The present disclosure relates generally to accounting and security, and more specifically to systems, methods, and computer-readable media for sheet material processing and verification.
Processing banknotes as separate deposits is generally known. In preparing the deposits for processing by a banknote processing machine, data or information of each deposit is detected and made available to the bank note processing machine through a middleware system. Such data or information includes information on the depositor, account number, and the quantity and value of the banknotes forming the deposit. To permit uninterruptible processing by the banknote processing machine, the deposits are separated from each other by separation cards inserted between different deposits. The banknote processing machine recognizes these separation cards, commonly known as header cards, and thus, identifies the beginning of a new deposit during processing.
In casinos or other gaming establishments, customers enter currency or tickets into slot machines, which include bill validators that check for authenticity of such currency and tickets and that determine the denominations of such currency and the values of such tickets. When the bill validators determine that the currency or tickets are authentic, the slot machines will accept the currency or tickets and convey the accepted currency or tickets to a container therein. Sometime later, the container is removed from the slot machine and taken to a count room for further processing. In the count room, a new separator card is printed with information identifying the container or identifying information on an existing separator card is linked to the information identifying the container, and the separator card is placed with the currency and tickets from the container. The separator card and the currency are then placed in a processing machine with other currency, tickets, and separator cards, and the processing machine counts the currency and tickets, determines the denominations of the currency and values of the tickets, reconfirms the authenticity of the currency and tickets, and associates the currency and tickets with the container from which they came based on a position of the separator card among the currency and tickets. Similarly, customers provide currency or tickets to casino employees at table games, and the casino employees enter such currency or tickets into table game bill acceptors, which perform processes similar to those performed by bill validators and which also have containers for storing currency and tickets that are processed similarly to the corresponding containers in slot machines.
In known methods for processing currency, such as those described in U.S. Pat. No. 5,917,930 A, account data associated with a currency deposit is collected at the time of a deposit and associated with a separator card, which is placed with the currency deposit. The account data includes the number of individual currency notes in the deposit, the total currency value of the deposit, and information associating the deposit to a single commercial transaction or a particular recipient. The account data is associated with the separator card either through linking a bar code number unique to the specific separator card or by encoding the account data directly on the separator card. The deposit can then be stacked in the processing machine with the separator card linked to or encoded with the
According to aspects of the present disclosure, methods disclosed herein for processing a sheet of sheet material include a plurality of processes. The methods include a process of receiving the sheet in a sheet-accepting device. The methods include detecting, by a first sensor mechanism of the sheet-accepting device, first information of the sheet. The first information of the sheet includes a value of the sheet and a serial number of the sheet. The methods include disposing the sheet in a removable container coupled to the sheet-accepting device. The methods include storing the first information of the sheet in a memory coupled to the removable container.
According to other aspects of the present disclosure, systems disclosed herein, which process a sheet of sheet material, include a sheet-accepting device, a removable container, and a memory. The sheet-accepting device receives the sheet. Further, the sheet-accepting device includes a first sensor mechanism that detects first information of the sheet. The first information of the sheet includes a value of the sheet and a serial number of the sheet. The removable container is coupled to the sheet-accepting device and receives the sheet therein. The memory is coupled to the removable container and stores the first information of the sheet.
According to still other aspects of the present disclosure, non-transitory, computer-readable media store computer-readable instructions therein. When executed by a processor, the computer-readable instructions instruct the processor to control processes for processing a sheet of sheet material. The processes include receiving the sheet in a sheet-accepting device. The processes include detecting first information of the sheet. The first information of the sheet includes a value of the sheet and a serial number of the sheet. The processes include disposing the sheet in a removable container coupled to the sheet-accepting device. The processes include storing the first information of the sheet in a memory coupled to the removable container.
Other objects, features, and advantages will be apparent to persons of ordinary skill in the art from the following detailed description and the accompanying drawings.
For a more complete understanding of the present invention, needs satisfied thereby, and the objects, features, and advantages thereof, reference now is made to the following description taken in connection with the accompanying drawings.
The systems, methods, and media of the invention are suitable for use with and may incorporate various components of the systems and methods disclosed in Patent Application No. PCT/EP2008/008991, filed on Oct. 23, 2008; U.S. Pat. No. 7,377,423 B2, published on May 27, 2008; U.S. Pat. No. 7,131,593 B2, published on Nov. 7, 2006; and U.S. Pat. No. 6,955,263, published on Oct. 18, 2005, the disclosures of which are hereby incorporated by reference in their entirety. Although many of the exemplary embodiments disclosed herein, as well as in these incorporated disclosures, are directed toward casino operations and gaming, the invention disclosed herein is not limited to applications in the field of casino operations and gaming, but rather is applicable to a wide range of applications in the financial services industry and beyond, including, but not limited to, retail banking, retail commerce, currency exchanges, law enforcement, central banking, clearing houses and processing of commercial paper, accounting, auditing, and many other fields.
In currency-processing systems, a serialized header card is linked to an asset, such as a slot machine, a cashier's drawer, or a particular gaming table. The serialized header card is placed in a tray in front of currency to be counted. Consequently, when the tray of currency is placed in a currency-counting machine, and the linking information on the header card, such as a bar code, is read by the currency-counting machine, the currency-counting machine associates the currency behind the header card with the linking information on the header card. The currency-counting machine subsequently reports details of the currency (e.g., a value of the currency, a type of the currency, count information indicating a quantity of each type of currency) to a management system (e.g., a casino management system, a financial institution management system). Nevertheless, such currency-processing systems require additional time to print the linking information, which links to a particular asset, on the header card and to place the header card with the currency in the tray. Thus, a significant amount of time is wasted, and operators are burdened with the task of header card placement. Moreover, because the currency is associated with the header card based on the position of the header card relative to the currency, improper placement of the header card may result in accounting or verification errors caused by associating the currency with an incorrect header card. In addition, the header cards may become concealed by the currency, which may prevent the currency-counting machine from detecting the header card or the linking information and lead to further accounting and verification errors.
Accordingly, embodiments of the present invention address these and other problems by detecting characteristic information (e.g., serial number, other unique markings) existing on sheet material (e.g., currency, commercial tickets, banknotes, checks, other sheets of value) and associating such characteristic information directly with asset information that identifies a particular asset (e.g., a slot machine, a gaming table, a bill validator, a sheet container or carrier, a table game bill acceptor, a cashier or teller drawer, a cashier or teller, a business division or entity). Thus, the need for a header card or other separator card may be eliminated. Further, even in scenarios in which separator cards are still used, the need to print new separator cards for each asset may be eliminated by associating a reusable separator card with the asset; placing the reusable header card with sheets associated with the asset; detecting characteristic information of the sheets; and associating the characteristic information of the sheets with the asset based on their position with respect to the header card and the association between the header card and the asset. Consequently, embodiments of the present invention permit faster, more efficient, and less costly sheet-processing and verification by enabling the use of reusable header cards and, if desired, eliminating the need for header cards completely.
As used herein, the term “serial number” corresponds to a specific marking on or of sheet material that identifies a particular sheet of the sheet material.
In particular, slot machines and gaming devices often employ a bill acceptor into which gamblers insert cash or other sheets of value to initiate play. The bill acceptor includes a bill validator that checks various aspects of the inserted sheet, including denomination or value and authenticity. Likewise, casino table-game dealers (e.g., casino employees) enter sheets, which are exchanged for casino-branded chips, into a device that functions similarly to a bill validator and is located within, attached to, or adjacent to a table game. In addition to currency and other sheets of value, casino customers may enter commercial tickets, often referred to as ticket-in-ticket-out (“TITO”) tickets, into the bill acceptor. Such commercial tickets (e.g., TITO tickets) have a quantifiable value and are regularly tracked by a management system.
In response to the challenges above, the embodiments of the present invention employ a bill acceptor that incorporates data reading in order to capture data from an inserted sheet of sheet material, including serial number data, denomination data, count data, series data, and other useful data. The bill acceptor then stores the recorded data onto a memory device (e.g., a radio-frequency identification (“RFID”) chip, a solid state memory component, a hard drive, a magnetic tag, or other memory storage component) coupled to a container that accepts the deposit (e.g., one or more sheets inserted into the bill validator). Alternatively or additionally, the bill acceptor stores the recorded data into an internal (e.g., for a casino, a local casino management system; for a financial institution, a financial institution management system) or an external (e.g., for a casino, a financial institution management system; for a casino or a financial institution, an auditor or accountant's management system) database. The data retrieved from the notes is then associated with the container directly or with an asset number of the container (e.g., match and register the serial numbers of the collected notes to the asset number of the container). The data can be ascertained locally at the gaming device or at a remote computing device (e.g., a computer station, a server) that is in communication with the gaming device via a network. In addition to storing the data to a local memory device, the data can also be transmitted over the network to a management system or other software database for storage and processing. In some configurations, the data retrieved from the notes is associated with deposit information, which can include, for example, the number of sheets N in a deposit (e.g., the insertion of a group of one or more notes in sheet-accepting device 100), the total currency value of the deposit, and information associating the deposit to a single commercial transaction or a particular recipient. In certain configurations, for example, the deposit information is associated with asset information about a sheet-accepting device 100 at which the deposit was made.
At an appropriate time, the container is removed from the gaming device and transported to a count room for handling. In the count room, the container is docked to a receiving device or a receiving station that recognizes the container identification (e.g., the asset number or other information identifying the container) and registers the container and the originating machine to the management system. The receiving station also retrieves the stored data from the container memory (e.g., reading the RFID or other tag with an appropriate reader, accessing another type of memory) and transmits it to the management system to facilitate tracking if the data has not already been transmitted at time of acquisition or in addition thereto.
The currency or other sheet material in the container is then removed from the container and processed in a currency processing machine. During that process, the currency is counted and the data is read again and compared against the data retrieved from the container memory for verification purposes. A report is generated and transmitted to at least one of a management system and a financial accounting system.
At any point in the above-described sequence, serial number data can be assessed against a counterfeit registry for verification. Additionally, if identical serial numbers are processed within a specific period of time (e.g., 24 hours), then a monitoring system may be activated (e.g., E-Connect) to observe the flow of the suspect sheets (e.g., counterfeit currency, counterfeit commercial tickets, counterfeit banknotes, counterfeit checks, other counterfeit sheets of value). Using the data collected, an origin of such suspect sheets can be traced to a particular asset on a particular date at a particular time, and the subsequent flow of such suspect sheets through, for example, a casino or a financial institution may be tracked.
In many instances, the currency processing machine described above is, for example, a device which processes header cards and currency in sequence. This machine uses sensors to obtain relevant information from the header cards and currency or other sheets, such as serial numbers, denominations, and series. Similarly, in some configurations, the receiving device or station is a device that reads data from a container in order to associate the contents of the container with a value that is stored in a management system. In certain configurations, the receiving device includes an RFID tag reader that reads the information stored in (e.g., written to) an RFID tag coupled to the container. Nevertheless, in other configurations, the receiving device includes other devices for reading from a memory device coupled to the container, such as a universal serial bus port, a magnetic sensor, a scanning device, or other device that may read from the memory device.
In many instances, the management system includes a collection of PC-based storage devices and software that interact in real-time with the firm's other systems in order to obtain detailed data on the operations of the firm's infrastructure devices (e.g., for a casino, the casino's gaming and non-gaming devices) in order to obtain detailed data on the operations of such devices. In this manner, the management system is able to gather critical information, which may be reported to managers and to governmental authorities.
In many configurations, a bill validator is a device in which the customer inserts currency or a commercial ticket or voucher. The bill validator scans the item (e.g., sheet) inserted for authenticity. In the case of a commercial ticket or voucher, the bill validator interacts with the management system to ensure that the item has not been previously redeemed. In the case of currency, the bill validator uses a scanner along with an on-board stored memory and processor to determine the authenticity of the currency. In some configurations, the bill validator also communicates with the management system or another agent to assist in determining the authenticity of the currency or other sheet. Further, the bill validator is coupled to a container that is engineered to physically store currency and commercial tickets or vouchers that have passed through the bill validator. The container receives the items mechanically from the bill validator and is secured from tampering by locking devices. In addition, the container is removable to permit uncoupling from a gaming device for transporting the container to the count room or another location. In this manner, currency or other valuable sheet material stored in the container is secured during transport.
In summary, the bill validator or another type of device, such as a table game bill acceptor, for example, captures a unique serial number of a sheet, such as a currency note or a commercial ticket. In this manner, the sheet may be associated with the particular gaming device that includes the bill validator during subsequent processing. The serial numbers obtained may be stored several ways. For example, as the serial number data or other data is captured, the serial number data or other data may be written to an RFID tag or other memory device disposed on a storage chamber that stores the validated sheets and is coupled to the bill validator. Alternatively or additionally, as the serial number data or other data is captured, the serial number data or other data may be written to the management system's database for storage and subsequent retrieval. In some configurations, for example, a Drop-Trax or other middleware system is used to gather information from the bill validator or the RFID tag (or other memory device), and the gathered information is subsequently transferred from the Drop-Trax or other middleware system to one or more of the management system's database for storage and subsequent retrieval and a sheet-processing device in a counting room.
On a periodic basis (e.g., daily, weekly), the sheets are collected from the bill validators within the gaming devices (e.g., slot machines, table game bill acceptors) by removing the containers with the sheets disposed therein, and the containers are sent to the casino's soft count room for processing (e.g., verification and reporting). In the soft count room, the sheets are removed from the container and processed, and the contents of the container are reported to the management system for reconciliation. Further, when the serial number data including the serial numbers of the sheets stored in the container is stored in an RFID tag coupled to the container, the information in the RFID tag is read and transferred to either the management system or a middleware device or application that may format such in a manner that will allow the management system to accept and process the information. Thus, the present invention permits the contents of the canister to be inserted directly into a currency counting or sorting device, which permits omission of the header card process and the extra steps the header card process entails.
In addition, certain configurations of the present invention utilize an ACCESS feeding system in which asset information is assigned to a particular container compartment and written to data storage, such as an RFID tag, through an available writing process, such as near-field communication. Thus, any header card may be disposed in the container compartment without printing information on the header card linking it to a particular asset. Thereafter, a bill processing system tracks the relationship between the header card and an asset number corresponding to an asset and reports processing information by asset number. For example, the ACCESS feeding system is an automated loading system in the count room that automatically loads currency and other sheets into a sheet-processing device to produce higher throughput and more efficient sheet processing.
Exemplary embodiments of the present invention provide methods, systems, and non-transitory computer-readable media for sheet material processing, verification, and accounting. Embodiments of the present invention, and their features and advantages, may be understood by referring to
In particular configurations, management system 200 is a casino management system that includes, for example, a collection of PC-based storage devices and software that interact in real-time with the casino's gaming and non-gaming devices, such as sheet-accepting device 100, and obtain detailed data on the operations of such gaming and non-gaming devices. In this manner, the management system is able to gather critical information, which may be reported to casino managers and to governmental gaming authorities. Thus, management system 200 receives information of processed sheets N and performance statistics from a plurality of sheet-accepting devices 100, which management system 200 uses to monitor these and other devices and to generate data for accounting, security, and regulatory purposes. Other examples of management system 200 include: accounting systems, audit control systems, clearing house management systems, financial institution management systems, and other management systems for managing the intake and processing of financial instruments. Moreover, management system 200 includes, for example, at least one input/output (“I/O”) device 219, which receives and transmits data, and at least one controller 221, which stores and processes data and which controls other components (not depicted) of management system 200. I/O device 219 is a communication interface which includes, for example, one or more of a wireless communications interface and a hard-wired communications interface. Controller 221 is configured to execute computer-readable instructions stored on a non-transitory computer-readable medium. In some configurations, management system 200 communicates with external databases or computer systems to obtain additional information, such as registries of counterfeit or suspect currency information, law enforcement agencies, and various commercial databases.
When transport mechanism 103 transports a sheet N to sensor mechanism 105, sensor mechanism 105 detects information of sheet N (e.g., first information of the sheet). The information of sheet N includes a serial number of sheet N and a value (e.g., denomination) of sheet N, as well as other information including, for example, a series of sheet N; physical attributes of sheet N including dimensions, weight, opacity, and texture; and the presence of other identifiers, such as magnetic strips or ink, bar codes, holograms, punch marks, and RFID circuits. In particular configurations, sensor mechanism 105 includes: an optical sensor 107, a magnetic sensor 109, and an RFID sensor 111. Optical sensor 107 is a camera or scanner, for example, that records an optical image of each sheet N, which is thereafter processed by a controller 121 or transmitted to another device, such as a component of management system 200 or another device, for processing to extract at least a portion of the information of the sheet. In particular configurations, for example, sheet-accepting device 100 is able to determine at least the serial number and value of sheet N from the optical image of sheet N internally or at a remote device separate from management system 200. Magnetic sensor 109 detects magnetic ink or magnetic features on sheet N that provide information of sheet N, such as a magnetic strip that identifies the denomination of currency or magnetic ink that identifies account and routing numbers on checks. Because sheets N may not be appropriately separated during processing, magnetic sensor 109, which is able to detect magnetic signals through a plurality of overlapped sheets N, provides redundancy for obtaining information that is difficult for optical sensor 107 to obtain when sheet-separating errors occur. Similarly, RFID sensor 111 detects RFID circuits on sheet N that also provide information of sheet N and provides further redundancy for optical sensor 107. In some configurations, sensor mechanism 105 includes only one of optical sensor 107, magnetic sensor 109, and RFID sensor 111. In other configurations, sensor mechanism 105 includes various combinations of optical sensor 107, magnetic sensor 109, RFID sensor 111, and other sensors able to detect information of sheets N.
After sensor mechanism 105 has detected the information of sheet N, transport mechanism 103 transports sheet N to container 113, which is directly or indirectly coupled to sheet-accepting device 100. Container 113 is a removable container that is periodically separated from sheet-accepting device 100 and moved to a count room, as described in more detail below. Container 113 is able to be sealed and locked so that the sheets N disposed therein may not be tampered with or removed during transport to the count room. Container 113 includes a memory coupled thereto, which is embedded in or attached to a surface of container 113, such that the memory is transported with container 113 when container 113 is transported to the count room. In particular configurations, the memory is an RFID tag 115. In other exemplary configurations, the memory includes one or more of a solid state memory component, a hard drive, a magnetic tag or component, and an optical marking. The memory coupled to container 113 stores asset information, which identifies at least one of sheet-accepting device 100 and container 113. In other configurations, for example, container 113 is fully integrated with sheet-accepting device 100, such that sheet-accepting device 100 and are inseparable. In such configurations, for example, sheet-accepting device 100 is transported to the count room for further processing.
In particular configurations, sheet-accepting device 100 also includes a memory writing device, such as an RFID tag writer 117, and an I/O device 119. The memory writing device is configured to write information to the memory coupled to container 113. For example, RFID tag writer 117 is configured to write information to RFID tag 115. In other exemplary configurations, the memory writing device is one or more of a magnetic encoder, a printer, a wireless or hard-wired interface with the memory coupled to container 113, and any other device able to write information to the memory coupled to container 113. I/O device 119 is configured to provide a communications interface between sheet-accepting device 100 and management system 200, particular databases, and other devices involved in monitoring, controlling, managing, accounting, and auditing processes. I/O device 119 is substantially similar to I/O device 219 of management system 200, as described above.
Sheet-accepting device 100 also includes a controller 121 disposed therein. In other configurations, controller 121 is external to sheet-accepting device 100 and controls sheet-accepting device from a remote location. As shown in the embodiment shown in
Controller 121 receives a signal indicating that input mechanism 101 has received a sheet N. Subsequently, controller 121 controls transport mechanism 103 to transport sheet N to sensor mechanism 105, at which time controller 121 controls sensor mechanism 105 to detect the information of sheet N, which also includes, for example, the date and time at which sheet N was inserted into input mechanism 101. In particular configurations, controller 121 controls memory writing device (e.g., RFID tag writer 117) to write or store at least a portion of the information of sheet N, which is detected by sensor mechanism 105, in the memory (e.g., RFID tag 115) coupled to container 113. The at least a portion of the information of sheet N includes the serial number of sheet N and may also include one or more of the other pieces of information of sheet N described herein. In other configurations, controller 121 controls I/O device 119 to transmit the at least a portion of the information of sheet N, which is detected by sensor mechanism 105, to management system 200 or another device (e.g., a middleware component, another management system). In still other configurations, controller 121 controls the memory writing device to write or store at least a portion of the information of sheet N to the memory coupled to container 113 and to transmit the same or another at least a portion of the information of sheet N to management system 200 or another device. Controller 121 also controls transport mechanism 103 to transport sheet N to container 113.
In some configurations, controller 121 uses the information of sheet N to determine whether sheet N is authentic or deficient in some manner (e.g., damaged, discolored, distorted). In such configurations, controller 121 rejects sheet N and controls transport mechanism 103 to transport sheet N back to and out of input mechanism 101; accepts sheet N and controls transport mechanism 103 to transport sheet N to container 113, but generates a report including the information of sheet N, information indicating that sheet N may not be authentic, and asset information corresponding to one or more of sheet-accepting device 100 and container 113; or both when controller 121 determines that sheet N is not authentic or deficient in some manner. Further, when controller 121 determines that sheet N is authentic or is not deficient in some manner, controller 121 accepts sheet N and controls transport mechanism 103 to transport sheet N to container 113 and to perform the other processes described above.
Receiving device 300 is, for example, a docking station or device configured to dock with container 113. Receiving device 300 includes a memory-reading device configured to read the information of sheets N and the asset information stored in the memory coupled to container 113. In particular configurations, for example, the memory-reading device is an RFID sensor 311 configured to read RFID tag 115 coupled to container 113 when container 113 is docked with receiving device 300. Container 113 may dock with receiving device 300 in a variety of manners. In certain configurations, docking is accomplished by positioning container 113 such that the memory coupled to container 113 is within sufficient proximity for the memory-reading device of receiving device 300 to read information therefrom (e.g., proximity for a wi-fi link therebetween, proximity for near-field communications therebetween, proximity for magnetic detection, proximity for reading optical markings). In other configurations, docking is accomplished by creating a physical connection (e.g., connecting wires) between container 113 and receiving device 300. In still other configurations, receiving device 300 acts as an unlocking or interlocking mechanism for container 113, such that container 113 may be opened only after it is docked with receiving station 300 and the information of sheets N and the asset information has been read from the memory coupled to container 113.
Receiving device 300 includes an I/O device 319 that is configured similarly to I/O devices 119, 219 and that communicates with management system 200 and, in some configurations, also communicates with one or more of container 113, sheet-processing device 400, and other devices. In addition, receiving device 300 comprises a controller 321, which is substantially similar to controllers 121, 221 and which also executes computer-readable instructions. Controller 321 controls the memory-reading device (e.g., RFID sensor 311) to read the asset information and the information of the sheets H from the memory (e.g., RFID tag 115) coupled to container 113 when container 113 is docked to receiving device 300. Thereafter, controller 321 controls I/O device 319 to transmit the asset information and the information of sheets N obtained from container 113 to management system 200. In some configurations, controller 321 also controls I/O device 319 to transmit the asset information and the information of sheets N obtained from container 113 to sheet-processing device 400 or other devices (e.g., middleware devices).
Sheet-processing device 400 includes an input mechanism 401 that is configured to receive a plurality of sheets N therein. Specifically, a casino employee in the count room is able to open a plurality of containers 113 previously coupled to a plurality of sheet-accepting devices 100, remove sheets N from each of the plurality of containers 113, and combine sheets N from the plurality of containers 113 into a single stack, which the casino employee then places into input mechanism 401. In other configurations, for example, this process is automated and sheets N may be automatically loaded into input mechanism 401 after container 113 is docked with receiving device 300. In still other configurations, container 113 may be loaded directly into input mechanism 401.
Sheet-processing device also includes a transport mechanism 403, which separates sheets N placed in input mechanism 401 and, similarly to transport mechanism 103, transports each sheet N to sensor mechanism 405 (e.g., a second sensor mechanism). In a manner similar to that described above with respect to sensor mechanism 105, when transport mechanism 403 transports a plurality of sheets N to sensor mechanism 405, sensor mechanism 405 detects information of each sheet N of the plurality of sheets N (e.g., second information of each sheet) for a second time. The information of each sheet N also includes a serial number of sheet N and a value (e.g., denomination) of sheet N, as well as other information, examples of which include: a series of sheet N; physical attributes of sheet N including dimensions, weight, opacity, and texture; and the presence of other identifiers, such as magnetic strips or ink, bar codes, holograms, punch marks, and RFID circuits. Nevertheless, sensor mechanism 405 may detect different information of sheets N than sensor mechanism 105, less information of sheets N than sensor mechanism 105, or more information of sheets N than sensor mechanism 105, based on the processing needs of the casino or financial institution. In particular configurations, sensor mechanism 405 includes: an optical sensor 407, a magnetic sensor 409, and an RFID sensor 411. Optical sensor 407, magnetic sensor 409, and RFID sensor 411 are substantially similar to optical sensor 107, magnetic sensor 109, and RFID sensor 111 and are configured to detect similar information, except that optical sensor 407, magnetic sensor 409, and RFID sensor 411 may be more accurate than optical sensor 107, magnetic sensor 109, and RFID sensor 111. Specifically, transport mechanism 403 and sensor mechanism 405 are designed to more accurately separate sheets N and to more accurately detect the information of sheets N. In some configurations, sensor mechanism 405 includes only one of optical sensor 407, magnetic sensor 409, and RFID sensor 411. In other configurations, sensor mechanism 405 includes various combinations of optical sensor 407, magnetic sensor 409, RFID sensor 411, and other sensors able to detect information of sheets N. After transport mechanism 403 transports sheet N to sensor mechanism 405, transport mechanism 403 transports sheet N to a sorting machine (not shown), which, similarly to sheet-accepting device 100′ shown in
Sheet-processing device 400 also includes an I/O device 419, which is substantially similar to I/O devices 119, 219, 319, and enables sheet-processing device to transmit the information of each sheet N detected by sensor mechanism 405, as well as sending and receiving other information, to management system 200 and to send information to and receive information from receiving device 300. In addition, sheet-processing device 400 includes a controller 421, which is substantially similar to controllers 121, 221, 321 and which also executes computer-readable instructions. In some configurations, controllers 121, 221, 321, 421 may function as management devices that perform functions similar to the functions of management system 200. Controller 421 controls transport mechanism 403 to transport sheets N to sensor mechanism 405 and controls sensor mechanism 405 to detect the information of the sheets H. Further, controller 421 maintains a count of sheets N (e.g., in total, by type) and controls I/O device 419 to transmit the information of sheets N detected by sensor mechanism 405, including the count information, to management system 200. In some configurations, controller 421 also controls I/O device 419 to transmit the information of sheets N detected by sensor mechanism 405 to other devices (e.g., middleware devices). Similar to controller 121, controller 421 also performs an authenticity determination for each sheet N and generates a report when controller 421 determines that a sheet N is not authentic. In certain configurations, a separate (or special) compartment is provided to receive certain sheets N for further evaluation and dispensation. For example, when sheet-processing device 400 detects an anomaly, such as, for example, no match to the serial number presented, a match to a counterfeit list, an identical serial number processed (e.g., S303) within a predetermined period of time, or a serial number not read by sensor mechanism 405, sheet-processing device 400 rejects the sheet to the special compartment.
In S105, sensor mechanism 105 detects information of sheet N.
Returning to
When controller 121 determines that sheet N is not authentic (S107: NO), controller 121 may reject sheet N in S113 and control transport mechanism 103 to transport sheet N back to input mechanism 101 and out of sheet-accepting device 100 to the customer or employee. In other configurations, when controller 121 determines that sheet N is not authentic (S107: NO), controller 121 performs one or more of a variety of other actions. In particular configurations, for example, controller 121 generates a report indicating that a sheet, which was determined to be not authentic, was inserted in sheet-accepting device 100 and providing the information of sheet N detected by sensor mechanism 105, including date and time information identifying the time and date of insertion and the asset information identifying the sheet-accepting device 100. Controller 121 subsequently controls I/O device 119 to transmit this report to management system 200 or directly to an employee responsible for monitoring such concerns. In another example, controller still generates the above-described report and transmit such report to management system 200 an employee responsible for monitoring such concerns, but also performs the processes of S109 and S111, rather than rejecting sheet N in S113. The sheet-accepting process for sheet N terminates after S111 or S113 is completed.
When controller 121 determines that sheet N has previously been processed within the predetermined period of time (S303: YES), controller 121 generates a report indicating that a sheet, which was determined to be not authentic, was inserted in sheet-accepting device 100 and providing the information of sheet N detected by sensor mechanism 105, including date and time information identifying the time and date of insertion and the asset information identifying the sheet-accepting device 100. Controller 121 subsequently controls I/O device 119 to transmit this report to management system 200 or directly to an employee responsible for monitoring such concerns. Thereafter, the authentication process for sheet N ends. In other configurations, in which the authentication process is performed by sheet-accepting device 100, controller controls sheet-accepting device 100 to reject sheet N in a manner similar to S113 when controller 121 determines that sheet N has previously been processed within the predetermined period of time (S303: YES). When controller 121 determines that sheet N has not previously been processed within the predetermined period of time (S303: YES), the authentication process for sheet N ends.
In some configurations, controller 121 may not communicate with management system 200 to obtain the list of serial numbers of sheets N recently processed by devices managed by management system 200 within the predetermined period of time, but rather compares the serial number of a sheet N recently processed by sheet-accepting device 100 with a list of serial numbers of sheets N recently processed by sheet-accepting device 100 within the predetermined period of time that is stored locally at sheet-accepting device 100 by controller 121. In still other configurations, controller 121 communicates with an external database of counterfeits to obtain a list of counterfeit serial numbers and compares the serial number of a sheet N recently processed by sheet-accepting device 100 with the list of counterfeit serial numbers to determine whether sheet N is authentic. As noted above, each of controllers 121, 221, 321, 421 may perform the authentication process of
In S407, an employee moves sheets N to sheet-processing device 400. S407 may be omitted if receiving device 300 and sheet-processing device 400 are integrated. Further, in some configurations, sheets N are moved from receiving device 300 to sheet-processing device via an automated process. In certain configurations, sheets N are separated from container 113 and moved to sheet-processing device 400, whereas, in other configurations, container 113, including sheets N disposed therein, is moved to sheet-processing device 400, and sheet-processing device 400 removes sheets N from container 113. Moreover, a plurality of sheets N from a plurality of different containers 113 previously coupled to different sheet-accepting devices 100 or other devices may be combined into a single stack for insertion into input mechanism 401 of sheet-processing device 400.
After sheets N are inserted into input mechanism 401, controller 421 controls one or more of input mechanism 401 and transport mechanism 403 to separate sheets N, such that transport mechanism 403 is able to transport each sheet N to sensor mechanism 405. In S409, controller 421 controls sensor mechanism 405 to detect information of each sheet N, including time and date of insertion information and count information, in a manner substantially similar to that performed by sensor mechanism 105 in S105. In S411, controller 421 controls I/O device 419 to transmit the information of each sheet N detected by sensor mechanism 405 to management system 200 or to a middleware device for further processing, which ultimately transmits such information to management system 200. In many configurations, however, because sheet-processing device 400 is often more robust than sheet-accepting device 100, sheet-processing device 400 obtains a greater quantity of information of each sheet N (e.g., more details of sheet N are detected) than sheet-accepting device 100.
S413 may be performed by one or more of sheet-processing device 400 and management system 200 in various configurations. Specifically, when receiving device 300 transmits the information read from RFID tag 115 or the other memory coupled to container 113 to sheet-processing device, sheet-processing device is able to perform S413. Management system 200 is able to perform S413 after receiving both the information read from RFID tag 115 or the other memory coupled to container 113 from receiving device 300 or the appropriate middleware device and the information of sheet N detected by sheet-processing device 400.
In S413, for example, management system 200 compares the information read from RFID tag 115 or the other memory coupled to container 113 with the information of sheet N detected by sheet-processing device 400 to confirm the value of accepted sheets N and to associate the information of sheets N detected by sheet-processing device 400 with the sheet-accepting device 100 that originally accepted the sheet.
In further configurations, management system 200 also compares the other read information (e.g., read by receiving device 300) of each sheet N with the other detected information (e.g., detected by sheet-processing device 400) of a sheet determined to have a matching serial number. In this manner, management system 200 is able to identify discrepancies (e.g., the information detected by sheet-accepting device 100 and read by receiving device 300 indicates the value of a sheet N with a particular serial number is $5.00, but the information detected by sheet-processing device 400 indicates that the value of a sheet N with the same serial number is $50.00) between the information of each sheet N detected by sheet-accepting device 100 and the information of the same sheet N detected by sheet-processing device 400. Accordingly, in such configurations, management system 200 notifies casino employees of such discrepancies including asset information and information about the time and date of insertion of the particular sheet N at issue, which assists management in identifying malfunctions in devices and resulting accounting errors. As noted above, S413 may be performed by sheet-processing device 400 in certain configurations. In such configurations, S413 notifies management system 200 of any errors.
Returning to
In S717, when separator cards H are used as header cards, for example, management system 200 (or a middleware system) associates sheets N detected after particular separator card H with particular separator card H until a new separator card H is detected, at which point management system 200 associates sheets N detected after new separator card H with new separator card H, and so on. In S719, management system 200 associates each sheet N associated with a particular separator card H with the asset information that is associated with the particular separator card H. Thereafter, the association process ends. In some configurations, sheet-processing device 400, rather than management system 200, performs S717 and S719.
Accordingly, when management system 200 ultimately generates reports on accepted sheets N, management system 200 is able to generate information on a per-device basis by grouping the information of sheets associated with the same asset information, which associates the sheets with the same container 113 or the same sheet-accepting device 100. Further, it is possible to use a reusable separator card H because separator card H is associated with asset information in management system 200 prior to processing by sheet-processing device 400. For example, in particular configurations, the information of sheets N, including the serial numbers of each sheet N disposed in container 113, is linked to separator card H, which is different from known methods for processing currency, such as those described in U.S. Pat. No. 5,917,930 A, in which only aggregate and generalized information about a deposit is encoded on or linked with a separator card.
While the invention has been described in connection with various exemplary structures and illustrative embodiments, it will be understood by those skilled in the art that other variations and modifications of the structures, configurations, and embodiments described above may be made without departing from the scope of the invention. For example, the scope of this application comprises all possible combinations of the various elements and features disclosed and incorporated by reference herein, and the particular elements and features presented in the claims and disclosed and incorporated by reference above may be combined with each other in other ways within the scope of this application, such that the application should be recognized as also directed to other embodiments comprising other possible combinations. Other structures, configurations, and embodiments consistent with the scope of the claimed invention will be apparent to those skilled in the art from a consideration of the specification or practice of the invention disclosed herein. It is intended that the specification and the described examples are illustrative with the true scope of the invention being defined by the following claims.