In one example in accordance with the present disclosure, a computing device is described. The computing device includes a number of ports. Each port receives a connection to a display device. A first port is coupled to the first graphics processor which supports a number of display devices and a second graphics processor. The computing device also in-cludes a controller. The controller determines when a number of coupled display devices is greater than the number of display devices supported by the first graphics processor and switches the first port from being driven by the first graphics processor to be driven by the second graphics processor.

A display apparatus of a vehicle includes a first display device to display an image including first information and second information related to the vehicle, to a first display region, a second display device to display the image to a second display region, a first controller to control an operation of the first display device, based on acquired information on a behavior of the vehicle, and a second controller to control an operation of the second display device, based on the acquired information on the behavior of the vehicle.

According to a vehicle display system, a mobile terminal apparatus includes: a primary-screen-view display section that displays an output screen-view generated with execution of an application on the mobile terminal apparatus as a primary screen-view; a conversion section that converts the primary screen-view into a secondary screen-view complying with a vehicle apparatus; a manipulation layer generation section that generates a manipulation layer to manipulate the application; a state layer generation section that generates a state layer indicating a state of the mobile terminal apparatus; and a transmission section that transmits the secondary screen-view, the manipulation layer, and the state layer to the vehicle apparatus. The vehicle apparatus includes a secondary-screen-view display section that displays the manipulation layer and the state layer on the vehicle apparatus itself together with the secondary screen-view.

Various embodiments disclosed herein are directed to a user device for displaying a user-interface object. The user device includes a first display device with a touch-sensitive interface, at least one processor, and at least one memory storing instructions executable by the processor. The instructions executable by the processor are configured to identify a defined touch gesture applied to the touch-sensitive interface. The instructions executable by the processor are also configured to display a user-interface, UI, object, which has been displayed on the first display device, on a second display device communicatively coupled to the user device responsive to the identification of the defined touch gesture.

Implementations of the present disclosure include actions of receiving image data of an image capturing a scene, receiving data describing one or more entities determined from the scene, the one or more entities being determined from the scene, determining one or more actions based on the one or more entities, each action being provided at least partly based on search results from searching the one or more entities, and providing instructions to display an action interface comprising one or more action elements, each action element being to induce execution of a respective action, the action interface being displayed in a viewfinder.

A display control device includes a hardware processor. The hardware processor implements functions of a first operating system, a second operating system, and a hypervisor. The first operating system controls execution of at least one of a first application and a second application. The first application serves to generate a first content image to be displayed on a first display device mounted on a vehicle. The second application serves to generate a second content image to be displayed on a second display device mounted on the vehicle. The second operating system is different from the first operating system. The hypervisor controls execution of the first operating system and the second operating system.

An electronic device (e.g., smartphone) can be connected to an external display device, allowing the electronic device to display content on the external display device. The external display device can be a standalone display device or be part of another electronic device (e.g., a laptop or tablet). The electronic device supports multiple input styles including a gesture-based input style and a non-gesture-based input style. The electronic device adapts to the external display device by using the gesture-based input style if the external display device is touch enabled and using the non-gesture-based if the external display is not touch enabled. Additionally or alternatively, the external display device adapts to the input style being used by the electronic device by displaying an augmentation bar associated with the content and supporting the non-gesture-based input style when the external display device detects that the electronic device is using the gesture-based input style.

Video or graphics, received by a render engine within a graphics processing unit, may be segmented into a region of interest such as foreground and a region of less interest such as background. In other embodiments, an object of interest may be segmented from the rest of the depiction in a case of a video game or graphics processing workload. Each of the segmented portions of a frame may themselves make up a separate surface which is sent separately from the render engine to the display engine of a graphics processing unit. In one embodiment, the display engine combines the two surfaces and sends them over a display link to a display panel. The display controller in the display panel displays the combined frame. The combined frame is stored in a buffer and refreshed periodically. In accordance with another embodiment, video or graphics may be segmented by a render engine into regions of interest or objects of interest and objects not of interest and again each of the separate regions or objects may be transferred to the display engine as a separate surface. Then the display engine may transfer the separate surfaces to a display controller of a display panel over a display link. At the display panel, a separate frame buffer may be used for each of the separate surfaces.

There are provided: a vehicle display device including a HUD device capable of ensuring safe traveling by suitably controlling a display region of an image to be displayed on the windshield of a vehicle; and a display method. A vehicle display device includes a HUD device that projects image light of an image, which is to be displayed, on a windshield WS of a vehicle such that a virtual image I* of the image is visually recognized by reflected light. The vehicle display device is operable to display a plurality of images having a priority order, and an image having a high priority order is displayed such that an image displayed in a specified region As of the windshield WS has a predetermined display rate (=an area of the image/an area of the specified region) or less. Warning images I2 and I31 to I34 are set in a priority order higher than that of the driving support images I11 to I13.

A display apparatus includes a display; a communicator configured to communicate with a plurality of external apparatuses, which respectively provide a plurality of contents; and a processor. The processor is configured to: based on receiving information relating to contents among the plurality of contents from external apparatuses, respectively, through the communicator, identify the external apparatuses that transmitted the information, among the plurality of external apparatuses, control the display to display a UI including the contents respectively received from the identified external apparatuses, and control the display to display, on the UI, reproduction states of the contents to be visually distinguishable according to states of inputs of users of the received contents, the inputs being received through the identified external apparatuses, respectively.