The disclosure relates generally to an in-vehicle feedback system, and more particularly, to an in-vehicle device with a display or graphical interface that collects driving data and provides feedback based on the driving data. The system may comprise an in-vehicle device that includes a graphical user interface and a processor and a data collection device wirelessly connected to the in-vehicle device. The in-vehicle device may be configured to receive vehicle telematics data from the data collection device and the processor may process the telematics data in real time and cause the telematics data to be displayed on the graphical user interface. The graphical user interface may include a speed display and an acceleration display.

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.

Methods and apparatus for external vehicle illumination management are disclosed herein. An example method includes receiving, at a first processor of a mobile device, vehicle data. The vehicle data is to be transmitted to the first processor from a second processor of a vehicle. The example method includes analyzing the vehicle data and mobile device data generated by the mobile device. The example method includes generating an alert for headlamp usage of the vehicle based on the analysis and presenting the alert via the mobile device.

A vehicle cabin control device includes a plurality of seating surface changing devices a determination unit and an output unit. The seating surface changing devices is configured to change orientations of seating surfaces of a plurality of vehicle seats. When the determination unit determines that the sharing state is desirable, the output unit operates the seating surface changing devices so as to change orientations of bodies of the occupants to such orientations that the occupants easily communicate with each other. When the determination unit determines that the sharing state is not desirable, the output unit operates the seating surface changing device so as to change an orientation of the body of the occupant to such a orientation that the occupant does not easily communicates with the other occupants.

A vehicle includes a controller programmed to identify a seating position in the vehicle corresponding to each of a plurality of nomadic devices in communication with the vehicle. The controller is configured to receive at least one seating profile from each of the nomadic devices and adjust seating parameters for each of the seating positions according to the seating profile received from the corresponding nomadic device.

A vehicle includes at least one display and a central controller in signal communication with the at least one display. The central controller is configured to detect a plurality of unique user profiles associated with peripheral electronic user devices located within the vehicle, and to establish signal communication with the peripheral electronic user devices located within the vehicle.

One or more devices in a data analysis computing system may be configured to receive and analyze movement data and driving data, and determine driving trips and associated drivers based on the received data. Movement data may be collected by one or more mobile devices, such as smartphones, tablet computers, and on-board vehicle systems. Drivers associated with driving trips may be identified based on the movement data collected by the mobile devices, such as speed data, acceleration data, or distance data.

A vehicle infotainment system for performing a large file transfer (SATA), music (USB), phone projection (CarPlay/Android Auto/MirrorLink), a modem (USB) and a phone mirroring (MHL) function using a millimeter wave short-range communication method in a band of 30 GHz to 300 GHz for a link between the vehicle infotainment system and a smartphone.

The invention relates to the transmission of multimedia data, which is to be output, from a computer device to a vehicle multimedia device. The vehicle multimedia device has a control device which is designed to determine a piece of vehicle status information in order to transmit said information to the computer device. On the basis of the vehicle status information, the computer device generates release data which determines to what extent the multimedia data is to be output. The computer device transmits the multimedia data and the release data to the vehicle multimedia device, which multimedia device outputs, by means of an output device, the maximum multimedia data to the extent defined by the release data.

A method for controlling a display of a vehicle infotainment system may include: establishing, by a controller of the vehicle infotainment system, a wireless communication session with a first user device; receiving, by the controller, an indication of a representative color from the first user device via the established wireless communication session; and controlling, by the controller, the vehicle infotainment system such that a display screen of a display device of the vehicle infotainment system displays the representative color.