An operating unit for operating a plurality of functional units of a motor vehicle includes a screen display unit and an input unit. The input unit has at least two selection elements for selecting one of the functional units and has a setting element for making a setting on a selected functional unit. Furthermore, the operating unit is configured to display a setting state of a selected functional unit as a pop-up on the screen display unit. A method of setting a parameter of a functional unit of a motor vehicle is also provided.

Embodiments generally relate to a method, an apparatus, and a machine-readable medium for displaying information. In particular, embodiments relate to a method comprising generating an interface object in a virtual space, and displaying the information by changing a shape and an orientation of the interface object.

Methods, apparatus, systems and articles of manufacture are disclosed to perform a tank turn. An example vehicle includes a first wheel and a second wheel, the first wheel located on an end of a first axle, the second wheel located on an end of a second axle, the end of the first axle opposite to the end of the second axle, a first suspension coupled to the first wheel, a second suspension coupled to the second wheel, and a controller to drive the first axle in a first direction, drive the second axle in a second direction, the first direction different from the second direction, and decrease a first suspension load of the first suspension and a second suspension load of the second suspension.

Provided are an electronic device mounted on a vehicle and an operating method of the electronic device. An electronic device, according to an embodiment of the disclosure, obtains a surrounding environment image by using a camera, detects at least one object from the surrounding environment image by using an artificial intelligence (AI) model, receives a vehicle to everything (V2X) data set including information about the at least one object, selects a first object in the detected at least one object by a user input, obtains information about a type of the first object by using a detection result determined based on the surrounding environment image and the received V2X data set, and displays a user interface (UI) for wireless communication connection with the first object, based on the information about the type of the first object.

The present disclosure relates to a signal processing device and a vehicle display apparatus including the same. The vehicle display apparatus according to an embodiment of the present disclosure includes: a display located in a vehicle; and a signal processing device configured to output an image signal to the display, wherein while outputting a first overlay based on a first operating system, the signal processing device is configured to display a second overlay based on a second operating system to be overlapped on at least a partial area of the first overlay, thereby seamlessly displaying the overlays based on heterogeneous operating systems.

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.

Provided are a control system and method using an in-vehicle gesture input, and more particularly, a system for receiving an occupant's gesture and controlling the execution of vehicle functions. The control system using an in-vehicle gesture input includes an input unit configured to receive a user's gesture, a memory configured to store a control program using an in-vehicle gesture input therein, and a processor configured to execute the control program. The processor transmits a command for executing a function corresponding to a gesture according to a usage pattern.

The present disclosure relates to an infotainment system, to a locomotion vehicle, and to a user interface. The user interface may comprise: an input device for detecting swipe gestures of a user guided by a structure in respect of two dimensions, called “finger strip” in the following, a display device, and an evaluating unit. The evaluating unit may be configured to evaluate swipe gestures detected by means of the finger strip for substantially continuously variable adjustment to an output variable and to evaluate tap inputs detected by means of the finger strip for selection and/or definition of favorites.

A method for selecting an operating mode for a vehicle which has at least two operating modes. Graphics data of a graphic user interface are generated and output, wherein the graphic user interface includes a background display and at least two selectable control buttons, wherein the control buttons are each assigned to an operating mode of the vehicle. A selection of a control button is detected, and a control signal is generated and transmitted to a control device of the vehicle as a function of the operating mode assigned to the selected control button. The background display includes a display of a vehicle surface, wherein the displayed vehicle surface is formed as a function of the operating mode which is selected at the current time. Also disclosed is a system for selecting an operating mode for a vehicle.

Methods, apparatus, systems and articles of manufacture are disclosed to perform a tank turn. An example apparatus includes programmable circuitry to determine that a first brake associated with a first wheel is engaged and a second brake associated with a second wheel is engaged, the first wheel located on an end of a first axle of a vehicle, the second wheel located on an end of a second axle of the vehicle, the end of the first axle opposite to the end of the second axle, cause a first suspension to decrease a first suspension load of the first wheel, cause a second suspension to decrease a second suspension load of the second wheel, cause a first motor to drive the first axle in a first direction, and cause a second motor to drive the second axle in a second direction, the second direction different from the first direction.