An interactive digital map is provided via a user interface of a computing device. A request to obtain travel directions to a destination is received via the user interface. An indication of a ride from a pick-up location to a drop-off location, to traverse at least a portion of the route, is obtained from a third-party provider of a ride service. Visualization information for rendering a visualization of the ride on the digital map also is received from the third-party provider of the ride service. The visualization of the ride on the digital map is generated in accordance with the received visualization information.

In an embodiment, a data processing method comprises obtaining, from a calendar database associated with a particular mobile computing device, an event record specifying an event, and a date value and a time value indicating a date and time of the event; obtaining, from a user location history table accessible to a server computer, historical location data specifying a plurality of past geographical locations of the particular mobile computing device; using the server computer, determining, based upon the plurality of past geographical locations of the particular mobile computing device, a predicted location of the event; based upon the predicted location of the event, a current location of the particular mobile computing device, and mode data specifying a particular mode of transportation, calculating a route of travel between the current location and the predicted location and an estimated duration of travel; determining, based upon the date value, time value, route of travel and estimated duration of travel, a recommended time to leave to arrive at the predicted location of the event approximately on time.

Systems and methods for multi-modal trips. Systems and methods are provided for integrating multiple legs of a trip using different modes of transportation into a single, personalized transportation experience. In particular, systems and methods are provided for integrating multiple modes of transportation, such as an electric scooter ride and an autonomous vehicle ride, into a single trip.

The network system triggers registration of the start of a transport journey in response to a communication of a transport user device and a transport provider device with each other, performs a continuous coordinated proximity monitoring to verify the identity of a transport user and a transport provider vehicle, and triggers registration of the end of the transport journey through communication of the transport user device and the transport provider device with each other.

Some embodiments provide a commute application that provides a first presentation of several stops along a route. The commute application also receives a selection of a stop from the several stops along the route. The commute application further provides a second presentation for displaying several different routes that traverse through the selected stop.

A multimodal transportation system includes a creation unit that creates an itinerary including a movement route and a plurality of types of moving bodies moving along the movement route, and a proposal unit that outputs the itinerary to an external terminal. Based on the movement situation of the user and traffic information related to the movement by a first moving body, the creation unit changes a part of the itinerary that is related to the movement by a second moving body scheduled to be used by the user before the first moving body, and the proposal unit outputs the itinerary that has been modified to the external terminal.

Technologies disclosed herein facilitate identification of a trip route from an origin of a user to a desired destination of the user, wherein the trip route includes multiple transportation modalities, at least one of which is an autonomous vehicle (AV), and dispatching of the AV to a pickup location for the user in connection with providing transportation to the user along a portion of the identified trip route.

A ride positioning service providing method includes: by service providing server, receiving starting position and destination along with call request from user terminal, receiving non-preference option for specific road type from driver terminals, determining each of the driver terminals as walking ride group or general ride group according to whether a road to which the starting position belongs is the non-preference option, determining the starting position as general ride point of the taxi, and one position selected from an area within a certain range based on the starting position as a walking ride point of the taxi, and requesting a call to the driver terminal forming at least one group among the walking ride group and the general ride group based on at least one ride point among the walking ride point and the general ride point based on weather information of a position of the user terminal.

A computer-implemented system and method distilling three-dimensional structure to a two-dimensional raster with multiple discrete planes for purposes of safe and accurate route planning including a map generator, pixel encoder, map transformer, and route generator. The map generator generates a raster map by populating a blank map canvas with raster and vector data on a per-pixel basis and obtains values for pixels from the pixel encoder. The pixel encoder encodes type, plane, and elevator information of features into pixels. The map transformer converts the map produced by the map generator into a weighted graph of nodes and edges suitable for route generation. The route generator generates routes using the graph produced by the map transformer.

Disclosed herein a method, device and system for guiding users in a mobility transit hub therefor. The method includes: obtaining user information that comprises at least one of route information of the user using the mobility transit hub and mobility use information associated with a mobility requested by the user; analyzing, based on the user information, movement demand of the user who moves to an affiliated zone connected with the transit hub; and controlling an operation of a guide apparatus that controls a passage of the user, in order to lead the user to the affiliated zone that is determined based on the movement demand.