This application is a national stage application under 35 U.S.C. § 371 of PCT Application No. PCT/GB2019/051881, filed Jul. 3, 2019, which claims the benefit of Great Britain Application No. 1810911.6, filed Jul. 3, 2018. The entire contents of each of PCT Application No. PCT/GB2019/051881 and Great Britain Application No. 1810911.6 are incorporated herein by reference in their entireties.
The present invention relates to casino security systems, in particular to security systems for preventing theft from casino apparatuses.
Casinos derive a great deal of revenue from gaming machines such as mechanical and video slots and table games such as poker and twenty-one. Three important factors to casino operators related to providing these games are: 1) minimizing operating costs, 2) responding to the desires of players, their customers, which are constantly shifting and 3) providing a secure and honest gaming experience. Minimizing operating costs involves factors, such as minimizing the labour and maintenance costs associated with providing a game at a gaming machine or at a table. Responding to the desires of players involves factors, such as changing games on a gaming machine, providing new types of games, rearranging a layout and distribution of gaming machines and/or table games on a casino floor and providing player incentives via casino-sponsored loyalty programs. Finally, providing a secure and honest gaming experience involves such factors as providing tamper-proof gaming machines and table games, and secure gaming platforms that meet regulatory requirements and providing security monitoring systems that help deter theft and other potential crimes such as tampering with a casino apparatus in order to control an outcome.
The factors described above are reflected in the history of technology development associated with the gaming industry. For example, casino monitoring systems were introduced to minimize costs associated with gathering accounting data from gaming machines. Until the advent of casino monitoring systems the accounting of coin-in, coin-out, and other data associated with each machine was done manually.
The introduction of casino monitoring systems provided the means for a casino operator to gather this data electronically using a communication network. This reduced the cost for the casino by reducing the expense of the manual data gathering associated with each gaming machine.
To provide a secure gaming experience, gaming machines and table games include security measures, such as locked cabinets for securing resources that may be targets of theft or tampering, such as deposited money or gaming software. Further, external security systems, such as camera systems are provided for monitoring employee and player behaviour including detecting illegal actions. To ensure an honest gaming experience, gaming machines tend to be highly regulated. For instance, gaming software and hardware associated with determining an outcome of game and dispensing money from a gaming machine can undergo a regulatory approval process that takes up to a year before the gaming software or hardware can be utilized in the field, such as on a casino floor. Further, after deployment, regulator approved gaming software and hardware are secured and monitored in a gaming device such that changes or modifications are readily detectable.
The technological advances, described above, each viewed in isolation, have contributed to minimizing operating costs, responding to the desires of players and providing a secure and honest gaming experience. However, these advances viewed as a whole have also created problems. Currently, gaming machines on a casino floor can be connected to many different and separately maintained networks. For instance, a single gaming machine on a casino floor, which may include thousands of gaming machines, can be connected via wired connections to separate WAP, player tracking, link progressive and TITO networks. Maintaining many different networks and their associated infrastructure can be quite costly, and real-time identification of theft or corruption is increasingly unlikely.
Monitoring currently involves the use of casino security cameras. Current forms of monitoring tend to require security cameras to be permanently focused on, for instance, a gaming machine, gaming table or chipping machine, and is generally reliant upon a surveillance team to be continually monitoring each machine to identify, characterise and record activity on said machines. This method is flawed, and is open to human error, as it generally relies upon said activity being witnesses at the correct moment. Such activity can easily be missed in current methods, should the surveillance team be busy dealing with another incident. The activity could be viewed retrospectively, but may rely upon the activity being detailed and/or captured by personnel on the gaming floor, to provide to the surveillance team with date and time stamps in order to practicably trawl through recorded footage to identify the activity. Not only does this generally present a time- and resource-intensive process, but it can also mean that the activity is not able to be reviewed for a lengthy time after the activity has taken place, which poses a number of concerns for a security system.
Some machines are arranged to emit a high-pitched alarm sound when opened without authorisation. This does not, however, prevent tampering with a machine by authorised personnel.
Machines may log, internally, if the machine was opened. This log will typically capture the date and time, however, the log does not generally contain detail of the user, or detail of the activity performed while open.
Other disadvantages of current machines include the tendency for maintenance to be initiated unnecessarily, which can lead to unnecessary down-time of the machine.
It is therefore desirable to provide a secure apparatus for use in a casino, overcoming the problems posed by current technology.
In accordance with a first aspect of the present invention, there is provided a secure casino apparatus comprising,
In preferable embodiments, the access member is a door. In said preferable embodiments, the access member is arranged to be opened, and thereby providing access to the cavity. In further preferable embodiments, the access member comprises a locking mechanism arranged to be actuated by an unlocking member. Preferably the unlocking member is one selected from: a key; a wireless fob; a code; a sequence of digits.
Access to the cavity, in the context of the present invention, will be understood by the skilled addressee to mean access to the cavity gained by an individual. In the context of the present invention, the individual may optionally be an individual who is authorised to access the cavity. The individual may be an individual who is not authorised to access the cavity. Access to the cavity may be obtained by actuating the access member. In certain embodiments, access to the cavity may be obtained using a method that does not involve actuating the access member.
Image data of the cavity, in the context of the present invention, will be understood by the skilled addressee to mean image data comprising an image, the image providing a view of at least a portion of the cavity. In preferable embodiments, the image data comprises an image providing a view of the cavity and activity performed within said cavity. In preferable embodiments, the activity may comprise activity performed by the secure casino apparatus and/or activity of an individual having accessed the cavity.
Preferably the image capture apparatus is located substantially inside the cavity.
Preferably the access comprises a duration, and wherein the sensor is arranged to provide the access signal throughout the duration of said access. More preferably the processor is arranged to activate the image capture apparatus for the duration of said access.
Preferably the access comprises a duration, and wherein the sensor is arranged to provide the access signal at intervals of predetermined length throughout the duration of said access. More preferably the activation period is not shorter than the predetermined length.
Preferably the processor is arranged to activate the image capture apparatus for a predetermined buffer period after the duration of said access.
In accordance with preferable embodiments, the secure casino apparatus further comprises an image transmission member arranged to transmit the image data. Preferably the image transmission member is arranged to transmit the image data by live-streaming said image data. Preferably the image transmission member is arranged to transmit the image data to a remote device, the remote device comprising one selected from the range: a display screen located on the secure casino apparatus; a server; a mobile device; a computer.
Preferably the secure casino apparatus further comprises a signal transmission member arranged to transmit the access signal.
Preferably the access detected by the sensor comprises a mode, the mode being one selected from the range: authorised access, or unauthorised access. Preferably the processor is arranged to determine the mode from the access signal.
Preferably the secure casino apparatus further comprises an alerting member arranged to provide an alert when the alerting member is activated. Preferably the alert comprises at least one selected from the range: an electronic mail; a text message; a dashboard alert; an alarm; a software feature; a video message; a screen animation; an audible alert; a supersonic audio alert.
In preferable embodiments wherein the access detected by the sensor comprises a mode, the mode being one selected from the range: authorised access, or unauthorised access, and wherein the processor is arranged to determine the mode from the access signal, preferably the processor is further arranged to activate the alerting member when an access signal having a unauthorised access mode is provided by the sensor.
Preferably the secure casino apparatus is one selected from the range: a gaming token sorting apparatus; a chipper; a gaming terminal; an electronic gaming machine; a gaming token transport device; a currency transport device; a dice spinner; a game ball spinner; a dice shaker.
In the context of the present invention, the term “gaming” will be understood by the skilled addressee to mean “gambling”.
Preferably the cavity is arranged to transport, store and/or sort one selected from the range: physical currency; gaming tokens; a data storage device; identification data.
In embodiments wherein the secure casino apparatus is a gaming token sorting apparatus, which may optionally be a chip sorting apparatus, the cavity is preferably a cavity within the gaming token apparatus wherein gaming tokens are transported, stored and/or sorted. In embodiments wherein the secure casino apparatus is a gaming terminal or an electronic gaming machine, the cavity is preferably a cavity wherein gaming tokens and/or currency are transported, stored and/or sorted.
Preferably the processor is further arranged to perform pattern recognition on the image data, and is further arranged to transform an access signal having a unauthorised access mode into an access signal having an authorised access mode; wherein the processor is arranged to carry out the transformation upon recognition of a known pattern.
Preferably the secure casino apparatus further comprises an identification member arranged to identify an individual.
In accordance with a second aspect of the present invention, there is provided a casino apparatus security system, the security system comprising:
a monitoring system comprising a remote device arranged to receive the image data from the image transmission member.
Preferably the secure casino apparatus is one according to the first aspect of the present invention. Preferably the remote device comprises one selected from the range: a display screen located on the secure casino apparatus; a server; a mobile device; a computer; media player; data storage device.
In accordance with a third aspect of the present invention, there is provided a method of monitoring access to a secure casino apparatus, the method comprising the steps of:
Preferably, method is performed using a security system in accordance with the second aspect of the present invention.
Preferably the secure casino apparatus is one in accordance with the first aspect of the present invention.
Preferably the method further comprises the step of:
Preferably the method further comprises the step of:
Specific embodiments will now be described by way of example only, and with reference to the accompanying drawings, in which:
An example embodiment of a secure casino apparatus 10 according to the first aspect of the present invention is shown in
The token sorting apparatus 10 further comprises a plurality of sensors (not shown) arranged to detect operation data relating to the use of the apparatus, including an access signal provided when access to the cavity 18 is detected by way of the door 19.
Located within the base 12 is a processor 28 arranged to accept and process the image data from the camera 24 and the data from the sensors, comprising the access signal. The token sorting apparatus 10 further comprises a memory 30 arranged to store the image data from the camera 24 and the operation data obtained by the sensors. The token sorting apparatus 10 further comprises an image transmission member 32, a signal transmission member 34 and an alerting member 36 comprised within the base 12. The processor 28, memory 30, camera 24, display screen 26, sensors (not shown), the image transmission member 32, the signal transmission member 34 and the alerting member 36 are all arranged to be in digital communication with one another.
The sorting mechanism elements of the sorting apparatus can be as described in, for example, GB2333632A.
In use, the user of the token sorting apparatus 10 according to the embodiment shown is a croupier attending to the gaming table 38. The token sorting apparatus 10 is arranged to receive information from an automated roulette wheel 40 incorporated into the gaming table 38, relating to the stage of the roulette game, and various other operation data associated with the use of the roulette wheel 40. In use, the token sorting apparatus is used to aid in the operation of a table game like roulette. In a game of roulette, patrons wager gaming tokens, which are collected by a croupier into a slot within the upper surface of the gaming table, leading into the cavity of the token sorting apparatus. Following sorting, the sorted gaming tokens are returned to the croupier in stacks for distribution to winners in the roulette game.
In use, access to the token sorting apparatus 10 using the door panel 19, which may be for repair or maintenance, is detected by the sensor and as a result the processor activates the camera 24 for an activation period. In the embodiment shown, the sensor is arranged to detect an access to the cavity 18 and provide an access signal at predetermined intervals, in the embodiment shown, the predetermined interval is 10 seconds. The activation period in the embodiment shown is 30 seconds. As such, in the embodiment shown, if access to the cavity 18 is no longer detected by the sensor, the camera 24 is arranged to continue recording for a period after said access has ceased.
In the embodiment shown, the image transmission member 32 is arranged to live-stream the image data to a remote device when the image data is received by the processor 28 following activation of the camera 24 by the processor 28.
In the embodiment shown, the alerting member 36 is arranged to transmit an email alert and/or a dashboard notification to a remote device when an access signal is received by the processor 28 from the sensor. The dashboard notification will be understood by the skilled reader to mean a notification appearing on a display screen.
In the embodiment shown, the remote device discussed in relation to the image transmission member 32 and the alerting member 36 is a computer operated by one or more surveillance personnel tasked with remote monitoring of casino apparatuses. The computer is in communication with the image transmission member 32 and the alerting member 36 over a network. When connected to the network, the image transmission member 32 and the alerting member 36 are arranged to transmit a dashboard alert, and email alert and/or another form of text-based alert. In the embodiment shown, recording of activity and image data, which may be transmitted to the computer, occurs on the secure casino apparatus. Embodiments of the present invention will be appreciated wherein the secure casino apparatus does not transmit data or notifications to a remote device.
In use, access to the token sorting apparatus 10 cavity 18 can be easily monitored since an alert is provided to a surveillance team when access is detected. This means that continuous visual surveillance of what may be a great number of casino apparatuses by the surveillance team is not required, and thus reduces the likelihood of human omission.
In the embodiment 10 shown, the door 19 comprises a lock which may be opened, or actuated, using a dedicated Dallas key. A Dallas key provides low-speed data, signalling, and power over a single conductor, and can be incorporated into a key fob for use in, for example, actuating locking mechanisms comprised with door panels of token sorting apparatuses as discussed in relation to the presently described embodiment.
In a typical casino environment, only a select few personnel, whose duties require relevant access to the cavity 18 of the token sorting apparatus 10, are authorised to carry the correct Dallas key designed to actuate the lock of the door panel 19. Use of the correct Dallas key to actuate the door panel is an example of an authorised access to the cavity 18 of the token sorting apparatus 10 of the embodiment shown, and upon detection by the sensor, would cause the sensor to provide an access signal to the processor 28. In the embodiment shown, the sensor includes a first sensor for detecting the use of a Dallas key (i.e. detecting a consensual actuation of the access member), and a second sensor for detecting the opening of the door 19. An example of a first sensor may include: (examples of sensors which may be used for detecting Dallas keys). An example of a second sensor may include: a motion sensor; (examples of sensors which may be used for detecting opening of the door). In the embodiment shown, the processor 28 is arranged to process the access signal received from the sensor, and arranged to determine the mode of access, whether this be an authorised access or an unauthorised access.
Any other means of gaining access to the cavity of the token sorting apparatus of the embodiment shown, without use of said dedicated Dallas key described above, are examples of unauthorised access to the cavity 18. Examples of such unauthorised access may be through tampering with the locking mechanism comprised with the door panel 19. In the embodiment shown, an access signal sent by the sensor, and having an unauthorised mode, is determined by the processor 28 if the second sensor detects an opening of the door panel 19 while the first sensor does not detect the presence of a Dallas key.
A schematic diagram of an example embodiment of a casino apparatus security system 50 in accordance with the second aspect of the present invention is shown in
In the embodiment 50 shown, the casino apparatus 52 takes the form of a token sorting apparatus, a chipper, as described in relation to
The security system of the embodiment shown 50 is further detailed in
It will be appreciated that the above described embodiments are given by way of example only and that various modifications thereto may be made without departing from the scope of the invention as defined in the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
1810911 | Jul 2018 | GB | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/GB2019/051881 | 7/3/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/008190 | 1/9/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5605334 | McCrea, Jr. | Feb 1997 | A |
6289261 | Heidel et al. | Sep 2001 | B1 |
6293867 | Heidel et al. | Sep 2001 | B1 |
7677565 | Grauzer et al. | Mar 2010 | B2 |
10580068 | Jacobson | Mar 2020 | B2 |
20100075490 | Li | Mar 2010 | A1 |
20100255902 | Goldstein et al. | Oct 2010 | A1 |
20130137509 | Weber | May 2013 | A1 |
20160374494 | Geng | Dec 2016 | A1 |
20180185741 | Shigeta | Jul 2018 | A1 |
20190005768 | Wilkinson | Jan 2019 | A1 |
20190130689 | Baumgarte | May 2019 | A1 |
Number | Date | Country |
---|---|---|
2989878 | Jun 2018 | CA |
1080348 | Aug 2002 | EP |
1062010 | Oct 2009 | EP |
2821976 | Jan 2015 | EP |
2005073936 | Mar 2005 | JP |
2005073936 | Mar 2005 | JP |
2009106474 | May 2009 | JP |
2017191356 | Oct 2017 | JP |
2005029229 | Mar 2005 | WO |
Entry |
---|
International Preliminary Report on Patentability from International Application No. PCT/GB2019/051881, dated Jan. 5, 2021, 6 pp. |
International Search Report and Written Opinion dated Oct. 9, 2019 from counterpart international application No. PCT/GB2019/051881, 12 pp. |
Notice of Intent to Grant and Text Intended to Grant from counterpart European Application No. 1810911 6 dated Nov. 14, 2022, 2 pp. (Attorney Docket No. 1232-041GB01). |
Response to examination report issued under Section 18(3) dated Mar. 18, 2022, from counterpart United Kingdom Patent Application No. 1810911.6, filed Aug. 16, 2022, 12 pp. |
Response to examination report issued under Section 18(3) dated Sep. 6, 2022, from counterpart United Kingdom Patent Application No. 1810911.6, filed Novembers, 2022,12 pp. |
Search Report from counterpart Great Britain Application No. 1810911.6, dated Dec. 18, 2018, 3 pp. |
Number | Date | Country | |
---|---|---|---|
20210256804 A1 | Aug 2021 | US |