Disclosed is a method for operating an operating system in a vehicle, wherein display data of a graphical user interface comprising at least one first display region are generated and output. The graphical user interface comprises a basic state and an info state. Context data about a current context of the vehicle are recorded and a first relevance value is determined for a first info application based on the recorded context data. The info state is activated depending on the determined first relevance value of the first info application, wherein, when the info state is activated, the first display region is reduced in size such that an info region is formed and a graphical info object is generated using the first info application and output in the info region.

Battery carriers that provide replaceable and exchangeable batteries and systems are provided. One example battery carrier is for batteries used in electric vehicles. The battery carrier includes a housing with a plurality of slots. Each of the slots is configured to receive a battery that is configured for hand-insertion and hand-removal from the battery carrier. Each slot and each battery has a form factor that is dimensioned to at least partially fit within ones of the slots. A plurality of electrical connectors are provided, and each electrical connector is disposed inside respective ones of the slots and each electrical connector is configured to mate with an electrical connector of the battery when present in a slot of the plurality of slots and each electrical connector is configured to provide power transfer between a power source to which the battery carrier is connected and a battery when present in one of the slots. The battery carrier includes electronics that include communication circuitry for connecting to a server over a network and circuitry for communicating with batteries when present in slots of the battery carrier to identify a level of charge. The communication circuitry is used to provide information regarding a level of charge of a battery when present in one of the slots and to enable identification of availability. The battery carrier further includes a power outlet cable for connecting the battery carrier to a power source.

Battery carriers that provide replaceable and exchangeable batteries and systems are provided. One example battery carrier is for batteries used in electric vehicles. The battery carrier includes a housing with a plurality of slots. Each of the slots is configured to receive a battery that is configured for hand-insertion and hand-removal from the battery carrier. Each slot and each battery has a form factor that is dimensioned to at least partially fit within ones of the slots. A plurality of electrical connectors are provided, and each electrical connector is disposed inside respective ones of the slots and each electrical connector is configured to mate with an electrical connector of the battery when present in a slot of the plurality of slots and each electrical connector is configured to provide power transfer between a power source to which the battery carrier is connected and a battery when present in one of the slots. The battery carrier includes electronics that include communication circuitry for connecting to a server over a network and circuitry for communicating with batteries when present in slots of the battery carrier to identify a level of charge. The communication circuitry is used to provide information regarding a level of charge of a battery when present in one of the slots and to enable identification of availability. The battery carrier further includes a power outlet cable for connecting the battery carrier to a power source.

A vehicular information display apparatus includes: a head-up display unit and a controller configured to change an arrangement of information in the vehicle information image that includes vehicle information image that includes a first region, and a second region. The first region includes a first image portion representing current vehicle speed information. The first image portion includes a vehicle speed value display representing a vehicle speed value, and a unit display representing a unit of the vehicle speed value. The controller is configured to set a position of the vehicle speed value display such that the position of the vehicle speed value is left-aligned in the first region, and configured to change a position of the unit display to a position directly below a rightmost numeral of the vehicle speed value display.

Disclosed are a vehicle infotainment apparatus using a widget and a method of operating the same. According to various embodiments, some UIs of functions on execution in a background can be displayed as a background widget within an area that is always accessible in a screen of the infotainment device, thereby enabling to provide its user with simpler manipulation functions and necessary information.

A method synchronizes two display devices in a motor vehicle. The first display device already displays a first data set which comprises a first display content relating to a predetermined thematic context. A sensor device, in particular a PMD camera, detects as a control gesture of a user, a free movement in the chamber of a body part of the user. A signal which is then generated by the sensor device and which describes the control gesture, is transmitted to a gesture recognition device which generates a control signal in accordance with the determined control gesture. In accordance with the control signal, a control device determines the predetermined thematic context of the determined data set. Using the defined predetermined thematic context, an additional data set which includes a second display content of the predetermined thematic context is provided. This additional data set is displayed on the second display device.

Battery carriers that provide replaceable and exchangeable batteries and systems are provided. One example battery carrier is for batteries used in electric vehicles. The battery carrier includes a housing having a plurality of slots, and each of the slots is configured to receive a battery that is configured for hand-insertion and hand-removal from the battery carrier. Each slot and each battery has a form factor that is dimensioned to at least partially fit within ones of the slots. A plurality of electrical connectors is also provided. Each electrical connector is disposed inside respective ones of the slots and each electrical connector is configured to mate with an electrical connector of the battery when present in a slot of the plurality of slots and each electrical connector is configured to provide power transfer between a power source to which the battery carrier is connected and a battery when present in one of the slots. Further provided is electronics integrated with the battery carrier. The electronics include communications logic for connecting to a network and logic for communicating with batteries when present in slots of the battery carrier to identify a level of charge. The communications logic is configured to communicate with a server that obtains information regarding the level of charge of batteries present in the battery carrier. The server is configured to process requests from user accounts to find batteries having availability for use by an electric vehicle. The server is configured to enable reservation for at least one battery of the battery carrier via a user account.

A vehicular vision system includes a camera disposed at a vehicle and viewing exterior of the vehicle. The vehicular vision system, responsive to detecting an object present exterior of the vehicle via processing of image data captured by the camera, determines location of the detected object relative to the vehicle. The vehicular vision system displays video images derived from the captured image data on a video display. The vehicular vision system generates a three-dimensional (3D) icon that includes a front face and a rear face opposing the front face with a length dimension between the faces. The 3D icon overlays the detected object and the front face faces toward a representation of the vehicle. Responsive to a chance in location of the object relative to the vehicle, the system adjusts the length dimension.

A vehicular information processing apparatus includes a storage unit in which running states of a vehicle each including a height of the vehicle and a manner of drive power distribution are stored so as to correspond to respective running modes, an input/output device that receives an input manipulation for selecting one of the running modes and a display control unit that causes the input/output device to make a display that indicates the selected running mode. The display control unit causes the input/output device to display a running state corresponding to the selected running mode in the form of an animation together with a skeleton image of the vehicle, and then display an appearance of the vehicle.

A console for controlling an agricultural machine having a screen, wherein the screen is configured to display a first graphical user interface with at least a first virtual element for controlling a machine function, and to display a second graphical user interface overlapping at least partially the first virtual element. The console is configured to prevent an execution of the machine function assigned to the first virtual element of the first graphical user interface, wherein the execution of the machine function assigned to the first virtual element is prevented after an overlap of the first virtual element by the second graphical user interface was cancelled.