A nautical chart processing device is provided. The nautical chart processing device includes processing circuitry. The processing circuitry is configured to receive position information indicating position of a pair of base points on an electronic chart, set a movable measurement point on a straight line connecting the pair of base points in real time, calculate, on the electronic chart, a distance between the movable measurement point and at least one base point of the pair of base points, and output position information of the movable measurement point and the calculated distance.

A system and method for managing location-based information associated with the oil and gas industry. The system may comprise a computing device connected to a location-based service, wherein the location-based service comprises energy operations data which is associated with a specific geographic location, and wherein the computing device is associated with a graphical map interface. The graphical map interface is configured to display location-based information. The graphical map interface can also be configured to display an indication of the frequency of an event. The location-based information can be associated with a geo-fence.

Computer program products, methods, systems, apparatus, and computing entities are provided for creating, modifying, and viewing geographic areas and their corresponding routes and items of work. For example, an interface can be provided with a map display area and a route display area. The map display area and the route display area can be synchronized to create new routes, modify existing routes, and/or view information about various routes and/or items of work.

The invention relates to a navigation device comprising a display for displaying a digital map to a user, a processor configured to access digital map data and cause a digital map to be displayed to a user using the display, and a user interface operable by a user to enable the user to interact with the apparatus. The user interface is arranged to allow a user to select a continuous region present in the digital map by providing one or more indications on the digital map displayed to the user. The processor is arranged to determine digital map data relating to the selected continuous region, and to carry out one or more mapping or navigation operations using the determined digital map data. The processor may calculate a route using a path selected on the map by a user.

A method for making available at least one individualized user function in a vehicle having at least one user interface includes recording data which is transferred to respective functions assigned to the at least one user interface and/or data which is output by the respective functions assigned to the at least one user interface; transferring the recorded data to a server as a function of a state of the vehicle; determining at least one intention of a user of the vehicle on the basis of the data transferred to the server; and dynamically adjusting the vehicle as a function of the at least one intention of the user, by way of at least one user function which is selected and/or generated on the basis of the at least one intention of the user.

A method and system for managing contextual views within an application interface are disclosed. The method includes displaying a first view within an application interface that provides information about a user selected vehicle. The method also includes displaying a second view within an application interface that provides information about an environment. The second view may present an interactive three-dimensional model that provides an immersive experience. The application may switch between the first view and the second view according to user input.

Described herein is a computer implemented method. The method comprises receiving, from a server application, project data defining a plurality of tasks and a plurality of iterations, each iteration having a start time and an end time and displaying, on a display, a timeline graphical user interface including a plurality of task timelines, each task timeline corresponding to one of the plurality of tasks. The method further comprises detecting a first user input, the first user input associated with a particular task and, in response to detecting the first user input, displaying a plurality of available drop zones in the particular task's timeline, each available drop zone corresponding to an available iteration, an available iteration being an iteration that the particular task can be assigned to.

A method for providing guided navigation for personal transport devices is described. In one embodiment, the method includes providing a list of predetermined destinations associated with a geographic area, projecting directions to one or more of the destinations on a ground surface located in front of a personal transport device, and providing an option to a user of the personal transport device to select between at least two different destinations. A direction associated with each destination of the at least two destinations may be projected on the ground surface located in front of the personal transport device. The method also includes receiving an input from the user indicating a selection of one of the at least two different destinations and projecting directions to the selected destination on the ground surface located in front of the personal transport device to guide the user to the selected destination.

The present disclosure relates to providing a dynamic graphical user interface for efficiently presenting users with relevant ride information throughout the fulfilment of a ride request. In some embodiments, the system detects a trigger event during a ride, and based on detecting the trigger event, the system expands or collapses an information portion within a graphical user interface. When in a collapsed state, for example, the information portion of the graphical user interfaces includes a first set of content. Upon detecting a trigger event, the system dynamically expands the information portion to provide a second set of content that includes information associated with the detected trigger.

A display control system using a knob includes an input part to receive a touch input signal for a display area, a memory to store a display control program according to the touch input signal, and a processor to execute the program, such that the processor moves a position of a knob to perform function control of an area of the display to which the touch input signal is applied.