JP2018166311A - Information setting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten the setting time of setting information used in wireless communication. An information setting method is an information setting method for setting AP-IDs of access points 2 accessed by a plurality of communication terminals 1 on a plurality of communication terminals 1, and the same setting SSIDs are stored in advance. The identification information acquisition step in which one communication terminal 1-1 of the plurality of communication terminals 1 acquires the AP-ID, and the communication terminal 1-2 different from the communication terminal 1-1 of the plurality of communication terminals 1 An access step for accessing the communication terminal 1-1 using the setting SSID, a notification step for the communication terminal 1-1 notifying the accessing communication terminal 1-2 of the AP-ID, and a communication terminal 1-2 It has a storage step for storing the AP-ID. [Selection diagram] Fig. 1

Description

  The present invention relates to an information setting method for setting identification information used for wireless communication.

  Conventionally, in order for a communication terminal to connect to a wireless LAN (Local Area Network) access point, an SSID (Service Set Identifier) of the access point is set in the communication terminal, and the set SSID is transmitted from the communication terminal to the access point. A method is known (see, for example, Patent Document 1).

Japanese Patent Laying-Open No. 2015-139032

  Conventionally, it has been necessary for a user to set the SSID of an access point for each communication terminal to be connected to the access point. When the number of communication terminals is small, it is not difficult to set SSIDs one by one. However, when the number of communication terminals is large, it takes a long time to set the SSID one by one, and when a setting error occurs and a communication failure occurs, it is extremely difficult to identify the cause. For example, in a game arcade such as a pachinko parlor, setting an SSID hundreds of times in order to allow hundreds of gaming machines to access a server via an access point has been a difficult task. .

  Therefore, the present invention has been made in view of these points, and an object thereof is to provide an information setting method for shortening the setting time of setting information used in wireless communication.

  The information setting method of the present invention is an information setting method for setting, in a plurality of communication terminals, first identification information of a parent device accessed by the plurality of communication terminals, wherein the same second identification information is stored in advance. An identification information acquisition step in which one first communication terminal among the plurality of communication terminals acquires the first identification information, and a second communication terminal different from the first communication terminal among the plurality of communication terminals includes the first communication terminal An access step of accessing the first communication terminal using two identification information, a notification step of notifying the first identification information to the second communication terminal from which the first communication terminal has accessed, and the second communication A storage step in which the terminal stores the first identification information.

  The information setting method further includes a list acquisition step in which the first communication terminal acquires a first list including a plurality of terminal information unique to at least some of the plurality of communication terminals. In the notification step, the first communication terminal notifies the first identification information to the second communication terminal corresponding to at least one of the plurality of terminal information included in the first list. May be.

  In the information setting method, the first communication terminal creates a second list including part of terminal information of the plurality of terminal information included in the first list; and A step of notifying the second communication terminal; and a step of the second communication terminal notifying the first identification information to a third communication terminal whose terminal information is included in the second list. May be.

  The plurality of communication terminals store a plurality of the second identification information, and in the access step, the first communication terminal uses the second identification information selected from the plurality of second identification information. May be accessed.

  In addition, the information setting method includes a step in which the first communication terminal starts an operation in the master mode before the access step, and the number of communication terminals to be notified of the first identification information. Obtaining a certain number of notification targets, and after the first communication terminal notifies the first communication information to the number of the second communication terminals equal to the number of notification targets, the first communication You may further have the step which switches a terminal to handset mode.

  In the information setting method, before the access step, the first communication terminal starts an operation in a master mode, and the first communication terminal sends the first identification information to the second communication terminal. When notifying, the step of switching the first communication terminal to the slave mode, the step of switching the second communication terminal to the master mode after the second communication terminal receives the first identification information, An access step in which a third communication terminal different from the second communication terminal among the plurality of communication terminals accesses the second communication terminal using the second identification information, and the second communication terminal has accessed A notification step of notifying the third communication terminal of the first identification information.

  According to the present invention, it is possible to shorten the setting time for setting information used in wireless communication.

It is a figure for demonstrating the outline | summary of the communication system of 1st Embodiment. It is a figure which shows the structure of a communication terminal. It is a flowchart of operation | movement of the communication terminal set to the main | base station mode. It is a flowchart of operation | movement of each of several communication terminals 1 other than the communication terminal set to the main | base station mode. It is a figure which shows the communication sequence at the time of setting AP-ID to a some communication terminal. It is a figure for demonstrating the outline | summary of the information setting method in the communication system of 2nd Embodiment. It is a figure which shows an example of the list | wrist which the communication terminal set to the main | base station mode acquires. It is a figure which shows the 1st list and 2nd list after a communication terminal produces the 2nd list. It is a figure which shows the communication sequence in the communication system of 3rd Embodiment.

<First Embodiment>
FIG. 1 is a diagram for explaining an overview of a communication system S according to the first embodiment. The communication system S includes a plurality of communication terminals 1 (1-1 to 1-n, n is a natural number), a wireless LAN access point 2, and a server 3. FIG. 1A shows a state in which processing for setting the SSID (hereinafter referred to as AP-ID) of the access point 2 is executed in an initial state where a plurality of communication terminals 1 cannot communicate with the access point 2. AP-ID is first identification information of a device that functions as a base unit of a wireless LAN. FIG. 1B shows a state in which a plurality of communication terminals 1 have acquired an AP-ID and each is transmitting and receiving data to and from the access point 2.

  The communication terminal 1 is a terminal that transmits and receives data to and from the server 3 via the access point 2 using a wireless LAN communication channel. The communication terminal 1 is, for example, an inter-table device for controlling a gaming machine in a game arcade, receives the number of balls that can be used in the gaming machine from the server 3, and pays out the number of balls received. It is possible to play with.

  Each of the plurality of communication terminals 1 does not recognize the AP-ID in the initial state, and the same setting SSID is written in advance in an internal nonvolatile memory (for example, EEPROM) at the time of factory shipment. The setting SSID is second identification information used for setting the AP-ID of the access point 2 with which the plurality of communication terminals 1 communicate in a place where the plurality of communication terminals 1 are installed. An operator (hereinafter referred to as a user) who installs a plurality of communication terminals 1 sets one of the plurality of communication terminals 1 (for example, the communication terminal 1-1) as a parent device when installing the plurality of communication terminals 1. Set to mode and enter AP-ID.

  When the other plurality of communication terminals 1 are activated, the other plurality of communication terminals 1 start to operate in the slave mode, and are set to the master mode using the setting SSID stored in the internal nonvolatile memory. The communication terminal 1-1 is accessed. The other communication terminals 1 transmit a message requesting an AP-ID (hereinafter referred to as an AP-ID request) to the communication terminal 1-1, and the communication terminal 1-1 communicates with a plurality of other communications. The AP-ID is transmitted to the terminal 1. The communication terminal 1-1 notifies the AP-ID to a plurality of other communication terminals 1 that have accessed. The plurality of communication terminals 1 acquire the AP-ID from the communication terminal 1-1 and store the acquired AP-ID. Thereafter, the plurality of communication terminals 1 become communicable with the access point 2.

The access point 2 transmits / receives data to / from the plurality of communication terminals 1 after the plurality of communication terminals 1 acquire the AP-ID. The access point 2 has a LAN interface, and transmits / receives data to / from the server 3 via the LAN.
The server 3 stores various data used for the communication terminal 1 to control the gaming machine, and provides the data to the communication terminal 1 in response to a request from the communication terminal 1.

[Configuration of communication terminal 1]
FIG. 2 is a diagram illustrating a configuration of the communication terminal 1. The communication terminal 1 includes a communication unit 11, a display unit 12, an operation unit 13, an external connection unit 14, a storage unit 15, and a control unit 16.

  The communication unit 11 is a communication interface for transmitting and receiving data to and from the communication terminal 1. The communication unit 11 includes a high frequency circuit and a wireless communication controller. The communication unit 11 transmits a radio wave including data input from the operation unit 13, extracts data included in the radio wave received from the communication terminal 1, and inputs the data to the control unit 16.

  The display unit 12 is configured by, for example, a liquid crystal display and a light emitting diode. The display unit 12 displays various types of information notified to the user. The display unit 12 displays, for example, a mode setting screen for setting whether to operate the communication terminal 1 as a parent device mode or a child device mode. Further, the display unit 12 displays an ID input screen for setting the SSID of the access point to be connected.

  The operation unit 13 is a device for a user to input information for setting the operation mode of the communication terminal 1, and is, for example, an infrared receiving device of a remote control or a touch panel. The user can set the communication terminal 1 to the master mode by operating the remote controller or touching the master mode selection image on the mode setting screen displayed on the display unit 12. In addition, the user inputs the AP-ID and the number of other communication terminals 1 for which the AP-ID is to be set by operating the remote controller or touching the keyboard image in the ID input screen. be able to.

  The external connection unit 14 is an interface for connecting to an external device. The external connection unit 14 is, for example, a USB (Universal Serial Bus) interface, and can send and receive data to and from a computer via a cable. The external connection unit 14 notifies the control unit 16 of data input from an external device.

  The storage unit 15 is a storage medium such as an EEPROM and a RAM (Random Access Memory). The storage unit 15 stores a program executed by the control unit 16. The storage unit 15 stores a setting SSID set at the time of factory shipment.

  The control unit 16 is, for example, a CPU (Central Processing Unit). The control unit 16 controls each unit of the communication terminal 1 by executing a program stored in the storage unit 15. The control unit 16 operates in the slave mode immediately after the communication terminal 1 is turned on, reads the setting SSID stored in the storage unit 15, and transmits an AP-ID request including the setting SSID. When the control unit 16 receives an AP-ID from the communication terminal 1 set in the parent device mode (the communication terminal 1-1 in FIG. 1), the control unit 16 uses the AP-ID as the SSID of the parent device. Data is transmitted to and received from the access point 2. In order to reduce the probability of transmitting the AP-ID request simultaneously with the other communication terminals 1, the control unit 16 may transmit the AP-ID request after a random time has elapsed since the operation started.

  When the control unit 16 is set to the parent device mode using the operation unit 13, the control unit 16 reads the setting SSID stored in the storage unit 15 and operates as a parent device using the setting SSID as its own SSID. Specifically, when the control unit 16 receives an AP-ID request message including a setting SSID from another communication terminal 1 set in the slave mode, the AP-ID input using the operation unit 13 is received. And the AP-ID is transmitted to the communication terminal 1 that has transmitted the AP-ID request via the communication unit 11.

  When transmitting the AP-ID to the other communication terminals 1 set using the operation unit 13, the control unit 16 switches its own mode to the slave mode. Thereafter, the control unit 16 transmits / receives data to / from the access point 2 using the AP-ID.

[Flowchart of operation of communication terminal 1-1]
FIG. 3 is a flowchart of the operation of the communication terminal 1-1 set to the master mode.
When the user changes the setting to the master mode (S11), the control unit 16 of the communication terminal 1-1 displays a screen for inputting the AP-ID of the access point 2 on the display unit 12, and the operation unit AP-ID is acquired via 13 (S12). Moreover, the control part 16 displays the screen for inputting the number of the other communication terminals 1 used as the object for setting AP-ID on the display part 12, and acquires setting number via the operation part 13 ( S13). Moreover, the control part 16 initializes the transmission number variable used in order to count the transmission number which is the number of the communication terminals 1 which notified AP-ID (S14).

  Subsequently, the control unit 16 reads the setting SSID stored in the storage unit 15 and starts transmitting a beacon including the setting SSID (S15). When receiving the AP-ID request from the other communication terminal 1 (YES in S16), the control unit 16 transmits the AP-ID to the other communication terminal 1 that has transmitted the AP-ID request (S17). The number of transmissions is updated by adding 1 to the number variable (S18).

  Subsequently, the control unit 16 determines whether or not the number of transmissions updated in step S18 matches the set number acquired in step S13 (S19). If the number of transmissions does not reach the set number (NO in S19), the control unit 16 returns to step S16 and repeats steps S16 to S19 until the number of transmissions indicated by the transmission number variable matches the set number. .

  When it is determined in step S19 that the number of transmissions matches the set number (YES in S19), control unit 16 stops beacon transmission and changes to the slave mode (S20). Thereafter, the control unit 16 starts communication with the access point 2 using the AP-ID.

[Flowchart of operation of communication terminal 1 other than communication terminal 1-1]
FIG. 4 is a flowchart of the operation of each of the plurality of communication terminals 1 other than the communication terminal 1-1 set to the parent device mode. The communication terminal 1 operates in the slave mode when the power is turned on, and the control unit 16 reads the setting SSID stored in the storage unit 15 in advance (S21) and detects a beacon including the setting SSID. Is started (S22).

  Subsequently, the control unit 16 determines whether or not a beacon including the setting SSID is detected (S22). When it is determined that the beacon including the setting SSID is detected (YES in S22), the control unit 16 transmits an AP-ID request including the setting SSID (S23). When receiving the AP-ID transmitted from the communication terminal 1-1 (S24), the control unit 16 stores the received AP-ID in the storage unit 15 (S25). Thereafter, the control unit 16 starts communication with the access point 2 using the AP-ID.

  When the control unit 16 does not detect the beacon including the setting SSID in step S22, the control unit 16 determines whether a predetermined time has elapsed since the start of detection of the beacon (S27). Normally, when the communication terminal 1 is installed, the communication terminal 1-1 to be set to the parent device mode is started and then the other communication terminal 1 is started. What is necessary is just more than the delay time after communication terminal 1-1 starts transmission of a beacon after setting 1.

  If it is determined in step S27 that the predetermined time has not elapsed (NO in S27), the control unit 16 returns to step S22 and continues monitoring the beacon including the setting SSID. When it is determined in step S27 that the predetermined time has elapsed (YES in S27), the control unit 16 displays information indicating that an error has occurred on the display unit 12 (S28).

[Communication Sequence of Communication System S]
FIG. 5 is a diagram showing a communication sequence when AP-IDs are set for a plurality of communication terminals 1. In FIG. 5, the same processes as those in FIG. 3 are denoted by the same reference numerals.
When the communication terminal 1-1 changes the setting to the master mode (S11) and acquires the AP-ID (S12), the communication terminal 1-1 starts transmitting a beacon including the setting SSID (S15).

  Subsequently, when the communication terminal 1-2 transmits an AP-ID request, the communication terminal 1-1 transmits an AP-ID to the communication terminal 1-2, and the communication terminal 1-2 performs data communication with the access point 2. To start. When the communication terminal 1-3 transmits an AP-ID request, the communication terminal 1-1 transmits an AP-ID to the communication terminal 1-3, and the communication terminal 1-3 performs data communication with the access point 2. Start.

  Thereafter, the communication terminals 1 other than the communication terminal 1-2 and the communication terminal 1-3 also transmit an AP-ID request, and the communication terminal 1-1 transmits an AP-ID to each communication terminal 1, The communication terminal 1 starts data communication with the access point 2. When the communication terminal 1-1 transmits AP-IDs to the number of communication terminals 1 equal to the set number (YES in S19), the communication terminal 1-1 changes its own mode to the slave mode (S20), and the access point 2 Start data communication.

[Modification]
In the above description, the user inputs the number of communication terminals 1 to be set in the communication terminal 1-1, and the communication terminal 1-1 receives the AP- Although it has been confirmed whether or not the ID has been transmitted, the number of communication terminals 1 to be set by the user may not be input. In this case, after the communication terminal 1-1 receives the AP-ID request, the communication terminal 1-1 does not receive the AP-ID request for a predetermined time (for example, the time required to turn on all the other communication terminals 1). You may switch to handset mode when it has passed. Further, the communication terminal 1-1 may continue the operation in the parent device mode until the user changes the setting to the child device mode.

[Effects of Information Setting Method of First Embodiment]
As described above, in the information setting method of the first embodiment, first, the communication terminal 1-1 acquires the AP-ID (first identification information) of the access point 2 by a user operation. Subsequently, the plurality of other communication terminals 1 of the communication terminal 1-1 access the communication terminal 1-1 using the setting SSID (second identification information) stored in advance. And the communication terminal 1-1 notifies AP-ID to each of the other several communication terminal 1 which has accessed. The other plurality of communication terminals 1 store the notified AP-ID and can access the access point 2 thereafter.

  By using the above information setting method, the user can set the AP-ID to all other communication terminals 1 by inputting the AP-ID to the communication terminal 1-1. Can be greatly shortened. Further, if the AP-ID set by the user in the communication terminal 1-1 is correct, the correct AP-ID can be set in all the other communication terminals 1, so that the probability of setting mistakes can be lowered. it can.

<Second Embodiment>
In the first embodiment, the communication terminal 1-1 is set to the parent device mode, and the communication terminal 1-1 notifies the other communication terminal 1 of the AP-ID. On the other hand, in the second embodiment, the plurality of communication terminals 1 are set to the master mode, and the plurality of communication terminals 1 notify the other communication terminals 1 of the AP-ID in parallel. This is different from the first embodiment.

  FIG. 6 is a diagram for explaining an overview of an information setting method in the communication system S according to the second embodiment. FIG. 6 shows a state in which the communication terminal 1-1 and the communication terminal 1-2 are set to the master mode. The communication terminal 1-1 transmits a beacon including the first setting SSID, and the communication terminal 1-2 transmits a beacon including the second setting SSID.

  The storage unit 15 of each communication terminal 1 stores a first setting SSID and a second setting SSID in advance. A plurality of communication terminals 1 other than the communication terminal 1-1 and the communication terminal 1-2 transmit an AP-ID request including one setting SSID selected from the first setting SSID and the second setting SSID. The AP-ID notification is received from either the communication terminal 1-1 or the communication terminal 1-2.

  It is arbitrary whether the plurality of communication terminals 1 use the first setting SSID or the second setting SSID. For example, the plurality of communication terminals 1 are serial numbers stored in their storage unit 15. One of the first setting SSID and the second setting SSID is selected depending on whether is an odd number or an even number. The plurality of communication terminals 1 may generate a random number and select either the first setting SSID or the second setting SSID depending on whether the generated random number is odd or even. By doing so, the load of the plurality of communication terminals 1 (communication terminal 1-1 and communication terminal 1-2 in FIG. 6) set to the master mode is distributed, and the AP-ID setting time is shortened. can do.

  In addition, after a plurality of communication terminals 1 transmit an AP-ID request including one of the first setting SSID and the second setting SSID, the AP-ID is not changed even if a predetermined time (for example, 10 seconds) elapses. If it cannot be received, an AP-ID request including the other setting SSID may be transmitted. By doing in this way, when either load of communication terminal 1-1 and communication terminal 1-2 is high, load can be distributed.

  In the above description, the communication terminal 1-1 and the communication terminal 1-2 are set to the master mode, but the number of communication terminals 1 set to the master mode and The number of setting SSIDs stored in the storage unit 15 is arbitrary. Even when the number of communication terminals 1 set in the master mode is three or more, it is possible to set AP-IDs in all communication terminals 1 by the same method as described with reference to FIG. It is clear to the contractor.

[Effects of Information Setting Method of Second Embodiment]
In the information setting method of the second embodiment, a plurality of communication terminals 1 may be set to the master mode, and the plurality of communication terminals 1 may notify AP-IDs to the other communication terminals 1 in parallel. it can. With such a configuration, the time required to set the AP-ID for all communication terminals 1 can be shortened. For example, when two communication terminals 1 are set to the master mode as in the example shown in FIG. 6, AP-IDs are assigned to all the communication terminals 1 in about half the time compared to the example shown in FIG. 1. Can be set.

<Third Embodiment>
In the first embodiment and the second embodiment, the user sets a part of the communication terminals 1 to the master mode, and sets the AP-ID and AP-ID to the communication terminals 1 set to the master mode. The number of communication terminals 1 to be set is input. In 3rd Embodiment, the communication terminal 1 set to the main | base station mode is terminal information (henceforth, hereinafter) specific to at least some communication terminals 1 of the some communication terminal 1 used as the object which sets AP-ID. The communication terminal 1 that has acquired the list notifies the AP-ID to the communication terminal 1 corresponding to at least one terminal ID among the plurality of terminal IDs included in the list. This is different from the first embodiment.

  FIG. 7 is a diagram illustrating an example of a list acquired by the communication terminal 1 set to the parent device mode. The list shown in FIG. 7 includes the terminal IDs of the plurality of communication terminals 1. In the list of FIG. 7, the encryption key is associated with the terminal ID, but the list may not include the encryption key.

  The list shown in FIG. 7A is a first list that is input to the communication terminal 1-1 via the external connection unit 14 of the communication terminal 1-1 that is created by a user, for example, and set to the parent device mode. is there. When acquiring the first list, the communication terminal 1-1 monitors an AP-ID request from another communication terminal 1 included in the first list. Upon receiving the AP-ID request, the communication terminal 1-1 transmits the AP-ID to the communication terminal 1 that has transmitted the AP-ID request, and the communication terminal 1 that has completed the transmission of the AP-ID from the first list. delete. The communication terminal 1-1 changes the setting to the slave mode when the deletion of all the communication terminals 1 included in the first list is completed.

  The communication terminal 1-1 creates a second list including the terminal IDs of some of the communication terminals 1 in the acquired first list, and the created second list is used as another communication terminal 1 (for example, the communication terminal 1-2). ). For example, the communication terminal 1-1 extracts half of a plurality of communication terminals 1 whose terminal ID is included in the first list, and creates a second list including the extracted terminal ID. In addition, the communication terminal 1-1 updates the first list by deleting the extracted terminal ID from the first list.

  The communication terminal 1-1 notifies the AP-ID to the other communication terminal 1 having the terminal ID included in the updated first list. When the communication terminal 1-1 notifies AP-ID to the communication terminal 1 corresponding to all the terminal IDs included in the updated first list, the communication terminal 1-1 switches to the handset mode and communicates with the access point 2. Start data communication. For example, the communication terminal 1-1 notifies the server 3 that the transmission of the AP-ID to all the communication terminals 1 included in the first list is completed via the access point 2. By doing in this way, the user can check the progress of the setting of the AP-ID via the server 3 even at a remote location.

  FIG. 8 is a diagram illustrating the first list and the second list after the communication terminal 1-1 has created the second list. FIG. 8A is a first list created by deleting sks01230001, which is the terminal ID of the communication terminal 1-1 itself, and the terminal ID having an even end from the first list shown in FIG. FIG. 8B is a second list created by extracting terminal IDs having an even end from the first list shown in FIG.

  FIG. 9 is a diagram illustrating a communication sequence in the communication system S of the third embodiment. In FIG. 9, the same processes as those in FIG.

  After changing to the parent mode (S11), the control unit 16 of the communication terminal 1-1 acquires the AP-ID (S12) and acquires the first list (S41). Subsequently, the control unit 16 of the communication terminal 1-1 creates a second list (S42), and when there is a request for AP-ID from the communication terminal 1-2, the AP-ID and the second list are transmitted to the communication terminal 1. -2. Thereafter, when the communication terminal 1-1 receives an AP-ID request from another communication terminal 1, the communication terminal 1-1 transmits the AP-ID to the communication terminal 1 that has transmitted the AP-ID request, and the communication terminal 1 is added to the first list. Delete from.

  When receiving the second list, the control unit 16 of the communication terminal 1-2 changes to the master mode (S51), and the communication terminal 1 (at least partially corresponding to the terminal IDs included in the second list) ( For example, when an AP-ID request is received from the communication terminal 1-3), the AP-ID is notified to the communication terminal 1 that has transmitted the AP-ID request. Further, the control unit 16 of the communication terminal 1-2 creates a third list including at least a part of the terminal IDs included in the second list, and sets the terminal IDs included in the third list to the second list. Delete from the list (S52).

  The control unit 16 of the communication terminal 1-2 transmits the created third list to the communication terminal 1-3, which is the communication terminal 1 other than the communication terminal 1-1 and the communication terminal 1-2. When the communication terminal 1-2 transmits the AP-ID to all the communication terminals 1 having the terminal IDs included in the second list, the communication terminal 1-2 switches to the slave mode and starts communication with the access point 2. .

  Note that the communication terminal 1-1 that is initially set to the master mode may divide the list acquired based on the number of setting SSIDs stored in the storage unit 15. For example, the control unit 16 of the communication terminal 1-1 creates a list of numbers corresponding to the number of setting SSIDs stored in the storage unit 15. Specifically, when the number of terminals to be set is 400 and there are four setting SSIDs, the control unit 16 of the communication terminal 1-1 uses the second list and the third list including 100 terminal IDs. And the 4th list is created and each is transmitted to communication terminal 1-2, communication terminal 1-3, and communication terminal 1-4. And the communication terminal 1-2, the communication terminal 1-3, and the communication terminal 1-4 change to the main | base station mode, and each is the communication terminal 1 of the terminal ID contained in a 2nd list | wrist, a 3rd list | wrist, and a 4th list | wrist. AP-ID is transmitted in response to an AP-ID request from.

[Modification]
In the above description, the example in which the communication terminal 1 that has received the list from the communication terminal 1 that operates in the parent device mode is switched to the parent device mode has been described, but the communication terminal 1 that operates in the child device mode has received the list. Without switching to the master mode in response to receiving the AP-ID. In this case, the communication terminal 1 operating in the master mode switches to the slave mode when the AP-ID is notified to one other communication terminal 1, for example, and starts data communication with the access point 2 To do. In this way, when a plurality of communication terminals 1 are sequentially switched to the master mode and transmit AP-IDs, one communication terminal 1 is in a radio wave environment where communication with all the communication terminals 1 is not possible. Even so, AP-IDs can be set for all communication terminals 1 by sequentially transmitting AP-IDs to nearby communication terminals 1.

[Effects of Information Setting Method of Third Embodiment]
In the information setting method according to the third embodiment, the communication terminal 1 set to the parent device mode acquires the list, divides the list, and transmits the list to the other communication terminals 1 to enter the parent device mode. Thus, the number of communication terminals 1 that transmit the AP-ID can be increased. By doing in this way, since several communication terminal 1 transmits AP-ID in parallel, time until it notifies AP-ID to all the communication terminals 1 can be shortened.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment, A various deformation | transformation and change are possible within the range of the summary. is there. For example, the specific embodiments of device distribution / integration are not limited to the above-described embodiments, and all or a part of them may be configured to be functionally or physically distributed / integrated in arbitrary units. Can do. In addition, new embodiments generated by any combination of a plurality of embodiments are also included in the embodiments of the present invention. The effect of the new embodiment produced by the combination has the effect of the original embodiment.

  For example, in the above description, the communication terminal 1 is exemplified as an inter-device connected to a gaming machine in a game arcade. However, the communication terminal 1 may be any terminal having a wireless communication function. Good.

DESCRIPTION OF SYMBOLS 1 Communication terminal 2 Access point 3 Server 11 Communication part 12 Display part 13 Operation part 14 External connection part 15 Storage part 16 Control part

Claims (6)

An information setting method for setting, in a plurality of communication terminals, first identification information of a parent device accessed by the plurality of communication terminals,
An identification information acquisition step in which one first communication terminal among the plurality of communication terminals in which the same second identification information is stored in advance acquires the first identification information;
An access step in which a second communication terminal different from the first communication terminal among the plurality of communication terminals accesses the first communication terminal using the second identification information;
A notification step in which the first communication terminal notifies the first identification information to the accessed second communication terminal;
A storage step in which the second communication terminal stores the first identification information;
An information setting method. The first communication terminal further includes a list acquisition step of acquiring a first list including a plurality of terminal information unique to at least some of the plurality of communication terminals;
In the notification step, the first communication terminal notifies the first identification information to the second communication terminal corresponding to at least one terminal information among the plurality of terminal information included in the first list. ,
The information setting method according to claim 1. The first communication terminal creating a second list including terminal information of a part of the plurality of terminal information included in the first list;
Notifying the second list to the second communication terminal;
The second communication terminal notifying the first identification information to a third communication terminal whose terminal information is included in the second list;
Further having
The information setting method according to claim 2. The plurality of communication terminals store a plurality of the second identification information,
In the access step, the first communication terminal is accessed using one second identification information selected from the plurality of second identification information.
The information setting method according to any one of claims 1 to 3. Before the access step,
Starting the operation of the first communication terminal in the master mode;
Obtaining a notification target number which is the number of communication terminals to be notified of the first identification information;
Further comprising
The first communication terminal further includes a step of switching the first communication terminal to a slave mode after notifying the first identification information to the number of the second communication terminals equal to the number to be notified.
The information setting method according to any one of claims 1 to 4. Before the access step,
Starting the operation of the first communication terminal in the master mode;
When the first communication terminal notifies the second communication terminal of the first identification information, the step of switching the first communication terminal to a slave mode;
After the second communication terminal receives the first identification information, switching the second communication terminal to a parent mode;
An access step in which a third communication terminal different from the second communication terminal among the plurality of communication terminals accesses the second communication terminal using the second identification information;
A notification step in which the second communication terminal notifies the first identification information to the accessed third communication terminal;
Having
The information setting method according to any one of claims 1 to 4.

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