Embodiments are directed towards providing a dynamic application environment where separate components of an application can execute on separate processing hardware at any given point in time. A host device monitors current operating characteristics associated with a computing device, such a head unit of an automobile, and based on those characteristics selects which components of one or more applications to execute on the computing device and which components to execute on the host device, if any. The host device provides the selected components to the computing device for execution by the computing device and the host device executes any other components that are not executed by the computing device. The host device monitors the current operating characteristics associated with the computing device, and modifies the selection of which components are executing on which device based on changes in current operating characteristics.

A system or method for tracking items proximate a user interface device include a user interface device having at least one solid-state touch-sensitive region and a receiver for wirelessly receiving a signal from at least one item to determine proximity of the item relative to the user interface device. The device may also include a display screen for displaying controls and information. The user interface device may be permanently or removably mounted in a vehicle and used to interface with vehicle systems and personal electronic devices for control and information display. Tracked items or objects may include passive or active data tags and communicate identification information and optionally position information to the user interface device. The device may alert the user to movement of tracked objects, and/or confirm presence of a group of objects intended for a particular task or project. The device may use various wired or wireless devices to control selections and/or a cursor on the display.

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.

A driver assistance system includes an imaging device mounted to a vehicle that provides an image of a vicinity of the vehicle. A mobile device carried by a driver provides range rate information regarding a change in position of the mobile device. A processor determines that there is at least one object in the vicinity of the vehicle based on the image, determines the speed of vehicle movement based on the range rate information, determines relative movement between the vehicle and the at least one object based on at least the image, and determines a risk of collision between the vehicle and the at least one object based on the determined speed and the determined relative movement. A driver assist output provides a risk indication of the determined risk of collision to the driver.

A display device that is to be connected with an information terminal includes: a video reception unit that receives video information about a screen including a cursor from the information terminal; a touch panel that brings up on display the screen based upon the video information received by the video reception unit and detects a touch position specified by a touch operation; and a transmission unit that transmits, to the information terminal, displacement quantity information corresponding to a quantity of displacement from the display position of the cursor to the touch position.

A system and method for disabling distracting apps on a driver's personal devices while allowing passengers travelling in the same vehicle to have full use of their personal devices. The system works by first identifying all the personal devices that are in the vehicle and then establishing a loose mesh network between those devices. Once the mesh network is established, the system identifies which of the personal devices is associated with the driver, and ensures that any distracting apps on the driver's personal device are disabled, while allowing full functionality for any passenger's personal devices.

Computer-implemented methods include detecting a device ultra-wideband (UWB) transceiver of a mobile device and a set of vehicle UWB transceivers of a vehicle, determining a defined driver zone within the vehicle, the defined driver zone indicating a set of relative positions within the vehicle, communicating between the device UWB transceiver and the set of vehicle UWB transceivers to determine a position of the mobile device within the vehicle, and automatically enabling a driver mode of the mobile device whereby operation of the mobile device is limited when the determined position of the mobile device is within the defined driver zone and the vehicle is moving.

A system and a method of managing contact information of a terminal recognized by a vehicle include: a communication unit, which communicates with one or more terminals located in a vehicle and recognizes the terminal, and which receives information stored in the recognized terminal; a connection confirming unit which confirms a function, to which the terminal recognized through the communication unit is connected through communication, among the functions provided by an Audio, Video, and Navigation (AVN) system of the vehicle; a priority calculating unit, which calculates a priority of the terminal with respect to other terminals according to the connection between the terminal confirmed by the connection confirming unit and the function provided by the AVN system and generates priority list information for maintaining contact information stored in the terminal; and a contact information renewing unit, which downloads and stores the contact information stored in the terminal in a linked database according to the priority list information generated by the priority calculating unit or deletes the contact information stored in the database.

A vehicle can include a body coupled communication (BCC) sensor. A computer in the vehicle can detect that an occupant of a vehicle is touching a screen of a user device, based on a signal from the BCC sensor. Further, it can be determined whether the occupant is in the position of the vehicle operator. Upon determining that the occupant is in the position of the vehicle operator, a gaze direction of the occupant of the vehicle can be determined while the occupant is touching the screen. A prediction can then be output that occupant attention is directed to the screen based on the gaze direction and the signal from the BCC sensor.

Described are various embodiments related to a vehicle device and an electronic device, wherein the vehicle device according to one embodiment can include: a display; a memory; at least one or more sensors; communication circuitry configured to communicate with an external electronic device; and a processor configured to display first display information according to execution of a first application on a first area on the display, perform control to transfer vehicle-related context information to the electronic device based on information obtained by the at least one or more sensors and, if information related to a second application corresponding to the vehicle-related context information is received from the electronic device, display second display information associated with the second application on a second area on the display using the received information.