optical element is positioned opposite the first and second light emitting elements. The optical element is configured to reflect or diffuse light from both the first and second light emitting elements so that light rays from the first and second light emitting elements are merged or cross one another.

A display apparatus includes multiple display portions each of which displays a content different from one another, a decoration member which decorates one of the multiple display portions, an actuator which moves the decoration member, and a control portion which controls the actuator to move the decoration member to a position at which the decoration member decorates one display portion selected among the multiple display portions.

For automated driving, a driving system can be operated at least in a first automated driving mode with automated longitudinal and/or transverse guidance. A display device includes a driving mode display with a lighting unit. The driving mode display corresponds to a steering wheel display with a light strip structure for the steering wheel rim that can be lit up. A control device coupled to the display is also provided, for controlling the display. The control device is designed to control the driving mode display such that, upon activation of the first automated driving mode, the lighting unit lights up in a first lighting state with a specific luminous intensity, so as to indicate the activation of the first automated driving mode to the driver. The driving mode display is controlled such that, following the activation of the first automated driving mode, with the first driving mode still active, the lighting unit is operated in a dimmed lighting state as compared to the first lighting state, with a reduced luminous intensity in relation to the luminous intensity of the first lighting state.

The present invention provides a backlight device, which comprises a plurality of optical devices and a plurality of backlight plates. The plurality of backlight plates include light sources, respectively, and are disposed at the light inlets of the plurality of optical devices. Then the beams of the light sources can be incident to the plurality of optical devices through the light inlets and reflected to the light outlets of the plurality of optical devices to form a backlight source for a display panel. The plurality of optical devices extend from the light outlets beyond the opposite surface of the display panel. By distributing optical paths, the spaces required for the optical paths can be reduced.

The invention is directed to a head-up display 2 having a light source 231, a diffuser 232,235,236, a transmissive display 3, a mirror element 251 and a transmissive screen 21. According to the invention the head-up display 2 is further provided with a contrast enhancer display 4 that is arranged adjacent to the transmissive display 3.

A windshield (window glass for a vehicle) 10 is a window glass for a vehicle emitting visible light through incident radiation of excitation light that is irradiated from a light source, and an end part 10E of the window glass for a vehicle is capable of emitting light through irradiation with the excitation light. The present invention can provide window glass for a vehicle such as a car that enables a driver to easily check warning display without narrowing the interior space or obstructing the field of view in the vehicle.