Implementations of a licensing and ticketing system is provided. In some implementations, a computer-implemented method comprises receiving a request for licensing information at a first computing device. In some implementations, the computer-implemented method further comprises retrieving at the first computing device licensing information from storage on the first computing device wherein the retrieved licensing information includes a unique license number issued by a governmental entity, a name, and a pre-stored photograph. In some implementations, the computer-implemented method further comprises capturing a current photograph at the first computing device after receiving the request for licensing information. In some implementations, the computer-implemented method further comprises transmitting at the first computing device the retrieved licensing information including the pre-stored photograph and the current photograph over a network to the second computing device. In some implementations, the computer-implemented method further comprises receiving ticketing information at the first computing device wherein the ticketing information includes a law citation.

Implementations of a licensing and ticketing system is provided. In some implementations, a computer-implemented method comprises receiving a request for licensing information at a first computing device. In some implementations, the computer-implemented method further comprises retrieving at the first computing device licensing information from storage on the first computing device wherein the retrieved licensing information includes a unique license number issued by a governmental entity, a name, and a pre-stored photograph. In some implementations, the computer-implemented method further comprises capturing a current photograph at the first computing device after receiving the request for licensing information. In some implementations, the computer-implemented method further comprises transmitting at the first computing device the retrieved licensing information including the pre-stored photograph and the current photograph over a network to the second computing device. In some implementations, the computer-implemented method further comprises receiving ticketing information at the first computing device wherein the ticketing information includes a law citation.

Implementations of a licensing and ticketing system is provided. In some implementations, a computer-implemented method comprises receiving a request for licensing information at a first computing device. In some implementations, the computer-implemented method further comprises retrieving at the first computing device licensing information from storage on the first computing device wherein the retrieved licensing information includes a unique license number issued by a governmental entity, a name, and a pre-stored photograph. In some implementations, the computer-implemented method further comprises capturing a current photograph at the first computing device after receiving the request for licensing information. In some implementations, the computer-implemented method further comprises transmitting at the first computing device the retrieved licensing information including the pre-stored photograph and the current photograph over a network to the second computing device. In some implementations, the computer-implemented method further comprises receiving ticketing information at the first computing device wherein the ticketing information includes a law citation.

Implementations of a licensing and ticketing system is provided. In some implementations, a computer-implemented method comprises receiving a request for licensing information at a first computing device. In some implementations, the computer-implemented method further comprises retrieving at the first computing device licensing information from storage on the first computing device wherein the retrieved licensing information includes a unique license number issued by a governmental entity, a name, and a pre-stored photograph. In some implementations, the computer-implemented method further comprises capturing a current photograph at the first computing device after receiving the request for licensing information. In some implementations, the computer-implemented method further comprises transmitting at the first computing device the retrieved licensing information including the pre-stored photograph and the current photograph over a network to the second computing device. In some implementations, the computer-implemented method further comprises receiving ticketing information at the first computing device wherein the ticketing information includes a law citation.

A motor-driven telescopic intelligent auxiliary device for a card-issuing machine includes a button auxiliary device and card-issuing auxiliary device. The button auxiliary device includes a driving mechanism arranged on the card-issuing machine inside the back of the button and a take-up and pay-off mechanism arranged on the driving mechanism. The card-issuing auxiliary device includes a card-sending mechanism arranged on the card-issuing machine inside the back of the card outlet and a card acquiring mechanism installed on the card outlet outer wall. The motor-driven telescopic intelligent auxiliary device extends out the button auxiliary device for a certain distance, so that the user can easily press the card-acquiring button. A card acquiring mechanism is further used to clamp the card and put it into the card-sending box, and the card-issuing auxiliary device extends the card-sending box forward so that the driver may take the card more easily.

A motor-driven telescopic intelligent auxiliary device for a card-issuing machine includes a button auxiliary device and card-issuing auxiliary device. The button auxiliary device includes a driving mechanism arranged on the card-issuing machine inside the back of the button and a take-up and pay-off mechanism arranged on the driving mechanism. The card-issuing auxiliary device includes a card-sending mechanism arranged on the card-issuing machine inside the back of the card outlet and a card acquiring mechanism installed on the card outlet outer wall. The motor-driven telescopic intelligent auxiliary device extends out the button auxiliary device for a certain distance, so that the user can easily press the card-acquiring button. A card acquiring mechanism is further used to clamp the card and put it into the card-sending box, and the card-issuing auxiliary device extends the card-sending box forward so that the driver may take the card more easily.

A ticket validation device that is protected from debris ingression includes a validator housing defining a ticket entry bezel. The ticket entry bezel defines a first and second major sides and shorter connecting regions that connect the two major sides. The device includes an acceptor assembly that transports a ticket to a ticket reader device and at least one flap positioned between the acceptor assembly and the ticket entry bezel. The flap is biased against one of the first major side or the second major side of the entry bezel. A ticket-side of the flap is pushed away from the one of the major sides by the ticket when inserted into the ticket entry bezel such that the ticket scrapes between a distal end of the flap and the one of the major sides to remove any loose debris from the ticket prior to the ticket reaching the acceptor assembly.

A ticket validation device that is protected from debris ingression includes a validator housing defining a ticket entry bezel. The ticket entry bezel defines a first and second major sides and shorter connecting regions that connect the two major sides. The device includes an acceptor assembly that transports a ticket to a ticket reader device and at least one flap positioned between the acceptor assembly and the ticket entry bezel. The flap is biased against one of the first major side or the second major side of the entry bezel. A ticket-side of the flap is pushed away from the one of the major sides by the ticket when inserted into the ticket entry bezel such that the ticket scrapes between a distal end of the flap and the one of the major sides to remove any loose debris from the ticket prior to the ticket reaching the acceptor assembly.

A ticketing system includes a stick-on ticket, one or more stick-on ticket printers, and a stick-on ticket control system. The stick-on ticket includes a stick-on ticket carrier having a barcode disposed thereon and includes a sticker that has an identification tag and is configured to be removable from the stick-on ticket carrier and adhered to another surface. Each stick-on ticket printer is configured to read barcode information from the barcode to associate the barcode information with a user account and configured to read identification tag information from the identification tag, write identification tag information to the identification tag, or a combination thereof, to associate the identification tag with the user account such that the barcode and the identification tag are associated with the same user account. The stick-on ticket control system is configured to authenticate access to an amusement park based at least in part on the barcode information or the identification information read by the stick-on ticket reader.

A service robot is capable of communicating with a reception device that assigns at least a reception number. The service robot includes: an image information acquirer that acquires image information including an image of a customer; a reception number acquirer that acquires a reception number from the reception device, in response to a reception operation performed by the customer; and a storage unit that stores the acquired reception number and the acquired image information in association with each other.