The present disclosure relates to an entertainment system for a vehicle. In one embodiment, the entertainment system includes a display external to the vehicle and viewable by an occupant of the vehicle. The entertainment system includes a communication module to receive occupant preferences from an occupant, and a processor configured to generate or modify content to be presented on the display based on the occupant preferences.

Static OEM hard-wired in-vehicle infotainment system method to capture and transmit vehicle route data for a defined geo-fenced area. Collects and transmits vehicle data to cloud server and maps geo-fenced area using GPS coordinates to produce report and vehicle route onto infotainment screen. Collective summery report and graphical display for all vehicles within a defined GPS Geo-Fenced area can also be displayed. Additional methodology includes GPS Proximity Based Advertising and Infotainment System Advertising. GPS Proximity Based Advertising defines radius around a GPS location, displaying advertisement when vehicle enters the radius. Infotainment System Advertising receives advertisement via software or firmware, onto the OEM hard-wired in-vehicle infotainment system memory. Additional methodology includes receiving and displaying emergency alert emanating from integrated public alert and warning system compliant common alert protocol alert origination tool onto static OEM hard-wired in-vehicle infotainment system, GUI to display an image, picture, video or hologram.

Various aspects of a device and method to manage interaction with one or more control circuits in a vehicle and one or more wearable devices are disclosed herein. The device comprises one or more circuits configured to receive a first set of input values from the one or more wearable devices associated with a first user. The one or more wearable devices are communicatively coupled to the device used in the vehicle. A second set of input values is received from one or more vehicle sensors embedded in the vehicle. An operating mode of the device is determined based on the received first set of input values and the second set of input values. One or more functions of the vehicle are controlled based on the determined operating mode of the device.

A vehicular device includes a control unit, a main board on which the control unit is mounted, and a module that has a functional unit having different specifications depending on a product model of the vehicular device. The module has a module side control unit configured to control the functional unit of the module. The main board and the module are housed in a casing and connected with each other through a common interface regardless of the specifications of the functional unit. The module side control unit is configured to control the functional unit based on a control command received from the control unit, the control command being common regardless of the specifications of the functional unit.

A device for a seat, includes: a docking unit that is designed for connection to a mobile terminal in order to allow a data transfer from the mobile terminal to at least one media unit; and a control unit that is designed to record at least one context parameter that specifies a current surroundings situation of the device; and to actuate at least one functional unit based on the at least one context parameter in order to adjust a setting of the at least one functional unit to the current surroundings situation such that a user is able to use the at least one media unit.

The invention relates to a vehicle having a detection device for detecting a property of a vehicle occupant and an operator control and display device which is coupled to the detection device, has a display region and is configured to display information in the display region and by means of which a symbol can be displayed in the display region as a function of the sensed property. It is provided here that the property which is detected by means of the detection device is a position of the vehicle occupant, and the operator control and display device is configured to display the symbol in a partial region of the display region which is determined as a function of the detected position, and to assign the symbol to the vehicle occupant in such a way that when there is a change in position of the vehicle occupant that the symbol follows the vehicle occupant. The invention also relates to a method for operating such a vehicle. The invention makes particularly flexible use of the vehicle possible.

The techniques of this disclosure relate to a vehicle occupancy-monitoring system. The system includes a controller circuit that receives occupant data from an occupancy-monitoring sensor of a vehicle. The controller circuit determines an occupancy status of respective seats in a cabin of the vehicle based on the occupancy-monitoring sensor. The controller circuit indicates the occupancy status of the respective seats on a display located in a field of view of occupants of the vehicle. The display is integral to one of a roof light module, a door panel, or a headliner of the cabin. The system can improve passenger safety by alerting the operator and other occupants about the occupancy status of the passengers.

A vehicle system, including a vehicle processing apparatus, and a memory configured to store one or more vehicle operational profiles that includes data to reassign a vehicle component from executing a vehicle function to operating one or more vehicle immersion components. A communication interface is configured to receive at least portions of an executable application from a computer network, wherein the vehicle processing apparatus is configured to execute the application from the computer network, and execute the operational profile to generate one or more immersive effects in the vehicle via the one or more vehicle immersion components, when the vehicle component is being used.