An example operation includes one or more of monitoring, by a transport exterior a location, an exchange performed in an interior of the location by a recent occupant of the transport, and completing, by the transport, the exchange.

An example operation includes one or more of monitoring, by a transport exterior a location, an exchange performed in an interior of the location by a recent occupant of the transport, and completing, by the transport, the exchange.

Provided in the present invention is a passenger-vehicle matching method for an online ride sharing. In the present invention, firstly, matching is performed on passengers by using an integer linear programming algorithm, so as to form a passenger combination scheme involving the optimal total travel time of the passengers; and secondly, in the present invention, virtual passenger combinations or virtual vehicles are supplemented, such that the number of passenger combinations is the same as the number of vehicles, and the passenger combinations are matched with the vehicles by using the integer linear programming algorithm again, so as to obtain a passenger-vehicle matching scheme involving the optimal total travel time. The present invention optimizes the passenger-vehicle matching process in online ride-hailing shared travel, enhancing user experience and efficiency, while also promoting a green traffic mode that significantly reduces urban traffic pressure and pollution.

Provided in the present invention is a passenger-vehicle matching method for an online ride sharing. In the present invention, firstly, matching is performed on passengers by using an integer linear programming algorithm, so as to form a passenger combination scheme involving the optimal total travel time of the passengers; and secondly, in the present invention, virtual passenger combinations or virtual vehicles are supplemented, such that the number of passenger combinations is the same as the number of vehicles, and the passenger combinations are matched with the vehicles by using the integer linear programming algorithm again, so as to obtain a passenger-vehicle matching scheme involving the optimal total travel time. The present invention optimizes the passenger-vehicle matching process in online ride-hailing shared travel, enhancing user experience and efficiency, while also promoting a green traffic mode that significantly reduces urban traffic pressure and pollution.

A delivery vehicle management system includes a database configured to manage delivery point information including information about a position of a delivery point of a package for each delivery vehicle and a controller. The controller executes acquiring a boarding position where a ride seeker desires to ride and a destination, calculating an estimated transport time for each delivery vehicle that is an estimated value of a time the delivery vehicle takes to travel from the boarding position to the destination, and assigning the ride seeker one of the delivery vehicles that differs from the delivery vehicle having the longest estimated transport time.

A delivery vehicle management system includes a database configured to manage delivery point information including information about a position of a delivery point of a package for each delivery vehicle and a controller. The controller executes acquiring a boarding position where a ride seeker desires to ride and a destination, calculating an estimated transport time for each delivery vehicle that is an estimated value of a time the delivery vehicle takes to travel from the boarding position to the destination, and assigning the ride seeker one of the delivery vehicles that differs from the delivery vehicle having the longest estimated transport time.

The disclosed technology includes a method for providing on-demand transit services comprising receiving, by a computing system, information relating to a voucher from a user device, wherein the voucher is from a vendor, the voucher being exchangeable by a user for a discount on a cost of a ride from the on-demand transit service; receiving, by the computing system, a request for a ride from the on-demand transit services from the user device, the request including at least a current location of the user device, a transit destination requested by the user, and information relating to the voucher; determining, by the computing system, a cost for the ride from the on-demand transit service is based at least in part on the information relating to the voucher; and sending, by the computing system, a request to a transit service provider device.

An on-demand vehicle management device includes a communication unit that receives detection data output by at least one of a sensor provided in or on an on-demand vehicle or a sensor installed along a travel route, a categorization information generation unit that recognizes a user, based on the detection data, and generates categorization information that associates an object represented by information included in the detection data with the user, as a possession of the user, a categorization information comparison unit that determines whether a change has occurred in a situation of the possession by making a comparison, on a per user basis, between the categorization information as of before the user gets on the on-demand vehicle and the categorization information as of when the user gets off the on-demand vehicle, and a warning notification unit that outputs warning information when it is determined that the change has occurred.

An on-demand vehicle management device includes a communication unit that receives detection data output by at least one of a sensor provided in or on an on-demand vehicle or a sensor installed along a travel route, a categorization information generation unit that recognizes a user, based on the detection data, and generates categorization information that associates an object represented by information included in the detection data with the user, as a possession of the user, a categorization information comparison unit that determines whether a change has occurred in a situation of the possession by making a comparison, on a per user basis, between the categorization information as of before the user gets on the on-demand vehicle and the categorization information as of when the user gets off the on-demand vehicle, and a warning notification unit that outputs warning information when it is determined that the change has occurred.

An electronic device includes a memory including instructions; and a processor electrically connected to the memory and configured to execute the instructions, wherein, when the instructions are executed by the processor, the processor is configured to perform a plurality of operations: recording a driver registration result of a vehicle owner in profile data stored in a blockchain; and generating a combination identifier (CID) in which a vehicle and a driver are mapped by mapping vehicle information and driver information recorded in the profile data, wherein the CID is segmented into blockchain-based decentralized identifiers (DIDs) respectively corresponding to vehicle usage scenarios of the driver and includes at least one of vehicle information, driver information, vehicle owner information, or CID type information.