A method for displaying, on a digital map, the geographical position of vehicles available for hire, the method including the following steps: retrieving the real geographical position, at a time T0, of vehicles available for hire, for each of the vehicles: calculating, by a route calculation module, a route between: a starting point corresponding to the real geographical position of the vehicle at T0, and an arrival point defined with respect to the geographical position of a mobile terminal of a user, calculating, by a calculation module, an estimated geographical position of the vehicle at a time T2 on the calculated route, wherein T2>T0, and, at a time T1, displaying on the digital map the estimated geographical position of all or a portion of the vehicles, wherein T2>T1>T0.

Example methods, apparatus, and articles of manufacture to capture and compress telematics data are disclosed herein. An example computer-implemented method, executed by a processor, to represent telematics data includes identifying, with the processor, a physical intersection of roads, identifying, with the processor, virtual lines crossing the roads, assigning, with the processor, ordinals to the virtual lines, representing, with the processor, a physical traversal through the physical intersection captured in first telematics data by a pair of the ordinals, and storing the pair of the ordinals in second compressed telematics data.

Disclosed is an AR image provision method of a vehicle navigation system, including transmitting, by a processor, information on a guide point or vehicle speed information to an external server, searching, by an external server, for candidate vehicles based on the information on the guide point or the vehicle speed information, selecting, by the external server, an image providing vehicle from among the candidate vehicles according to priority set by the processor, generating, by the external server, a graphical object to be displayed in a camera image received from the image providing vehicle using augmented reality (AR), and displaying, by the processor, AR image information on the guide point including the camera image and the graphical object on a navigation screen.

A display device includes a display that displays a map based on map data and Hypertext Markup Language data, a communicator that obtains the map data through Hypertext Transfer Protocol communication, and a display controller that updates, based on the map data obtained by the communicator and corresponding to location data obtained at predetermined time intervals, the map displayed on the display.

A map data processing method is performed at a computing device, the method including: detecting a positioning result updated in a three-dimensional space; determining a field of view area corresponding to the updated positioning result; obtaining a tile corresponding to the updated positioning result and a tile corresponding to the field of view area; dynamically loading, into an internal memory space, the tile corresponding to the updated positioning result, and the tile corresponding to the field of view area; and rendering, based on the loaded tiles, an image, in the three-dimensional space, located on the positioning result and corresponding to the field of view area.

The disclosure discloses a method for displaying a point of information of a map, a device, and a storage medium. The detailed implementation includes: obtaining a display position of a target point of information (POI) to be displayed; on a target electronic map displayed at a preset scale, determining a position relationship between the display position of the target POI and an influence region of each POI located in the target electronic map; and displaying information of the target POI at the display position of the target electronic map in response to the display position of the target POI being located outside the influence region of each POI in the target electronic map. With the technical solution of the disclosure, when the POI is displayed, the display efficiency and the intelligence degree are improved, the POI overlapping with its surrounding POIs is improved, and the overall display effect is ensured.

Provided herein is a system and method of a vehicle that communicates an intended action of the vehicle. The system comprises one or more sensors; one or more processors; and a memory storing instructions that, when executed by the one or more processors, causes the system to perform capturing data from the one or more sensors of another vehicle or a road condition; determining an intended action of the vehicle based on the captured data; simulating the intended action of the vehicle on a map; communicating, within the vehicle, the intended action of the vehicle; and navigating the vehicle based on the intended action of the vehicle.

Systems, methods, and non-transitory computer readable media configured to provide three-dimensional representations of routes. Locations for a planned movement may be obtained. The location information may include tridimensional information of a location. Route information for the planned movement may be obtained. The route information may define a route of one or more entities within the location. A three-dimensional view of the route within the location may be determined based on the location information and the route information. An interface through which the three-dimensional view of the route within the location is accessible may be provided.

A battery management device includes a calculating unit that calculates a movable distance based on a state of charge of an energy storage device serving as a power source of the electric moving body. The calculation unit of the battery management device is configured to: acquire a state of charge of the energy storage device; acquire environmental information in a planned route of the electric moving body; calculate, from the acquired state of charge and environmental information, a power consumption amount predicted based on a watt-hour necessary for the electric moving body to move along the planned route and a prediction of a power consumption amount in an installation mounted on the electric moving body; and calculate a movable distance achieved by remaining power of the energy storage device based on the calculated predicted power consumption amount and the state of charge.

A device is disclosed for generating navigation instructions for display on a display device of a portable navigation device, comprising: means for accessing a repository storing digital map data pertaining to a navigable network along which the navigation device can travel; means for generating, for display on the display device, a three-dimensional perspective view of a model representative of the map data as though from a camera positioned at an elevation and pitch angle behind a current position of the portable navigation device, that is updated to follow the device as it travels along a planned route through the navigable network; and means for generating, in response to detecting that the current position of the navigation device is closer than a predetermined distance to a decision point in the planned route, a fast forward preview of the upcoming decision point by advancing the position of the camera for the three-dimensional perspective view along the planned route at a speed faster than the rate of travel of the current position of the device. Methods of operation of the device, and related computer software, are also disclosed.