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.

Provided are methods, systems, devices, and tangible non-transitory computer readable media for providing data including vehicle map service data. The disclosed technology can perform operations including receiving vehicle map service data from a plurality of service systems that include a plurality of client systems associated with a vehicle. The vehicle map service data can include information associated with a geographic area. A local map of the geographic area within a predetermined distance of the vehicle can be generated based on the vehicle map service data. Portions of the local map to which each client system is subscribed can be determined for each client system of the plurality of client systems. Additionally, the portions of the local map to which each client system is subscribed can be sent to a respective client system of the plurality of client systems.

Systems and methods for optimizing issue reporting in a navigation environment are provided. In example embodiments, a networked system causes presentation of a navigation user interface on a user device of a user, whereby the navigation user interface includes a route being navigated and navigation instructions. The networked system also causes presentation of one or more issue icons on the user device, whereby each issue icon represents a different type of issue to be reported. A selection of an issue icon from the one or more issue icons is received by the networked system. In response to receiving the selection of the issue icon, the networked system infers a location associated with the issue. The networked system updates a database with the issue and the inferred location. In some embodiments, the database is updated after the inferred location or the issue is verified.

A system for vehicle navigation may include a processor including a circuitry and a memory. The memory may include instructions that when executed by the circuitry cause the processor to receive navigational information associated with the vehicle including an indicator of a location of the vehicle, and determine target navigational map segments to retrieve from a map database. The map database may include stored navigational map segments each corresponding to a real-world area. The determination of the target navigational map segments may be based on the indicator of vehicle location and on map segment connectivity information associated with the stored navigational map segments. The instructions may also cause the processor to initiate downloading of the target navigational map segments from the map database, and cause the vehicle to navigate along a target trajectory included in one or more of the target navigational map segments downloaded from the map database.

A navigation device includes an image display unit and a display control unit for controlling the display of the image display unit. The display control unit displays, in the image display unit, a map on a fixed scale in the form of a bird's eye view in which the front of the vehicle is overlooked, and displays a moving route by a guide line on the map until the distance to a guide point becomes a first display switching determination distance, when the distance to the guide point becomes the first display switching determination distance or shorter, increases a scale as the guide point is approached, and when the distance to the guide point becomes a second display switching determination distance or shorter, stops the increase of the scale, and displays, in an area where the guide line is displayed, a mark indicating a path at the guide point.

An electronic device may include: a communication module comprising communication circuitry, a processor operatively coupled to the communication module, and a memory storing instructions operatively coupled to the processor. The instructions, when executed, may cause the processor to: obtain driving route traffic information of a first driving route of a vehicle connected to the electronic device, analyze the first driving route traffic information and determine a traffic event occurrence requiring a change in a driving route or a driving lane of the vehicle connected to the electronic device, based on the traffic event occurring, determine a severity level of the traffic event based on a driving time increase and an accident risk, and control a display device to display at least one of line change information, lane change information and a traffic sign corresponding to the severity level on a display device.

Various embodiments provide for annotating a geographic map. Display of a geographic map on a client device can be adjusted (e.g., pan over geographic map or adjust zoom level), and a first set of map annotations for the adjusted map is determined, where the first set of map annotations comprises at least one map annotation associated with a transport service opportunity. From the first set of map annotations, a second set of map annotations can be determined based on a map annotation visual hierarchy. For instance, at least a portion of the second set of map annotations can be determined by filtering the first set of map annotations based on a type of transport service opportunity. Subsequently, the second set of map annotations can be presented on the adjusted map on the display.

A processor of a route provision apparatus according to an embodiment of the present invention is characterized in outputting map information received from a server, on a rollable display provided in a vehicle, determining a change in the size of a display area of the rollable display, and requesting the server for map information to be displayed on the changed display area, on the basis of the changed size of the display area, and receiving the map information.

The present application includes a search route processor that calculates a plurality of search routes between locations of a plurality of searchers belonging to a predetermined area and a search target based on position information of the search target acquired from a position information terminal held by the search target, and a plurality of portable terminals that is held by the plurality of searchers and displays the plurality of search routes calculated by the search route processor and personal information that identifies the search target.

An interactive digital map of a geographic area is provided via a user interface. A request to obtain travel directions to a destination is received via the user interface. Respective indications of candidate rides for at least a portion of a route to the destination are requested from third-party providers, each of the indications including a pick-up location, a price estimate, and pick-up time. The requested indications of the candidate rides are received. A ranking of the candidate rides is determined using at least one of the corresponding pick-up locations, the price estimates, or the pick-up times, and a listing of the candidate rides is provided via the user interface in accordance with the determined ranking. In response to one of the candidate rides being selected via the user interface, a request for the selected ride is transmitted to the corresponding third-party provider.