Disclosed is an apparatus for executing on-line purchases. The apparatus includes three different servers, a ticket server, a doorman server, and a checkout server. The purchase tasks are spread among the servers, and timed, so that the on-line purchase can be handled without server overload and customers losing their place in line. The ticket server issues a purchase ticket to a customer. The purchase ticket includes a predetermined time after which the customer can present the ticket to purchase the purchase item. On or after the predetermined time, the customer presents the purchase ticket to the doorman server. The doorman server validates the ticket and checks that the predetermined time has passed. Once the doorman server approves the purchase ticket, the doorman server passes the purchase ticket to the checkout server with a purchase approval indicator. The checkout server then executes the on-line purchase of the purchase item.

Disclosed is an apparatus for executing on-line purchases. The apparatus includes three different servers, a ticket server, a doorman server, and a checkout server. The purchase tasks are spread among the servers, and timed, so that the on-line purchase can be handled without server overload and customers losing their place in line. The ticket server issues a purchase ticket to a customer. The purchase ticket includes a predetermined time after which the customer can present the ticket to purchase the purchase item. On or after the predetermined time, the customer presents the purchase ticket to the doorman server. The doorman server validates the ticket and checks that the predetermined time has passed. Once the doorman server approves the purchase ticket, the doorman server passes the purchase ticket to the checkout server with a purchase approval indicator. The checkout server then executes the on-line purchase of the purchase item.

The present invention is directed towards an electronic ticket suitable for providing entry to an event. The electronic ticket is capable of being stored, in electronic format, on a mobile user device. The electronic ticket comprises a dynamic entry code for the event such that the dynamic entry code is transitionable from an inoperable state to a functional state, whereby entry to the event is only possible when the dynamic entry code has been transitioned to the functional state. The dynamic entry code is a visual code which is non-readable by humans and is stored in a memory of the mobile user device, such that the inoperable state of the dynamic entry code prohibits the visual code from being displayed by the mobile user device and the functional state of the dynamic entry code permits the visual code to be displayed by the mobile user. The advantage of providing the dynamic entry code is that the electronic ticket can hide the entry code until close to the event start time so that a ticket tout will find it difficult to sell the ticket on as a purchaser would have less confidence in buying a ticket which does not display the entry code required for admission. Moreover, a ticket fraudster cannot duplicate the ticket.

The present invention is directed towards an electronic ticket suitable for providing entry to an event. The electronic ticket is capable of being stored, in electronic format, on a mobile user device. The electronic ticket comprises a dynamic entry code for the event such that the dynamic entry code is transitionable from an inoperable state to a functional state, whereby entry to the event is only possible when the dynamic entry code has been transitioned to the functional state. The dynamic entry code is a visual code which is non-readable by humans and is stored in a memory of the mobile user device, such that the inoperable state of the dynamic entry code prohibits the visual code from being displayed by the mobile user device and the functional state of the dynamic entry code permits the visual code to be displayed by the mobile user. The advantage of providing the dynamic entry code is that the electronic ticket can hide the entry code until close to the event start time so that a ticket tout will find it difficult to sell the ticket on as a purchaser would have less confidence in buying a ticket which does not display the entry code required for admission. Moreover, a ticket fraudster cannot duplicate the ticket.

An electronic ticket system and a program have high convenience. In an electronic ticket system including a user terminal having a display device displaying a ticket face of an electronic ticket, and a deletion device deleting the electronic ticket selected by the user terminal. A program causes the user terminal to realize a function of changing a ticket face of the electronic ticket displayed on the display device.

Disclosed is an apparatus for executing on-line purchases. The apparatus includes three different servers, a ticket server, a doorman server, and a checkout server. The purchase tasks are spread among the servers, and timed, so that the on-line purchase can be handled without server overload and customers losing their place in line. The ticket server issues a purchase ticket to a customer. The purchase ticket includes a predetermined time after which the customer can present the ticket to purchase the purchase item. On or after the predetermined time, the customer presents the purchase ticket to the doorman server. The doorman server validates the ticket and checks that the predetermined time has passed. Once the doorman server approves the purchase ticket, the doorman server passes the purchase ticket to the checkout server with a purchase approval indicator. The checkout server then executes the on-line purchase of the purchase item.

Disclosed is an apparatus for executing on-line purchases. The apparatus includes three different servers, a ticket server, a doorman server, and a checkout server. The purchase tasks are spread among the servers, and timed, so that the on-line purchase can be handled without server overload and customers losing their place in line. The ticket server issues a purchase ticket to a customer. The purchase ticket includes a predetermined time after which the customer can present the ticket to purchase the purchase item. On or after the predetermined time, the customer presents the purchase ticket to the doorman server. The doorman server validates the ticket and checks that the predetermined time has passed. Once the doorman server approves the purchase ticket, the doorman server passes the purchase ticket to the checkout server with a purchase approval indicator. The checkout server then executes the on-line purchase of the purchase item.

The disclosure includes a system for checking in baggage of a passenger. The system includes an electronic acquiring device that acquires an originating hardcopy bag tag identifier (OP-BTI) associated with or printed on a printed bag tag from an originating airline travel carrier that is on a luggage item of a passenger. This creates a digital BTI data record linked to the airline travel carrier. The system further includes utilizing the OP-BTI as a unique identifier to query a database to retrieve return flight data of the passenger. The system includes checking in, by the at least one processor, each luggage item for the passenger for the return flight with a return flight travel carrier identified in the retrieved return flight data.

The disclosure includes a system for checking in baggage of a passenger. The system includes an electronic acquiring device that acquires an originating hardcopy bag tag identifier (OP-BTI) associated with or printed on a printed bag tag from an originating airline travel carrier that is on a luggage item of a passenger. This creates a digital BTI data record linked to the airline travel carrier. The system further includes utilizing the OP-BTI as a unique identifier to query a database to retrieve return flight data of the passenger. The system includes checking in, by the at least one processor, each luggage item for the passenger for the return flight with a return flight travel carrier identified in the retrieved return flight data.

When attending an event at a venue, the attendee typically presents ticket information that is scanned by a venue scanner. In conventional systems, once validated, the scanner prints a paper stub that typically includes seat location data. Production of this paper stub can be dispensed with, and the associated data conveyed by the paper stub as well as additional information not contemplated or possible with paper stubs can be conveyed by an electronic stub or e-stub that resides on a device of the attendee, generally the same device employed to present the ticket information.