Presenting first drawer area on a first display device in an instrument panel of a vehicle, the first drawer area presented in an extended state; presenting second drawer area on a second display device in the instrument panel of the vehicle, the second drawer area presented in a retracted state; receiving first transition command regarding the first and second drawer areas; and in response to receiving the first transition command: presenting the first drawer area in the retracted state on the first display device, wherein the first content is not visible in the first drawer area in the retracted state; and presenting the second drawer area in the extended state on the second display device, wherein the first content of the first application is visible in the second drawer area.

Disclosed is a base unit including a video link hub electrically connected to a user interface device to transmit a signal, a first system-on-chip (SoC) configured to provide a first infotainment function, and a processor configured to determine whether the first SoC is operating abnormally. When a second SoC is powered on, the first SoC performs authentication with respect to the second SoC, and when the processor determines that the first SoC is operating normally, the first SoC generates a first execution signal for display of a composite infotainment function, obtained by combining the first infotainment function with a second infotainment function provided by the second SoC, on the user interface device, and transmits the first execution signal to the video link hub, and the processor controls the video link hub to transmit the first execution signal to the user interface device.

A system and computer-implemented method for automatically controlling a construction process of a road section, the section comprising a plurality of subsections, the construction process comprising processing a road surface material layer using a paver with a height-adjustable screed, the paver travelling along a predetermined path, the method comprising receiving construction design data comprising information about the path and about a nominal surface and a nominal layer thickness of the paved road surface material layer for a multitude of positions along the path, receiving a set of rules comprising different priorities for each of the plurality of subsections, continuously receiving position data indicating a current position of the screed, continuously receiving thickness data indicating a current layer thickness of the paved road surface material layer, calculating a height-adjustment of the screed, generating, based on the calculation, control data to adjust a height of the screed.

An advice providing apparatus for a vehicle including: a first interface configured to communicate with one or more human-machine interface APPs of one or more human-machine interfaces (HMIs) of the vehicle; a second interface configured to receive data from in-vehicle devices including a database, a sensing unit and a communication unit; and a processing module configured to: calculate one or more predictions for a potential query from a user of the vehicle based on the received data; select a prediction from the calculated predictions that is associated with a nonrepresentational input received via at least one HMI of the one or more HMIs from the user; generate an operation advice based on the selected prediction; and output the generated operation advice to an HMI APP of the one or more HMI APPs.

A vehicle includes a host display that has a graphic user interface that incorporates a touchscreen. At least a portion of the host display includes a charging interface. A docking port is disposed proximate the host display. The docking port is configured to selectively couple with a portable computing device that has a portable display. Engagement of the portable computing device with the docking port places the portable display of the portable computing device in front of the charging interface of the host display. A controller of the host display is placed in electrical communication with the portable computing device to charge a battery cell of the portable computing device. Engagement further adjusts the graphic user interface of the host display to selectively assimilate the portable display of the portable computing device to define the portable display as an annexed display of the host display.

A method for displaying points of interest on a digital map on a display, each point of interest being assigned at least one category and the space in front of the display being segmented into spatial regions where each spatial region is assigned a category. The method includes detecting the position of a hand of a user or part of the hand of the user by sensors, more particularly by cameras, identifying the spatial region in which the position of the hand or the part of the hand lies, identifying the category assigned to the identified spatial region, and displaying or highlighting the points of interest that have been assigned to the identified category.

A method and apparatus for providing a human-machine interface (HMI) mode of a vehicle are provided. The method, performed by a device of vehicle, for providing a human-machine interface (HMI) mode includes, determining an occupant's state, determining an HMI mode corresponding to the occupant's state among a plurality of predefined HMI modes, and providing guidance information to the occupant in a medium-specific output scheme corresponding to the determined HMI mode.

According to one or more aspects, a system for vehicle user interface (UI) management includes an interface component, an operation component, a presentation logic, and a rendering component. The interface component may include a display portion located at a first position and an input portion located at a second position different than the first position. The input portion may receive one or more user inputs and include a touch sensitive portion, a first button, and a second button. The operation component may select one or more modes for a UI based on one or more of the user inputs. The presentation logic may generate one or more objects based on a selected mode and presence information associated with one or more of the user inputs. The rendering component may render one or more of the objects to form a composite image at the display portion.

A method of controlling a temperature altering element within a seating assembly of a vehicle comprising: presenting a vehicle including a seating assembly including a temperature altering element, a controller in communication with the temperature altering element, the controller including a Pre-established Predictive Activation Model setting forth rules governing the activation of the temperature altering element as a function of data relating to Certain Identifiable Conditions, and a user interface configured to allow the temperature altering element to be manually activated or deactivated; occupying the seating assembly with a first occupant; collecting data relating to the Certain Identifiable Conditions while the first occupant is occupying the seating assembly; determining, by comparing the collected data to the rules of the Pre-established Predictive Activation Model, whether the collected data satisfies the rules of the Pre-established Predictive Activation Model so as to activate the temperature altering element; and activating the temperature altering element.

Techniques are disclosed for creating and presenting a graphical user interface for display of autonomous vehicle behaviors. The techniques include determining a trajectory of a vehicle operating in a real-world environment. Sensors of the vehicle obtain sensor data representing an object in the real-world environment. A maneuver of the vehicle to avoid a collision with the object is predicted based on the sensor data and the trajectory of the vehicle. It is determined that a passenger comfort level of a passenger riding in the vehicle will decrease based on the maneuver of the vehicle. The passenger comfort level is measured by passenger sensors of the vehicle. A graphical user interface is generated including representations of the vehicle, the object, and a graphic, text, or a symbol alerting the passenger of the predicted maneuver. The graphical user interface is transmitted to a display device of the vehicle.