A vehicular human-machine interface, an instrument cluster and a method of providing information to a driver of a vehicle. The interface includes a multi-information display that provides a driver numerous dynamically-adjustable icons that are representative of a vehicle systems such that the driver can view, and if necessary, control through the interface. During use by a driver to navigate among the various icons being displayed, the human-machine interface enhances a driver's visual acuity by providing notorious indicia of the status of a particular vehicle system that may be of interest to the driver. In addition, by having certain information be arranged in a dynamic presentation format for selective viewing rather than arranged statically, certain information not of immediate interest can be temporarily removed, thereby freeing up the display to show a larger number of the icons on any particular screen being viewed.

A control system for an agricultural working machine has a control device which is connected, in terms of signals, to a display unit, a ground speed control lever, and a control panel, wherein at least the ground speed control lever comprises multiple control elements. The display unit is designed as a touch-sensitive screen including one or multiple visualization panes and several virtual control elements. A preferred quick-select functionfrom a plurality of different quick-select functions for adjusting a performance parameter of the working machineis assigned to one of the control elements of the display unit, of the ground speed control lever, and of the control panel, the performance parameter being depictable with the aid of the display unit upon activation. The quick-select function assigned to the particular control element can be activated with the aid of the display unit, and/or the ground speed control lever, and/or the control element.

Methods and systems are provided, for sharing mobile device applications with a vehicle computer. One example method includes detecting a mobile device present in a vehicle, by a vehicle computer of the vehicle and generating a user interface on a display screen of the vehicle, as instructed by the vehicle computer. The method further includes identifying by the vehicle computer, a plurality of native applications of the vehicle for the user interface and identifying a plurality of mobile device applications from the mobile device for the user interface, while the mobile devices is present in the vehicle. The method enables system controls, using the vehicle computer, to enable access to the plurality of native applications and the plurality of mobile device applications, the system controls including one or more of button inputs of the vehicle, touch screen inputs via the user interface of the display screen of the vehicle, and voice input via microphones of the vehicle.

A display control device includes a receiving portion configured to receive operation information input to a touch input portion, the touch input portion being located away from a display portion; and a processing portion configured to control display on the display portion in accordance with the operation information that is received by the receiving portion. The processing portion is configured to cause the display portion to display an image in which a cursor is disposed inside a plurality of icons that are circumferentially disposed, and the processing portion is configured to move the cursor to an icon among the plurality of icons, the icon being located in a direction of a slide operation received by the receiving portion.

Disclosed herein are devices, methods and systems for producing hologram-based indicia for a vehicle dashboard/cockpit. By employing the aspects disclosed herein, indicia (electronically coupled to the vehicle's microprocessor), is lighted and projected in a three-dimensional virtual manner. The aspects disclosed herein may be embedded in various portions in the vehicle and thus, not consume extra space or area required to create virtual images through other techniques.

An electric vehicle having an electric motor is provided. The electric vehicle having a receptacle slot integrated in the electric vehicle. The receptacle slot provides an electrical connection for providing power to the electric motor. A battery having an elongated form factor, where a first end of the elongated form factor includes a handle and a second end of the elongated form factor includes a connection for interfacing with the electrical connection of the receptacle slot of the vehicle, when the battery is slid into the receptacle slot for electrical engagement. The battery is configured to store and supply charge to power the electric motor of the electric vehicle and the battery is replaceable by sliding the battery out of the receptacle slot and sliding in another battery into the receptacle slot to further supply charge to power the electric motor of the electric vehicle with said another battery. The battery and said another battery each have a respective handle that is accessible for enabling hand-removal and hand-insertion of said battery and said another battery out of and into the receptacle slot. A computer on-board the electric vehicle is interfaced with the electrical connection of the receptacle slot to obtain a level of charge of the battery present in the receptacle slot. A battery level indicator of the electric vehicle provides information regarding the level of charge of the battery in the receptacle slot. A system for storing and charging batteries usable by the electric vehicle is further provided. In some examples, the batteries are additionally or alternatively recharged using green sources, such as wind or solar.

A method, device, and a vehicle information system are provided for persisting application context from the mobile device to the vehicle information system. An operating context is determined for at least one application executing on the mobile device. A user interface view for display by the vehicle information system is generated and provided to the vehicle information system. The user interface view comprises at least one application user interface element associated with the at least one application, and the application user interface element comprises an application entry point defined by the operating context for the at least one application.

Provided are a vehicle control device for controlling one or more displays provided in a vehicle, and a vehicle including the same. The vehicle control device includes a communication unit performing communication with the one or more displays, and a processor controlling, when an event occurs, the one or more displays to display a home button corresponding to the event using the communication unit, wherein the home button is configured to display a preset icon list in response to a touch applied to the home button, and the preset icon list is varied according to the event.

A control system for a vehicle comprises a controller comprising a processor and a non-transitory computer-readable medium including instructions. The system comprises first, second, and third inputs configured to be manipulated by an operator. The system comprises first, second, and third displays adjacent the first, second, and third inputs, respectively. The first, second and third displays are configured to show first, second, and third indicia, respectively. Manipulation of the first input by the operator transmits a selection input signal to the controller. The controller receives the selection input signal. The processor compares the selection input signal to the instructions in the non-transitory computer-readable medium, transmits a selection output signal to the second and third displays, removes the second and third indicia from the second and third displays, and shows a first sub-selection indicium on the second display and a second sub-selection indicium on the third display.

A display control device for a vehicle includes a memory, and at least one processor connected to the memory. The at least one processor displays, on a display portion provided at a front side of a steering wheel, plural icons corresponding to a steering wheel switch group, and sets aspect ratios of the icons such that a proportion of a width in the aspect ratio of the icon is large as compared with a proportion of a width in a width-to-height ratio of a corresponding operation region of the steering wheel.