Methods, systems, and apparatus, including computer programs encoded on computer storage media, for generating rules to apply to fare transactions when a fare card reader cannot communicate with an authorization server, for generating historical data and a risk score for a fare card that are used by a fare card reader, with the rules, to determine whether to authorize access to a transit service when the fare card reader cannot communicate with the authorization server, and for selectively permitting or denying access to the transit service using the rules and the historical data or the score for a fare card.

Provided is an incoming and outgoing vehicle management method and an incoming and outgoing vehicle management system that are based on a vehicle number and a vehicle type identified therefrom, the method and system including: receiving incoming vehicle information including a vehicle number recognized from a vehicle image, and incoming time or an incoming gate identifier; determining a vehicle type by using the vehicle number of the incoming vehicle information; and generating an incoming vehicle message for directing the incoming vehicle to an incoming gate and transmitting the generated incoming vehicle message to a portable terminal designated to a user of the vehicle, wherein the incoming vehicle message includes incoming identification information that indicates the recognized vehicle number, and the incoming time or the incoming gate identifier.

A system for renting vehicles is disclosed. The system can comprise a vehicle access communicator (“VAC”) capable of interfacing with one or more functions of a rental vehicle and a user provided portable electronic device. The VAC can control various functions of the vehicle including, but not limited to, the door locks and/or enabling/disabling the vehicle. The VAC can also monitor various functions of the vehicle including, but not limited to, the fuel level and/or the odometer readings. The VAC can connect to the portable electronic device using a suitable connection method to access additional functionality such as, for example and not limitation, locations services, cellular, and/or internet access. The VAC and the portable electronic device can be used to provide a rental system with reduced infrastructure and operating costs. The system can enable the use of “Green Zones” to provide permanent or temporary vehicle rental areas.

A system for renting vehicles is disclosed. The system can comprise a vehicle access communicator (“VAC”) capable of interfacing with one or more functions of a rental vehicle and a user provided portable electronic device. The VAC can control various functions of the vehicle including, but not limited to, the door locks and/or enabling/disabling the vehicle. The VAC can also monitor various functions of the vehicle including, but not limited to, the fuel level and/or the odometer readings. The VAC can connect to the portable electronic device using a suitable connection method to access additional functionality such as, for example and not limitation, locations services, cellular, and/or internet access. The VAC and the portable electronic device can be used to provide a rental system with reduced infrastructure and operating costs. The system can enable the use of “Green Zones” to provide permanent or temporary vehicle rental areas.

An object of the present invention is to provide a drive control apparatus and a drive control method for reducing time and effort of parking. A drive control apparatus according to the present invention includes a processor to execute a program and a memory to store the program which, when executed by the processor, performs processes of: acquiring a traveling information; detecting a stop position of a vehicle, which is manually driven, based on the traveling information and determining whether or not the stop position is included in a no-parking area with reference to a map data in which information of the no-parking area is described; searching for a parking area including an empty space when it is determined that the stop position is included in the no-parking area; and instructing the vehicle to perform an automatic driving from the stop position to the parking area including the empty space.

An object of the present invention is to provide a drive control apparatus and a drive control method for reducing time and effort of parking. A drive control apparatus according to the present invention includes a processor to execute a program and a memory to store the program which, when executed by the processor, performs processes of: acquiring a traveling information; detecting a stop position of a vehicle, which is manually driven, based on the traveling information and determining whether or not the stop position is included in a no-parking area with reference to a map data in which information of the no-parking area is described; searching for a parking area including an empty space when it is determined that the stop position is included in the no-parking area; and instructing the vehicle to perform an automatic driving from the stop position to the parking area including the empty space.

A method for conducting an interaction using a vehicle is disclosed. A vehicle can be identified based on one or more vehicle characteristics, including a license plate number, a make, a model, and a color. A user credential can be identified based on the vehicle and used for an interaction. Additionally, user contact information can be identified based on the vehicle and the user can be contacted to approve the interaction.

A method for conducting an interaction using a vehicle is disclosed. A vehicle can be identified based on one or more vehicle characteristics, including a license plate number, a make, a model, and a color. A user credential can be identified based on the vehicle and used for an interaction. Additionally, user contact information can be identified based on the vehicle and the user can be contacted to approve the interaction.

A method includes reading transaction initiation data from an identification tag associated with a selected physical location on a device. Transaction data associated with the selected physical location is communicated using a communication link operated by the device. Transaction completion data is received using the communication link. The transaction completion data is stored on the identification tag.

A method includes reading transaction initiation data from an identification tag associated with a selected physical location on a device. Transaction data associated with the selected physical location is communicated using a communication link operated by the device. Transaction completion data is received using the communication link. The transaction completion data is stored on the identification tag.