The presently described systems connect people based on age range, location, shared interests, activities, and health and wellness goals and provide for group communications through a friend blast or carpool request among users of the system.

The presently described systems connect people based on age range, location, shared interests, activities, and health and wellness goals and provide for group communications through a friend blast or carpool request among users of the system.

A system can receive a request for a transport service from a first device. The request can include a user identifier associated with a first user of the first device, contact information associated with a second user, and a pickup location information. The system can make a determination whether a user account associated with the second user is stored in a user database using the contact information in the request. Based on the determination, the system can select a messaging protocol to transmit data to a second device associated with the contact information. The system can transmit a message corresponding to the transport service to the second device using the selected messaging protocol.

A system is described. The system includes a remote monitoring platform configured to provide computing functionality for alarm monitoring. The remote monitoring platform includes processing circuitry configured to receive, from a backend system configured to provide computing functionality for a rideshare service, a request to initiate a communication session with a user of the rideshare service, obtain a language preference parameter specified for a mobile application for the rideshare service installed in a mobile device of the user, and obtain language capability information for a plurality of agents associated with the remote monitoring platform. The processing circuitry is further configured to assign an agent of the plurality of agents to the communication session based on the language preference parameter and the language capability information, cause the communication session to be established between the agent and the user.

A method for allocation of a returning vehicle performed by a call service includes allocating a first call to a vehicle operating a taxi business in a first business zone, receiving rate plan information of a second business zone corresponding to a destination of the first call from a taxi terminal corresponding to the vehicle, determining whether the allocation of the returning vehicle is necessary for the vehicle based on the rate plan information, receiving a signal indicating that the vehicle has arrived at the destination of the first call and a signal indicating that the vehicle has left the first business zone from the taxi terminal, and allocating a second call from a departure location in the second business zone to a destination in the first business zone to the vehicle when it is determined that the allocation of the returning vehicle is necessary for the vehicle.

A method for allocation of a returning vehicle performed by a call service includes allocating a first call to a vehicle operating a taxi business in a first business zone, receiving rate plan information of a second business zone corresponding to a destination of the first call from a taxi terminal corresponding to the vehicle, determining whether the allocation of the returning vehicle is necessary for the vehicle based on the rate plan information, receiving a signal indicating that the vehicle has arrived at the destination of the first call and a signal indicating that the vehicle has left the first business zone from the taxi terminal, and allocating a second call from a departure location in the second business zone to a destination in the first business zone to the vehicle when it is determined that the allocation of the returning vehicle is necessary for the vehicle.

The disclosed examples are directed to systems and methods for performing co-presence estimation. The systems and methods detect, by a first device associated with a first user, a beacon signal generated by a second device associated with a second user and generate co-presence information representing proximity between the first device and the second device based on detecting the beacon signal. The systems and methods select a graphical indicator from a plurality of graphical indicators of co-presence based on the generated co-presence information and present a proximity graphical user interface (GUI) comprising a map portion and a co-presence portion using the selected graphical indicator.

The disclosed examples are directed to systems and methods for performing co-presence estimation. The systems and methods detect, by a first device associated with a first user, a beacon signal generated by a second device associated with a second user and generate co-presence information representing proximity between the first device and the second device based on detecting the beacon signal. The systems and methods select a graphical indicator from a plurality of graphical indicators of co-presence based on the generated co-presence information and present a proximity graphical user interface (GUI) comprising a map portion and a co-presence portion using the selected graphical indicator.

Disclosed herein are system, method, and computer program product embodiments for ride hailing an autonomous vehicle by a third party. For example, the method includes: receiving, from a user device associated with a user account of a user for an autonomous vehicle service, (i) a request to add a rider profile associated with a rider other than the user to the user account and (ii) rider information associated with the rider; generating, based on the rider information, the rider profile; receiving, from the user device, a pick-up request associated with (i) the user account and (ii) the rider profile; assigning, based on the pick-up request, an autonomous vehicle to pick-up the rider; and providing, to the autonomous vehicle assigned to pick-up the rider, based on the rider profile, an indication of a type of identification to use to identify the rider and/or unlock the autonomous vehicle when picking-up the rider.

Disclosed herein are system, method, and computer program product embodiments for ride hailing an autonomous vehicle by a third party. For example, the method includes: receiving, from a user device associated with a user account of a user for an autonomous vehicle service, (i) a request to add a rider profile associated with a rider other than the user to the user account and (ii) rider information associated with the rider; generating, based on the rider information, the rider profile; receiving, from the user device, a pick-up request associated with (i) the user account and (ii) the rider profile; assigning, based on the pick-up request, an autonomous vehicle to pick-up the rider; and providing, to the autonomous vehicle assigned to pick-up the rider, based on the rider profile, an indication of a type of identification to use to identify the rider and/or unlock the autonomous vehicle when picking-up the rider.