An electronic device and a method are described. The electronic device is adapted to be installed on a handlebar of a vehicle, the electronic device comprising: a processor; a communication module; a display comprising a halo-shaped display; a memory for storing therein executable instructions, the instructions upon being processed by the processor, causing the electronic device to: receive, via the communication module, navigational data from a mobile device, the navigational data being associated with a circular visual signal indication, the circular visual signal indication being indicative of at least one of (i) an upcoming directional instruction and (ii) a distance between a current location and an upcoming location associated with the upcoming directional instruction; and, cause to display, on the halo-shaped display, of the circular visual signal indication.

An electronic device may have multiple users and multiple customized user interfaces for each user resulting in a large number of user customized UI dashboard configurations. However, defining these user customized UI dashboard configurations is performed by each user such that addition and/or replacement of software applications requires users to reconfigure customized UI dashboards. Similarly, organization generated dashboards must be configured on each user device. It would be beneficial for such user customized UI dashboard configurations to be updateable in response to information provided during new software installation, software upgrades, etc. or for UI dashboard configurations to be adjusted absent any such update/upgrade. It would also be beneficial for context rules to be adaptable based upon learned behavior or external adjustments just as it would be beneficial for the context rule engine to automatically identify new potential rules as a result of current and previous behavior.

A motor vehicle is disclosed that includes at least one linear lighting means for directly and/or indirectly lighting a vehicle interior. A position-sensing unit senses ego information describing a position and an orientation of the motor vehicle. A control device determines, from location information describing the position of a person, and from the ego information, direction information describing a direction of the person in relation to the motor vehicle (1), selects, in accordance with the direction information, a sub-group of lighting segments that includes at least one lighting segment to be activated, and activates the lighting segment belonging to the sub-group in accordance with a configuration, which specifies the lighting brightness and/or the lighting color of the lighting segment, and which visualizes the position of the person.

Implementations relate to interactions, over a wireless communication modality, between an automated assistant of an automobile computer system, and separate client device(s). In some of those implementations, the client device(s) can be paired with the automobile computer system, and the client device(s) and the automobile computer system can include separate instances of an automated assistant, which can be associated with different user accounts. In some additional or alternative implementations, particular actions to be performed by a local application of a client device can be advanced via user interaction with the automobile automated assistant, despite a counterpart to the local application not being installed directly on automobile computer system. For example, despite an automobile computer system not having a third-party messaging application installed, the automobile automated assistant can access requested actions to be performed by the third-party messaging application in order to further a requested action. The automobile computer system can transmit, via the wireless communication modality, content to cause the third-party application to further the requested action.

Disclosed are a vehicle and method of controlling a display therein. Herein, the vehicle supports auto driving. The present invention includes sensors, a display including a display area formed on a glass of the vehicle and a controller configured to cause the display to display data obtained via at least one of the sensors on the display area based on an operation mode of the vehicle and vehicle passenger information.

A vehicle control device that includes a communication unit that is configured to (i) communicate with a mobile device and (ii) receive data including user input that is received at the mobile device; and a processor that is configured to: based on receipt of the data including the user input, determine whether a vehicle with which the mobile device is associated operates in a manual driving mode or an autonomous driving mode and whether the user input received at the mobile device satisfies a preset condition; and based on determinations that the vehicle is in the manual driving mode and that the user input received at the mobile device satisfies the preset condition, switch the vehicle from the manual driving mode to the autonomous driving mode is disclosed.

A method for pairing authentication between a vehicle and a mobile device is proposed. After a host computer of the vehicle is operated to send out a vehicle identification code for pairing and the mobile device is operated to select the vehicle identification code, the host computer enables both of a host display of the vehicle and the mobile device to display a pairing code at the same time. After a pairing procedure is performed within a predetermined pairing operation period, the host computer completes pairing authentication between the host computer and the mobile device.

Provided is a head-up display for a vehicle. The head-up display may include a camera configured to capture an image of a road ahead of the vehicle. The camera may further be configured to be in communication with a processor. The head-up display may also include a display in communication with the processor. The processor may be configured to select a route on a map between a current position of the vehicle and a destination selected by a user, receive the image from the camera, correlate the image to an area of the map, and control the display to display an indication indicating the route. Based on correlation of the image to the area of the map, the indication on the display may be substantially aligned with the road when viewed from front of the display. Other embodiments are disclosed and additional embodiments are also possible.

An interface panel or graphical gauge that can host applications from a mobile application platform and display content from the hosted applications on a display of the graphical gauge. The interface panel may include a native operating system supporting an interface application that generates interface graphical output fed by the native operating system to a graphics controller. The interface control system may be configured to support a guest system that generates guest graphical output fed to the graphics controller. The guest graphical output is representative of graphic information generated by the mobile application platform.

An electronic device may have multiple users and multiple customized user interfaces for each user resulting in a large number of user customized UI dashboard configurations. However, defining these user customized UI dashboard configurations is performed by each user such that addition and/or replacement of software applications requires users to reconfigure customized UI dashboards. Similarly, organization generated dashboards must be configured on each user device. It would be beneficial for such user customized UI dashboard configurations to be updateable in response to information provided during new software installation, software upgrades etc or for UI dashboard configurations to be adjusted absent any such update/upgrade. It would also be beneficial for context rules to be adaptable based upon learned behavior or external adjustments just as it would be beneficial for the context rule engine to automatically identify new potential rules as a result of current and previous behavior.