JP2017038742A - Information processing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow imaging information in which a desired subject is imaged to be easily acquired.SOLUTION: An information processing device includes: an interface capable of receiving imaging information on each of a plurality of imaging devices installed in a game house; and a controller for executing image processing for creating a floor map in a mode in which visual field information indicating a visual field range of each of the plurality of imaging devices is mapped on the floor map indicating the game house, the imaging information received by the interface being associated with the visual field range related to the imaging information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an information processing apparatus that acquires imaging information.

  Amusement arcades such as casinos have a large floor, so a plurality of surveillance cameras are installed in the amusement area. In general, when installing a surveillance camera, in many cases, the position of the surveillance camera is specified so that the place to be monitored enters the field of view, and the surveillance camera is installed. Then, after the monitoring camera is installed, the store side confirms a monitor whose monitoring screen is switched every predetermined time, or confirms a monitor on which the monitoring image is divided and displayed.

  In recent years, there has been disclosed a game system provided with a monitoring camera for photographing the inside of a casino store (see Patent Document 1).

US Patent Application Publication No. 2012/0135799

  However, in the game system described in Patent Document 1, when the store side wants to confirm a certain monitoring target in the game hall, the store looks for the monitoring target by looking at the monitoring screen switched by the monitor, or the monitor that is displayed in a small divided manner on the monitor Look at the screen to find the monitoring target. That is, there is a problem that it is not possible to quickly know which camera is monitoring the object to be confirmed.

Therefore, the present invention has been made in view of the above-described problems, and an object thereof is to make it possible to easily acquire imaging information obtained by imaging a desired subject.
In addition, the objective of this invention, the subject, and an effect (benefit) are understood from description of a claim itself, and should not be unfairly interpreted by the following description.

According to a first aspect of the present invention, an information processing apparatus according to the present invention includes:
An interface capable of receiving imaging information of each of a plurality of imaging devices installed in a game hall;
The field-of-view information indicating the field-of-view range of each of the plurality of imaging devices is mapped to the floor map indicating the game field, and the field-of-view information related to the field-of-view related to the image-capturing information is related to the field-of-view information received by the interface And a controller that performs image processing to generate the floor map in an aspect.

In this configuration, the field-of-view ranges of a plurality of imaging devices installed in the game hall are displayed at a time on the floor map. For example, by looking at the floor map, the store side can accurately grasp the field-of-view range in which a desired subject is imaged, so that imaging information in which the desired subject is imaged can be specified.
Therefore, according to this configuration, it is possible to easily acquire imaging information in which a desired subject is captured.

The information processing apparatus further includes:
The controller generates the floor map in a manner in which each icon of the plurality of imaging devices is mapped,
When any of the icons is designated in response to a user operation, the interface transmits an instruction to request imaging information to the imaging device corresponding to the designated icon, and the imaging device sends the instruction to the imaging device. The imaging information is received.

In this configuration, since the icon related to the imaging device is displayed on the floor map, it is easier to specify the imaging direction compared to the case where only the view range is displayed. For example, when a specific monitoring target is imaged from a plurality of angles, the store side can more easily acquire imaging information at a desired angle.
Therefore, according to this configuration, it is possible to more easily acquire imaging information obtained by imaging a desired subject.

The information processing apparatus further includes:
When any one of the respective viewing ranges is designated in response to a user operation, the interface transmits an instruction to request imaging information to an imaging device corresponding to the designated viewing range, and the imaging device The imaging information is received from.

In this configuration, since the imaging information of the imaging device corresponding to the view range specified on the floor map is acquired, for example, the store side performs a simple operation of specifying the view range displayed on the floor map. Imaging information can be acquired.
Therefore, according to this configuration, it is possible to more easily acquire imaging information obtained by imaging a desired subject.

The information processing apparatus further includes:
In the game hall, a plurality of gaming machines are installed,
Each of the plurality of gaming machines is mapped to the floor map,
The interface receives abnormality information from an abnormal gaming machine among the plurality of gaming machines,
The controller generates the floor map in such a manner that the gaming machine in the abnormal state can be distinguished from other gaming machines.

In this configuration, the abnormal state gaming machine is displayed in a distinguishable manner on the floor map in which the visual field range is displayed. For example, the store side can easily identify the visual field range including the abnormal gaming machine. become.
Therefore, according to this configuration, it is possible to easily acquire imaging information obtained by imaging an abnormal gaming machine.

  According to the present invention, it is possible to easily acquire imaging information obtained by imaging a desired subject.

It is a figure which shows the outline | summary of the monitoring system which concerns on one Embodiment of this invention. It is a figure which shows the structure of the monitoring system which concerns on one Embodiment of this invention. It is a figure showing roughly the game system concerning one embodiment of the present invention. FIG. 2 schematically shows a slot machine according to an embodiment of the present invention. FIG. 4 is a view showing basic functions of the slot machine according to the embodiment of the present invention. It is a figure showing the whole structure of the slot machine concerning one embodiment of the present invention. It is a figure which shows the PTS terminal integrated in the slot machine which concerns on one Embodiment of this invention. It is a figure which expands and shows the PTS terminal which concerns on one Embodiment of this invention. FIG. 4 is a diagram showing a circuit configuration of the slot machine according to the embodiment of the present invention. It is a figure which shows the circuit structure of the PTS terminal which concerns on one Embodiment of this invention. It is a figure which shows the example of the symbol combination table with which the slot machine which concerns on one Embodiment of this invention is provided. 10 is a flowchart showing a procedure of main control processing of the slot machine according to the embodiment of the present invention. 10 is a flowchart showing a procedure of coin insertion / start check processing of the slot machine according to the embodiment of the present invention. It is a flowchart which shows the procedure of the symbol lottery process of the slot machine which concerns on one Embodiment of this invention. 10 is a flowchart showing a procedure of symbol display control processing of the slot machine according to the embodiment of the present invention. 10 is a flowchart showing a procedure of a payout amount determination process of the slot machine according to the embodiment of the present invention. It is a figure showing the whole signage structure concerning one embodiment of the present invention. It is a figure which shows the circuit structure of the signage which concerns on one Embodiment of this invention. It is a figure which shows the whole structure of the kiosk terminal which concerns on one Embodiment of this invention. It is a figure which shows the circuit structure of the kiosk terminal which concerns on one Embodiment of this invention. It is a figure which shows the circuit structure of the monitoring server which concerns on one Embodiment of this invention. It is a figure which shows the example of the table used in the game system which concerns on one Embodiment of this invention. It is a figure which shows the example of the table used in the game system which concerns on one Embodiment of this invention. It is a figure which shows the example of the table used in the game system which concerns on one Embodiment of this invention. It is a figure which shows the example of the table used in the game system which concerns on one Embodiment of this invention. It is a figure which shows the example of the table used in the game system which concerns on one Embodiment of this invention. 1 is a diagram illustrating a configuration of an image processing system according to an embodiment of the present invention. It is a figure for demonstrating the outline | summary of the network structure of the game system which concerns on one Embodiment of this invention. It is a figure which shows a series of processes about the environmental monitoring service which concerns on one Embodiment of this invention. It is a figure which shows a series of processes about the monitoring camera service which concerns on one Embodiment of this invention. It is a figure which shows a series of processes about the party display service which concerns on one Embodiment of this invention. It is a figure which shows a series of processes about the apparatus status display service which concerns on one Embodiment of this invention. It is a figure which shows a series of processes about the communication status display service which concerns on one Embodiment of this invention. It is a flowchart which shows the procedure of the monitoring process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the environment monitoring process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the interruption process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the monitoring camera switching process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the interruption process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the party display process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the interruption process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the apparatus status display process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the interruption process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the communication condition display process which the monitoring server which concerns on one Embodiment of this invention performs. It is a flowchart which shows the procedure of the interruption process which the monitoring server which concerns on one Embodiment of this invention performs. It is a figure which shows an example of the floor map which concerns on one Embodiment of this invention. It is a figure which shows a part of environmental monitoring screen which concerns on one Embodiment of this invention. It is a figure which shows an example of the monitoring camera screen which concerns on one Embodiment of this invention. It is a figure which shows a part of participant display screen which concerns on one Embodiment of this invention. It is a figure which shows a part of apparatus status display screen which concerns on one Embodiment of this invention. It is a figure which shows a part of communication status display screen which concerns on one Embodiment of this invention. It is a figure which shows the example of the display screen which concerns on the friend registration service in the display apparatus of the PTS terminal which concerns on one Embodiment of this invention. It is a figure which shows the example of the display screen which concerns on the friend registration service in the display apparatus of the PTS terminal which concerns on one Embodiment of this invention. It is a figure which shows the example of the display screen which concerns on the transmission operation of the VoIP call in the display apparatus of the PTS terminal which concerns on one Embodiment of this invention. It is a figure which shows the example of the display screen which concerns on the transmission operation of the VoIP call in the display apparatus of the PTS terminal which concerns on one Embodiment of this invention. It is a figure which shows a series of processes about the environmental monitoring service which concerns on other embodiment of this invention. It is a flowchart which shows the procedure of the environment monitoring process which the monitoring server which concerns on other embodiment of this invention performs. It is a flowchart which shows the procedure of the interruption process which the monitoring server which concerns on other embodiment of this invention performs. It is a figure which shows an example of the environment monitoring screen which concerns on other embodiment of this invention. It is a figure which shows a series of processes about the monitoring camera service which concerns on other embodiment of this invention. It is a flowchart which shows the procedure of the monitoring camera switching process which the monitoring server which concerns on other embodiment of this invention performs. It is a figure which shows a series of processes about the party display service which concerns on other embodiment of this invention. It is a flowchart which shows the procedure of the party display process which the monitoring server which concerns on other embodiment of this invention performs. It is a figure which shows a series of processes about the apparatus status display service which concerns on other embodiment of this invention.

<First Embodiment>
A first embodiment of the present invention will be described with reference to the drawings.

[Overview of monitoring system]
The outline of the monitoring system according to the present embodiment will be described by taking the floor map 2021 shown in FIG. 1 as an example.
In this monitoring system, a floor map 2021 indicating a game hall is used to provide information on each place of the game hall. On the floor map 2021, various current information related to the game hall is mapped periodically or in real time (shown with various information and distribution of various information superimposed on the position of the game hall where the various information is acquired). . In addition, past information may be mapped. In some cases, it is possible to guess the future situation of the game arcade from the current and past information mapped on the floor map 2021.
The information related to the game hall includes environmental information such as room temperature, imaging information (image information) obtained by shooting the game hall, information indicating the status of the device, and the like. The information relating to the game hall is information acquired and transmitted by each device installed in the game hall.

For example, as shown in FIG. 1, in a main menu 2010 from which a plurality of menus can be selected, a menu 2011 (environment monitoring menu, monitoring camera menu, party display menu, equipment status display menu, communication status) related to game hall monitoring. When the display menu or the like is selected, the screen transitions to the monitoring screen 2020.
The monitoring screen 2020 includes a button 2022 for executing various functions, a floor map 2021, and the like. The button 2022 is provided with a button for returning to the main menu (an end button for closing the screen) according to the type of the monitoring screen 2020.

  The floor map 2021 displays information received from each device according to the type of the monitoring screen, mapped to the position of each device. In the lower part of the floor map 2021, the display mode of information and the type (classification) of information in the floor map are shown. Note that the floor map 2021 shows a plurality of devices (such as gaming machines) arranged in the game arcade in advance.

  FIG. 2 is a diagram illustrating an example of a system that can provide the floor map 2011 (a monitoring system 2060). The monitoring system 2060 includes an information processing device 2030 and a plurality of gaming machines 2050.

  The information processing apparatus 2030 includes a controller unit 2031, an interface unit 2032, a storage unit 2033, and an input unit 2034.

The controller unit 2031 is configured to be able to control the interface unit 2032 and the storage unit 2033. The controller unit 2031 is configured to execute processing for mapping various types of information on the floor map. A central processing unit (CPU), a micro-control unit (MCU), a motherboard, a graphics processing unit (GPU), a video card (graphic board), and the like function as the controller unit 2031.
In addition to the controller unit 2031, a display control unit configured to be able to control image display on a display unit such as a display may be provided.

  The interface unit 2032 is configured to be able to communicate with a device connected to the network. A communication device including wired communication and wireless communication (for example, a communication module for wired LAN, wireless LAN, and cellular phone communication) functions as the interface unit 2032.

The storage unit 2033 is configured to be able to store various types of information (programs, tables, etc. relating to the control of the monitoring system 2060). A ROM (Read Only Memory), a RAM (Random Access Memory), a silicon disk, a hard disk, and the like function as the storage unit 2033.
For example, various functions of the controller unit 2031, the interface unit 2032, and the input unit 2034 are realized by the CPU reading and executing a program and table data stored in the ROM or the like into the RAM.

  The input unit 2034 is configured to be able to input various types of information to the information processing apparatus 2030 based on a user operation. An input / output interface such as a USB terminal, a physical button, a physical keyboard, a mouse, a user interface displayed on a liquid crystal touch panel, and the like function as the input unit 2034.

  The gaming machine 2050 includes an information reading device 2040.

  The information reading apparatus 2040 includes a controller unit 2041, an interface unit 2042, a storage unit 2043, a connection unit 2044, an environment detection unit 2045, an input unit 2046, and a reading unit 2047.

The controller unit 2041 is configured to be able to control other components 2042 to 2045. A CPU, MCU, motherboard, GPU, video card (graphic board), and the like function as the controller unit 2041.
In addition to the controller unit 2041, a display control unit configured to be able to control image display on a display unit such as a display may be provided.

  The interface unit 2042 is configured to be able to communicate with a device connected to the network. A communication device including wired communication and wireless communication (for example, a communication module for wired LAN, wireless LAN, and mobile phone communication) functions as the interface unit 2042.

  The storage unit 2043 is configured to be able to store various types of information. A ROM, RAM, silicon disk, hard disk, or the like functions as the storage unit 2043.

  The connection unit 2044 is configured to be able to communicate with the gaming machine. A communication device (USB, expansion slot, network terminal, etc.) including wired communication and wireless communication functions as the connection unit 2044.

  The environment detection unit 2045 is configured to be able to detect and acquire environment information of a place where the information reading device 2040 is installed. A temperature sensor, humidity sensor, odor sensor, oxygen concentration meter, carbon dioxide concentration meter, pressure sensor, sound / vibration measurement sensor, CCD image sensor, and the like function as the environment detection unit 2045.

  The input unit 2046 is configured to be able to input various types of information to the information reading device 2040 based on user operations. An input / output interface such as a USB terminal, a physical button, a physical keyboard, a mouse, a user interface displayed on a liquid crystal touch panel, and the like function as the input unit 2046.

  The reading unit 2047 is configured to be able to read identification information or the like stored in a storage medium (such as an IC card) that can identify a user. A contact reader / writer, a non-contact reader / writer, or the like functions as the reading unit 2047.

  Hereinafter, the configuration of the monitoring system 2060 will be described from various aspects.

[1-1 embodiment]
The information processing apparatus 2030 according to the first-first aspect stores environment information (temperature information, humidity information, image information, status information, etc.) indicating a gaming environment at a position where the gaming machine 2050 is installed in a game hall (floor or the like). Each position of the receivable interface unit 2032 and the gaming machine 2050 installed in the gaming hall is mapped to a floor map indicating the gaming hall, and the environment information is associated with the gaming machine 2050 position. And a controller unit 2031 for performing image processing for generating the floor map in an aspect.
Note that the floor map may be stored in the storage unit 2033 or may be stored in an external storage device.

In this configuration, by using gaming machines 2050 that are distributed and installed throughout the game hall, it is possible to obtain environmental information indicating the gaming environment at the position where the gaming machine 2050 is installed, and in the floor map showing the gaming hall, A gaming environment is displayed in association with the position of the gaming machine 2050.
According to this configuration, by viewing the environment information displayed in association with the position of the gaming machine 2050 on the floor map, the gaming environment at that location can be quickly confirmed.
Here, the gaming environment means external factors such as temperature, humidity, atmospheric pressure, smell, sound, oxygen concentration, illuminance, and the presence of others surrounding the player and the gaming machine 2050. In other words, the gaming environment refers to a game environment that can have some influence on at least one of the player and the gaming machine 2050. For example, when the environmental information is temperature information, it becomes possible to know the bias of air conditioning in a wide range of casinos.

The information processing apparatus 2030 may be configured as follows.
The interface unit 2032 receives specific information (device identification code, coordinate information, position information, etc.) that can specify the position of the gaming machine 2050 on the floor map from the gaming machine 2050, and the controller unit 2031 The position of the gaming machine 2050 in the floor map is specified based on the specific information, and image processing for generating the floor map in a form in which the environment information is mapped to the position is performed.

The information processing apparatus 2030 may be configured as follows.
The interface unit 2032 receives temperature information indicating the internal temperature of the gaming machine 2050 (temperature of a CPU, GPU, HDD, motherboard, etc.) from the gaming machine 2050 as the environmental information.
According to this configuration, the temperature inside the gaming machine 2050 can be acquired. For example, when the store knows that the acquired temperature is higher than the reference value, it can be determined that the gaming machine 2050 is out of order.

The information processing apparatus 2030 may be configured as follows.
The interface unit 2032 receives temperature information indicating a temperature outside the gaming machine 2050 (such as room temperature) from the gaming machine 2050 as the environment information.
Further, according to this configuration, the temperature of the place where the gaming machine 2050 is installed can be acquired. For example, when the acquired temperature is higher than a reference value, that is, when the store side grasps a hot place, the air conditioning can be adjusted to lower the temperature of the place.
In this way, temperature information, which is an example of environmental information, can be appropriately grasped, and an appropriate response according to the temperature information can be taken.

  The information processing apparatus 2030 is further characterized in that the controller unit 2031 performs image processing for generating the floor map in a manner in which the environment information is mapped to the position of the gaming machine 2050.

In this configuration, environment information is mapped and displayed at the position of the gaming machine 2050 on the floor map.
According to this configuration, by looking at the gaming machine 2050 on the floor map, it is possible to know exactly where the game hall is, and by viewing the related environment information, the gaming environment at that location can be determined. It can be confirmed quickly.
Further, according to this configuration, the contents and location of the game environment can be understood at a glance, and the game environment of the game hall can be grasped more appropriately.
Here, as the image related to the gaming machine 2050 on the floor map, an arbitrary form such as a rectangle, a circle, an ellipse, a schematic diagram of the gaming machine 2050, and a reduced view of the gaming machine 2050 can be adopted.
As an image related to the environment information, for example, the color of the image (eg, icon) related to the gaming machine 2050 such as red (high), yellow (middle), and blue (low) according to the temperature indicated by the environment information. Different images are displayed, and an image related to the gaming machine 2050 and an image indicating a color are superimposed and displayed on the periphery thereof.

  The information processing apparatus 2030 further includes a plurality of gaming machines 2050 in addition to the gaming machine 2050, and the interface unit 2032 is connected to each gaming machine 2050 from each of the plurality of gaming machines 2050. The controller unit 2031 generates the floor map in a manner in which each environment information received by the interface unit 2032 is mapped to each position of the plurality of gaming machines 2050. Image processing is performed.

In this configuration, environment information at each position of the plurality of gaming machines 2050 installed in the game hall is acquired, and the environment information is mapped and displayed at each position where the gaming machine 2050 is installed on the floor map. .
In one environment information acquisition device, it is technically difficult to acquire environment information in the same period over a wide range, but according to this configuration, based on a plurality of environment information acquired by a plurality of gaming machines 2050. In addition, it becomes possible to grasp the gaming environment. For example, when viewing a game arcade, if one environment information in a certain section shows a different value from other environment information, there is an abnormality in or near the gaming machine 2050 in which the different environment information is detected. This makes it possible to narrow down the gaming environment that is not normal. Also, if the environment information of one section shows a value that is relatively different from the environment information of other sections, it becomes possible to narrow down the gaming environment that is not normal such that there is an abnormality in that one section. .
Thus, by making it possible to confirm the environmental information as a group, it becomes possible to more appropriately grasp the gaming environment of the game arcade.

[1-2 embodiment]
The information reading device 2040 according to the first-second aspect detects a gaming environment at a position where the connection unit 2044 that can be connected to the gaming machine 2050 and the gaming machine 2050 connected through the connection unit 2044 are installed. Each position of the environment detection unit 2045 that generates environment information and the gaming machine 2050 installed in the game hall is mapped on the floor map indicating the game hall, and the environment information is associated with the position of the gaming machine 2050. An interface unit 2042 capable of communicating with the information processing apparatus 2030 that performs image processing for generating the floor map in a selected mode, and a controller unit 2041 that transmits the environment information to the information processing apparatus 2030 via the interface unit 2042 It is characterized by having.

The information reading device 2040 can be connected to a gaming machine 2050, and can be provided not only in a gaming machine 2050 that is newly introduced into a game arcade, but also in an existing gaming machine 2050.
According to this configuration, it is possible to acquire environment information of an arbitrary place where the gaming machine 2050 can be installed.
Therefore, according to this configuration, the environment information can be acquired by continuing the specific place or switching the place, so that, for example, the store side can appropriately grasp the game environment of the game hall.

The information reading apparatus 2040 may be configured as follows.
The controller unit 2041 transmits specific information that can specify the position of the gaming machine 2050 in the floor map to the information processing apparatus 2030.

[1-3 aspect]
A gaming machine 2050 according to the first to third aspects includes an information reading device 2040 according to the second aspect.

  According to this configuration, the environment information can be acquired by continuing a specific place or switching places, so that, for example, the store side can appropriately grasp the game environment of the game hall.

The gaming machine 2050 may be configured as follows.
The controller unit 2041 determines whether or not the user is using the gaming machine 2050 (such as whether or not an IC card for starting a game is inserted). The environmental information is transmitted to the information processing apparatus 2030.
In this configuration, game information at a position where the gaming machine 2050 that is not used by the user is installed is acquired.
According to this configuration, since noise by the user is not included, more accurate environment information can be acquired, so that the environment information can be grasped more appropriately.

The gaming machine 2050 may be configured as follows.
The environment detection unit 2045 measures the temperature inside the information reading device 2040 and generates temperature information indicating the temperature as the environment information.

The gaming machine 2050 may be configured as follows.
The environment detection unit 2045 measures the temperature outside the gaming machine 2050, and generates temperature information indicating the temperature as the environment information.

[First to Fourth Aspects]
A monitoring system 2060 according to the first to fourth aspects includes an information reading device 2040 that can be connected to a gaming machine 2050 installed in a game arcade, and an information processing device 2030 that can communicate with the information reading device 2040. The information reading device 2040 can communicate with the information processing device 2030 and an environment detection unit 2045 that detects a gaming environment at a position where the gaming machine 2050 provided with the information reading device 2040 is installed and generates environment information. An interface unit 2042, and a controller unit 2041 that transmits the environment information to the information processing device 2030 via the interface unit 2042, and the information processing device 2030 transmits an environment transmitted from the information reading device 2040. An interface unit 2032 capable of receiving information; Each position of the gaming machine 2050 installed in the field is mapped on a floor map indicating the gaming field, and image processing is performed to generate the floor map in which the environment information is associated with the position of the gaming machine 2050. And a controller unit 2031.
According to this configuration, the environment information can be acquired by continuing a specific place or switching places, so that, for example, the store side can appropriately grasp the game environment of the game hall.

[2-1 embodiment]
The information processing apparatus 2030 according to the 2-1 aspect includes an interface unit 2032 capable of receiving each imaging information at each position of each gaming machine 2050 installed in the game hall from each gaming machine 2050, and each imaging information. And a controller unit 2031 that performs display control that is switched at a predetermined interval and displayed on the display.
Note that the display may be provided integrally with the information processing apparatus 2030, or may be provided separately from the information processing apparatus 2030.

In this configuration, it is possible to acquire imaging information indicating a gaming environment at a position where the gaming machine 2050 is installed by using the gaming machines 2050 that are installed in a distributed manner throughout the game hall.
For example, when the store side grasps a crowded place, it is possible to arrange a staff or make it a monitoring target so that various troubles can be dealt with immediately.
Therefore, according to this structure, the imaging information of each location in a game arcade can be confirmed, and a game environment can be grasped | ascertained now. Furthermore, according to this configuration, it is possible to take an appropriate response according to the imaging information.

  In the information processing apparatus 2030, each position of the gaming machine 2050 installed in the game hall is mapped to a floor map indicating the game hall, and the controller unit 2031 is connected via the interface unit 2032. The floor map is generated in a manner in which the received imaging information is associated with the position of the gaming machine 2050 that transmitted the imaging information.

In this configuration, the floor map is generated in a manner in which the video is associated with the position of the gaming machine 2050 from which the video (imaging information) is acquired.
According to this configuration, by looking at the floor map, it becomes possible to quickly and accurately grasp the position in the game arcade where the video was acquired, and it is possible to quickly take appropriate measures according to the imaging information. Become.

  The information processing apparatus 2030 further includes an input unit 2034 that receives an input requesting video information from the gaming machine 2050 installed in the game room based on a user operation on the floor map. 2032 transmits an instruction to transmit video information to the gaming machine 2050 designated by the user operation, and the controller unit 2031 performs display control for displaying the video information on the display. .

  According to this configuration, it is possible to acquire imaging information of a place where the gaming machine 2050 designated by the user operation is installed. For example, by designating the gaming machine 2050 at a desired location, the store side can focus on a place where there are many people, so that it is possible to take a more appropriate response according to the imaging information. Become.

The gaming machine 2050 may be configured as follows.
The controller unit 2031 determines whether or not a predetermined number or more people are included in the imaging information received by the interface unit 2032 and determines that the imaging information determined to be included is not included. Display control for emphasizing the captured image information to be displayed on the display is performed.
For example, when changing the arrangement of equipment, unexpected places may become a way, but according to this configuration, it will be easy to grasp where many people gather, where there are many people, etc. Such a place can be monitored intensively.
As a configuration for emphasizing and displaying, a configuration in which a display time is set longer, a configuration in which a display screen is set larger, and the like can be adopted. The contents described above are merely examples.

  The monitoring system 2060 according to the 2-1 aspect includes a plurality of gaming machines 2050 installed in a game arcade, and an information processing device 2030 capable of communicating with the plurality of gaming machines 2050, and the plurality of gaming machines 2050. Each includes an environment detection unit 2045 that generates imaging information captured at a position where the gaming machine 2050 is installed, and an interface unit 2032 that transmits the imaging information to the information processing device 2030. The processing device 2030 has an interface unit 2032 capable of receiving each imaging information at each position of each gaming machine 2050 from each gaming machine 2050, and display control for switching each imaging information at a predetermined interval and displaying it on a display. A controller unit 2031 for performing And wherein the door.

[3-1 embodiment]
The information processing apparatus 2030 according to the 3-1 aspect includes an interface unit 2032 capable of receiving user identification information (member identification code, IC card identification code, etc.) read by the information reading apparatus 2040 installed in the game hall; , Storing identification information (related party identification code, device identification code, etc.) that can identify the user's target (friend, family, recommended table, etc.) in association with the user identification information, and A storage device that stores specific information (device identification code, coordinate information, position information, etc.) that can specify the position of the target in association with the target identification information. The specific information associated with the identification information of the target is read out based on the identification information of the user from the storage device provided in the Image according to characterized in that it comprises a controller unit 2031 for performing image processing to generate a floor map showing the game field in the mapped manner to the target position in the game arcade.

In this configuration, information corresponding to the received identification information of the user is read out from the specific information that can specify the position at the target game hall related to the user in advance, and corresponds to the position at the game hall. The image related to the object is displayed on the floor map. For example, when the user causes the information reading device 2040 to read a storage medium (such as an IC card), the object related to the user is displayed on the floor map. The position can be accurately and quickly grasped.
Therefore, according to the present configuration, it is possible to grasp the target related to the user in the game hall.

The information processing apparatus 2030 may be configured as follows.
The storage device further stores attribute information indicating the attribute of the target in association with the identification information of the user, and the controller unit 2031 stores the attribute information associated with the identification information of the target. The floor map is read out from a storage device and generated in a form in which the attribute information is mapped to the floor map.
According to this configuration, for example, the store side can grasp the target attribute from the target attribute information displayed on the floor map, so that the target related to the user in the amusement hall can be grasped more accurately. Become.
The attribute information may be information indicating the relationship between players, such as friends and family, or information indicating the customer class related to the store, such as VISITOR, MEMBER, VIP, SUSPECTED VISITOR, SUSPECTED MEMBER. It may be information such as a recommended table related to the player. Further, the attribute information in the floor map may be shown as an image with different colors, shapes, sizes, or combinations thereof for each attribute, or may be shown as character information. The contents described above are merely examples.

  The information processing apparatus 2030 can further communicate with another information reading apparatus 2040 different from the information reading apparatus 2040 installed in the game hall, and the interface unit 2032 is connected to the other information reading apparatus 2040. When the identification information of the other user is read, the identification information of the other user is received, and the controller unit 2031 determines the identification information of the user and the other information based on the identification information stored in the storage device. It is determined whether or not the identification information of the user is associated. When it is determined that the identification information is associated, the image related to the user is mapped to the position of the information reading device 2040 in the game hall, and The floor map is displayed in such a manner that the image relating to the other user is mapped to the position of the other information reading device 2040 in the game hall. And generating a.

In this configuration, when another user causes the other information reading device 2040 to read the storage medium, if the other user is associated with the user who has read the storage medium using the information reading device 2040, that user The image related to the above is mapped to the position of the information reading device 2040 in the game hall, and the image related to another user is mapped to the position of the other information reading device 2040 in the game hall and displayed on the floor map. For example, the store side can easily grasp the positional relationship between the user and other users when viewing the floor map.
Therefore, according to this structure, the object which concerns on the user in a game hall can be grasped | ascertained more correctly.

The information processing apparatus 2030 may be configured as follows.
When the image relating to the user is instructed by a user operation, the controller unit 2031 highlights the image relating to the other user, and when the image relating to the other user is instructed by a user operation, The floor map is generated in such a manner that the image related to is highlighted.
According to this configuration, for example, the store side can more clearly grasp other users related to the user by instructing an image related to the user, so that the target related to the user in the game hall can be more accurately identified. It becomes possible to grasp.

[Third Mode]
The information reading apparatus 2040 according to the sixth aspect has a reading unit 2047 that can read identification information that can identify a user stored in a storage medium (such as an IC card), and the reading unit 2047 reads the identification information of the user. And information for performing image processing for generating a floor map indicating the game hall in a manner in which an image related to the object related to the user is mapped to the position of the target in the game hall based on the identification information of the user And an interface unit 2042 for transmitting the user identification information to the processing device 2030.

[Aspect 3-3]
A gaming machine 2050 according to the 3-3 aspect includes an information reading device 2040 according to the 3-2 aspect.

[3-4 Aspect]
The monitoring system 2060 according to the third to fourth aspects includes a plurality of information reading devices 2040 installed in a game arcade, and an information processing device 2030 capable of communicating with the information reading device 2040, and the plurality of information reading devices. Each of 2040 includes a reading unit 2047 that can read identification information that can identify a user stored in a storage medium. When the reading unit 2047 reads the user identification information, the user identification information is converted into the information processing information. An interface unit 2042 that transmits information to the device 2030. The information processing device 2030 receives the user identification information read by each of the plurality of information reading devices 2040 and the user. The identification information that can identify the target is stored in association with the identification information of the user, and the position of the target in the game hall The specific information associated with the identification information of the target is read based on the identification information of the user from a storage device that stores the specific information capable of identifying the identification information in association with the identification information of the target. And a controller unit 2031 for performing image processing for generating the floor map in a manner mapped to the target position in the game hall.

[3-5 Aspects]
The information processing apparatus 2030 according to the third to fifth aspects receives the user identification information read by the information reading apparatus 2040 installed in the game hall that can read the identification information that can identify the user stored in the storage medium. The identification information capable of identifying the target related to the user and the target related to the user is stored in association with the identification information of the user, and the specific information capable of specifying the position of the target in the game hall is The identification information of the target associated with the identification information of the user and the specific information associated with the identification information of the target are read from a storage device that stores the identification information in association with each other. The above-mentioned information mapped to the position of the information reading device 2040 in the game hall, and the image related to the object is mapped to the position of the target in the game hall A controller unit 2031 for performing image processing to generate a floor map showing the technique field, and having a.

[3-6 Aspects]
The information processing apparatus 2030 according to the third to sixth aspects includes user identification information read by an information reading apparatus 2040 installed in a game hall capable of reading identification information that can identify a user stored in a storage medium, Interface information 2032 that can be received from the information reading device 2040 and specific information that can identify the position of the user on the floor map showing the game hall, and identification information that can identify the object related to the user The information associated with the identification information of the user from the storage device that stores the identification information in association with the identification information, and stores the specific information that can identify the position of the object in the game hall in association with the identification information of the object. The target identification information and the target identification information associated with the target identification information are read, and based on the user identification information and the target identification information. The floor map is displayed in such a manner that the image related to the user is mapped to the position of the information reading device 2040 in the game hall and the image related to the target is mapped to the position of the target in the game hall. And a controller unit 2031 for performing image processing to be generated.

[4-1th Aspect]
The information processing apparatus 2030 according to the fourth-first aspect includes an interface unit 2032 capable of receiving imaging information of each of a plurality of camera units installed in a game hall, and a field of view indicating a field of view of each of the plurality of camera units. Information is mapped to a floor map indicating the game arcade, and image processing for generating the floor map in a manner in which the imaging information received by the interface unit 2032 and the field of view related to the imaging information are related to each other is performed. And a controller unit 2031 for performing the processing.
The camera unit is a video camera that has functions such as transmission, processing, recording, and display of a photographed video and is used for monitoring a game arcade. Box-type cameras (fixed cameras), dome-type cameras, PTZ (Pan Tilt Zoom) cameras, infrared cameras, one-cable cameras, wireless cameras, network cameras, etc. function as camera units.
The field-of-view information may be stored in the storage unit 2033 or may be stored in an external storage device.

In this configuration, the field-of-view ranges of a plurality of camera units installed in the game hall are displayed at a time on the floor map. For example, by looking at the floor map, the store side can accurately grasp the field-of-view range in which a desired subject is imaged, so that imaging information in which the desired subject is imaged can be specified.
Therefore, according to this configuration, it is possible to easily acquire imaging information in which a desired subject is captured.

  In the information processing apparatus 2030, the controller unit 2031 further generates the floor map in a manner in which icons of the plurality of camera units are mapped, and the interface unit 2032 responds to a user operation. When any one of the icons is designated, an instruction to request imaging information is transmitted to the camera unit corresponding to the designated icon, and the imaging information is received from the camera unit.

In this configuration, since the icon related to the camera unit is displayed on the floor map, the imaging direction can be easily specified as compared with the case where only the view range is displayed. For example, when a specific monitoring target is imaged from a plurality of angles, the store side can more easily acquire imaging information at a desired angle.
Therefore, according to this configuration, it is possible to more easily acquire imaging information obtained by imaging a desired subject.

  In the information processing apparatus 2030, the interface unit 2032 requests imaging information from the camera unit corresponding to the specified view range when any of the view ranges is specified in response to a user operation. An instruction to do so is transmitted, and the imaging information is received from the camera unit.

In this configuration, since the imaging information of the camera unit corresponding to the view range specified on the floor map is acquired, for example, the store side performs a simple operation of specifying the view range displayed on the floor map. Imaging information can be acquired.
Therefore, according to this configuration, it is possible to more easily acquire imaging information obtained by imaging a desired subject.

  In the information processing apparatus 2030, a plurality of gaming machines 2050 are installed in the game hall, and each of the plurality of gaming machines 2050 is mapped on the floor map. The interface unit 2032 includes: The controller unit 2031 receives the abnormality information from the gaming machine 2050 in the abnormal state among the plurality of gaming machines 2050, and the controller unit 2031 displays the floor map in a manner in which the gaming machine 2050 in the abnormal state can be distinguished from the other gaming machines 2050. It is characterized by generating.

The information processing apparatus 2030 may be configured as follows.
The information processing apparatus 2030 further includes a plurality of gaming machines 2050 installed in the game hall, and the floor map shows each of the plurality of gaming machines 2050 at a position that matches the position in the game hall. An image is displayed, and the interface unit 2032 receives abnormality information from the abnormal gaming machine 2050 among the plurality of gaming machines 2050, and the controller unit 2031 detects that the abnormal gaming machine 2050 is another gaming machine. The floor map is generated in a manner distinguishable from 2050.

In this configuration, the abnormal gaming machine 2050 is displayed in a distinguishable manner on the floor map where the visual field range is displayed. For example, the store side can easily identify the visual field range including the abnormal gaming machine 2050. become able to.
Therefore, according to this configuration, it is possible to easily acquire imaging information obtained by imaging the gaming machine 2050 in an abnormal state.

The information processing apparatus 2030 may be configured as follows.
In the floor map, an image related to the imaging device is displayed in association with each of the viewing ranges, and the interface unit 2032 is one of the images related to the imaging device on the floor map in response to a user operation. Is specified, an instruction to request imaging information is transmitted to the imaging device of the designated image, and the imaging information is received from the imaging device. The controller unit 2031 displays the imaging information on a display (LCD Etc.).
Note that the display may be provided integrally with the information processing apparatus 2030, or may be provided separately from the information processing apparatus 2030.

The information processing apparatus 2030 may be configured as follows.
The display device is a display different from a display on which the floor map is displayed.
Note that the different display may be provided integrally with the information processing device 2030, or may be provided separately from the information processing device 2030.

The information processing apparatus 2030 may be configured as follows.
The controller unit 2031 generates the floor map in such a manner that the designated view range can be distinguished from other view ranges.
In this configuration, since the designated view range can be identified, for example, the store side can easily determine which view range the acquired imaging information belongs to.

The information processing apparatus 2030 may be configured as follows.
In response to a user operation, the interface unit 2032 requests imaging information from each of the imaging devices corresponding to the overlapping visual field ranges when a portion where the visual field ranges overlap is specified among the respective visual field ranges. An instruction to the effect is transmitted and the imaging information is received from each of the imaging devices, and the controller unit 2031 displays each imaging information at once or in a switched manner on the display device.

In this configuration, imaging information at a plurality of locations where the visual field ranges overlap is displayed on one screen or switched. Therefore, for example, when a desired subject is located where the view range overlaps, the store side obtains imaging information obtained by capturing the desired subject by a simple operation of designating a location where the view range overlaps. You can get it at once.
Therefore, according to this configuration, it is possible to more easily acquire imaging information obtained by imaging a desired subject.

[5-1th embodiment]
The information processing apparatus 2030 according to the fifth-first aspect includes an interface unit 2032 that can receive specific information that can be specified by the information reading apparatus 2040 installed in a game arcade and that can identify the position of the information reading apparatus 2040; A controller unit 2031 that performs image processing related to a floor map indicating the game hall on which each position of the information reading device 2040 installed in the game hall is mapped, and the interface unit 2032 is installed in the game hall. The specific information of the one information reading device 2040 is received, the specific information of another information reading device 2040 different from the one information reading device 2040 is received, and the one information reading device 2040 and the other information are received. The controller unit 2031 receives information indicating that communication with the reading device 2040 is performed, and the controller unit 2031 includes the one information reading device. Based on the specific information of 040 and the specific information of the other information reading device 2040, the floor is displayed in a manner that the one information reading device 2040 and the other information reading device 2040 are communicating. It is characterized by generating a map.

In this configuration, when communication between the information reading device 2040 and another information reading device 2040 is detected, the floor map is displayed in a manner indicating that one information reading device 2040 and another information reading device 2040 are communicating. Is displayed. For example, the store side can grasp that the user and other users are communicating by looking at the floor map.
Examples of the mode indicating that communication is in progress include a mode in which the communication source and the communication destination are connected by a line, and a mode in which the communication source and the communication destination are blinked. In addition, the above-mentioned content is an example to the last.
According to this structure, it becomes possible to grasp the target (communication partner) related to the user in the game hall.

The information processing apparatus 2030 may be configured as follows.
The interface unit 2032 receives information indicating that communication different from communication between the one information reading device 2040 and the other information reading device 2040 is performed, and the controller unit 2031 performs the different communication. Based on the information to the effect, in addition to the mode in which the one information reading device 2040 and the other information reading device 2040 are in communication, the mode in which the different communication is in progress And generating the floor map.

In this configuration, when the next communication is started, an aspect indicating the previous communication is also displayed on the floor map.
According to this configuration, it is possible to grasp all communication sources and communication destinations in the game hall by looking at the floor map.

The information processing apparatus 2030 may be configured as follows.
The controller unit 2031 determines whether or not the communication by the information reading device 2040 installed in the amusement hall has exceeded a predetermined number. When it is determined that the communication has exceeded the predetermined number, the communication after the predetermined number is exceeded. This aspect is reflected in a floor map different from the floor map.

In this configuration, a predetermined number of communications can be visually recognized on one floor map, and communications after exceeding the predetermined number can be visually recognized on other floor maps.
In a large amusement hall such as a casino, there is a possibility that a lot of communication may occur, and if all communication is displayed on one floor map, it may be difficult to see, but according to this configuration, it is displayed on the floor map. Since the maximum number of communications is a predetermined number, the situation where the floor map becomes difficult to see can be avoided as much as possible.

  In the information processing apparatus 2030, the controller unit 2031 further provides a first icon on the floor map at the position of the one information reading apparatus 2040 and a second icon at the position of the other information reading apparatus 2040. If it is determined that the first icon is selected based on a user operation, the second icon is highlighted, and if it is determined that the second icon is selected, the first icon The icon is highlighted.

In this configuration, an icon is displayed at each position of the communication source and the communication destination on the floor map, and when one icon is selected, the icon of the communication partner is highlighted.
According to this configuration, the icons are displayed at the respective positions of the communication source and the communication destination, so that the communication source and the communication destination can be more easily grasped even in a wide game hall such as a casino.

[5-2th Aspect]
The information reading device 2040 according to the 5-2 aspect includes an input unit 2046 that receives a start request to start communication with another information reading device 2040 installed in the game hall based on a user operation, and the start Based on the request, the position installed in the game hall in the information processing apparatus 2030 that performs image processing related to the floor map showing the game hall to which each position of the information reading device 2040 installed in the game hall is mapped An interface unit 2042 that transmits specific information capable of specifying the interface, and the interface unit 2042 transmits the floor map generated in a manner indicating that the communication is performed from the information processing device 2030. It is characterized by receiving.

[5-3 Aspect]
The monitoring system 2060 according to the fifth to third aspect includes a plurality of information reading devices 2040 installed in a game arcade, and an information processing device 2030 capable of communicating with the plurality of information reading devices 2040. Each of the reading devices 2040 receives, based on the user operation, an input unit 2046 that receives a start request to start communication with another information reading device 2040 installed in the game hall, and based on the start request, An interface unit 2042 that transmits specific information that can specify the position of the information reading device 2040 to the information processing device 2030. The information processing device 2030 receives the specific information, and the interface unit 2032 The image relating to the floor map showing the above-mentioned game hall to which the position of each information reading device 2040 installed in the game hall is mapped A controller unit 2031 that performs processing, and the interface unit 2032 receives specific information of one information reading device 2040 installed in the game hall, and is different from the one information reading device 2040. The specific information of the information reading device 2040 is received, information indicating that communication between the one information reading device 2040 and the other information reading device 2040 is performed, and the controller unit 2031 receives the one information reading device 2040. Based on the specific information of the device 2040 and the specific information of the other information reading device 2040, the one information reading device 2040 and the other information reading device 2040 are shown to be communicating with each other. A floor map is generated.

[6-1 embodiment]
The information processing apparatus 2030 according to the 6-1 aspect includes, from each device installed in the amusement hall, status information (ON-LINE, OFF-LINE, ERROR, etc.) indicating the status of each device and the status of each device. An interface unit 2032 that can receive each piece of specific information (device identification code, coordinate information, position information, etc.) that can specify the position, and a floor map that shows the position of each device installed in the game hall And a controller unit 2031 that performs image processing for generating the floor map in a manner in which the status information is associated with the position of each device based on the specific information. To do.

In this configuration, status information of each device is collected in the information processing apparatus 2030 from each device installed in the game arcade, and each device and each status information is mapped to generate a floor map.
For example, even when the floor is large like a casino, it is possible to accurately and quickly know which device is in what kind of situation by looking at the floor map.
Therefore, according to this configuration, it is possible to grasp the status of the equipment in the game arcade.
Here, the devices are intended to be installed in a game arcade such as an information reading device 2040, a gaming machine 2050, a signage, a kiosk terminal, and a surveillance camera. In addition, the above-mentioned content is an illustration to the last.

The information processing apparatus 2030 may be configured as follows.
The controller unit 2031 further generates the floor map in a manner in which the status of the device is color-coded.
According to this configuration, since the state of the device is color-coded, it is possible to more easily grasp the state of the device in the game hall.

  In the information processing apparatus 2030, the controller unit 2031 further reads the situation information and the specific information at predetermined time intervals from a storage device that stores the situation information and the specific information together with time. Based on each said specific information, the said floor map is produced | generated in the aspect which mapped each said situation information.

  In this configuration, the floor map is updated every predetermined time. For example, when the number of devices installed in a game arcade is large and the load on the information processing device 2030 is high with respect to generation of a floor map, the floor map is updated every predetermined time, and the information processing device 2030 is updated. It is possible to reduce the load.

  The information processing apparatus 2030 further includes the controller unit 2031 that maps the situation information on the basis of the specific information every time the interface unit 2032 receives the situation information and the specific information. It is characterized by generating a map.

In this configuration, the floor map is updated in real time.
Therefore, according to this configuration, it is possible to more quickly grasp the status of the equipment in the game arcade.
For example, when it is determined that the gaming machine 2050 is in an error state, it is possible to promptly direct the staff to the gaming machine 2050, and it is possible to respond quickly. In addition, for example, when the state of an illegal act with respect to the gaming machine 2050 is grasped, it becomes possible to immediately perform recording by a camera capable of photographing the act. Thus, according to this configuration, it is possible to respond quickly according to the status of the device.

  The information processing apparatus 2030 further includes an input unit 2034 that receives an input of a desired time based on a user operation, and the controller unit 2031 receives the situation information and the specific information received by the interface unit 2032 as time. The status information and the specific information at the time received by the input unit 2034 are read from the storage device stored together with the information, and the floor map is generated in a manner in which the status information is mapped based on the specific information. It is characterized by that.

In this configuration, a floor map indicating the past device status is generated.
For example, it becomes possible to check the status of equipment in a game hall at the time of concern. In addition, for example, by sequentially confirming the status of past devices, it becomes possible to grasp the gaming machine 2050 that is likely to be cheated. That is, it becomes possible to infer the state of the future device from the state of the past device.
According to this configuration, it becomes possible to grasp not only the present state but also the state of equipment in the past and future amusement halls.

[6-2th Aspect]
The monitoring system 2060 according to the sixth-6-2 aspect includes a plurality of devices installed in a game arcade and an information processing apparatus 2030 capable of communicating with the plurality of devices. Each of the plurality of devices includes the device An interface for transmitting status information indicating the status of each device to the information processing device, and the information processing device 2030 receives, from each device, each status information indicating the status of each device and the position of each device. Each of the specific information that can be specified, and the interface unit 2032 that receives the position of each device installed in the game hall is mapped to a floor map showing the game hall, and based on the specific information, And a controller unit 2031 that performs image processing for generating the floor map in a manner in which each piece of situation information is associated with the position of each device.

[Description of game system overview]
First, the outline of the game system will be described with reference to FIG. FIG. 3 is a schematic diagram schematically showing an overall image of the game system 1 according to the first embodiment.

  The game system 1 includes a hall management server 10, a bonus server 11, a setting management server 12, a member management server 13, a monitoring server 14, and a plurality of gaming machines.

  The hall management server 10 totals and manages the flow of money in the hall (amusement hall), creates a renting table, and manages other servers. Further, accounting information including the timing at which the gaming machine starts the unit game, the timing at which the unit game is ended, and the lottery result in the unit game is acquired from each gaming machine and accumulated.

The bonus server 11 controls a bonus lottery in the bonus game and a linked effect performed in association with the bonus lottery. In addition, management of an accumulated value for giving a bonus (for example, credit accumulated for a progressive bonus) is performed.
The setting management server 12 stores and manages settings related to the gaming machine that is the subject of the bonus lottery and settings related to the linked performance. In the present embodiment, a bonus game is described as an example, but other types of games such as a slot tournament may be used.

  The member management server 13 is a server for storing and managing member personal information, member card (IC card) information, past game results for the member, and the like. For example, a membership card (IC card) is issued by a membership card issuing terminal. At the time of member registration, the inputted personal information of the member is stored in the member management server 13 together with the identification code of the member card. Further, the member card ticketing terminal is provided with a camera, and when the member card is issued, the face of the player who receives the IC card ticket can be photographed. The captured image is stored in the member management server 13 in association with the identification code.

The monitoring server 14 is a server for monitoring and storing the status of the hall.
More specifically, the monitoring server 14 receives environmental information such as temperature, humidity, and peripheral images from a gaming machine installed in the hall in a timely manner (for example, in real time, periodically, in response to a user operation). ) Acquire and display the acquired environmental information on the display by mapping it to the floor map.
In addition, the monitoring server 14 acquires imaging information from a monitoring camera installed in the hall in a timely manner (for example, in real time, periodically in response to a user operation), and displays the acquired imaging information on a display. Hereinafter, the environment information and the imaging information are appropriately referred to as monitoring information.

  As shown in FIG. 3, the gaming machine is installed over a plurality of areas (for example, A-1 to A-3 as shown in FIG. 3). Here, the area corresponds to, for example, one floor of the hall or an area in the floor. In this example, areas are shown from A-1 to A-3, but this is only an example.

  The gaming machine is further installed for each zone in the area (for example, as shown in FIG. 3, Z-1 to Z-4). Here, the zone corresponds to a specific space in the area. In this example, four zones (Z-1 to Z-4) are provided in the area, but this is only an example. In this example, eight gaming machines are arranged in each zone, but this is only an example, and various numbers can be arranged.

  As shown in FIG. 3, eight gaming machines T-11a to T-11h are arranged in the zone Z-1 of the area A-1, and similarly, the gaming machine is set in the zone Z-2 of the area A-1. 8 are arranged in T-12a to T-12h (hereinafter not shown), and in the zone Z-3 of area A-1, 8 units T-13a to T-13h are arranged, and area A -1 zone Z-4 includes eight units T-14a to T-14h.

Furthermore, as shown in FIG. 3, eight units T-21a to T-21h are arranged in the zone Z-1 of the area A-2, and similarly, the zone Z-2 of the area A-2 includes Eight units T-22a to T-22h are arranged (hereinafter not shown), and eight units T-23a to T-23h are arranged in the zone Z-3 of the area A-2, and the area A-2. In the zone Z-4, eight units T-24a to T-24h are arranged.
In addition, eight units T-31a to T-31h are arranged in the zone Z-1 of the area A-3. Similarly, the zone Z-2 of the area A-3 has T-32a to T-32h. Are arranged in the zone Z-3 in the area A-3, and eight units T-33a to T-33h are arranged in the zone Z-3 in the area A-3. , T-34a to T-34h are arranged.

  Each of the gaming machines is schematically shown to be connected to the hall management server 10, the bonus server 11, the monitoring server 14, and the like via a LAN connection by Ethernet (registered trademark). A detailed connection mode will be described later.

  Each gaming machine is assigned a unique identifier, and the hall management server 10 and the like determine the origin of data sent from each gaming machine based on the identifier. Also, when data is transmitted from the hall management server 10 or the like to the gaming machine, the transmission destination is designated based on the identifier. For example, a network address such as an IP address may be used as such an identifier, but an identifier other than the network address may be provided to manage individual gaming machines.

  Note that the game system 1 may be constructed in one hole (game room) where various games can be performed, or may be constructed across a plurality of holes. Further, when the game system 1 is constructed in one hall, the game system 1 may be constructed for each floor or section of the hall. The communication line connecting the server and the gaming machine may be wired or wireless, and a dedicated line, an exchange line, or the like can also be adopted.

[Overview of gaming machine]
Next, with reference to FIG. 4, an outline of the gaming machine according to the embodiment of the present invention will be described. FIG. 4 conceptually shows the configuration of a slot machine 1010, which is a gaming machine configured integrally with a player tracking device (Player Tracking Device). The player tracking device is a terminal for realizing a player tracking system, and in the present specification, this device is referred to as a PTS terminal. In the following description, a case where a slot machine is used as a gaming machine will be described. However, the present invention is not limited to a slot machine but can be applied to a gaming machine that performs various games.

  As shown in FIG. 4, the slot machine 1010 includes a PTS terminal 1700 and further includes an account settlement machine 1868. The slot machine 1010 is connected to the hall management server 10, the bonus server 11, the monitoring server 14 and the like via a PTS terminal 1700 via a network. In the present embodiment, one PTS terminal 1700 is provided in a part of the housing for one slot machine 1010.

  In the present embodiment, the PTS terminal 1700 is connected to the bill validator 1022 via a communication line (or slot machine 1010).

  The PTS terminal 1700 transmits / receives data to / from a controller (a controller 1100 of a slot machine 1010, which will be described later) based on a predetermined protocol, and the hall management server 10 and bonus server 11 connected via a network. And data communication with the monitoring server 14 and the like. For example, the PTS terminal 1700 transmits to the controller information on credits necessary for starting the game, a stop command for instructing to stop the unit game at the time of the linked performance, and the like. In response to this, credit information as a game result and start / end notification of a unit game can be transmitted.

  In addition, the PTS terminal 1700 transmits accounting information including a unit game start notification, end notification, lottery result, and the like to the hall management server 10, and the bonus server 11 transmits the PTS terminal 1700 (of a predetermined slot machine 1010). Will receive a bonus winning notification. Further, member credit information and the like are exchanged between the PTS terminal 1700 and the member management server 13.

  Also, monitoring information such as temperature information of the CPU 1751 measured by the temperature sensor 1770 and imaging information taken by the human body detection camera 1713 is transmitted from the PTS terminal 1700 to the monitoring server 14 as described later.

  Here, the game flow for a member is roughly as follows. First, membership registration is performed by a membership card issuing terminal, and a membership card (IC card) is issued at that time. Thereafter, the player inserts a membership card into the PTS terminal 1700 of the slot machine 1010 and inserts cash there. When a bill is inserted, the bill validator 1022 identifies the denomination and the amount of money, and the denomination data and the amount of money data are transmitted to the PTS terminal 1700 as the identification result. The PTS terminal 1700 obtains a game credit from the denomination data and the money amount data, and transmits it to the controller.

  The controller executes the game based on the credit transmitted from the PTS terminal 1700. Credits corresponding to the game result are transmitted from the controller to the PTS terminal 1700, and a payout calculation based on the game result is performed in the PTS terminal 1700 to determine the amount to be paid out to the player. In the PTS terminal 1700, the determined amount is directly written on the member card, and the member card is discharged. Further, predetermined points are given to the membership card in accordance with the execution of the game or the like.

  When a player who is a member plays a game next time, the PTS terminal 1700 reads the amount stored in the member card when the inserted member card is read. The read amount is converted into credits and transmitted to the controller. The credit corresponding to the game result is transmitted from the controller to the PTS terminal 1700 in the same manner as described above, and payout calculation based on the game result is performed in the PTS terminal 1700 to determine the amount to be paid out to the player. At this time, it is updated by adding the amount obtained as a result of the game to the amount of the inserted membership card.

  At this time, the PTS terminal 1700 further transmits the identification code (or member ID) read from the member card and the updated amount to the member management server 13, and the member management server 13 receives the amount transmitted from the PTS terminal 1700. , Add to the member's amount specified by the identification code and store it. Through this process, the amount held by the member is always managed.

  Thereafter, the player who is a member can make a settlement based on the amount stored in the member card with a cashier counter or the like, if necessary. Further, when the payment machine 1868 is provided as in the slot machine 1010 described above, the payment can be made with the membership card in the slot machine 1010.

  On the other hand, the game flow for non-members is roughly as follows. The player inserts cash into the PTS terminal 1700 of the slot machine 1010. When a bill is inserted, the bill validator 1022 identifies the denomination and the amount of money, and the denomination data and the amount of money data are transmitted to the PTS terminal 1700 as the identification result. The PTS terminal 1700 obtains a game credit from the denomination data and the money amount data, and transmits this to the controller.

  The controller executes the game based on the credit transmitted from the PTS terminal 1700. Credits corresponding to the game result are transmitted from the controller to the PTS terminal 1700, and payout calculation based on the game result is performed in the PTS terminal 1700 to determine the amount to be paid out to the player. In the PTS terminal 1700, the determined amount is written in a new IC card stocked in the slot machine 1010, and the IC card is discharged. Non-members will get an IC card for the first time here.

  A non-member player can then make a payment based on the amount stored in the IC card with a cashier counter or the like as necessary. Further, in the case where the settlement machine 1868 is provided like the above-described slot machine 1010, the slot machine 1010 can perform settlement using an IC card.

[Explanation of function flow diagram]
With reference to FIG. 5, the basic functions of the slot machine according to the embodiment of the present invention will be described. As shown in FIG. 5, the slot machine 1010 is connected to an external control device (for example, bonus server 11) so that data communication is possible, and the external control device transmits data to other slot machines 1010 installed in the hall. It is connected so that it can communicate.

<Start check>
First, the slot machine 1010 checks whether or not the BET button has been pressed by the player, and subsequently checks whether or not the spin button has been pressed by the player.

<Symbol decision>
Next, when the spin button is pressed by the player, the slot machine 1010 extracts a random number for symbol determination, and stops scrolling the symbol row in accordance with each of a plurality of video reels displayed on the display. The symbol to be displayed on the player is determined.

<Symbol display>
Next, the slot machine 1010 starts scrolling the symbol column of each video reel, and stops scrolling so that the determined symbol is displayed on the player.

<Winning determination>
Next, when the scrolling of the symbol column of each video reel is stopped, the slot machine 1010 determines whether or not the combination of symbols displayed on the player is related to winning.

<Payout>
Next, when the symbol combination displayed on the player is related to winning, the slot machine 1010 gives the player a privilege according to the type of symbol combination. For example, when a symbol combination related to a payout is displayed, the slot machine 1010 pays out a payout according to the symbol combination to the player.

  In addition, in the slot machine 1010, when the unit game is started by pressing the spin button by the player and when the unit game is ended, the bonus server 11 performs lottery of the bonus game accordingly. If one of the slot machines 1010 wins as a result of lottery of the bonus game, the unit game is stopped in the slot machine 1010, and then a linked effect is performed in the PTS terminal 1700. Here, the unit game is a series of operations from the start of BET acceptance until a state where a prize can be established.

  The slot machine 1010 that wins the bonus game is paid out from the bonus server 11 via the PTS terminal 1700. Further, for example, the bonus server 11 accumulates a part of the credits consumed by the player in each slot machine 1010 as, for example, a credit for progressive bonus, and when the slot machine 1010 wins the bonus game, Part of the progressive bonus is paid out to the slot machine 1010.

<Determination of production>
The slot machine 1010 produces effects by displaying an image on a display, outputting light from a lamp, and outputting sound from a speaker. The slot machine 1010 extracts a random number for production, and determines the content of the production based on the symbol determined by lottery.

  In addition, when the bonus game is lottery, an interlocking effect over a plurality of gaming machines is performed by the display device, the light emitting unit, and the speaker of the PTS terminal 1700.

[Overall configuration of slot machine]
Next, the overall structure of the slot machine 1010 will be described with reference to FIG.

  In the slot machine 1010, a membership card (IC card), a bill, or electronic valuable information corresponding to these is used as a game medium. In particular, in this embodiment, credit-related data such as cash data stored in the IC card 1500 is used.

  The slot machine 1010 includes a cabinet 1011, a top box 1012 installed on the upper side of the cabinet 1011, and a main door 1013 provided on the front surface of the cabinet 1011.

  The main door 1013 is provided with a symbol display device 1016 called a lower image display panel 1141. The symbol display device 1016 is formed of a transparent liquid crystal panel. The screen displayed by the symbol display device 1016 has a display window 1150 in the center. The display window 1150 is composed of 20 display blocks 1028 of 5 columns and 4 rows. The four display blocks 1028 in each row form pseudo reels 1151 to 1155 and are rotated in accordance with the player's operation. Each of the pseudo reels 1151 to 1155 rotates the symbol 1501 displayed on each display block 1028 in the vertical direction by moving and displaying the four display blocks 1028 in a downward direction while changing the overall speed. It is possible to perform rearrangement that stops later.

  Here, “rearrangement” means a state in which the symbol 1501 is arranged again after the arrangement of the symbol 1501 is canceled. “Arrangement” means that the symbol 1501 can be visually confirmed by an external player. The slot machine 1010 performs a so-called slot game in which a payout according to a predetermined combination is awarded according to the arrangement state of the symbols 1501 due to the stopped pseudo reels 1151 to 1155 being stopped.

  In this embodiment, the slot machine 1010 is a so-called video slot machine. However, the slot machine 1010 of the present invention substitutes a so-called mechanical reel for some of the pseudo reels 1151 to 1155. Also good.

  Further, a touch panel 1069 is provided on the front surface of the symbol display device 1016, and the player can input various instructions by operating the touch panel 1069. An input signal is transmitted from the touch panel 1069 to the main CPU 1071.

  An upper image display panel 1131 is provided on the front surface of the top box 1012. The upper image display panel 1131 includes a liquid crystal panel and constitutes a display. The upper image display panel 1131 displays an image related to the effect, an introduction of the contents of the game, and an image showing the explanation of the rules. The top box 1012 is provided with a speaker 1112 and a lamp 1111. In the slot machine 1010, an effect of a unit game is executed by displaying an image, outputting sound, and outputting light.

  In addition, a credit number display unit (not shown) is displayed above the display window 1150, and the current credit number is displayed. Here, “credit” is a virtual game medium on the game used when the player bets. The credit number display section displays the total number of credits currently owned by the player.

  A fractional cash display unit (not shown) is displayed below the credit number display unit. The fractional cash is displayed in the fractional cash display section. “Fractional cash” refers to cash that has not been converted into credits due to insufficient amount of money.

  An IC card 1500 is inserted into a PTS terminal 1700, which will be described later, the number of credits stored in the IC card is displayed in the credit number display section, and the fractional cash stored in the IC card is displayed in the fraction cash display section. The These numerical values are stored in the member management server 13 in association with the identification code of the member card.

  Here, the IC card is a non-contact IC card, and includes an IC (Integrated Circuit) for recording and calculating various data such as credits. For example, an RFID (Radio Communication) such as NFC (Near Field Communication) is used. Short-range wireless communication using Frequency Identification) technology is possible. The player can own credit-related data by using the IC card 1500, and can freely carry it between different slot machines. Then, the player inserts the IC card 1500 into the PTS terminal 1700 of the slot machine 1010, thereby using the credit related data (amount data) stored in the IC card 1500 to execute a unit game or the like on the slot machine 1010. You can play games.

  Note that the player may be able to store cash such as coins and banknotes as cash data in the IC card 1500 from a machine installed in the hall.

  Further, a PTS terminal 1700 is incorporated in the cabinet 1011 below the lower image display panel 1141. Furthermore, speakers 1112 are provided on the left and right sides of the PTS terminal 1700, and lamps 1111 are provided on the top of the top box 1012. In the slot machine 1010, a unit game effect is executed by displaying an image by the upper image display panel 1131, outputting sound by the speaker 1112, outputting light by the lamp 1111, and the like.

[Configuration of PTS terminal]
FIG. 7 is a view showing a PTS terminal 1700 incorporated in the slot machine 1010. The PTS terminal 1700 can be incorporated into various types of gaming machines from various manufacturers by exchanging data using a data interface shared with the gaming machines.

  FIG. 8 is an enlarged view of the PTS terminal 1700 shown in FIG. As shown in FIG. 8, the PTS terminal 1700 has a panel 1710, each part arranged on the front surface of the panel 1710 is visually recognized by the player, and members arranged on the back surface of the panel 1710 are inside the slot machine 1010. And is not visible to the player.

  An LCD 1719 having a touch panel function is provided on the right side of the front surface of the panel 1710. The LCD 1719 displays, for example, member information and information for members, and the screen size is 6.2 inches (about 15.7 cm). Further, an LCD cover 1719a is provided around the LCD 1719. In this example, the LCD 1719 is configured to have a touch panel function, but the player's instruction may be input by another input device such as a keyboard or a mouse.

  A light emitting plate 1720a that is connected to the LED and emits light is provided above the LCD 1719 and the LCD cover 1719a. The light emitting plate 1720a is made of, for example, polycarbonate, is connected to a plurality of (for example, seven) full color LEDs 1721a arranged on the back side of the panel 1710, and emits light according to light emission of the full color LED 1721a.

  Similarly, below the LCD 1719 and the LCD cover 1719a, a light emitting plate 1720b connected to the LED and emitting light is provided. The light emitting plate 1720b is made of, for example, polycarbonate, and is connected to a plurality of (for example, seven) full color LEDs 1721b (not shown) disposed on the back side of the panel 1710, and emits light according to light emission of these full color LEDs 1721b.

  Further, an imaging window 1712 is provided on the right side of the LCD 1719, and a human body detection camera 1713 (not shown) disposed inside the LCD cover 1719a or on the back side of the panel 1710 is used for a player or the like through the imaging window 1712. Image. The imaging window 1712 may be, for example, a half mirror material that is shielded such as smoke.

  A home button 1722 is provided on the LCD cover 1719a at the lower right of the LCD 1719. Home button 1722 is a button for transitioning the screen displayed on LCD 1719 to a predetermined upper screen.

  Further, a speaker duct 1706 is provided on the right LCD cover 1719a of the LCD 1719, and a bass reflex (bass reflex) speaker 1707 is provided on the back side of the panel 1710 corresponding thereto. ing. Similarly, a speaker duct 1708 is provided on the left side of the LCD 1719, and a bass reflex (bass reflex) speaker 1709 (not shown) is provided at a position on the back side of the panel 1710 corresponding thereto. It has been. These speakers are dedicated speakers for the PTS terminal 1700, and are provided separately from the speakers for slot machine games provided in the slot machine 1010. These speakers can realize an interlocking effect, a voice call, or output a notification sound due to forgetting to remove the IC card 1500. Since the sound from the speakers can be heard in stereo through the above-described speaker ducts 1706 and 1708 (on the player side), the speakers can be installed on the back side of the panel 1710. Thus, space saving (on the panel surface) of the PTS terminal 1700 is realized.

  The LCD cover 1719a on the lower left side of the LCD 1719 is provided with a microphone opening 1714 and a microphone opening 1716. Microphones 1715 and 1717 (not shown) are provided in the corresponding LCD cover 1719a. ) Is provided.

  A card insertion slot 1730 into which the IC card 1500 can be inserted or removed is provided at the lower left of the front surface of the panel 1710. A full color LED 1731 (not shown) is provided in the card insertion portion of the card insertion slot 1730, and the remaining number of IC cards 1500 accumulated in a card stacker 1742, which will be described later, can be notified by turning on a plurality of colors. it can. The card insertion slot 1730 is provided with an eject button 1732, and a red LED 1733 (not shown) provided in the vicinity of the eject button 1732 is lit so that the position of the eject button 1732 and the process of the eject operation can be understood. It is supposed to be.

  A card unit 1741 and a card stacker 1742 are provided at a position on the back side of the panel 1710 corresponding to the card insertion slot 1730, and the card insertion slot 1730 is configured as a part of the card unit 1741. The card stacker 1742 can store about 30 IC cards 1500. When a player who newly plays a unit game pays credits, the IC card 1500 stored in the card stacker 1742 is stored in the card stacker 1742. It is taken out and discharged to the card insertion slot 1730.

  The IC card 1500 taken in from the card insertion slot 1730 and held in the card unit 1741 updates credit information by NFC or the like at the time of credit settlement, and then the IC card 1500 is discharged from the card insertion slot 1730. The IC card 1500 is completely stored inside the card unit 1741 while the player is playing a unit game.

  Further, when the absence of the player is detected by the human body detection camera or the like even when the IC card 1500 remains, the IC card 1500 can be stored in the card stacker 1742 when the credit card is settled. . Thus, for example, even when the player knows that there are few remaining credits and leaves the IC card 1500 and leaves the seat, or when the player simply leaves the IC card 1500 and leaves the seat, The card unit 1741 does not remain held for a long time.

  A USB terminal 1737 and an audio terminal 1738 are provided on the upper left of the front surface of the panel 1710. The USB terminal 1737 is configured so that charging or the like can be performed by connecting a USB device thereto. The audio terminal 1738 is, for example, a four-pole terminal. A headset can be inserted into the audio terminal 1738 and a call can be made with the other party using headphones and a microphone. Further, the audio terminal 1738 can be a two-pole or three-pole terminal so that sound can be heard with headphones.

  A touch unit 1745 is provided on the front surface of the panel 1710 and on the left side of the LCD 1719. The touch unit 1745 is a writer that writes data to an IC device including an IC chip (for example, a non-contact IC card, a mobile phone or a smartphone equipped with an NFC communication function) by data communication, and data from the IC device. It includes an RFID module that can function as a reader that reads data by communication. Further, LEDs 1746 (not shown) are arranged at the four front corners of the touch unit 1745, respectively. In addition to the touch unit 1745 or instead of the touch unit 1745, an information recording medium reader for reading information stored in an information recording medium such as a magnetic card may be provided. In this case, instead of the IC card 1500, a magnetic card can be used as a membership card.

  As described above, in the PTS terminal 1700 according to an embodiment of the present invention, various devices having a microphone function, a camera function, a speaker function, a display function, and the like integrally form one unit. Realizes space saving. Thus, for example, when each function is installed as a single product, there is no inconvenience that the speaker cannot be installed toward the player when the LCD is directed toward the player.

[Advantages of installing a card unit and a touch unit]
Further, in the PTS terminal 1700 according to the embodiment of the present invention, when the IC card 1500 is inserted into the card insertion slot 1730, the contents of the IC card 1500 are read by the card unit 1741, and the entire IC card 1500 is (PTS terminal). In addition to this, a touch unit 1745 is provided, which enables data communication with another IC card, mobile phone, or smartphone.

  With such a configuration of the PTS terminal 1700 of the present invention, for example, while a player who is a member is playing a game on a gaming machine (at this time, the card unit 1741 holds a member card) When some maintenance is required, the staff touches the touch IC unit 1745 with the IC card for maintenance to display a maintenance screen on the LCD 1719 of the PTS terminal 1700, and the maintenance contents and history are stored in the server. It is possible to transmit to and accumulate.

  In addition, when a plurality of units are maintained simultaneously or when a large number of units are continuously maintained, a maintenance screen is displayed by sequentially touching the touch unit 1745 with a maintenance card, or the contents of maintenance. Can be quickly performed.

  On the other hand, if the PTS terminal 1700 is configured such that access to the IC card or the like is possible only with the touch unit 1745, after the player who first played the game by touching the IC card 1500 leaves the gaming machine, Even if the player uses the gaming machine, the gaming machine cannot recognize that the player has changed. In order to eliminate such inconvenience, a card unit 1741 for holding the IC card 1500 during the game is required. For example, after a player who first played a game by touching the IC card 1500 leaves the gaming machine, another player inserts banknotes (without using an IC card) and plays the game on the gaming machine. The credit-related data is stored in the IC card 1500 of the first player.

[Circuit configuration of slot machine]
Next, with reference to FIG. 9, a configuration of a circuit included in the slot machine 1010 will be described.

  The gaming board 1050 includes a CPU 1051, a ROM 1052, and a boot ROM 1053 connected to each other via an internal bus, a card slot 1055 corresponding to the memory card 1054, and an IC socket 1057 corresponding to a GAL (Generic Array Logic) 1056. .

  The memory card 1054 includes a nonvolatile memory and stores a game program and a game system program. The game program includes a program related to game progress and a program for executing effects by images and sounds. The game program includes a symbol determination program. The symbol determination program is a program for determining symbols to be rearranged in the display block 1028.

  The card slot 1055 is configured so that the memory card 1054 can be inserted and removed, and is connected to the motherboard 1070 by an IDE bus. Accordingly, by removing the memory card 1054 from the card slot 1055, writing another game program in the memory card 1054, and inserting the memory card 1054 into the card slot 1055, the type and contents of the game played in the slot machine 1010 are changed. be able to.

  GAL1056 is a kind of PLD (Programmable Logic Device) having an OR fixed type array structure. The GAL 1056 includes a plurality of input ports and output ports. When a predetermined input is input to the input port, the corresponding data is output from the output port.

  The IC socket 1057 is configured so that the GAL 1056 can be attached and detached, and is connected to the motherboard 1070 by a PCI bus. The contents of the game played in the slot machine 1010 can be changed by replacing the memory card 1054 with a program written with another program or rewriting the program written on the memory card 1054 with another program. .

  The CPU 1051, the ROM 1052, and the boot ROM 1053 that are connected to each other by an internal bus are connected to the motherboard 1070 by a PCI bus. The PCI bus transmits signals between the motherboard 1070 and the gaming board 1050 and supplies power from the motherboard 1070 to the gaming board 1050.

  The ROM 1052 stores an authentication program. The boot ROM 1053 stores a preliminary authentication program and a program (boot code) for the CPU 1051 to start the preliminary authentication program.

  The authentication program is a program (tamper check program) for authenticating the game program and the game system program. The preliminary authentication program is a program for authenticating the authentication program. The authentication program and the preliminary authentication program are described in accordance with a procedure (authentication procedure) for authenticating that the target program has not been tampered with.

  The motherboard 1070 is configured by using a commercially available general-purpose motherboard (printed wiring board on which basic components of a personal computer are mounted), a main CPU 1071, a ROM (Read Only Memory) 1072, a RAM (Random Access Memory) 1073, a communication. And an interface 1082. Note that the motherboard 1070 corresponds to the controller 1100 in the present embodiment.

  The ROM 1072 includes a memory device such as a flash memory, and stores a program such as BIOS (Basic Input / Output System) executed by the main CPU 1071 and permanent data. When the BIOS is executed by the main CPU 1071, initialization processing of a predetermined peripheral device is performed. In addition, the game program and the game system program stored in the memory card 1054 are started via the gaming board 1050. In the present invention, the ROM 1072 may be rewritable or impossible.

  The RAM 1073 stores data used when the main CPU 1071 operates and programs such as a symbol determination program. For example, when the above-described game program, game system program, and authentication program are loaded, these can be stored. Further, the RAM 1073 is provided with a work area for executing the program. For example, an area for storing a counter for managing the number of games, the number of BETs, the number of payouts, the number of credits, an area for storing a symbol (code number) determined by lottery, and the like are provided.

  The communication interface 1082 is for controlling data transmission / reception with the PTS terminal 1700. Also, a door PCB (Printed Circuit Board) 1090 and a main body PCB 1110 described later are connected to the motherboard 1070 by USB. Further, a power supply unit 1081 is connected to the motherboard 1070.

  When power is supplied from the power supply unit 1081 to the motherboard 1070, the main CPU 1071 of the motherboard 1070 is activated, and power is supplied to the gaming board 1050 via the PCI bus to activate the CPU 1051.

  The door PCB 1090 and the main body PCB 1110 are connected to input devices such as switches and sensors and peripheral devices whose operation is controlled by the main CPU 1071.

  A control panel 1030 and a cold cathode tube 1093 are connected to the door PCB 1090.

  The control panel 1030 is provided with a spin switch 1031S, a change switch 1032S, a CASHOUT switch 1033S, a 1-BET switch 1034S, and a maximum BET switch 1035S corresponding to the above buttons. Each switch detects that the corresponding button has been pressed by the player, and outputs a signal to the main CPU 1071.

  The cold cathode tube 1093 functions as a backlight installed on the back side of the upper image display panel 1131 and the lower image display panel 1141, and lights up based on a control signal output from the main CPU 1071.

  A lamp 1111, a speaker 1112, a touch panel 1069, and a graphic board 1130 are connected to the main body PCB 1110. In this example, the bill validator 1022 is connected to the PTS terminal 1700, but may be configured to be connected to the slot machine 1010.

  The lamp 1111 is turned on based on a control signal output from the main CPU 1071. The speaker 1112 outputs sound such as BGM based on a control signal output from the main CPU 1071.

  The touch panel 1069 detects a position touched by a player's finger or the like on the lower image display panel 1141 and outputs a signal corresponding to the detected position to the main CPU 1071.

  The banknote discriminator 1022 recognizes the appropriateness of banknotes and accepts regular banknotes in the cabinet 1011. The bills inserted into the cabinet 1011 are converted into credits, and the converted credits are added as player-owned credits.

  The graphic board 1130 controls image display performed by each of the upper image display panel 1131 and the lower image display panel 1141 based on a control signal output from the main CPU 1071. The graphic board 1130 includes a VDP (Video Display Processor) that generates image data, a video RAM that stores image data generated by the VDP, and the like. Note that image data used when generating image data by VDP is included in the game program read from the memory card 1054 and stored in the RAM 1073.

  The graphic board 1130 includes a VDP (Video Display Processor) that generates image data based on a control signal output from the main CPU 1071, a video RAM that temporarily stores image data generated by the VDP, and the like. ing. Note that image data used when generating image data by VDP is included in the game program read from the memory card 1054 and stored in the RAM 1073.

[PTS terminal circuit configuration]
Next, with reference to FIG. 10, a configuration of a circuit included in the PTS terminal 1700 will be described.

  A PTS controller 1750 that controls the PTS terminal 1700 includes a CPU 1751, a ROM 1752, and a RAM 1753.

  The CPU 1751 performs execution control of each component of the PTS terminal 1700, and executes and calculates various programs stored in the ROM 1752. For example, the CPU 1751 executes a credit update program to update the credit related data stored in the IC card 1500.

  The ROM 1752 includes a memory device such as a flash memory, and stores permanent data executed by the CPU 1751. For example, the ROM 1752 can store a credit update program for rewriting credit-related data stored in the IC card 1500, a linked effect control program executed in response to a request from the bonus server 11, and the like.

  The RAM 1753 temporarily stores data necessary for executing various programs stored in the ROM 1752.

  The external storage device 1754 is a storage device such as a hard disk device, for example, and stores a program executed by the CPU 1751 and data used by the program executed by the CPU 1751.

  The server I / F (interface) 1755 implements data communication between the PTS terminal 1700 and a server such as the hall management server 10, the bonus server 11, and the monitoring server 14. The gaming machine I / F (interface) 1756 implements data communication between the controller 1100 of the slot machine 1010 and the PTS terminal 1700, and a prescribed protocol can be used for the data communication.

  In addition, the PTS terminal 1700 is connected to the banknote discriminator 1022 via the banknote discriminator I / F (interface) 1757 and to the settlement machine 1868 via the settlement machine I / F (interface) 1758, and data is transmitted as necessary. Can be sent and received.

  The USB control unit 1759 determines whether or not to supply power from the power supply unit 1760 at the USB terminal 1737, and enables the USB terminal 1737 to be charged when a predetermined condition is satisfied. When a predetermined condition is satisfied, the player can connect the electronic device to the USB terminal 1737 and charge the electronic device.

  The light emitting unit LED driving unit 1761 controls the full color LED 1721a to light at a predetermined timing in order to cause the light emitting plate 1720a on the upper side of the LCD 1719 to emit light in response to a request for starting a linked effect from the bonus server 11. In order to cause the lower light emitting plate 1720b to emit light, the full color LED 1721b is controlled to be lit at a predetermined timing.

  The LCD control unit 1762 controls the LCD 1719 to display member information, information for members, data read from the IC card 1500, and data input by the player. The LCD 1719 has a touch panel function, and a predetermined signal is transmitted to the CPU 1751 when the player operates the touch panel.

  Home button 1722 is provided in the vicinity of LCD 1719 and is a button for transitioning the screen displayed on LCD 1719 to a predetermined upper screen. When the home button 1722 is pressed by the player, the operation of the player is transmitted to the CPU 1751, and the CPU 1751 transmits a command to the LCD control unit 1762 to update the display on the LCD 1719 in accordance with the operation.

  The IC card control unit 1863 controls insertion and ejection of the IC card 1500, writing of credit data, and the like. The IC card control unit 1763 includes an IC card R / W (reader / writer) control unit 1863a, an IC card suction / discharge control unit 1863b, and an LED control unit 1766c.

  The IC card R / W control unit 1763a controls the card unit 1741 to update the credit related data stored in the IC card 1500. When a new IC card 1500 is issued, credit-related data corresponding to the settled amount is stored. The card unit 1741 has an antenna unit for reading or writing data to the IC card 1500 by NFC or the like.

  The card unit 1741 has functions of an IC card reader that reads information stored in the IC card 1500 and an IC card writer that writes information to the IC card 1500, but has either function as necessary. Also good.

  The IC card suction / discharge control unit 1763b controls suction and discharge of the IC card 1500. When the IC card 1500 is inserted into the card insertion slot 1730 by the player, the IC card is controlled to be held in the card unit 1741 while the player is playing the game. Further, after the credit related data is written in the IC card 1500 at the time of payment, the IC card 1500 is controlled to be discharged. Further, when the eject button 1732 is pressed, the IC card 1500 is discharged.

  When a new IC card 1500 is issued, the IC card 1500 is newly taken out from the card stacker 1742 and supplied to the card unit 1741 in order to store credit-related data.

  The LED control unit 1763c controls to turn on an LED (full color LED 1731) provided in the vicinity of the card insertion slot 1730 of the card unit 1741, and turns on an LED (red LED 1733) provided in the vicinity of the eject button 1732. Control as follows.

  The touch unit control unit 1764 controls data transmission / reception associated with a touch operation of the IC card 1500, a mobile phone, a smartphone, or the like. The touch unit control unit 1764 includes a non-contact R / W (reader / writer) control unit 1764a and an LED control unit 1764b.

  The non-contact R / W control unit 1764a determines whether or not the IC card 1500 or the mobile phone is close to a predetermined distance (for example, there is a touch operation) by the touch unit 1745, and when the touch unit 1745 is close to the predetermined distance In addition, a read result or the like is acquired from the touch unit 1745. The touch unit 1745 includes an antenna unit for performing data transmission / reception with the IC card 1500 and the mobile phone by NFC or the like.

  The touch unit 1745 has functions of an IC card reader that reads information stored in the IC card 1500 and the mobile phone, and an IC card writer that writes information in the IC card 1500 and the mobile phone. It is good also as what has the function of.

  The LED control unit 1764b controls the LEDs 1746 arranged at the four corners of the front surface of the touch unit 1745, and lights them at a predetermined timing.

  The DSP 1765 receives the audio data acquired from the microphones 1715 and 1717, performs predetermined audio processing, and then transmits the data to the CPU 1751. The DSP 1765 transmits the received audio data to the speakers 1707 and 1709. Further, the DSP 1765 outputs the received sound to the headphones to the audio terminal to which the headset is connected, processes the sound received from the microphone, and transmits the processed sound to the CPU 1751. Here, a schematic configuration is shown, and an A / D converter, a D / A converter, an amplifier, and the like are omitted.

The camera control unit 1766 acquires an image of a player or the like captured by the human body detection camera 1713, performs predetermined image processing as necessary, and transmits the processed data to the CPU 1751. The data is transmitted to the hall management server 10, the member management server 13, the monitoring server 14 and the like via the server I / F 1755, for example.
In addition, the camera control unit 1766 transmits imaging information captured by the human body detection camera 1713 to the monitoring server 14 in response to an instruction from the monitoring server 14.

The temperature sensor 1770 measures temperature data of the CPU 1751, the motherboard (not shown), the external storage device 1754, the LDC control unit 1762, and the like in real time. In addition, as the temperature sensor 1770, what is provided in the motherboard may be employ | adopted and the thermometer for exclusive use for the object which acquires temperature may be employ | adopted.
The acquired temperature data is transmitted to the monitoring server 14 via the server I / F 1755 as temperature information, for example.

Although the temperature sensor 1770 has been described as measuring the temperature inside the PTS terminal 1700 (more specifically, the temperature of the hardware such as the CPU 1751), the temperature sensor 1770 is not limited to this. For example, the temperature (room temperature) of the place where the PTS terminal 1700 is installed may be measured.
Further, for example, a humidity sensor, an odor sensor, an oxygen concentration meter, a carbon dioxide concentration meter, a pressure sensor, a sound / vibration measurement sensor, an illuminance sensor, or a combination thereof is used in addition to or instead of the temperature sensor 1770, and a PTS. A configuration in which the humidity, smell, oxygen concentration, atmospheric pressure, sound, and illuminance of the place where the terminal 1700 is installed may be measured.

[Configuration of symbol combination table]
Next, the symbol combination table will be described with reference to FIG.
The symbol combination table defines combinations of symbols related to winning and the number of payouts. In the slot machine 1010, the scrolling of the symbol rows of the five rows of pseudo reels 1151 to 1155 (first video reel to fifth video reel) is stopped, and the symbol combinations displayed on the winning line are defined by the symbol combination table. The winning combination is established when the combination of symbols is matched. Then, according to the winning combination, a privilege such as payout by credit is given to the player. If the combination of symbols displayed on the winning line does not match any of the symbol combinations defined by the symbol combination table, the winning is not established (so-called “losing”).

  Basically, the symbols “RED”, “APPLE”, “BLUE 7”, “BELL”, “CHERRY”, “STRAWBERRY”, “PLUM”, and “ORANGE” are arranged in five columns of pseudo reels 1151 to 1155. When the winning lines are displayed on the winning line, the winning is achieved. However, for each symbol of “CHERRY” and “ORANGE”, winning is established even when displayed on the winning line in one or three pseudo reels.

  For example, when symbols “BLUE 7” are displayed on the winning line in all five rows of pseudo reels 1151 to 1155, the winning combination is “BLUE”, and “10” is determined as the number of payouts. Then, credits are paid out based on the determined number of payouts. For example, after the credit added to the IC card 1500 is stored, the IC card 1500 is ejected from the card insertion slot 1730.

[Contents of the program executed on the slot machine]
Next, a program executed by the slot machine 1010 will be described with reference to FIGS. In the slot machine 1010, when a device status such as an error is detected, the status information is transmitted to the monitoring server 14.

<Main control processing>
First, the main control process will be described with reference to FIG. First, when power is turned on to the slot machine 1010, the main CPU 1071 reads the authenticated game program and game system program from the memory card 1054 via the gaming board 1050 and writes them to the RAM 1073 (step (hereinafter abbreviated as S). 11).

  Next, the main CPU 1071 performs an initialization process at the end of one game (S18). For example, unnecessary data is cleared for each game in the work area of the RAM 1073, such as the number of BETs and symbols determined by lottery.

  Next, the main CPU 1071 performs a start check process described later (S19). In this process, input of a BET switch or a spin switch is checked.

  Next, the main CPU 1071 performs symbol lottery processing described later (S20). In this process, the symbol to be stopped is determined based on the random number for symbol determination.

  Next, the main CPU 1071 performs effect content determination processing (S21). The main CPU 1071 extracts a random number for production, and determines any one of a plurality of predetermined production contents by lottery. The contents of the presentation can be determined according to the winning combination and the game situation in the slot machine 1010. For example, according to the winning combination and the game situation in the slot machine 1010, the lottery probability relating to each effect can be changed.

  Next, the main CPU 1071 performs a symbol display control process described later (S22). In this process, scrolling of five rows of pseudo reels 1151 to 1155 (first video reel to fifth video reel) is started, and the scheduled stop symbol determined in the symbol lottery process of S20 is a predetermined position (for example, lower side). The display window 1150) of the image display panel 1141 is stopped. That is, for each reel, four symbols including the scheduled stop symbol are displayed in the display window 1150. For example, if the symbol to be stopped is the symbol with the code number “10” and is displayed in the upper area, the symbols with the code numbers “11”, “12” and “13” are displayed in the display window 1150. Are displayed in each of the upper middle, lower middle and lower.

  Next, the main CPU 1071 performs a payout number determination process described later (S23). In this process, the number of payouts is determined based on the combination of symbols displayed on the winning line, and stored in a payout number counter provided in the RAM 1073.

  Next, the main CPU 1071 performs a payout process (S24). The main CPU 1071 adds the value stored in the payout number counter to the credit number counter provided in the RAM 1073. Here, for example, when the player presses the CASHOUT button, the CASHOUT switch 1033S that detects this button outputs a signal to the main CPU 1071, and the number of credits stored in the IC card 1500 held in the card unit 1741 is the number of credits. The counter value is updated.

  Next, the main CPU 1071 performs a game end notification process (S25). In this process, data indicating that one unit game has ended (when the IC card 1500 or the like is inserted and the player can identify it, together with the IC card 1500 identification code or the like) is transmitted to the PTS terminal 1700 It is. The PTS terminal 1700 transmits this data to the hall management server 10, and in response to this, the bonus server 11 performs lottery of the bonus game. When the process of S25 is completed, the process returns to S18 and the unit game is repeated.

<Start check process>
Next, the start check process will be described with reference to FIG. First, the main CPU 1071 determines whether or not insertion of the IC card 1500 or the like is detected (S41). When determining that insertion of the IC card 1500 or the like has been detected, the main CPU 1071 adds a credit counter (S42). Further, in addition to the insertion of the IC card 1500 or the like, it is determined whether or not the insertion of the banknote is detected by the banknote discriminator 1022, and when it is determined that the insertion of the banknote is detected, the value corresponding to the banknote is set to the credit number. Add to the counter.

  After determining that the insertion of the IC card 1500 or the like has not been detected after S42 or in S41, the main CPU 1071 determines whether or not the credit number counter is 0 (S43). When the main CPU 1071 determines that the credit counter is not 0, the main CPU 1071 permits the BET button operation acceptance (S44).

  Next, the main CPU 1071 determines whether or not an operation of the BET button is detected (S45). When the main CPU 1071 detects that the BET button has been pressed by the player using the BET switch, the main CPU 1071 adds the BET number counter provided in the RAM 1073 and subtracts the credit number counter based on the type of the BET button. (S46).

  Next, the main CPU 1071 determines whether or not the BET number counter is maximum (S47). When the main CPU 1071 determines that the BET number counter is maximum, the main CPU 1071 prohibits updating of the BET number counter (S48). When the main CPU 1071 determines that the BET number counter is not the maximum after S48 or in S47, the main CPU 1071 permits the operation acceptance of the spin button (S49).

  When the main CPU 1071 determines that the operation of the BET button is not detected in S45 after S49, or determines that the credit number counter is 0 in S43, it determines whether or not the operation of the spin button is detected. It discriminate | determines (S50). When the main CPU 1071 determines that the operation of the spin button has not been detected, the main CPU 1071 proceeds to S41.

  When the main CPU 1071 determines that the operation of the spin button has been detected, it performs a progressive bonus process. In this process, a part of the bet credit is paid out to the bonus server 11 via the PTS terminal 1700, for example, as credit accumulated for a progressive bonus (S51).

  Next, the main CPU 1071 performs a game start notification process (S52). This process is a process of transmitting data indicating that one unit game is started (together with an identification code of the IC card 1500 when the IC card 1500 or the like is inserted and the player can be identified) to the PTS terminal 1700 It is. The PTS terminal 1700 transmits this data to the hall management server 10, and in response to this, the bonus server 11 performs lottery of the bonus game. When the process of S52 is finished, the start check process is finished.

<Symbol lottery processing>
Next, the symbol lottery process will be described with reference to FIG. First, the main CPU 1071 extracts random values for symbol determination (S111). Next, the main CPU 1071 determines the symbols to be stopped on the five rows of pseudo reels 1151 to 1155 (first video reel to fifth video reel) by lottery (S112). The main CPU 1071 performs lottery according to each video reel, and determines any of the 22 symbols (code numbers “00” to “21”) as a scheduled stop symbol. At this time, each of the 22 symbols (code numbers “00” to “21”) is determined with an equal probability (that is, 1/22).

  Next, the main CPU 1071 stores the determined to-be stopped symbols for each video reel in a symbol storage area provided in the RAM 1073 (S113). Next, the main CPU 1071 refers to the symbol combination table (FIG. 11) and determines a winning combination based on the symbol storage area (S114). The main CPU 1071 determines whether or not the symbol combination displayed on the winning line by each video reel matches the symbol combination defined in the symbol combination table, and determines the winning combination. When this process is performed, the symbol lottery process is terminated.

<Symbol display control processing>
Next, the symbol display control process will be described with reference to FIG. First, the main CPU 1071 starts scrolling the symbol column of each video reel displayed on the display window 1150 of the lower image display panel 1141 (S131). Next, the main CPU 1071 stops scrolling the symbol column of each video reel based on the above-described symbol storage area (S132). When this process is performed, the symbol display control process is terminated.

  The effect determined in the effect content determination process (FIG. 12) is executed in accordance with the timing for starting / stopping the scrolling of the symbol row by the symbol display control process or other timing. For example, the effect can be executed by displaying a moving image or a still image on the upper image display panel 1131 of the slot machine 1010, outputting sound from the speaker 1112 in synchronization therewith, and turning on the lamp 1111. .

<Payout number determination process>
Next, the payout amount determination process will be described with reference to FIG. First, the main CPU 1071 determines the number of payouts corresponding to the winning combination (S151). For example, when the winning combination is “BELL”, “8” is determined as the number of payouts (see FIG. 11). In the case of a loss, “0” is determined as the number of payouts. Next, the main CPU 1071 stores the determined number of payouts in the payout number counter (S152). When this process is performed, the payout number determination process is terminated.

  When a bonus game lottery is won by the bonus server 11, an interlocking effect is performed by the PTS terminal 1700 between a plurality of slot machines 1010 including the winning slot machine 1010, and at the same time, bonus bonuses are received from the bonus server 11. A payout is made, and the bonus is added to a payout counter, for example.

[Signage configuration]
FIG. 17 shows a signage 100 that can be used in the game system 1 according to an embodiment of the present invention. The signage 100 is an information display device mainly used for displaying store advertisements (including advertising billboards), hall floor guidance, and the like, and is a server of the game system 1 (for example, a bonus server 11 or a member management server). 13) via a network.

  The signage 100 includes an LCD 101 and an LCD 103 having a touch panel function. The LCD 101 is, for example, a 24-inch (about 60.96 cm) liquid crystal display device, and the LCD 103 is, for example, a 46-inch (about 116.84 cm) liquid crystal display device. And guidance information are displayed. The touch panel function of the LCD 103 is, for example, a touch panel using an infrared method. In this example, the LCD 103 is configured to have a touch panel function, but an instruction input may be performed by another input device such as a keyboard or a mouse.

  Each of the LCD 101 and the LCD 103 is stored in a cabinet, and effect LEDs 102 and 104 are provided in the periphery of the front surface of the cabinet. The production LEDs 102 and 104 are, for example, LED lights on a tape.

  Furthermore, the signage 100 includes motion sensors 105 and 106 in the cabinet of the LCD 101 and the cabinet of the LCD 103, respectively. The motion sensors 105 and 106 are, for example, cameras, and use the images captured by the motion sensors 105 and 106 to analyze the behavior of the user of the signage 100 and the customer passing through the passage.

  The signage 100 also includes a touch unit 107, and includes an RFID module that can perform data communication with a non-contact IC card or a mobile phone or smartphone with a communication function using NFC. A member can log in by holding a member card (IC card) associated with the member over the touch unit 107, and the menu screen for the member and information regarding the member are displayed on the LCD 101 or the LCD 103. Can be displayed. The member information is acquired from the member management server 13, for example.

  The staff in the hall can log in by holding the staff's IC card and display a staff menu screen or the like on the LCD 101 or the LCD 103.

  Compared with the PTS terminal 1700, the signage 100 has no card unit that holds the IC card 1500, and only includes the touch unit 107. However, even if the signage 100 leaves the user without touching off the IC card after touching the IC card, the member information displayed on the LCD 103 or the like by the touch is not displayed after a predetermined time, and automatically It is a mechanism to log off.

  Furthermore, the signage 100 includes a microphone 133 that acquires sound in the cabinet of the LCD 103. The LCD 103 has a microphone opening 110 corresponding to the position where the microphone is provided. In FIG. 17, the microphone opening 110 is shown beside the motion sensor 106.

  In addition, the signage 100 includes speakers 134 and 135 that output sound in the cabinet of the LCD 103. The cabinet of the LCD 103 is provided with speaker ducts corresponding to the positions where the speakers are provided. FIG. 17 shows a speaker duct 111 corresponding to one speaker.

  In addition, the signage 100 includes a base unit 108 that supports the cabinet of the LCD 101, the cabinet of the LCD 103, and a control unit 109 that houses a control unit that controls each LCD, LED, and the like.

[Signage circuit configuration]
Next, with reference to FIG. 18, a configuration of a circuit included in the signage 100 will be described.

  A signage controller 120 that controls the signage 100 includes a CPU 121, a ROM 122, and a RAM 123.

  The CPU 121 performs execution control of each component of the signage, and executes and calculates various programs stored in the ROM 122.

  The ROM 122 includes a memory device such as a flash memory, and stores permanent data executed by the CPU 121. For example, an interlocking effect control program executed in response to a request from the bonus server 11 can be stored.

  The RAM 123 temporarily stores data necessary for executing various programs stored in the ROM 122.

  The external storage device 124 is a storage device such as a hard disk device, for example, and stores a program executed by the CPU 121 and data used by the program executed by the CPU 121.

  The network I / F (interface) 125 realizes data communication with a server such as the bonus server 11 and the member management server 13 and the PTS terminal 1700.

  The LED drive unit 126 controls the lighting LEDs 102 and 104 to light up at a predetermined timing in response to a request for starting a linked performance from the bonus server 11. It is also possible to cause the production LEDs 102 and 104 to emit light in synchronization with display of advertisement information, display of guidance information, display of member information based on an operation by a member, and the like.

The LCD control unit 129 controls the LCD 101 to display information such as the advertisement information described above.
The LCD control unit 129 can control the LCD 101 so that the floor map generated by the monitoring server 14 is displayed.

  The LCD control unit 130 controls the LCD 103 to display information such as the advertisement information described above. The LCD 103 has a touch panel function, and an operation from the user is transmitted to the CPU 121.

  The touch unit control unit 131 controls data transmission / reception associated with the touch operation of the IC card or the mobile phone in the touch unit 107. The touch unit control unit 131 includes a non-contact R / W (reader / writer) control unit 131a.

  The non-contact R / W control unit 131a determines whether or not an IC card or mobile phone touch operation has been performed with the touch unit 107, and acquires a read result or the like from the touch unit 107 when the touch operation has been performed. The touch unit 107 has an antenna unit for performing data transmission / reception with an IC card or a mobile phone by NFC or the like.

  When the CPU 121 acquires the identification code of the member card (IC card) from the touch unit 107, the CPU 121 acquires member information corresponding to the identification code from the member management server 13 and displays it on the LCD 101 and the LCD 103. Further, the operation menu for the member can be displayed on the LCD 103, and advertisement information suitable for the member can be displayed on the LCD 101 or the LCD 103.

  The DSP 132 receives the audio data acquired from the microphone 133, performs a predetermined process, and transmits the data to the CPU 121. Further, the DSP 132 transmits the received audio data to the speakers 134 and 135 in order to output the received audio data.

The motion sensor control unit 136 acquires images of users and the like received from the motion sensors (for example, cameras) 105 and 106, performs predetermined image processing as necessary, and transmits the processed data to the CPU 121.
The motion sensor control unit 136 can acquire imaging information from the motion sensors 105 and 106 and can transmit the imaging information to the monitoring server 14 in response to an acquisition request from the monitoring server 14.

[Configuration of kiosk terminal]
FIG. 19 shows a kiosk terminal 200 that can be used in the game system 1 according to an embodiment of the present invention. The kiosk terminal 200 mainly displays information related to the game being played in the hall, for example, the start of the bonus game played in the bonus server 11, the countdown at the start, the current winning ranking, the popular platform ranking, etc. This is an information display device used for this purpose, and can be connected to a server (for example, bonus server 11 or member management server 13) of the game system 1 via a network.

  The kiosk terminal 200 includes an LCD 201 having a touch panel function. The LCD 201 is, for example, a 24 inch (about 60.96 cm) liquid crystal display device, and as described above, information on a game being played in the hall is displayed on the LCD. In this example, the LCD 201 is configured to have a touch panel function, but an instruction input may be performed by another input device such as a keyboard or a mouse.

  Furthermore, the kiosk terminal 200 includes motion sensors 202 and 203 above and below the LCD 201, respectively. The motion sensors 202 and 203 are, for example, cameras, and use the images captured by the motion sensors 202 and 203 to analyze the behavior of the user of the kiosk terminal 200 and the customer passing through the passage.

  The kiosk terminal 200 also includes a touch unit 204 and includes an RFID module that can perform data communication with a non-contact IC card or a mobile phone or smartphone with a communication function using NFC. The member can log in by holding the member card (IC card) associated with the member over the touch unit 204, and display a menu screen for the member and information on the member on the LCD 201. Can do. The member information is acquired from the member management server 13, for example. In addition to the touch unit 204 or instead of the touch unit 204, an information recording medium reading device for reading information stored in an information recording medium such as a magnetic card may be provided. In this case, instead of the IC card 1500, a magnetic card can be used as a membership card.

  The staff in the hall can log in by holding the staff's IC card and display the staff menu screen on the LCD 201.

  Further, the kiosk terminal 200 is provided with a card insertion slot 205 into which the IC card 1500 can be inserted or removed. The card insertion slot 205 is provided with an eject button. A card unit 230 is provided inside the kiosk housing corresponding to the card insertion slot 205, and the card insertion slot 205 is configured as a part of the card unit 230.

  When a member card is inserted from the card insertion slot 205, a menu screen for the member and information related to the member can be displayed on the LCD 201. The card unit 230 can issue and collect limited cards and reward cards.

  The kiosk terminal 200 includes a ticket printer 206. The ticket printer 206 can issue and collect tickets and coupons, and can also have a bill validator function.

  Furthermore, the kiosk terminal 200 includes a handset 207 that is used for a VoIP call. A user of the kiosk terminal 200 can talk with a user of another kiosk terminal 200 or a player of a gaming machine via the handset 207. The incoming LED 208 is controlled to emit light when an incoming VoIP call is received.

  The kiosk terminal 200 also includes a keyboard 209 and a numeric keypad 210 that are used by a user to input data (for member registration and text chat), and a peeping prevention LED plate 211 is provided on both sides of the numeric keypad 210. Is provided.

  Furthermore, the kiosk terminal 200 is provided with a QR code scanner 212 for reading a QR code (registered trademark), and reads a QR code attached to an e-mail addressed to a mobile phone or the like.

  In addition, the kiosk terminal 200 includes a storage unit 213 that stores a control unit that controls the LCD, the LED, and the like.

[Circuit configuration of kiosk terminal]
Next, with reference to FIG. 20, a configuration of a circuit included in the kiosk terminal 200 will be described.

  The kiosk terminal controller 220 that controls the kiosk terminal 200 includes a CPU 221, a ROM 222, and a RAM 223.

  The CPU 221 performs execution control of each component of the kiosk terminal, and executes or calculates various programs stored in the ROM 222.

  The ROM 222 includes a memory device such as a flash memory, and stores permanent data executed by the CPU 221. For example, a VoIP call control program or the like can be stored.

  The RAM 223 temporarily stores data necessary for executing various programs stored in the ROM 222.

  The external storage device 224 is a storage device such as a hard disk device, for example, and stores a program executed by the CPU 221 and data used by the program executed by the CPU 221.

  The network I / F (interface) 225 realizes data communication with a server such as the bonus server 11, the member management server 13, the monitoring server 14, and the PTS terminal 1700.

The LCD control unit 226 controls the LCD 201 to display information such as the game information described above. Further, the LCD 201 has a touch panel function, and an operation from the user is transmitted to the CPU 221.
Further, the LCD control unit 226 can control the LCD 201 so that the floor map generated by the monitoring server 14 is displayed.

The motion sensor control unit 227 acquires images of users and the like received from the motion sensors (for example, cameras) 202 and 203, performs predetermined image processing as necessary, and transmits the processed data to the CPU 221.
The motion sensor control unit 227 can acquire imaging information from the motion sensors 202 and 203 and can transmit the imaging information to the monitoring server 14 in response to an acquisition request from the monitoring server 14.

  The touch unit control unit 228 controls data transmission / reception associated with the touch operation of the IC card or the mobile phone in the touch unit 204. The touch unit control unit 228 includes a non-contact R / W (reader / writer) control unit 228a.

  The non-contact R / W control unit 228a determines whether or not an IC card or mobile phone touch operation has been performed with the touch unit 204, and acquires a reading result or the like from the touch unit 204 when the touch operation has been performed. The touch unit 204 includes an antenna unit for performing data transmission / reception with an IC card or a mobile phone by NFC or the like.

  The IC card control unit 229 controls insertion and ejection of the IC card 1500, data reading, and the like. The IC card control unit 229 includes an IC card R / W (reader / writer) control unit 229a and an IC card suction / discharge control unit 229b.

  The IC card R / W control unit 229a controls the card unit 230 and reads an identification code or the like stored in the IC card 1500. The card unit 230 has an antenna unit for writing data to the IC card 1500 by NFC or the like.

  The IC card suction / discharge control unit 229b controls the suction and discharge of the IC card 1500. When the IC card 1500 is inserted into the card insertion slot 205 by the user, the IC card is controlled to be held in the card unit 230 until the user logs off. When the eject button is pressed, the IC card 1500 is discharged.

  The ticket printer control unit 231 controls the ticket printer / bill validator 232 to issue and collect tickets and coupons, and identify bills. The ticket printer control unit 231 includes a printer control unit 231a and a bill validator control unit 231b.

  The voice control unit 233 performs voice input / output using the microphone 234 and the speaker 235 included in the receiver 207. The voice control unit 233 includes a DSP 233a and an LED control unit 233b. The DSP 233a controls the audio input from the microphone 234 and the audio output from the speaker 235 by performing predetermined audio signal processing. The LED control unit 233b controls the incoming LED 208 to emit light based on an incoming signal from a VoIP call or the like.

  The input control unit 236 converts the input of the keyboard 209 and the input of the numeric keypad 210 from the user into signals and transmits them to the CPU 221.

[Circuit configuration of monitoring server]
Next, with reference to FIG. 21, a configuration of a circuit included in the monitoring server 14 will be described.

  A monitoring server controller 1400 that controls the monitoring server 14 includes a CPU 1401, a ROM 1402, and a RAM 1403.

  The CPU 1401 controls the execution of each component of the monitoring server 14 and executes or calculates various programs stored in the ROM 1402.

  The ROM 1402 includes a memory device such as a flash memory, and stores permanent data executed by the CPU 1401. For example, a program related to the control of the monitoring system, an information control program in the floor map, and the like can be stored.

  The RAM 1403 temporarily stores data necessary for executing various programs stored in the ROM 1402.

  The external storage device 1404 is a storage device such as a hard disk device, for example, and stores a program executed by the CPU 1401 and data (a table or the like) used by the program executed by the CPU 1401.

  The graphic board 1405 controls the LCD 1408 to display floor information, a floor map, and the like.

  The input control unit 1406 converts the input from the keyboard 1409 and the input from the mouse 1410 into signals and transmits them to the CPU 1401.

  A network I / F (interface) 1407 realizes data communication with a server such as the member management server 13, the PTS terminal 1700, the signage 100, the kiosk terminal 200, and the surveillance camera.

[Various tables]
FIG. 22 is a diagram illustrating an example of the member management table. The member management table is stored in the member management server 13 and the monitoring server 14 and is synchronized. However, a member management table may be provided in the member management server 13, the monitoring server 14, or another server, and the server which does not have a table may acquire data as needed.
The member management table stores information such as the member name indicating the member's name, icon data indicating the member's face, and customer class indicating the class to which the member belongs, corresponding to the member identification code that can identify the member. Yes.
The member management table is basically updated at the time of member registration. However, the customer class is updated on the store side. For example, it may be updated automatically based on the frequency of visits, behavior patterns, etc., or may be updated by a store manager or the like.

FIG. 23 is a diagram illustrating an example of a related party management table. The related person management table is stored in the member management server 13 and the monitoring server 14 and is synchronized. However, the member management server 13, the monitoring server 14, or another server may be provided with a related person management table, and a server that does not have a table may acquire data as necessary.
In the related person management table, the related person identification code that can identify the related person, the status that indicates whether communication with the related person is possible, the human relationship that indicates the relationship between the member and the related person Is stored.
The related person management table is basically updated at the time of friend registration and at the start of communication (telephone, chat, etc.).

FIG. 24 is a diagram illustrating an example of an address management table. The address management table is stored in the member management server 13 and the monitoring server 14 and is synchronized. However, the address management table may be provided in the member management server 13, the monitoring server 14, or another server, and a server that does not have a table may acquire data as necessary.
In the address management table, an object indicating an IP address indicating the address of the device on the network, a device identifier indicating the name of the device, and a sample of the device corresponding to a device identification code capable of identifying a device such as a gaming machine. Data, coordinate data indicating the position of the device on the floor map, and device status information indicating the status of the device are stored. The information to be stored is not limited to the above. For example, instead of the coordinate data, position data indicating the position of the device on the floor may be employed.
The address management table is basically updated by an administrator when equipment is installed, rearranged, or removed. However, the device status information is updated at a timely timing based on the device status data transmitted from each device. The device identification code, IP address, device identifier, object data, and coordinate data information are basically initially registered when a floor map (such as a template in which devices are mapped to a floor layout) is created and updated. Yes.

FIG. 25 is a diagram illustrating an example of a login management table. The login management table is stored in the monitoring server 14. Note that the login management table may be stored in another server or the like.
The login management table stores a device identification code and a login date and time corresponding to the member identification code.
The login management table is basically updated at the timing when the member logs in (timing when the IC card 1500 is inserted into the slot machine 1010, kiosk terminal 200, etc., timing when the IC card is held over the signage 100, etc.).

FIG. 26 is a diagram illustrating an example of a device status history table. The device status history table is stored in the monitoring server 14. The device status history table may be stored in another server or the like.
The device status history table stores an update date and time indicating the date and time when the device status was updated, and the device status at that time, corresponding to the device identification code.
The device status history table is basically updated (a record is added) at an appropriate timing based on the device status data transmitted from each device.

[Configuration of image processing system]
The image processing system will be described with reference to FIG. FIG. 27 is a diagram illustrating an example of the image processing system (image processing systems 1600a to 1600c). Since the image processing systems 1600a to 1600c have the same configuration, the image processing system 1600a will be described as an example.
The image processing system 1600a includes an image storage control device 1601, a plurality of LCDs 1602 to 1604, a plurality of surveillance cameras 1611 to 1613, and a plurality of camera platforms 1621 to 1623. In FIG. 27, three image processing systems 1600a to 1600c, LCDs 1602 to 1604, surveillance cameras 1611 to 1613, and pan heads 1621 to 1623 are shown, but the number is not limited to this. For example, it may be less than 3, may be 3 or more, and an appropriate number can be adopted.

The image storage control device 1601 receives imaging information in a format such as continuous still images (Motion JPEG, etc.) and differential compression (MPEG4, H.264, etc.) transmitted from the monitoring cameras 1611 to 1613, and a plurality of LCDs 1602, 1603. To display.
The image storage control device 1601 stores the received imaging information in an external storage device (not shown) such as a DVD (Digital Video Disk) or a hard disk. When the storage capacity is insufficient, the image storage control device 1601 deletes the old record.

Note that the image storage control device 1601 is not limited to a configuration that always stores imaging information.
For example, the image storage control device 1601 may start recording from the previous few seconds only when it detects a moving object (background difference, human sensor, etc.) that moves within the imaging range of the monitoring cameras 1611 to 1613. Good.
According to this configuration, the storage capacity can be saved. On a large floor such as a casino, hundreds or thousands of surveillance cameras may be installed, and the casino may be open 24 hours a day. The number of external storage devices can be reduced, and the store side can reduce the equipment cost and facilitate the operation and maintenance.

  The image storage control device 1601 is communicably connected to the monitoring server 14. The image storage control device 1601 selects the imaging information of the monitoring cameras 1611 to 1613 in a time-sharing manner (switches the imaging information of the monitoring camera that is transmitted every predetermined time) and transmits the monitoring information to the monitoring server 14, and the monitoring server 14 And a function of transmitting the imaging information of the monitoring camera designated by 1 for one screen or for multiple screens.

Here, the monitoring server 14 displays the imaging information received from the image storage control device 1601 on the LCD 1408 as one screen or multiple screens. In addition, the monitoring server 14 transmits an instruction to the image storage control device 1601 to acquire the imaging information of the monitoring camera designated by the user operation (operation of the keyboard 1409 and mouse 1410) from among the monitoring cameras 1611 to 1613. . This instruction includes a device identification code that can identify the surveillance camera.
However, the configuration for acquiring the imaging information of the monitoring camera is not limited to the configuration described above. For example, the configuration may be such that the image is directly acquired from the monitoring camera without using the image storage control device 1601.

  In addition, the monitoring server 14 controls the monitoring cameras 1611 to 1613 and the pan heads 1621 to 1623. More specifically, the monitoring server 14 instructs control of the zoom, focus, shutter, etc. of the surveillance cameras 1611 to 1613 and pan control and tilt control of the camera platform 1621 to 1623 based on a user operation.

  The LCDs 1602 to 1604 display imaging information of the monitoring cameras 1611 to 1613. Note that the LCDs 1602 to 1604 may be provided in a number corresponding to the monitoring cameras 1611 to 1613 or may not be supported. For example, when the number of LCDs is smaller than the number of monitoring cameras, the screen display of the LCD is divided into a plurality of parts (two divisions, four divisions, nine divisions, etc.), and the images of the plurality of monitoring cameras can be displayed.

The monitoring cameras 1611 to 1613 transmit imaging information of the captured subject to the image storage control device 1601. In the image compression (encoding), the surveillance cameras 1611 to 1613 increase the image quality only in a specific area (for example, an area in which a person or a person's face is shown) in the moving image frame, and decrease the image quality in other areas. Yes.
In addition, although illustration is abbreviate | omitted, the surveillance cameras 1611-1613 have a sound collection microphone, and can record an audio | voice.

  The pan heads 1621 to 1623 change and fix the directions of the monitoring cameras 1611 to 1613 in accordance with instructions from the monitoring server 14.

  Note that the image processing system is not limited to the above-described configuration. The monitoring server 14 may be configured to perform a part or all of the functions of the image storage control device.

[VoIP call system]
Next, with reference to FIG. 28, a VoIP call system that can be realized between the slot machines 1010 (PTS terminals 1700), between the slot machines 1010 and the kiosk terminals 200, or between the kiosks terminals 200 will be described.

  FIG. 28 is a diagram showing a network configuration of the VoIP call system. In the example shown in FIG. 28, there are two zones Z-1 and Z-2 in the area A-1 of the hall. In the zone Z-1, four gaming machines (GM-1 to GM-4) are connected to the Ethernet, etc. In the zone Z-2, three gaming machines (GM-9 to GM-11) and one kiosk terminal (KIOSK-1) are LAN-connected via a network such as Ethernet. Here, each gaming machine is a slot machine 1010.

  In addition, the hall management server 10, the member management server 13, the monitoring server 14, the call control server 16, and the PSTN gateway 17 are connected to each device in the above-described two zones and the switching hub 15 via a network such as Ethernet. Connected. Note that other necessary network connection devices such as routers and hubs are not shown.

  Here, the call control server 16 is a server for controlling a VoIP call, and the PSTN gateway 17 is a PSTN (public telephone switched circuit network) for realizing a call between a device in the hall and a telephone outside the hall. : Public Switched Telephony Network) 18 is a device for controlling the connection.

[Environment monitoring service]
FIG. 29 is an example of a sequence showing a series of flows of the environment monitoring service. The main flow of the environmental monitoring service will be described using this sequence.
In SQ10, the LCD 1408 displays a main menu screen. When an environment monitoring menu selection operation (user operation) is performed in the main menu, a start request is transmitted to the monitoring server 14. When receiving the start request, the monitoring server 14 transmits an instruction (start instruction) to acquire environment information to the PTS terminal 700 (gaming machine). For transmission of the start instruction to the PTS terminal 700, an appropriate transmission method such as unicast, multicast, or broadcast can be employed.

Upon receiving the start instruction, the PTS terminal 700 performs an environment information acquisition process at a predetermined cycle, and transmits the acquired environment information to the monitoring server 14 (SQ12, SQ18). Note that the PTS terminal 700 transmits the device identification code of the gaming machine to which the PTS terminal 700 is attached together with the environment information.
Here, the structure which transmits an apparatus identification code is not restricted to the above-mentioned structure. For example, the PTS terminal 700 or the gaming machine may have a GPS (Global Positioning System) sensor, receive radio waves from GPS satellites, calculate position information, and transmit the calculated position information. Further, for example, the PTS terminal 700 or the gaming machine may be configured to calculate its own coordinate information on the floor map from the calculated position information and transmit the calculated coordinate information. Further, for example, the PTS terminal 700 or the gaming machine may have its own coordinate information on the floor map and transmit the coordinate information.

  Upon receiving the environment information, the monitoring server 14 stores the received environment information in the external storage device 1404 in association with the device identification code. The monitoring server 14 stores the environmental information transmitted from each PTS terminal 700 until a predetermined time specified in advance, and generates an image (image information) in which the environmental information is mapped to the floor map every predetermined time ( SQ14, SQ20). The monitoring server 14 transmits the generated image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (environment monitoring screen) (SQ16, SQ22).

  The LCD 1408 transmits an end request to the monitoring server 14 when an end button selection operation (user operation) is performed on the environment monitoring screen. When receiving the termination request, the monitoring server 14 transmits an instruction (termination instruction) to end the acquisition of the environment information to the PTS terminal 700. In addition, the monitoring server 14 transmits an instruction to end the environment monitoring screen (for example, an instruction to display the main menu screen) and image information to the LCD 1408.

  When receiving the end instruction, the PTS terminal 700 performs a process (end process) for ending the acquisition of the environment information (SQ26). When finishing the termination process, the PTS terminal 700 transmits response information to the monitoring server 14.

  The LCD 1408 receives the image information and displays the main menu screen (SQ28).

  Note that the environment monitoring service is not limited to the above-described configuration. For example, the configuration may be such that environmental information is acquired in real time and the environmental information is mapped to a floor map in real time.

[Monitoring camera service]
FIG. 30 is an example of a sequence showing a series of flows of the monitoring camera service. The main flow of the surveillance camera service will be described using this sequence. Note that imaging information captured by the monitoring cameras 1611 to 1613 is transmitted from the monitoring cameras 1611 to 1613 to the image storage control device 1601.
In SQ30, LCD 1408 displays a main menu screen. When a monitoring camera menu selection operation (user operation) is performed in the main menu, a start request is transmitted to the monitoring server 14. When the monitoring server 14 receives the start request, the monitoring server 14 transmits an instruction (start instruction) to acquire imaging information to the image storage control device 1601.

When the image storage control device 1601 receives the start instruction, the image storage control device 1601 switches the imaging information of the monitoring cameras 1611 to 1613 and transmits it to the monitoring server 14 in a predetermined time. Note that the monitoring cameras 1611 to 1613 transmit the device identification codes of the monitoring cameras 1611 to 1613 together with the imaging information.
When receiving the imaging information, the monitoring server 14 uses the received imaging information as image information and transmits the image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (monitoring camera screen) (SQ32). Note that, on the surveillance camera screen, the shooting content of the surveillance camera is switched and displayed every predetermined time.

Further, when a monitoring camera icon selection operation is performed on the monitoring camera screen, a specific request is transmitted to the monitoring server 14 (SQ34). At this time, a signal (coordinate signal, position signal, etc.) capable of identifying the monitoring camera corresponding to the selected monitoring camera icon is transmitted from the input control unit 1406 to which the mouse 1410 or the like is connected. For example, when receiving the coordinate signal, the monitoring server 14 specifies a device identification code (which may be an IP address) of the monitoring camera based on the coordinate signal.
When receiving the specific request, the monitoring server 14 transmits an instruction (specific instruction) to acquire the imaging information of the designated monitoring camera to the image storage control device 1601. The monitoring server 14 transmits the device identification code of the designated monitoring camera together with the specifying instruction.

When the image storage control device 1601 receives the specific instruction and the device identification code of the monitoring camera, the image storage control device 1601 performs a switching process of transmitting the imaging information that has been switched and transmitted in a predetermined time to the imaging information of the designated monitoring camera (SQ36). ).
The image storage control device 1601 transmits the designated imaging information to the monitoring server 14.
When receiving the imaging information, the monitoring server 14 uses the received imaging information as image information and transmits the image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (monitoring camera screen) (SQ38). Note that, on the surveillance camera screen, the shooting content of the designated surveillance camera is continuously displayed until a user operation is performed.

[Related party display service]
FIG. 31 is an example of a sequence showing a series of flows of the related party display service. The main flow of the related party display service will be described using this sequence. A case where the IC card 1500 is inserted into the PTS terminal 700 will be described as an example.

  In SQ 40, when the IC card 1500 is inserted, the PTS terminal 700 reads identification information (member identification code, IC card identification code, etc.) that can identify a member from the IC card 1500, and uses the read identification information as the monitoring server 14. Send to. The PTS terminal 700 transmits the device identification code of the gaming machine to the monitoring server 14 together with the identification information.

  When receiving the identification information, the monitoring server 14 updates the login information (SQ42). More specifically, the monitoring server 14 associates the member identification code with the device identification code and stores them in the login management table (external storage device 1404).

  Subsequently, the monitoring server 14 performs a position specifying process (SQ44). Although details will be described later, the monitoring server 14 specifies the positions on the floor map of the logged-in member and the objects (friends, family members, recommended stand, etc.) related to the member.

  Subsequently, the monitoring server 14 highlights and maps (places) icons (member icons, related person icons, etc.) on the position of the logged-in member and the position of the target related to the member (image information). Is generated (SQ46). The monitoring server 14 transmits the generated image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (related party display screen) (SQ48).

  The PTS terminal 700 is described as an example, but the same applies to the kiosk terminal 200, and the description thereof is omitted.

[Device status display service]
FIG. 32 is an example of a sequence showing a series of flows of the device status display service. The main flow of the device status display service will be described using this sequence. Note that status information indicating the status (status) of the gaming machine is transmitted from the PTS terminal 700 to the monitoring server 14.
In SQ50, the LCD 1408 displays a main menu screen. When a selection operation (user operation) of the device status display menu is performed in the main menu, a start request is transmitted to the monitoring server 14. Upon receiving the start request, the monitoring server 14 acquires the device status of each device based on the address management table at predetermined time intervals, and generates a floor map (image information) reflecting the device status (SQ52, SQ56). ). The monitoring server 14 transmits the generated image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (device status display screen) (SQ54, SQ58).

  The device status display service is not limited to the configuration described above. For example, the configuration may be such that the situation information is mapped to the floor map in real time.

[Communication status display service]
Here, for example, a VoIP call (substantially, a VoIP call between the gaming machine GM-2 and the gaming machine GM-9) from the member with the identification code “0001” to the member with the identification code “0007”. Let's take an example.

  FIG. 33 shows a control procedure for realizing a VoIP call between the gaming machine GM-2 and the gaming machine GM-9. In FIG. 33, the processing contents are shown for each of the gaming machine GM-2, the call control server 16, the gaming machine GM-9, and the monitoring server 14. VoIP calls are, for example, SIP (Session Initiation Protocol) or H.264. There are various protocols such as H.323, but here, the processing procedure by SIP will be described as an example. When SIP is used, the call control server is called a SIP server.

  Prior to the description of FIG. 33, a registration process performed separately from the VoIP call control will be described. Each gaming machine associates its own URI or telephone number with the IP address and transmits it to the call control server 16 as needed. Here, for the sake of convenience, it is assumed that an identification code acquired from a membership card is used as the one corresponding to a URI or a telephone number. Therefore, the call control server 16 has the address management table shown in FIG. 24 and the login management table shown in FIG. 25, and which IP address gaming machine (PTS terminal 1700 of the slot machine 1010) is assigned to which identification code member. You can see in real time whether it is being used. Of course, if the player changes the slot machine 1010, the contents of the table will change accordingly. Note that the gaming machine identifier stored in the address management table is only added for convenience of explanation, and is not necessary in the actual call control processing.

  In the flow of FIG. 33, first, a VoIP call is sent from the gaming machine GM-2 in which the member with the identification code “0001” plays a game to the member with the identification code “0007” registered as a friend. Is performed, the gaming machine GM-2 makes a call request (INVITE) to the call control server 16 (SQ251). At this time, the call request from the gaming machine GM-2 includes the identification code “0007” as the other party of the call.

  At this time, the member with the identification code “0001” on the calling side does not need to be aware of which slot machine 1010 the called party is using and which IP address the slot machine 1010 is using. However, as will be described later, the calling member can grasp who is playing a game using the slot machine 1010 and is ready to respond to a VoIP call. .

  Next, when receiving the call request, the call control server 16 specifies the IP address of the slot machine 1010 used by the member with the identification code “0007” that is the other party of the call (SQ252). This process is specified with reference to the address management table shown in FIG. 24 and the login management table shown in FIG. 25 based on the identification code included in the call request. In this example, it can be seen from the address management table that the IP address of the slot machine 1010 used by the member with the identification code “0007” who is the other party of the call is “192.168.52.48”.

  Next, the call control server 16 transmits a call request to the slot machine 1010 of the identified IP address (that is, the gaming machine GM-9 at this time) (SQ253). When the gaming machine GM-9 receives this call request (SQ254), the gaming machine GM-9 performs an incoming call display for notifying that there is an incoming VoIP call on the LCD 1719 of the PTS terminal 1700 of the gaming machine GM-9 (SQ255). In addition to such an incoming call display, a ringtone can also be output from the speakers 1707 and 1709 of the PTS terminal 1700.

  Thereafter, when the call control server 16 receives a calling signal from the gaming machine GM-9, it transmits this signal to the gaming machine GM-2 (SQ256), and the gaming machine GM-2 receives the calling signal. When received (SQ257), a call display indicating that a call is being made is displayed on the LCD 1719 of the PTS terminal 1700 of the gaming machine GM-2 (SQ258).

  The gaming machine GM-9 continues to display the incoming call until there is a response to the incoming call (NO in SQ259). The response to the incoming call is made, for example, when the player of the gaming machine GM-9 touches the response button display part of the incoming call display displayed on the LCD 1719. When there is a response to the incoming call in the gaming machine GM-9 (YES in SQ259), the call control server 16 transmits a call success signal (OK) to the gaming machine GM-2 and the monitoring server 14 (SQ260). When a configuration in which the monitoring server 14 is provided separately is adopted, the call control server 16 transmits the device identification code of the call request source and the device identification code of the call request destination to the monitoring server 14.

  Based on the device identification code of the call request source and the device identification code of the call request destination, the call control server 16 refers to the address management table shown in FIG. An image generation process is performed to generate an image indicating an aspect (for example, an aspect where each machine icon is connected by a line) indicating that each gaming machine is busy (SQ280).

Note that the call control server 16 transmits the generated image information to the LCD 1408 when the image generation processing is performed. On the LCD 1408, a floor map is displayed in a manner indicating that each gaming machine is busy. In the floor map, as shown in FIG. 50, a machine icon is displayed at the position where the gaming machine GM-2 is arranged in the game hall, and the machine icon is displayed at the position where the gaming machine GM-9 is arranged in the gaming hall. Each machine icon is connected with a line.
In addition, although the process of SQ280 showed the structure performed in the process of SQ260, it is not restricted to this structure. After the process of SQ260, it can be performed at an arbitrary timing. For example, the process may be performed in the process of SQ263.

  When the gaming machine GM-2 receives the call success signal, the gaming machine GM-2 stops the call display (SQ261) and transmits an acknowledgment signal (ACK) (SQ262). When receiving the confirmation response signal, the call control server 16 further transmits it to the gaming machine GM-9 (SQ263).

  When the gaming machine GM-9 receives an acknowledgment signal (SQ264), a session between the gaming machine GM-2 and the gaming machine GM-9 is established, and a call between them is possible (SQ265, SQ266). NO). In this call, the gaming machine GM-2 and the gaming machine GM-9 are directly connected, and therefore no call control server is interposed.

  When the call ends (here, the call ends on the gaming machine GM-2) (YES in SQ266), the gaming machine GM-2 transmits a session end notification (BYE) to the call control server 16. Further, the call control server 16 transmits this session end notification to the gaming machine GM-9 (SQ268). When the gaming machine GM-9 receives this session end notification (SQ269), an acknowledgment notification (OK) is transmitted to the call control server 16 (SQ270). When receiving the approval notification, the call control server 16 transmits the approval notification to the gaming machine GM-2 (SQ271), and the gaming machine GM-2 receives the approval notification (SQ272), and the series of sessions is ended. The call hangs up.

When the configuration in which the monitoring server 14 is provided separately is adopted, the call control server 16 transmits a call end notification to the monitoring server 14 when receiving the approval notification in SQ271.
Based on the call end notification, the call control server 16 generates an image indicating an aspect indicating that each gaming machine is not in a call (for example, an aspect in which each machine icon and a line connecting the machine icons are not displayed). Image generation processing is performed (SQ282).

  When the call control server 16 performs the image generation process, the call control server 16 transmits the generated image information to the LCD 1408. On the LCD 1408, a floor map is displayed in a manner indicating that each gaming machine is not in a call.

  Such a VoIP call control procedure is merely an example, and call control processing is performed in various procedures according to the protocol employed. In this example, the call is between gaming machines (slot machines 1010). However, as described above, a call between the slot machine 1010 and the kiosk terminal 200 or between the kiosk terminals 200 is also possible.

  In the slot machine 1010, the voice of the player of the gaming machine GM-9 on the receiving side is provided by speakers 1707, 1709 or headphones connected to the audio terminal 1738, and the player of the gaming machine GM-2 on the outgoing side is provided. The voice is provided to the other party via microphones 1715 and 1717 and a microphone connected to the audio terminal 1738.

  The kiosk terminal 200 performs voice input / output using the microphone 234 and the speaker 235 included in the receiver 207. The incoming user's voice is provided from the speaker 235, and the outgoing user's voice is provided to the other party via the microphone 234.

[Contents of programs executed on the monitoring server]
Next, processing (program) executed by the monitoring server 14 will be described with reference to FIGS.

  FIG. 34 is a diagram illustrating an example of a flowchart relating to the monitoring process. In S200, the CPU 1401 performs a main menu screen display process. More specifically, the CPU 1401 outputs an instruction to display the main menu screen on the LCD 1408 to the graphic board 1405. The graphic board 1405 generates screen information of the main menu screen and outputs it to the LCD 1408. The LCD 1408 displays a main menu screen based on the received screen information.

  In step S202, the CPU 1401 determines whether an environment monitoring menu has been selected by a user operation. More specifically, the CPU 1401 determines whether a signal indicating that the environment monitoring menu has been selected is received from the input control unit 1406. If it is determined that the environment monitoring menu has been selected, the process proceeds to S204. If it is determined that the environment monitoring menu has not been selected, the process proceeds to S206.

  In S204, the CPU 1401 performs an environment monitoring process and moves the process to S206. Although details will be described later, in the environment monitoring process, the environment information acquired by each PTS terminal 700 is reflected on the floor map and displayed on the LCD 1408.

  In step S206, the CPU 1401 determines whether a monitoring camera menu is selected by a user operation. More specifically, the CPU 1401 determines whether a signal indicating that the surveillance camera menu has been selected has been received from the input control unit 1406. If it is determined that the monitoring camera menu is selected, the process proceeds to S208. If it is determined that the monitoring camera menu is not selected, the process proceeds to S210.

  In S208, the CPU 1401 performs a monitoring camera switching process, and moves the process to S210. Although details will be described later, in the monitoring camera switching process, the images of the monitoring cameras 1611 to 1613 are sequentially switched and displayed every predetermined time in the LDC 1408, or the images of the monitoring camera designated based on the user operation are displayed. Or

  In S210, the CPU 1401 determines whether or not a related person display menu is selected by a user operation. More specifically, the CPU 1401 determines whether or not a signal indicating that the related person display menu has been selected is received from the input control unit 1406. If it is determined that the related party display menu has been selected, the process proceeds to S212. If it is determined that the related party display menu has not been selected, the process proceeds to S214.

  In S212, the CPU 1401 performs a party display process, and the process proceeds to S214. Although details will be described later, in the related person display process, related persons are related on the floor map and displayed on the LCD 1408.

  In step S214, the CPU 1401 determines whether a device status display menu has been selected by a user operation. More specifically, the CPU 1401 determines whether or not a signal indicating that the device status display menu has been selected is received from the input control unit 1406. If it is determined that the device status display menu has been selected, the process proceeds to S216. If it is determined that the device status display menu has not been selected, the process proceeds to S218.

  In S216, the CPU 1401 performs a device status display process and moves the process to S202. Although details will be described later, in the device status display process, the status of a device such as a gaming machine is reflected on the floor map and displayed on the LCD 1408.

  In step S218, the CPU 1401 determines whether a communication status display menu has been selected by a user operation. More specifically, the CPU 1401 determines whether a signal indicating that the communication status display menu has been selected is received from the input control unit 1406. If it is determined that the communication status display menu has been selected, the process proceeds to S220. If it is determined that the communication status display menu has not been selected, the process proceeds to S202.

  In S220, the CPU 1401 performs a communication status display process and moves the process to S202. Although details will be described later, in the communication status display process, the gaming machine in communication is reflected on the floor map in a manner that can be identified and displayed on the LCD 1408.

FIG. 35 is a diagram illustrating an example of a flowchart relating to environment monitoring processing. In the environment monitoring process, a case where temperature information is acquired as environment information will be described as an example.
In S230, the CPU 1401 instructs the transmission of temperature information to all PTS terminals 700 capable of communication. When the CPU 1401 ends this process, the process proceeds to S232.

  In S232, the CPU 1401 determines whether or not the end mode is ON. If the CPU 1401 determines that the end mode is ON, the CPU 1401 ends the environment monitoring process. If the CPU 1401 determines that the end mode is OFF, the process proceeds to S234.

  In S234, the CPU 1401 determines whether a predetermined time (for example, 1 minute) has elapsed. When the CPU 1401 determines that the predetermined time has elapsed, the process proceeds to S236, and when the CPU 1401 determines that the predetermined time has not elapsed, the process proceeds to S232.

  In S236, the CPU 1401 generates a floor map (image information) reflecting the temperature information. More specifically, the CPU 1401 first reads temperature information stored in correspondence with the device identification code from the external storage device 1404. The CPU 1401 refers to the address management table and identifies coordinate data corresponding to the device identification code. The CPU 1401 determines a position on the floor map based on the coordinate data, and generates a floor map in which temperature information is mapped to the position (a floor map so that an icon indicating temperature information is arranged at the position). When the CPU 1401 ends this process, the process proceeds to S238.

  In S238, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs an instruction to the LCD board 1405 to display on the LCD 1408 a floor map reflecting the temperature information. When the CPU 1401 ends this process, the process proceeds to S232.

In this environmental monitoring process, the temperature information received during a predetermined time is processed together. According to this configuration, by changing the predetermined time, the number of processes can be adjusted regardless of the number of PTS terminals 700 (gaming machines) installed on the floor. According to this configuration, even when the number of PTS terminals 700 (gaming machines) installed on the floor is large as in a casino, screen display can be performed smoothly.
In addition, this environmental monitoring process is not restricted to the said structure. For example, the process of S234 may be eliminated, and the temperature information may be reflected on the floor map in real time. In this case, the CPU 1401 outputs an instruction to display only the difference information to the graphic board 1405. According to this configuration, for example, since the number of PTS terminals 700 (gaming machines) installed on the casino floor is large, temperature information of many places can be collected in real time, and the gaming environment can be grasped more accurately. Become.

Moreover, the structure which produces | generates the floor map which reflected odor information in addition to or instead of temperature information may be sufficient. For example, the odor sensor detects the amount of odorous components in the air, and when the CPU 1401 determines that the amount of odorous components in the room is greater than a predetermined amount, the odorous component amount in the room is more than the predetermined amount. If it is determined that the odor information is small, the odor information is mapped in the second mode.
According to this configuration, the odor distribution can be easily grasped by looking at the floor map. For example, when a place where the amount of odorous component is larger than a predetermined amount is grasped, the store side can adjust the air conditioning or quickly go to the place and take measures.
Note that the number of levels is not limited to two or more and may be divided into three or more levels. According to this configuration, the odor distribution can be grasped more accurately.

Moreover, the structure which produces | generates the floor map which reflected the carbon dioxide concentration information in addition to or instead of temperature information may be sufficient. For example, the carbon dioxide concentration meter detects the carbon dioxide concentration in the air, and when the CPU 1401 determines that the indoor carbon dioxide concentration is higher than a predetermined concentration, the indoor carbon dioxide concentration is predetermined in the first mode. When it is determined that the concentration is lower than the concentration, the carbon dioxide concentration information is mapped in the second mode.
According to this configuration, the distribution of the carbon dioxide concentration can be easily grasped by looking at the floor map. For example, when the location where the carbon dioxide concentration is higher than the predetermined concentration is grasped, the store side can quickly tackle indoor improvement such as ventilation.
In addition, it is not restricted to two steps of high and low, and may be divided into three or more steps. According to this configuration, the odor distribution can be grasped more accurately.
In other words, other environmental information can be mapped to the floor map.

  FIG. 36 is a diagram illustrating an example of a flowchart relating to interrupt processing. Here, the CPU 1401 is executing an interrupt process even when the environment monitoring process is being executed.

  In S240, the CPU 1401 performs processing for storing temperature information. More specifically, when receiving the temperature information and the device identification code from the PTS terminal 700, the CPU 1401 stores the temperature information in the external storage device 1404 in association with the device identification code. When the CPU 1401 ends this process, the process proceeds to S242.

  In step S <b> 242, the CPU 1401 determines whether an end request has been received. More specifically, the CPU 1401 determines whether a signal indicating that the end button has been pressed on the environment monitoring screen has been received from the input control unit 1406. If the CPU 1401 determines that there is an end request, it moves the process to S244, and if it determines that there is no end request, it moves the process to S240.

  In S244, the CPU 1401 sets the end mode to ON, and moves the process to S240.

FIG. 37 is a diagram illustrating an example of a flowchart relating to the monitoring camera switching process.
In S250, the CPU 1401 generates a floor map that reflects the field of view of the monitoring cameras 1611 to 1613. When the CPU 1401 ends this process, the process proceeds to S252.
Here, the field-of-view range of the surveillance camera is mapped (registered) in advance on the floor map. Registration of the field-of-view range to the floor map may be manual or automatic. For example, manual means that a person sets the field of view for each surveillance camera on the floor map, and automatic means that markers are provided at various locations on the floor and images taken by each surveillance camera are analyzed. This means that the computer sets each view range in the floor map.

  In S252, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs to the graphic board 1405 an instruction to display on the LCD 1408 a floor map in which the viewing ranges of the monitoring cameras 1611 to 1613 are provided. When the CPU 1401 ends this process, the process proceeds to S254.

  In S254, the CPU 1401 determines whether the normal mode is ON. If the CPU 1401 determines that the normal mode is ON, the process proceeds to S256. If the CPU 1401 determines that the normal mode is OFF, the process proceeds to S258.

  In S256, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs an instruction to display on the LCD 1408 a monitoring camera screen that displays the imaging information stored in the external storage device 1404 to the graphic board 1405. When the CPU 1401 ends this process, the process proceeds to S264.

  In S258, the CPU 1401 determines whether the specific mode is ON. If the CPU 1401 determines that the specific mode is ON, the process proceeds to S260. If the CPU 1401 determines that the specific mode is OFF, the process proceeds to S264.

  In S260, the CPU 1401 requests (transmits a specific instruction) image information of the designated monitoring camera to the image storage control device 1601. When finishing this process, the CPU 1401 moves the process to S262.

  In S262, the CPU 1401 sets the specific mode to OFF, and moves the process to S256.

  In S264, the CPU 1401 determines whether the end mode is ON. If the CPU 1401 determines that the end mode is ON, the CPU 1401 ends the monitoring camera switching process. If the CPU 1401 determines that the end mode is OFF, the process proceeds to S254.

The surveillance camera switching process is not limited to the above-described content.
For example, in the processing of S250, an icon related to the optical axis of each monitoring camera may be displayed on the floor map. For example, imaging information at a desired angle can be easily acquired by enabling the user to operate the icon related to the optical axis to change the orientation of the monitoring camera.
In addition, for example, an icon related to the optical axis may be displayed only for a designated surveillance camera. According to this configuration, it is possible to prevent the floor map from being difficult to see by displaying the icon related to the optical axis.

  FIG. 38 is a diagram illustrating an example of a flowchart relating to an interrupt process. Here, the CPU 1401 is executing the interrupt process even when the monitoring camera switching process is being executed.

  In S270, the CPU 1401 performs processing for storing imaging information. More specifically, when receiving imaging information and a device identification code from the image storage control device 1601, the CPU 1401 stores the imaging information in the external storage device 1404 in association with the device identification code. When the CPU 1401 ends this process, the process proceeds to S272.

  In step S272, the CPU 1401 determines whether there is a monitoring camera identification request. More specifically, the CPU 1401 determines whether a signal indicating that the monitoring camera icon has been pressed on the monitoring camera screen has been received from the input control unit 1406. If the CPU 1401 determines that there is a monitoring camera identification request, it moves the process to S274, and if it determines that there is no monitoring camera identification request, it moves the process to S278.

  In S274, the CPU 1401 sets the normal mode to OFF, and moves the process to S276.

  In S276, the CPU 1401 sets the specific mode to ON, and moves the process to S278.

  In S278, the CPU 1401 determines whether or not there is a normal request. More specifically, the CPU 1401 determines whether a signal indicating that the automatic switching button has been pressed on the monitoring camera screen has been received from the input control unit 1406. If the CPU 1401 determines that there is a normal request, it moves the process to S280, and if it determines that there is no normal request, it moves the process to S284.

  In S280, the CPU 1401 sets the normal mode to ON, and moves the process to S282.

  In S282, the CPU 1401 sets the specific mode to OFF, and moves the process to S284.

  In S284, the CPU 1401 determines whether or not there is a termination request. More specifically, the CPU 1401 determines whether a signal indicating that the end button has been pressed on the monitoring camera screen has been received from the input control unit 1406. If the CPU 1401 determines that there is an end request, it moves the process to S286, and if it determines that there is no end request, it moves the process to S270.

  In S286, the CPU 1401 sets the end mode to ON, and moves the process to S270.

FIG. 39 is a diagram illustrating an example of a flowchart relating to a party display process.
In S290, the CPU 1401 refers to the related person management table and specifies the related person identification code associated with the member identification code. For example, when the member identification code is “0002”, the CPU 1401 acquires the party identification codes “0001”, “0003”, and “0008” based on the party management table (FIG. 23). When finishing this process, the CPU 1401 moves the process to S292.

  In S292, the CPU 1401 refers to the login management table, identifies the member identification code that matches the related party identification code, and identifies the device identification code. For example, based on the login management table (FIG. 25), the CPU 1401 also displays member identification codes “0001”, “0003”, and “0008” that match the party identification codes “0001”, “0003”, and “0008”. And device identification codes “0003”, “0006”, and “0010”. When the CPU 1401 ends this process, the process proceeds to S294.

  In S294, the CPU 1401 refers to the address management table and identifies object data that matches the device identification code. For example, the CPU 1401 determines the coordinate data “x3, y3”, “x6, y6”, “x10, y10” of the device identification codes “0003”, “0006”, “0010” based on the address management table (FIG. 24). To get. When finishing this process, the CPU 1401 moves the process to S296.

  In S296, the CPU 1401 clears the highlighted display of the object highlighted in the previous process (when a single member logs in). When the CPU 1401 ends this process, the process proceeds to S298.

In step S298, the CPU 1401 generates a floor map in such a manner that an icon of preset object data (for example, humanoid) is highlighted. When the CPU 1401 ends this process, the process proceeds to S300. The object data may have a configuration defined for each member in the member management table.
Here, various display modes can be employed as the highlight display. For example, the icon of the logged-in member and the icon of the person concerned may be displayed in a blinking manner. In addition, for example, the icon color such that the member icon is a first color (for example, red), the related party icon is a second color (for example, blue), and the other icon is a third color (for example, black). The display mode may be different. Further, for example, a display mode in which the icon of the member and the icon of the related person are made larger than the other icons may be used.

  In S300, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs an instruction to the graphic board 1405 to display on the LCD 1408 a floor map mapped with the logged-in member icon and the related person icon highlighted. When the CPU 1401 ends this process, the process proceeds to S302.

  In step S302, the CPU 1401 determines whether the end mode is ON. If the CPU 1401 determines that the end mode is ON, the CPU 1401 ends the related party display process. If the CPU 1401 determines that the end mode is OFF, the process proceeds to S290.

The related party display process is not limited to the above-described contents.
For example, before the process of S340, the structure which produces | generates a floor map in the aspect which can identify the apparatus of the member who is logging in and the apparatus which is not so based on a login management table may be sufficient. According to this configuration, it is possible to grasp the visitor situation at a glance by looking at the floor map.
In addition, for example, information on a recommended table (device code or the like) may be registered in the member management table, and a gaming machine icon related to the recommended table may be highlighted in the process of S298. The recommended table information may be manually registered, or the member's action history such as the total number of games, the average number of games, the number of credits inserted, the number of credits paid out, the number of jackpots obtained, etc. It may be automatically registered.

  FIG. 40 is a diagram illustrating an example of a flowchart relating to interrupt processing. Here, the CPU 1401 executes the interrupt process even when the related party display process is being executed.

In S310, the CPU 1401 performs processing for updating the login management table. More specifically, when the CPU 1401 receives the member identification code and the device identification code from the PTS terminal 700, the signage 100, or the kiosk terminal 200, the login management of the external storage device 1404 is associated with the member identification code and the device identification code. Add to the bull. When the CPU 1401 ends this process, the process proceeds to S312.
When logout information (including a member identification code) indicating that the user has logged out from the PTS terminal 700, the signage 100, or the kiosk terminal 200 is received, the record corresponding to the member identification code may be deleted from the login management table. Then, a flag that can identify that the user has logged out may be set.

  In step S312, the CPU 1401 determines whether an end request has been received. More specifically, the CPU 1401 determines whether a signal indicating that the end button has been pressed on the related party display screen is received from the input control unit 1406. If the CPU 1401 determines that there is an end request, it moves the process to S314, and if it determines that there is no end request, it moves the process to S310.

  In S314, the CPU 1401 sets the end mode to ON, and moves the process to S310.

  FIG. 41 is a diagram illustrating an example of a flowchart relating to device status display processing. In S320, the CPU 1401 generates a floor map (image information) reflecting the device status of the device. More specifically, the CPU 1401 refers to the address management table, determines the position on the floor map for each device based on the coordinate data, and maps the device status to the floor map (the icon indicating the device status at the position). Floor map) is generated. When the CPU 1401 ends this process, the process proceeds to S322.

  In S322, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs an instruction to the LCD board 1405 to display a floor map reflecting the device status on the LCD 1408. When the CPU 1401 ends this process, the process proceeds to S324.

  In S324, the CPU 1401 determines whether or not the end mode is ON. If the CPU 1401 determines that the end mode is ON, it ends the device status display process. If it determines that the end mode is OFF, it moves the process to S320.

  FIG. 42 is a diagram illustrating an example of a flowchart relating to an interrupt process. Here, the CPU 1401 is executing an interrupt process even when the device status display process is being executed.

  In S330, the CPU 1401 determines whether or not the status information transmitted from the PTS terminal 700 needs to be updated. More specifically, based on the status information received from the PTS terminal 700 and the device identification code, the CPU 1401 receives the received status information and status information corresponding to the device identification code stored in the address management table. It is determined whether or not they match. If the CPU 1401 determines that the situation information needs to be updated, the process proceeds to S332. If the CPU 1401 determines that the situation information need not be updated, the process proceeds to S334.

  In step S334, the CPU 1401 determines whether an end request has been received. More specifically, the CPU 1401 determines whether a signal indicating that the end button has been pressed on the device status display screen has been received from the input control unit 1406. If the CPU 1401 determines that there is an end request, it moves the process to S336, and if it determines that there is no end request, it moves the process to S330.

  In S336, the CPU 1401 sets the end mode to ON, and moves the process to S330.

In addition, this apparatus status display process is not restricted to the structure which updates a floor map in real time as mentioned above.
For example, the floor map may be updated every predetermined time.
Further, for example, the floor map may be updated when updated. When this configuration is adopted, for example, when it is determined to update in the process of S330 (in the case of YES), the flag is set to ON, and when the flag is ON in the device status display process, the processes of S320 and S322 are performed. To do. According to this configuration, the number of times the floor map is switched by the screen display control can be reduced. For example, in a situation where many devices are set on the floor, the flickering of the screen due to the switching of the floor map can increase, but this configuration can reduce the flickering of the screen.

  FIG. 43 is a diagram illustrating an example of a flowchart according to the communication status display process. In S340, the CPU 1401 refers to the related person management table and specifies the caller's member identification code. For example, the CPU 1401 acquires the member identification codes “0002” and “0003” whose status is “communication” based on the related person management table (FIG. 23). When the CPU 1401 ends this process, the process proceeds to S342.

  In S342, the CPU 1401 refers to the login management table and identifies the device identification code corresponding to the member identification code. For example, the CPU 1401 acquires device identification codes “0005” and “0006” corresponding to the member identification codes “0002” and “0003” based on the login management table (FIG. 25). When the CPU 1401 ends this process, the process proceeds to S344.

  In step S344, the CPU 1401 refers to the address management table and identifies object data that matches the device identification code. For example, the CPU 1401 determines the object data “obj0005” and “obj0006” of the device identification codes “0005” and “0006” and the coordinate data “x5, y5” and “x6, y6” based on the address management table (FIG. 24). And get. When finishing this process, the CPU 1401 moves the process to S346.

  In S346, the CPU 1401 generates a floor map in such a manner that the icon of the object data specified in S344 indicates that communication is in progress. When the CPU 1401 ends this process, the process proceeds to S348.

  In S348, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs an instruction to the graphic board 1405 to display the floor map on the LCD 1408 in a manner that the icon of the communicator indicates that communication is in progress. When finishing this process, the CPU 1401 moves the process to S350.

  In S350, the CPU 1401 determines whether the end mode is ON. If the CPU 1401 determines that the end mode is ON, the CPU 1401 ends the communication status display process. If the CPU 1401 determines that the end mode is OFF, the process proceeds to S340.

This communication status display process is not limited to the above-described configuration.
For example, in the process of S348, the CPU 1401 performs a process of determining whether or not the current communication is greater than or equal to a predetermined number. If it is determined that the communication is equal to or greater than the predetermined number, a floor map is generated for each predetermined number. It is good also as a structure which performs the process to perform.
When this configuration is adopted, for example, a button for switching the floor map is displayed on the communication status display screen, and the floor map can be switched. The screen may be divided and the floor map may be displayed once (simultaneously), or may be displayed on separate displays.
According to this configuration, a predetermined number of communications can be visually recognized on one floor map, and communications after exceeding the predetermined number can be visually recognized on other floor maps.

  FIG. 44 is a diagram illustrating an example of a flowchart relating to an interrupt process. Here, the CPU 1401 is executing an interrupt process even when the communication status display process is being executed.

  In S360, the CPU 1401 determines whether a response request is transmitted from the PTS terminal 700. In other words, the CPU 1401 determines whether communication (call, chat, etc.) by a plurality of devices has started. More specifically, the CPU 1401 determines whether or not a request (response request) for responding to a response has been received from the other PTS terminal 700 called from one PTS terminal 700. If the CPU 1401 determines that a response request has been received, the process proceeds to S362. If the CPU 1401 determines that a response request has not been received, the process proceeds to S364. In addition, the member identification code and the device identification code of the communication person are transmitted together with the response request.

  In S362, the CPU 1401 updates the related person management table. More specifically, the CPU 1401 updates the status of the related party management table to “communication” based on the member identification code of the communicator.

  In S364, the CPU 1401 determines whether or not there is a termination request. More specifically, the CPU 1401 determines whether or not a signal indicating that the end button has been pressed on the communication status display screen has been received from the input control unit 1406. If the CPU 1401 determines that there is an end request, it moves the process to S366, and if it determines that there is no end request, it moves the process to S360.

  In S366, the CPU 1401 sets the end mode to ON, and moves the process to S360.

FIG. 45 is a diagram showing an example of a floor map (floor map 1800). The floor map 1800 is vector data of a two-dimensional figure indicating the floor, and is stored in the external storage device 1404.
However, the floor map 1800 is not limited to two-dimensional vector data. For example, the floor map 1800 may be three-dimensional vector data. For example, the floor map 1800 may be raster data (bitmap data).

The floor map 1800 is designed such that a frame 1801 (an example of an icon) is drawn at a position corresponding to a device (gaming machine, signage 100, kiosk terminal 200, etc.) set on the floor. Note that the coordinates of the center of the frame 1801 are stored as coordinate data in the address management table. The color, shape, and size of the frame 1801 may vary depending on the type of device.
Therefore, when the device identification code can be specified, the coordinate data and the object data can be specified based on the address management table. Therefore, for example, other objects (icons), various information, etc. are superimposed on the frame 1801 on the floor map 1800. It becomes possible to map. Further, for example, the mode (color, size, shape, etc.) of the frame 1801 can be changed as appropriate.

The floor map 1800 is basically described as being displayed on the LCD 1408. However, the present invention is not limited to this, and the floor map 1800 may be displayed across a plurality of displays. Good.
For example, a configuration in which a plurality of displays function as one display may be employed.
Further, for example, a configuration in which a plurality of displays function as an arbitrary number of displays may be employed. That is, when there are a plurality of displays “16 (4 × 4)”, the floor map 1800 is displayed on the plurality of first displays (for example, the upper two columns (2 × 4)), and the plurality of first displays is displayed. On two displays (for example, the lower two rows (2 × 4)), the images of the surveillance camera and the images of the equipment cameras (motion sensors 105 and 106, motion sensors 202 and 203, human body detection camera 1713) are displayed on each display. It may be configured to be displayed on the screen.
As described above, the floor map can be displayed on an arbitrary number of displays, so that the floor map can be displayed in an optimum size even when the floor is wide like a casino.

FIG. 46 is a diagram showing a part of the environment monitoring screen (environment monitoring screen 1810) displayed when the environment monitoring menu is selected in the main menu. Although not shown, the environment monitoring screen includes a button (end button) for returning to the main menu.
The environment monitoring screen 1810 shows a first area 1815 and a second area 1816. Further, the environment monitoring screen 1810 shows a frame 1811 in which temperature information is not mapped, and frames 1812, 1813, and 1814 in which temperature information is mapped.
A frame 1812 indicates a first temperature “T1 (t0 <T1 <tn)” degree indicating a normal value (a temperature higher than a predetermined temperature (t0) but not higher than a specific temperature (tn)), and a frame 1813 The second temperature “T2” higher than the first temperature is shown, and the frame 1814 shows the third temperature “T3” lower than the first temperature.
The frame 1812 is a first color (for example, yellow), the frame 1813 is a second color (for example, red), and the frame 1814 is a third color (for example, blue). By adopting such a color scheme, the temperature distribution on the floor can be grasped at a glance.

  Looking at the first area 1815, the frame 1813 is one of the frames in which the temperature information is mapped, and all the remaining are the frames 1812. That is, in the first area 1815, only the temperature of the gaming machine in the frame 1813 is higher than that of the other gaming machines, so that it can be determined that the gaming machine is out of order.

  Looking at the second area 1815, all of the frames to which the temperature information is mapped are the frames 1814. That is, in the second area 1815, it can be determined that the room temperature is lower than the specified temperature.

  The temperature information mapping method is not limited to the above-described content. For example, a lead line may be provided on the frame to indicate temperature information (its value). According to this configuration, a more accurate temperature can be grasped. Further, for example, the frame and the periphery of the frame may be a color corresponding to the temperature information. According to this configuration, since the temperature information is more emphasized, it becomes easier to grasp the temperature distribution.

FIG. 47 is a diagram illustrating an example of a monitoring camera screen (monitoring camera screen 1820) displayed when the monitoring camera menu is selected in the main menu.
The surveillance camera screen 1820 includes a plurality of buttons 1821 to 1824, a floor map 1830, and a video display area 1829.
The main menu button 1821 is a button (end button) for returning to the main menu. The automatic switching button 1822 is a button for setting the video displayed in the video display area 1829 to be switched automatically. The video left display button 1823 is a button for setting the display position of the video display area 1829 to the left side of the screen. The video display right button 1824 is a button for setting the display position of the video display area 1829 to the right side of the screen.
In the monitoring camera screen 1820, since the monitoring camera to be displayed is located on the left side of the screen, the monitoring camera screen 1820 is an example in which the video display area 1829 is set on the right side of the screen. In other words, when the surveillance camera located on the right side of the screen is a display target, the video display area 1829 is automatically set on the left side of the screen.

On the floor map 1830, a monitoring camera icon (for example, monitoring camera icon 1825, 1826) of the monitoring camera and a viewing range of the monitoring camera (for example, viewing range icon 1827, 1828) are mapped. Note that when the monitoring camera icon is displayed on the floor map, the imaging direction can be specified more easily than when the monitoring camera icon is not displayed.
The surveillance camera icon and the view range icon corresponding to the surveillance camera of the video displayed in the video display area 1829 are highlighted in a manner different from other surveillance camera icons and the visibility range icon, like the surveillance camera icon 1826. .
It should be noted that although the frame (device) or the like cannot be seen by the view range icon, the present invention is not limited to this. The view range icon is semi-transparent and is not filled, and the frame (device) can be seen. Also good.

  The floor map 1830 is not limited to the contents described above. For example, an optical axis icon indicating an optical axis may be provided for each monitoring camera icon (each visibility range icon). According to this configuration, it is easier to specify the imaging direction as compared with the case where the monitoring camera icon is displayed on the floor map.

In the normal mode, which is the automatic switching mode, the video displayed in the video display area 1829 is controlled to switch every predetermined time. In addition, when the video to be switched satisfies a predetermined condition (such as the number of people exceeding the specified value, or the number of people passing the specified number within the specified time), a specific time longer than the predetermined time is set. The video is switched after the elapse of a specific time.
Note that the screen mode (color, shape, or size) of the video display area 1829 may be changed according to the number of people in the image and the number of people passing through.
For example, when the number of people in the image or the number of people passing through is more than the specified number, the screen size (vertical x horizontal) of the video display area 1829 is set to S1 (x1 x y1) Or the size of the screen of the video display area 1829 (vertical × horizontal) may be S2 (x2 × y2) smaller than S1.

  When the surveillance camera icon 1825 is selected and operated, the surveillance video displayed in the video display area 1829 is switched from the surveillance camera video of the surveillance camera icon 1826 to the surveillance camera video of the surveillance camera icon 1825. Displayed continuously. Note that the video can be switched every predetermined time by selecting the automatic switching button 1822.

  Note that the configuration of the video display area 1829 is not limited to the configuration described above. For example, the video display area 1829 is configured to be displayed on the left and right, but may be configured to be displayed on the top and bottom. In addition, for example, the position and size of the video display area 1829 may be freely deformed according to a user operation.

FIG. 48 is a diagram showing a part of the related party display screen (related party display screen 1840) displayed when the related party display menu is selected in the main menu. Although not shown, a button for returning to the main menu (end button) is provided on the related person display screen.
The related person display screen 1840 includes a logged-in machine icon (for example, a machine icon 1841), a non-logged-in machine icon (for example, a machine icon 1842), and a recently logged-in member icon (for example, a member icon). 1843) and logged-in related party icons (for example, related party icons 1844, 1845) indicating the related parties of the member.

In the related person display screen 1840, when a member logs in (for example, an IC card is inserted into the PTS terminal 700), an icon indicating the member and an related person icon indicating the member related to the member can be identified (highlighted) Are mapped to the floor map.
As an aspect that can be identified, the member icon is filled and the related person icon is not painted. However, the present invention is not limited to this. For example, the member icon may be turned on and the related person icon may be blinked.

The related person display screen 1840 is updated every predetermined time or whenever login is performed. When updating, the member icon and the related person icon displayed at the previous login are deleted, and the member icon and the related person icon related to the current login are displayed.
However, the present invention is not limited to this configuration. For example, the previous (in the broader sense, the past) member icon and related person icon and the current member icon and related person icon are displayed in an identifiable manner. May be. According to this configuration, it is possible to see at a glance where the logged-in member is located by looking at the floor map.

  In addition to or in place of the member icon and the related person icon, the player attribute information may be displayed. In this case, for example, an icon indicating VISITOR, an icon indicating MEMBER, an icon indicating VIP, an icon indicating SUSPECTED VISITOR, an icon indicating SUSPECTED MEMBER, a frame of an aspect in which these can be identified, and the like can be displayed. According to this configuration, it is possible to easily grasp the visitor situation such as what class of person is located by looking at the floor map.

FIG. 49 is a diagram showing a part of the device status display screen (device status display screen 1850) displayed when the device status display menu is selected in the main menu. Although not shown, the device status display screen is provided with a button (end button) for returning to the main menu.
On the device status display screen 1850, status icons (status icons 1851 to 1855) indicating a plurality of types of device status are shown. The status icon is displayed in an identifiable manner according to the device status. An appropriate icon can be adopted as the status icon. For example, icons with different colors may be provided depending on the device status. Further, for example, a character icon that allows the device status to be seen at a glance may be displayed superimposed on the object data icon.

  The status icon 1851 is an icon indicating that the device is being logged in. The status icon 1852 is an icon indicating that the device is not logged in. The status icon 1853 is an icon indicating that the device is under maintenance. The status icon 1854 is an icon indicating that the device is in a jackpot. The status icon 1855 is an icon indicating that the device is in failure. Although illustration is omitted, icons indicating the replenishment status of the IC card 1500 (STACKER NEAR EMPTY, STACKER NEAR FULL), hand pay, unavailable (DISABLE), and the like may be arranged. Also, at the bottom of the device status display screen 1850, an explanation unit is provided that shows a list of icon examples and types of icon device statuses.

  The device status display screen 1850 has a configuration in which the floor map is updated in real time, but is not limited to this configuration. For example, the floor map may be updated every predetermined time. Further, for example, the floor map may be updated every time the device status is updated. Further, for example, the floor map may be updated every time the device status of a predetermined number of devices is updated.

FIG. 50 is a diagram showing a part of the communication status display screen (communication status display screen 1860) displayed when the communication status display menu is selected in the main menu. Although not shown, the communication status display screen is provided with a button (end button) for returning to the main menu.
The communication status display screen 1860 includes a logged-in machine icon (for example, a machine icon 1861), a non-logged-in machine icon (for example, a machine icon 1862), and a communicating machine icon (for example, communication machine icons 1863 and 1864). ) And a communication emphasis icon 1865 indicating that communication is being performed.

  Communication machine icons 1863 and 1864 are mapped to corresponding positions on the floor map at the start of communication, and each icon is displayed in a form connected by a communication emphasis icon 1865. At the end of communication, communication machine icons 1863 and 1864 and communication emphasis icon 1865 are deleted.

Here, various display modes can be adopted as modes indicating the communication.
For example, the display mode may indicate that radio waves are generated from both machine icons.
Further, for example, instead of the communication machine icon, one member icon and the other member icon (person icon) may be connected by a line. At this time, the wording “in communication” may be displayed.
Further, for example, a mode in which both icons (machine icon or person icon) blink and display may be used.
In addition, for example, one of the two icons has a first color (for example, red), the other icon has a second color (for example, blue), and the other icon has a third color (for example, black). It may be a display mode in which the color of the icon is different.
Further, for example, a display mode in which both icons are larger than the other icons may be used.

[Friend Registration Service]
Next, with reference to FIG. 51 and FIG. 52, a friend registration service executed in the slot machine 1010 (PTS terminal 1700) will be described. Here, the friend registration service in the PTS terminal 1700 will be described, but the same service is also provided in the kiosk terminal 200.

  FIG. 51A shows a member menu displayed on the LCD 1719 of the PTS terminal 1700 after the player inserts the member card into the card insertion slot 1730 of the PTS terminal 1700 of the slot machine 1010 and the member login is completed. A screen 30 is shown.

  On the menu screen 30 shown in FIG. 51A, an advertisement display unit 31, a member name display unit 32, and a service menu display unit 33 are displayed. In this example, two service menus are displayed on the service menu display unit 33 simultaneously by two scroll displays. In the scroll display on the left side, buttons for the “HELP” service (help display service for operating the PTS terminal 1700 and the slot machine 1010) are shown. In the scroll display on the right side, buttons for the “FRIENDS” service are shown. By touching the upper triangle display or the lower triangle display in the scroll display, other service menu buttons are displayed.

  Here, when the player touches the “Friends” service button, the display on the LCD 1719 changes to a screen as shown in FIG.

  FIG. 51B shows the top menu 41 of the friend service, in which a title display portion 41a, a friend setting button display portion 42, a friend search button display portion 43, and a “return” button display portion 44 are displayed. When the player touches one of the friend setting button display unit 42 and the friend search button display unit 43, a lower screen corresponding to the touch is displayed. When the player touches the “return” button display unit 44, the CPU 1751 detects the position of the touch operation and changes the display on the LCD 1719 to the menu screen 30 shown in FIG.

  Each service menu and the service providing system described above are realized by, for example, interpreting and displaying HTML data, images, and the like by a web browser executed on the PTS terminal 1700. In this case, the hall management server 10 or the like functions as a WEB server, and transmits necessary data to the PTS terminal 1700 in response to a request from the web browser of the PTS terminal 1700.

  FIG. 52A shows a friend setting screen 51 displayed on the LCD 1719 when the friend setting button display unit 42 is touched in the top menu 41 of the friend service shown in FIG. In this friend setting screen 51, friends registered for the logged-in member (member specified by the member card) are displayed in a list on the friend display unit 52. As shown in FIG. 52 (A), a maximum of four items are displayed at one time, but by touching the page display unit displayed on the right side of the title display unit or flicking the touch panel, You can also display other friends.

  The data related to the friend displayed on the friend setting screen 51 shown in FIG. 52 (A) is, for example, in the related person management table (stored in the member management server 13) shown in FIG. Refer to the corresponding party identification code, and refer to the member management table (stored in the member management server 13) shown in FIG. 22 for each party identification code, and identify the identification code corresponding to the party identification code. Get by referring to the record.

For example, when the identification code of the logged-in member is read from the membership card and it is “0001”, the friend identification code corresponding to “0001” is “0002” from the related person management table of FIG. It is understood that “0003”, “0005”, and “0007” are included. When these identification codes are registered in the login management table shown in FIG. 25, it can be determined that the friend of the identification code is logging in.
For each of these identification codes, corresponding information (for example, name, icon data, etc.) is acquired in the member management table of FIG. In this example, the member name of the identification code “0002” is “ΔΔΔΔ”, and the icon data is. . ¥ image0002. jpg.

  In FIG. 52 (A), the name and icon of the member specified by the identification code “0002” are shown on the friend detail display section 52b, and the member specified by the identification code “0003” is displayed on the friend detail display section 52c. The name and icon are shown, and the name and icon of the member specified by the identification code “0005” are shown in the friend detail display section 52d. Moreover, the friend can be deleted from a setting by touching the "DELETE" button display part currently displayed on each friend detail display part.

  Note that the friend of the identification code “0005” has the status set to “BLOCK” in the related person management table in FIG. 23, and the status display unit also reflects “BLOCK” in the friend detail display unit 52d. Is displayed. As described above, when the status is set to “BLOCK”, it is excluded from requests regarding requests such as VoIP calls and text chats. In the friend detail display section 52b and the friend detail display section 52c, the status display section is displayed as “OK”, and a VoIP call or text chat can be performed with the other party.

  Also, the friend detail display section 52a in FIG. 52A shows a new registration button display section 53 for newly registering a friend, and a new friend can be registered by touching this. .

  When the new registration button display section 53 of the friend detail display section 52a is touched, a new registration screen 56 shown in FIG. 52 (B) is displayed on the LCD 1719. Here, the player who is logged in as a member touches the touch unit 1745 with the friend's member card to be registered in accordance with the guidance display 58 for guiding the touch unit 1745 of the PTS terminal 1700 to touch the member card of the friend to be registered. To do. This touch operation is usually performed by a registered friend with the consent of the friend.

  When this touch operation is completed, a friend registration completion screen 61 is displayed on the LCD 1719 as shown in FIG. On the friend registration completion screen 61, a friend registration end guidance display 63 indicating that the friend registration has been completed and a friend details display section 62a of the friend newly registered this time are displayed.

  With such friend registration, the CPU 1751 of the PTS terminal 1700 adds the record of the friend registered this time to the related person management table shown in FIG. At the time of addition, the identification code read from the member card touched by the touch unit 1745 matches one of the identification codes registered in the member management table of FIG. 22, that is, it is a regular member. If it is checked and it is not a regular member, an error message is displayed and registration fails.

  Such a friend registration service can also be performed in the kiosk terminal 200 as described above. In this case, since the LCD 201 is larger than the LCD 1719 of the PTS terminal 1700, a larger number of friends can be displayed in a larger size list. Further, by touching the friend's member card on the touch unit 204, the identification code of the member card can be acquired.

[Family registration service]
Since the family registration service can be performed in the same manner as the friend registration service, the description thereof is omitted.

[Outgoing operation for VoIP calls]
Next, with reference to FIG. 53 and FIG. 54, a VoIP call outgoing operation will be described. In the following description, a friend is taken as an example, but a call operation is possible in the case of a family member as well. FIG. 53A shows a member menu displayed on the LCD 1719 of the PTS terminal 1700 after the player inserts the member card into the card insertion slot 1730 of the PTS terminal 1700 of the slot machine 1010 and the member login is completed. A screen 30 is shown.

  On the menu screen 30 shown in FIG. 53A, an advertisement display unit 31, a member name display unit 32, and a service menu display unit 33 are displayed. In this example, two service menus are displayed on the service menu display unit 33 simultaneously by two scroll displays. In the scroll display on the left side, buttons for the “HELP” service (help display service for operating the PTS terminal 1700 and the slot machine 1010 and the like) are shown. The “call” service buttons are shown, and in each scroll display, touching the upper triangle display or the lower triangle display displays the other service menu buttons.

  Here, when the player touches the “VoIP call” service button, the display on the LCD 1719 transitions to a telephone directory screen 71 as shown in FIG. The telephone directory screen 71 displays a list of targets that the logged-in member (member specified by the member card) can talk by VoIP call. As shown in FIG. 53B, a maximum of four items are displayed on the telephone directory display portion 72 at a time. However, the page display portion displayed on the right side of the title display portion is touched, or a touch panel is displayed. Other destinations can be displayed by flicking or the like.

  In FIG. 53 (B), a friend list link display portion (“ENTER” button display portion) is displayed on the phone book detail display portion 72a of the phone book display portion 72, and a family list is displayed on the phone book detail display portion 72b. A link display portion (“ENTER” button display portion) is displayed, a shop list link display portion (“ENTER” button display portion) is displayed on the phone book detail display portion 72c, and a ticket entry detail display portion 72d displays a ticket. An office call instruction section (“CALL” button display section) is displayed. In this way, the telephone directory display section 72 further displays a link display section (“ENTER” button display section) for expanding and displaying the list, and a call instruction section (“CALL” button display that can make a call for a VoIP call as it is. Can be displayed together.

  Here, when the link display part of the friend list of the telephone directory detail display part 72a is touched, the LCD 1719 of the PTS terminal 1700 transitions to the friend list display screen 81 shown in FIG. Here, a list of friends registered by the logged-in member is displayed. Here, a friend list for the player with the identification code “0001” is displayed.

  On the friend list display screen 81, the maximum number of items displayed on the callee display unit 82 at one time is four as shown in FIG. 54A, but the page display unit displayed on the right side of the title display unit. By touching or flicking the touch panel, other call destinations can be displayed.

  In this example, for each callee detail display section (82a to 82d), a call instruction section ("CALL" button display section) and a "TEXT" button display section are shown. When the “CALL” button display unit is touched, a VoIP call is made to the corresponding member, which corresponds to the call request (INVITE) described with reference to FIG. In addition, the “CALL” button display portion 83a of the callee detail display portion 82b and the “CALL” button display portion 83b of the callee detail display portion 82d are grayed out so that they cannot be touched. Although a friend is registered by the player of the slot machine 1010, the slot machine 1010 is not used at this time (not logged in with a membership card), and the kiosk terminal 200 is not logged in. It shows that there is not.

  Here, the friend registered by the member of the identification code “0001” is displayed on the call destination display unit 82 (see FIGS. 22 and 23), and the identification code “0002” is displayed on the call destination detail display unit 82a. ", Information on the member with the identification code" 0003 "is displayed on the callee detail display portion 82b, and member information with the identification code" 0007 "is displayed on the callee detail display portion 82c. The information of the member with the identification code “0009” is displayed on the callee detail display portion 82d. Further, although the member with the identification code “0005” is registered in the friend list, the status is “BLOCK”, so that it is not displayed on the callee display unit 82.

  By touching the “TEXT” button display unit, a text message can be exchanged with the corresponding member. In the callee detail display portion 82d, a “NEW” display 84 is displayed at the upper right of the “TEXT” button display portion, which indicates that a text message has been transmitted from the member. The player can display the text message transmitted from the member on the LCD 1719 of the PTS terminal 1700 by touching the “TEXT” button display section.

  Here, when the “CALL” button display portion of the call destination detail display portion 82a is touched, a VoIP call is made to the corresponding member (member of the identification code “0002”), as shown in FIG. 54 (B). Such a busy screen 91 is displayed on the LCD 1791 of the PTS terminal 1700. In the call destination display section 92, the name and icon of the other party member shown in the call destination detail display section 82a of FIG. 54A are displayed. In addition, a “disconnect” button display section 93, call progress A time display unit 94 and a point consumption guide 95 are displayed.

  When the “disconnect” button display section 93 is touched, the VoIP call is disconnected. The elapsed call time display unit 94 displays the elapsed time of the current call.

  In addition, the point consumption guide 95 displays a guide that a call charge is generated when the call time exceeds a predetermined time (in this example, 3 minutes) and is collected from the points given to the member. ing. In this way, for a VoIP call, when a predetermined call time has elapsed, a call charge can be collected from points, credit-related data, and the like. Also, such call charge collection can be limited to calls outside the hall, or even if the call charge collection conditions are different between calls inside the hall and calls outside the hall. Good.

  As shown in the telephone directory screen 71 of FIG. 53 (B), the VoIP call can be performed not only in the hall, but also to a party outside the hall, such as a ticket office or a shop. 16 performs call control with the telephone connected to the PSTN 18 via the PSTN gateway 17 (see FIG. 28).

  Also, by touching the window reduction instruction unit 96 displayed at the upper right of the busy screen 91 in FIG. 54B, the size of the busy screen 91 can be reduced, and other information can be displayed. Can do.

  Further, such a VoIP call service can also be performed at the kiosk terminal 200 as described above. In this case, since the LCD 201 is larger than the LCD 1719 of the PTS terminal 1700, a larger number of call destinations can be displayed in a larger size on the telephone directory screen 71 or the like. In addition, a VoIP call can be performed using the signage 100 described above.

<Second Embodiment>
In the present embodiment, imaging information will be described as an example of environment information acquired by the PTS terminal 700 with reference to FIGS. 54 to 58. In this embodiment, a configuration different from the configuration shown in the first embodiment will be mainly described, and the same reference numerals are used for the same configurations as the configurations shown in the first embodiment, and the description will be appropriately described. Omitted.

[Environment monitoring service]
FIG. 55 is an example of a sequence showing a series of flows of the environment monitoring service (video monitoring service). The main flow of the environmental monitoring service will be described using this sequence.
In SQ100, the LCD 1408 transmits a video request to the monitoring server 14 when a selection operation (user operation) of a desired gaming machine is performed on the environment monitoring screen (video monitoring screen). Note that a signal (coordinate signal, position signal, etc.) that can identify the gaming machine is transmitted (notified) together with the video request.
When the monitoring server 14 receives the video request and the signal that can identify the gaming machine, the monitoring server 14 specifies the device identification code of the target gaming machine that acquires the video based on the signal that can identify the gaming machine (SQ102). The monitoring server 14 acquires an IP address corresponding to the identified device identification code based on the address management table, and gives an instruction (acquisition instruction) for acquiring imaging information (gaming machine (PTS) to which the IP address is assigned. Terminal 700).

  Upon receiving the acquisition instruction, the PTS terminal 700 performs an imaging information acquisition process and transmits the acquired imaging information to the monitoring server 14 (SQ104).

  When receiving the imaging information, the monitoring server 14 stores the received imaging information in the external storage device 1404 in association with the device identification code. The monitoring server 14 generates an environment monitoring screen (image information) including the stored imaging information and a floor map. The monitoring server 14 transmits the generated image information to the LCD 1408.

  The LCD 1408 receives the image information and displays an environment monitoring screen (SQ106).

  In SQ108, the LCD 1408 transmits an end request to the monitoring server 14 when an end button selection operation (user operation) is performed on the environment monitoring screen. When the monitoring server 14 receives the termination request, the monitoring server 14 transmits to the PTS terminal 700 an instruction to terminate acquisition of imaging information (termination instruction). In addition, the monitoring server 14 transmits an instruction to end the environment monitoring screen (for example, an instruction to display the main menu screen) and image information to the LCD 1408.

  When receiving the termination instruction, the PTS terminal 700 performs processing (termination processing) for ending acquisition of imaging information (SQ110). When finishing the termination process, the PTS terminal 700 transmits response information to the monitoring server 14.

  The LCD 1408 receives the image information and displays the main menu screen (SQ112).

FIG. 56 is a diagram illustrating an example of a flowchart relating to environment monitoring processing. The environment monitoring process will be described by taking imaging information as an example of environment information.
In S400, the CPU 1401 sets a switching time (first time) indicating a time for switching the video of the PTS terminal 700. When the CPU 1401 ends this process, the process proceeds to S402.

  In S402, the CPU 1401 determines whether or not the normal mode is ON. If the CPU 1401 determines that the normal mode is ON, the process proceeds to S404. If the CPU 1401 determines that the normal mode is OFF, the process proceeds to S418.

In S404, the CPU 1401 determines the PTS terminal 700 to be acquired. In this process, the CPU 1401 refers to the address management table and sequentially determines gaming machines whose device status is “OFF LINE”. When this process ends, the process moves to S406.
Note that according to this process, it is possible to identify and determine a gaming machine in which no person is sitting on the gaming machine or in which the person is standing on the kiosk terminal 200 or the like, so that the surrounding information may be determined by the person located in front of the device. It is possible to reduce the situation where it becomes difficult to obtain the surrounding information and the surrounding information becomes difficult to obtain.

  In step S406, the CPU 1401 transmits an imaging information acquisition instruction to the determined PTS terminal 700. When the CPU 1401 ends this process, the process proceeds to S408.

  In step S <b> 408, the CPU 1401 performs image analysis and determines whether or not a predetermined number or more people are included in the image extracted from the acquired video. If the CPU 1401 determines that a predetermined number or more of people are captured, the process proceeds to S410. If the CPU 1401 determines that a predetermined number or more of persons are not captured, the process proceeds to S414.

  In S410, the CPU 1401 changes the switching time. More specifically, the CPU 1401 changes the display time of the video to a second time longer than the first time. When the CPU 1401 ends this process, the process proceeds to S412.

  In step S412, the CPU 1401 sets priority display. More specifically, the CPU 1401 generates a floor map in a manner that indicates that the video is preferentially displayed. When the CPU 1401 ends this process, the process proceeds to S414.

  In S414, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs an instruction to the graphic board 1405 to display on the LCD 1408 a floor map on which imaging information received from the PTS terminal 700 is displayed. When the CPU 1401 ends this process, the process proceeds to S416.

  In S416, the CPU 1401 determines whether the end mode is ON. If the CPU 1401 determines that the end mode is ON, the CPU 1401 ends the environment monitoring process. If the CPU 1401 determines that the end mode is OFF, the process proceeds to S402.

  In S418, the CPU 1401 determines whether or not the specific mode is ON. If the CPU 1401 determines that the specific mode is ON, the process proceeds to S420. If the CPU 1401 determines that the normal mode is OFF, the process proceeds to S416.

  In S420, the CPU 1401 transmits an imaging information acquisition instruction to the PTS terminal 700 of the gaming machine designated by the user operation. When the CPU 1401 ends this process, the process proceeds to S422.

  In S422, the CPU 1401 sets the specific mode to OFF, and moves the process to S414.

The environment monitoring process is not limited to the above process.
For example, in the process of S404, not only gaming machines whose device status is “OFF LINE” are targeted, but gaming machines whose device status is “ON LINE” or “OFF LINE” are targeted. Alternatively, it may be determined sequentially.

  Further, for example, in addition to or instead of S410, the display screen of the video is set to a second size larger than the first size which is the size of the screen when a predetermined number or more of people are not captured. The structure to change may be sufficient.

Further, for example, in addition to or instead of S410 and S412, the number of people stopped in front of the gaming machine is counted, and the number of people, icons, etc. are shown at the position where the gaming machine is installed, A configuration in which the size, color, or the like of the icon is changed accordingly and reflected on the floor map may be used.
According to this configuration, it is possible to easily grasp the person's bias on the wide floor of the casino.

Further, for example, in addition to or instead of S410 and S412, an icon such as an arrow corresponding to the amount of movement is analyzed by analyzing the movement direction of the person (if the movement amount is large, the arrow is thickened or enlarged). May be configured to be reflected in the floor map in a manner shown in the passage.
According to this configuration, the movement of a person can be easily grasped on a wide floor of the casino.
In other words, the contents of the environment monitoring process described above can be applied to the monitoring camera switching process as appropriate.

  FIG. 57 is a diagram illustrating an example of a flowchart relating to an interrupt process. Here, the CPU 1401 executes the interrupt process even when the environment monitoring process (imaging information) is being executed.

  In S430, the CPU 1401 performs processing for storing imaging information. More specifically, when receiving imaging information and a device identification code from the PTS terminal 700, the CPU 1401 stores the imaging information in the external storage device 1404 in association with the device identification code. When finishing this process, the CPU 1401 moves the process to S432.

  In step S432, the CPU 1401 determines whether there is a request for imaging information. More specifically, the CPU 1401 determines whether a signal indicating that the gaming machine icon has been pressed on the environment monitoring screen has been received from the input control unit 1406. If the CPU 1401 determines that there is a request for imaging information, it moves the process to S434, and if it determines that there is no request for imaging information, it moves the process to S438.

  In S434, the CPU 1401 sets the normal mode to OFF, and moves the process to S436.

  In S436, the CPU 1401 sets the specific mode to ON, and moves the process to S438.

  In S438, the CPU 1401 determines whether or not there is a normal request. More specifically, the CPU 1401 determines whether a signal indicating that the automatic switching button has been pressed on the environment monitoring screen has been received from the input control unit 1406. If the CPU 1401 determines that there is a normal request, it moves the process to S440, and if it determines that there is no normal request, it moves the process to S444.

  In S440, the CPU 1401 sets the normal mode to ON, and moves the process to S442.

  In S442, the CPU 1401 sets the specific mode to OFF, and moves the process to S444.

  In S444, the CPU 1401 determines whether or not there is an end request. More specifically, the CPU 1401 determines whether a signal indicating that the end button has been pressed on the environment monitoring screen has been received from the input control unit 1406. If the CPU 1401 determines that there is an end request, it moves the process to S446, and if it determines that there is no end request, it moves the process to S430.

  In S446, the CPU 1401 sets the end mode to ON, and moves the process to S430.

FIG. 58 is a diagram showing an example of the environment monitoring screen (environment monitoring screen 1870) displayed when the PTS imaging display menu is selected in the main menu.
The environment monitoring screen 1870 includes a plurality of buttons 1821 to 1824, a floor map 1873, and a video display area 1872.

  On the floor map 1873, an imaging range icon 1871 corresponding to the PTS terminal 700 that acquired the video displayed in the video display area 1872 is displayed. With the imaging range icon 1871, it is possible to know at a glance where in the wide range of casinos are being shot.

  When the gaming machine icon on the floor map is selected and operated, the video displayed in the video display area 1829 is changed from the current video to the video acquired by the PTS terminal 700 corresponding to the gaming machine icon (frame in this example). The video is switched and displayed continuously.

In addition, the structure which switches an image | video is not restricted to the above-mentioned structure. For example, it may be configured to switch by inputting a device identification code.
According to this configuration, it becomes possible to quickly and accurately acquire imaging information of a specific gaming machine.

In addition, for example, by clicking a desired place on the floor map, the PTS terminal 700 (gaming machine) arranged closest to the place is identified and switched to the video of the PTS terminal 700. Also good.
According to this configuration, it is possible to easily acquire an image of a desired place.

In addition, for example, by clicking a desired place on the floor map, the PTS terminal 700 arranged near the place (the PTS terminal 700 included in a certain range may be used, or the distance is closer) A configuration may be adopted in which a predetermined number of PTS terminals 700) are listed and switched to the video of the PTS terminals 700.
In this configuration, video candidates at a desired place are sequentially displayed on the LCD 1408. For example, according to a video candidate, it becomes possible to cover the environment in a desired place. Also, for example, according to the video candidates, it is possible to efficiently narrow down the video that is desired to be acquired in a desired place.

  The video surveillance service has been described by taking the PTS terminal 700 (gaming machine) as an example, but the description is omitted because the signage 100 and the kiosk terminal 200 are the same.

<Third Embodiment>
In this embodiment, a switching method and a display method of imaging information acquired by the monitoring cameras 1611 to 1613 will be mainly described with reference to FIGS. 59 and 60. In this embodiment, a configuration different from the configuration shown in the first embodiment will be mainly described, and the same reference numerals are used for the same configurations as the configurations shown in the first embodiment, and the description will be appropriately described. Omitted.

[Monitoring camera service]
FIG. 59 is an example of a sequence showing a flow of imaging information switching processing in the surveillance camera service. This sequence shows the flow of processing that can be performed following SQ32 in FIG.

  In SQ120, when a view range icon selection operation is performed on the monitoring camera screen, a specific request is transmitted to the monitoring server 14. At this time, the input control unit 1406 to which the mouse 1410 or the like is connected transmits a signal that can identify the coordinates of the view range icon that has been selected and operated. When the monitoring server 14 receives the specifying request, the monitoring server 14 specifies the monitoring camera having the view range at the specified position, and gives an instruction (specific instruction) to the imaging storage control device 1601 to acquire the imaging information of the specified monitoring camera. Send. The monitoring server 14 transmits the device identification code of the designated monitoring camera together with the specifying instruction.

When the image storage control device 1601 receives the specific instruction and the device identification code of the monitoring camera, the image storage control device 1601 performs switching processing for transmitting the imaging information that has been switched and transmitted in a predetermined time to the imaging information of the designated monitoring camera (SQ122 ).
The image storage control device 1601 transmits the designated imaging information to the monitoring server 14.
When receiving the imaging information, the monitoring server 14 uses the received imaging information as image information, and transmits the image information to another LCD 1411 different from the LCD 1408 connected to the monitoring server 14.

  The LCD 1411 receives the image information and displays a screen (monitoring camera video display screen) (SQ124). Note that the monitoring camera screen is displayed on the LCD 1408, and the shooting content of the designated monitoring camera is continuously displayed on the LCD 1411.

  FIG. 60 is a diagram illustrating an example of a flowchart relating to the monitoring camera switching process. Note that S450, S452, S454, S456, S464, and S466 are the same processes as S250, S252, S254, S256, S262, and S264 in FIG.

  In S458, the CPU 1401 determines whether or not the specific mode is ON. If the CPU 1401 determines that the specific mode is ON, the process proceeds to S460. If the CPU 1401 determines that the specific mode is OFF, the process proceeds to S466.

  In S460, the CPU 1401 identifies a monitoring camera having a view range icon including the coordinates based on the coordinates of the position designated by the user operation. When the CPU 1401 ends this process, the process proceeds to S462.

  In step S462, the CPU 1401 requests the image storage control device 1601 for the imaging information of the specified surveillance camera (sends a specific instruction). When the CPU 1401 ends this process, the process proceeds to S464. In addition, when the location where a visual field range overlaps is designated, the imaging information of the monitoring camera of each visual field range will be acquired.

In S465, the CPU 1401 performs screen display control. More specifically, the CPU 1401 outputs to the graphic board 1405 an instruction to display on the LCD 1411 a monitoring camera video display screen that displays imaging information stored in the external storage device 1404. When the CPU 1401 ends this process, the process proceeds to S466.
Note that the LCD 1411 may be configured to sequentially switch the imaging information, or may be configured to simultaneously display each imaging information on a plurality of divided screens.

According to the above-described configuration, the imaging information designating the view range can be displayed on a display different from the floor map.
According to this configuration, the designated imaging information can be confirmed on another display without changing the size of the floor map or displaying the imaging information superimposed on the floor map.

<Fourth Embodiment>
In the present embodiment, a method for displaying information associated with a member will be mainly described with reference to FIGS. 61 and 62. In this embodiment, a configuration different from the configuration shown in the first embodiment will be mainly described, and the same reference numerals are used for the same configurations as the configurations shown in the first embodiment, and the description will be appropriately described. Omitted.

[Related party display service]
FIG. 61 is an example of a sequence showing the flow of the display change process of the related party display service. This sequence shows the flow of processing that can be performed following SQ48 in FIG.
In SQ <b> 130, when an operation of selecting a logged-in machine icon is performed on the related person display screen, an association request is transmitted to the monitoring server 14. At this time, the input control unit 1406 to which the mouse 1410 or the like is connected transmits a signal that can identify the coordinates of the machine icon that has been selected and operated.

  Upon receiving the association request, the monitoring server 14 identifies the gaming machine and the member at the designated position, and identifies the parties associated with the identified member (SQ132).

  The monitoring server 14 generates a floor map in such a manner that the identified members and related parties are highlighted (SQ134). The monitoring server 14 transmits the generated image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (related party display screen) (SQ136).

  FIG. 62 is a diagram illustrating an example of a flowchart relating to a related party display process. Note that S290 to S302 are the same processing as in FIG.

  In S470, the CPU 1401 determines whether the specific mode is ON. If the CPU 1401 determines that the specific mode is ON, the process proceeds to S472. If the CPU 1401 determines that the specific mode is OFF, the process proceeds to S476.

  In S472, the CPU 1401 specifies the member identification code of the member related to the designated machine icon. More specifically, the CPU 1401 refers to the address management table, identifies the device identification code indicating the machine icon at the coordinates specified by the user operation, and refers to the login management table to identify the member corresponding to the device identification code. Identify the code. When the CPU 1401 ends this process, the process proceeds to S474.

  In S474, the CPU 1401 sets the specific mode to OFF, and moves the process to S290.

  In S476, the CPU 1401 determines whether or not the normal mode is ON. If the CPU 1401 determines that the normal mode is ON, the process proceeds to S290. If the CPU 1401 determines that the normal mode is OFF, the process proceeds to S470.

According to the above-described configuration, by specifying a machine icon during login in the floor map, a target (friend, family, etc.) related to the device (member) is highlighted.
That is, it becomes possible to easily grasp not only the latest logged-in member but also the related object for the member who has logged in in the past.
Although illustration is omitted, in the interrupt processing, the normal mode is set to ON when the latest login status display button is pressed (the specific mode is set to OFF), and the machine icon is specified for the specific mode. Is set to ON (normal mode is set to OFF).

<Fifth Embodiment>
In the present embodiment, the history display of device status will be mainly described with reference to FIG. In this embodiment, a configuration different from the configuration shown in the first embodiment will be mainly described, and the same reference numerals are used for the same configurations as the configurations shown in the first embodiment, and the description will be appropriately described. Omitted.

[Device status display service]
FIG. 63 is an example of a sequence showing a series of flows of the device status display service. The main flow of device status history display will be described using this sequence. The monitoring server 14 transmits status information indicating the status (status) of the gaming machine from the PTS terminal 700 and is stored in the device status history table of the external storage device 1404 (SQ140, SQ142, SQ144, SQ152, SQ154, SQ156).
Note that SQ146, SQ148, SQ150, SQ158, and SQ160 are the same as SQ50, SQ52, SQ54, SQ56, and SQ58 in FIG.

  In SQ162, when a time is specified on the device status display screen and a history display button is selected, a history request is transmitted to the monitoring server 14. At this time, the input control unit 1406 to which the mouse 1410 or the like is connected transmits a signal that can identify the designated time when the selection operation is performed. When receiving the history request, the monitoring server 14 refers to the device status history table, acquires the device status of each gaming machine at the specified time, and generates a floor map in which the device status is mapped (SQ164). The monitoring server 14 transmits the generated image information to the LCD 1408.

  The LCD 1408 receives the image information and displays a screen (device status display screen) (SQ166).

  According to the above configuration, the device status can be grasped in real time, and the past device status can be grasped as necessary.

  The configurations shown in the first to fifth embodiments can be appropriately combined.

  In the above-described embodiment, the game hall has been described as an example. However, the present invention is not limited to this, and the present invention can be applied to other facilities other than an amusement facility such as a game hall. For example, commercial facilities such as shopping centers including department stores, department stores, and outlet malls, and complex commercial facilities that are buildings / areas where multiple facilities such as restaurants and movie theaters gather in addition to such commercial facilities and amusement facilities Can be applied to. For example, the present invention can be applied to facilities such as hotels, airports, and stations.

  The embodiment of the present invention has been described above, but only specific examples are illustrated, and the present invention is not particularly limited. The specific configuration of each unit and the like can be appropriately changed. The effects described in the embodiments of the present invention are only the most preferable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. is not.

  Further, in the above detailed description, the characteristic portions have been mainly described so that the present invention can be easily understood. The present invention is not limited to the embodiments described in the detailed description above, but can be applied to other embodiments, and the scope of application is various. The terms and terminology used in the present specification are used to describe the present invention accurately, and are not used to limit the interpretation of the present invention. Moreover, it would be easy for those skilled in the art to infer other configurations, systems, methods, and the like included in the concept of the present invention from the concept of the invention described in this specification. Accordingly, the description of the claims should be regarded as including an equivalent configuration without departing from the scope of the technical idea of the present invention. In addition, the purpose of the abstract is to simplify the technical contents and essence of this application by patent offices and general public institutions, and engineers belonging to this technical field who are not familiar with patents, legal terms or technical terms. It is intended to be able to make a quick determination through a simple survey. Therefore, the abstract is not intended to limit the scope of the invention to be evaluated by the description of the scope of claims. Moreover, in order to fully understand the object of the present invention and the specific effects of the present invention, it is desired that the interpretation should be made with sufficient consideration of the literatures already disclosed.

  The above detailed description includes processing executed by a computer. The above description and expression are described for the purpose of enabling those skilled in the art to understand the most efficiently. In this specification, each step used to derive one result should be understood as a self-consistent process. In each step, transmission / reception, recording, and the like of electrical or magnetic signals are performed. In the processing in each step, such a signal is expressed by bits, values, symbols, characters, terms, numbers, etc., but these are used only for convenience of explanation. There is a need. In addition, the processing in each step may be described in an expression common to human behavior, but the processing described in this specification is executed by various devices in principle. Further, other configurations required for performing each step will be apparent from the above description.

1 game system 14 monitoring server 100 signage 200 kiosk terminal 1010 slot machine 1700 PTS terminal

Claims (4)

An interface capable of receiving imaging information of each of a plurality of imaging devices installed in a game hall;
The field-of-view information indicating the field-of-view range of each of the plurality of imaging devices is mapped to the floor map indicating the game field, and the field-of-view information related to the field-of-view related to the image-capturing information is related to the field-of-view information received by the interface. And a controller that performs image processing for generating the floor map in an aspect. The controller generates the floor map in a manner in which each icon of the plurality of imaging devices is mapped,
When any of the icons is designated in response to a user operation, the interface transmits an instruction to request imaging information to the imaging device corresponding to the designated icon, and the imaging device sends the instruction to the imaging device. The information processing apparatus according to claim 1, wherein imaging information is received.   When any one of the respective viewing ranges is designated in response to a user operation, the interface transmits an instruction to request imaging information to an imaging device corresponding to the designated viewing range, and the imaging device The information processing apparatus according to claim 1, wherein the imaging information is received from the information processing apparatus. In the game hall, a plurality of gaming machines are installed,
Each of the plurality of gaming machines is mapped to the floor map,
The interface receives abnormality information from an abnormal gaming machine among the plurality of gaming machines,
The information processing apparatus according to claim 1, wherein the controller generates the floor map in such a manner that the gaming machine in the abnormal state can be distinguished from other gaming machines.

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