KR20200111155A - Wireless communication device - Google Patents

Abstract

The wireless communication device includes a wireless communication unit that performs wireless communication with a connection destination, a wired communication unit that performs wired communication with the connection destination through the interface unit, and a connection plate that determines whether or not the interface unit and the connection destination of the wired communication unit are connected. An operation mode setting unit for switching and setting the operation mode to a master unit mode and a repeater mode according to the result of the connection determination made by the government and the connection determination unit, and the operation mode setting unit includes an interface unit and an interface unit in connection determination. When it is determined that the connection destination is connected, the operation mode is set to the master unit mode, and in connection determination, when it is determined that the interface unit and the connection destination are not connected, the operation mode is set to the repeater mode.

Description

Wireless communication device

The present invention relates to a wireless communication device having a configuration capable of switching and setting an operation mode to a master unit mode and a repeater mode.

In a general wireless LAN (Local Area Network) system, as an operation mode, a wireless LAN access point having a master unit mode that functions as a master unit and a repeater mode that functions as a repeater that relays wireless LAN communication between the master unit and the slave unit. (Hereinafter, abbreviated as an access point) may be installed. Such an access point is configured to be able to switch the operation mode to a master unit mode and a repeater mode by means of a physical or software mode change switch, and function as a master unit or a repeater (see, for example, Patent Documents 1 and 2). ).

Japanese Unexamined Patent Publication No. 2013-157882 Japanese Unexamined Patent Publication No. 2007-150509

Here, in the case of installing an access point in an environment in which a wireless LAN system is used, conventionally, the installation worker of the access point needs to manually set the operation mode of the access point to a master unit mode or a repeater mode. Therefore, the installation worker may make a mistake in setting the operation mode of the access point. Such setting errors include, for example, a mistake where the operation mode of the access point should be set to the master unit mode by mistake, and the operation mode of the access point is changed from the master unit mode to the repeater mode. And misses forgotten.

The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a wireless communication device capable of appropriately automatically setting an operation mode according to an installation situation.

The wireless communication device in the present invention determines whether a wireless communication unit for performing wireless communication with a connection destination, a wired communication unit for performing wired communication with a connection destination through the interface unit, and an interface unit and a connection destination of the wired communication unit are connected. A connection determination unit that performs a connection determination, and an operation mode setting unit that switches and sets an operation mode to a master unit mode and a repeater mode according to a result of the connection determination performed by the connection determination unit, and the operation mode setting unit includes connection determination. When it is determined that the interface unit and the connection destination are connected, the operation mode is set to the master unit mode, and when it is determined that the interface unit and the connection destination are not connected, the operation mode is set to the repeater mode. It is set to

Advantageous Effects of Invention According to the present invention, it is possible to obtain a wireless communication device capable of automatically setting an operation mode appropriately according to the installation situation.

1 is a configuration diagram showing a wireless LAN system according to a first embodiment of the present invention.
Fig. 2 is a configuration diagram showing a wireless communication device according to the first embodiment of the present invention.
3 is a table showing an example of a condition definition table stored by the wireless communication device in the first embodiment of the present invention.
4 is a table showing an example of an operation mode determination table stored by the wireless communication device according to the first embodiment of the present invention.
Fig. 5 is a configuration diagram showing a situation in which operation modes of both wireless communication devices of the wireless LAN system according to the first embodiment of the present invention are not set.
6 is a flowchart showing a series of operations of connection determination performed by the connection determination unit of the wireless communication device according to the first embodiment of the present invention.
7 is a table showing an example of a condition definition table stored by the wireless communication device connected to the connection destination of FIG. 5.
FIG. 8 is a table showing an example of a condition definition table stored by a wireless communication device not connected to the connection destination of FIG. 5.
9 is a flowchart showing a series of operations of operation mode setting performed by the operation mode setting unit of the wireless communication device according to the first embodiment of the present invention.

Hereinafter, a wireless communication device according to the present invention will be described with reference to the drawings according to a preferred embodiment. In addition, in the description of the drawings, the same or corresponding portions are denoted by the same reference numerals, and overlapping descriptions are omitted.

Embodiment 1.

1 is a configuration diagram showing a wireless LAN system according to a first embodiment of the present invention. The wireless LAN system according to the first embodiment is configured with two wireless communication devices 1 and a slave unit 2.

In addition, in FIG. 1, in order to distinguish between two wireless communication devices 1, one wireless communication device 1 is indicated as a wireless communication device 1 (A), and the other wireless communication device 1 is designated as a wireless communication device 1 It is denoted as communication device 1(B). In addition, FIG. 1 illustrates a case where the operation mode of the radio communication device 1 (A) is set to the master unit mode, and the operation mode of the radio communication device 1 (B) is set to the repeater mode.

As shown in Fig. 1, a wireless communication device 1 (A) functioning as a master unit and a wireless communication device 1 (B) functioning as a repeater are wirelessly connected, and the wireless communication device 1 (B) and the slave unit 2 are connected. ) Are wirelessly connected.

In this case, even if the slave unit 2 does not enter the communication area of the wireless communication device 1 (A), wireless communication with the wireless communication device 1 (A) is possible through the wireless communication device 1 (B). Depending on the position of the slave unit 2, the connection destination of the slave unit is switched from the wireless communication device 1 (B) to the wireless communication device 1 (A), so that between the wireless communication device 1 (A) and the slave unit 2 In some cases, there is a wireless connection.

The wireless communication device 1 (A) is connected to each of the device X and the device Y via a LAN interface described later. For example, when the above-described wireless LAN system is applied to an elevator maintenance system, a communication device, a display device, and the like are connected to the LAN interface of the wireless communication device 1 (A) functioning as a master unit. Further, the wireless communication device 1(A) is connected to a higher level network such as the Internet via a WAN (Wide Area Network) interface to be described later. On the other hand, the wireless communication device 1 (B) is not connected to the connection destination via each of the LAN interface and the WAN interface.

In this way, the device and the host network are connected to the LAN interface and the WAN interface of the wireless communication device 1A functioning as a master unit, respectively. On the other hand, nothing is connected to the LAN interface and the WAN interface of the wireless communication device 1 (B) functioning as a repeater.

Next, the configuration of the wireless communication device 1 will be described with reference to FIG. 2. Fig. 2 is a configuration diagram showing a wireless communication device 1 according to the first embodiment of the present invention. The wireless communication device 1 includes, for example, a microcomputer that performs arithmetic processing, a ROM (Read Only Memory) that stores data such as program data and fixed value data, and updates the stored data in order. It is realized by a rewritten RAM (Random Access Memory) and a communication device.

As shown in Fig. 2, the wireless communication device 1 according to the first embodiment includes a wireless communication unit 11, a wired communication unit 12, a condition definition table 13, and an operation mode determination table 14. A storage unit (not shown) for storing the data is provided, a connection determination unit 15 and an operation mode setting unit 16 are provided.

The wireless communication unit 11 performs wireless communication with a connection destination. The wired communication unit 12 has an interface unit for communication connection with a connection destination, and performs wired communication with the connection destination through the interface unit.

The interface unit of the wired communication unit 12 mainly includes a LAN interface for communication connection with peripheral devices and the like, and a WAN interface mainly for communication connection with an upper network such as the Internet.

In addition, in Embodiment 1, although the case where the interface part is comprised including a LAN interface and a WAN interface is illustrated, it is not limited to this. That is, as long as the interface unit includes at least one of a LAN interface and a WAN interface, it may be configured in any way.

The storage unit stores the condition definition table 13 and the operation mode determination table 14. Here, an example of the condition definition table 13 will be described with reference to FIG. 3. 3 is a table showing an example of a condition definition table 13 stored by the wireless communication device 1 in the first embodiment of the present invention.

"#" shown in FIG. 3 represents information for identifying a condition, and here, the case where three conditions from "1" to "3" are registered is illustrated.

The "target interface" shown in Fig. 3 indicates an interface to be determined included in the interface unit, and a "LAN interface" or a "WAN interface" is registered for each condition.

The "state" shown in Fig. 3 indicates the connection state with the connection destination of the corresponding target interface, and "link-up", "link-down" or "IP" is selected for each condition. Is registered.

"Link up" indicates a state in which the corresponding target interface is connected to the connection destination. "Link down" indicates a state in which the corresponding target interface is not connected to the connection destination. "IP" indicates a state in which a corresponding target interface is connected to a device having a designated IP (Internet Protocol) address.

The "result" shown in Fig. 3 indicates whether the corresponding condition is satisfied or not, and for each condition, "consistent" or "disabled" is recorded.

As a specific example, in condition 1, "WAN interface" is registered as the target interface, and "link up" is registered as the connection state. In this case, when the WAN interface of the wired communication unit 12 is connected to the connection destination, condition 1 is established, and when the WAN interface is not connected to the connection destination, condition 1 is not established.

Further, in condition 2, "LAN interface" is registered as the target interface, and "IP" is registered as the connection state. In this case, when the LAN interface of the wired communication unit 12 is connected to a device having a specified IP address (here, "192.0.2.100", as illustrated in FIG. 3), condition 2 is satisfied, and When the LAN interface is not connected to the device, condition 2 is not satisfied.

Further, in condition 3, "LAN interface" is registered as the target interface, and "link down" is registered as the connection state. In this case, when the LAN interface of the wired communication unit 12 is not connected to the connection destination, the condition 3 is satisfied, and when the LAN interface is connected to the connection destination, the condition 3 is not satisfied.

In addition, immediately after the start-up of the wireless communication device 1, the "result" corresponding to each of all conditions registered in the condition definition table 13 becomes "disabled" as shown in FIG. 3.

In this way, in the condition definition table 13, the target interface included in the interface unit and the connection state of the connection destination of the target interface are defined in association with each condition.

Next, an example of the operation mode determination table 14 will be described with reference to FIG. 4. 4 is a table showing an example of an operation mode determination table 14 stored by the wireless communication device 1 according to the first embodiment of the present invention.

The "operation mode" shown in Fig. 4 indicates the operation mode of the wireless communication device 1, and a "master unit mode" or a "repeater mode" is registered.

The ``logical expression'' shown in Fig. 4 indicates a condition that needs to be satisfied among all the conditions defined in the condition definition table 13, and as a logical expression corresponding to the master unit mode, the condition is condition 1 or condition 2. "1 or 2" shown is registered, and as a logical expression corresponding to the repeater mode, "3" indicating that the condition is the condition 3 is registered.

In this case, in the condition definition table 13, when the "result" of the condition 1 or the "result" of the condition 2 is "consist", the logical expression corresponding to the master unit mode becomes true, and the condition 1 When both the "result" and the "result" of the condition 2 are "disabled", the logical expression is false. When the logical expression corresponding to the master unit mode is true, the operation mode is set to the master unit mode.

In addition, in the condition definition table 13, when the "result" of the condition 3 is "consistent", the logical expression corresponding to the slave unit mode becomes true, and the "result" of the condition 3 becomes "disabled". When present, the logical expression becomes false. When the logical expression corresponding to the slave unit mode is true, the operation mode is set to the slave unit mode.

In this way, the operation mode determination table 14 is defined in association with an operation mode and a logical expression defining a condition that needs to be satisfied in the condition definition table 13.

Returning to the description of Fig. 2, the connection determination unit 15 performs a connection determination to determine whether the interface unit of the wired communication unit 12 and the connection destination are connected. Specifically, in connection determination, the connection determination unit 15 determines whether or not the interface unit and the connection destination are connected by examining the connection state of the target interface included in the interface unit with the connection destination.

More specifically, in connection determination, the connection determination unit 15 checks the connection state with the connection destination of the target interface for each condition of the condition definition table 13 to determine whether all conditions are met or not. Judge. In addition, a specific method of checking the connection state of the target interface with the connection destination will be described later.

The operation mode setting unit 16 switches and sets the operation mode to the master unit mode and the repeater mode in accordance with the result of the connection determination performed by the connection determination unit 15. In other words, when it is determined that the interface unit and the connection destination are connected in connection determination, the operation mode setting unit 16 sets the operation mode to the master unit mode. In addition, when it is determined that the interface unit and the connection destination are not connected in connection determination, the operation mode setting unit 16 sets the operation mode to the repeater mode.

Next, for a series of operations of the wireless communication device 1 when the operation mode of the wireless communication device 1 is set from the mode not set to the master unit mode or the repeater mode, referring to FIGS. 5 to 9 Explain. Fig. 5 is a configuration diagram showing a situation in which the operation modes of both of the two wireless communication devices 1 of the wireless LAN system according to the first embodiment of the present invention are not set. In the situation shown in Fig. 5, the storage units of the wireless communication device 1 (A) and the wireless communication device 1 (B) each have a condition definition table 13 shown in Fig. 3 and an operation mode determination table shown in Fig. 4. It is assumed that (14) is stored in advance.

In Fig. 5, the wireless communication device 1 (A) is not activated, and the operation mode is not set. In this case, the wireless LAN function of the wireless communication device 1 (A) is disabled. Further, the wireless communication device 1 (A) is already connected to each of the device X and the device Y via a LAN interface, and is already connected to a higher level network via a WAN interface.

Like the wireless communication device 1 (A), the wireless communication device 1 (B) is not activated and the operation mode is not set. In this case, the wireless LAN function of the wireless communication device 1 (B) is disabled. Further, the wireless communication device 1 (B) is in a situation in which neither the LAN interface nor the WAN interface is connected to the connection destination.

In the above-described situation, each of the wireless communication device 1 (A) and the wireless communication device 1 (B) sets the operation mode from the mode not set state to the master unit mode or the repeater mode after starting, after starting. Each of the wireless communication device 1 (A) and the wireless communication device 1 (B) periodically performs an operation of setting an operation mode according to the connection state with the connection destination of the interface unit even after such setting is made. Thereby, the wireless communication device 1 can set an appropriate operation mode according to the latest connection state.

Hereinafter, the above-described operation of the wireless communication device 1 will be further described with reference to FIGS. 6 to 9.

First, the connection determination performed by the connection determination unit 15 will be described with reference to FIG. 6. 6 is a flowchart showing a series of operations of connection determination performed by the connection determination unit 15 of the wireless communication device 1 according to the first embodiment of the present invention.

In step S101, the connection determination unit 15 acquires one unirradiated condition from the condition definition table 13, and the process advances to step S102.

In step S102, it is determined whether the "state" of the condition acquired in step S101 is "IP".

In step S102, when it is determined that the "state" is "IP", the process proceeds to step S103, and when it is determined that the "state" is not "IP", the process proceeds to step S107.

In step S103, the connection determination unit 15 transmits a ping (ICMP echo request) to the designated IP address through the wired communication unit 12 as a survey of the connection status with the connection destination of the LAN interface corresponding to the target interface. Then, the process proceeds to step S104.

In step S104, the connection determination unit 15 determines whether or not a response (ICMP echo reply) has been returned to the ping transmitted in step S103 for a predetermined period of time.

If it is determined in step S104 that the response has returned, the process proceeds to step S105.

In step S105, the connection determination unit 15 sets the "result" of the condition acquired in step S101 to "establish", and the process advances to step S109.

On the other hand, in step S104, when it is determined that the response has not been returned, the process proceeds to step S106.

In step S106, the connection determination unit 15 sets the "result" of the condition acquired in step S101 to "not satisfied", and the process advances to step S109.

In this way, the connection determination unit 15 checks the connection state with the connection destination of the LAN interface as the determination object. Specifically, the connection determination unit 15 transmits a ping to the designated IP address, and when a response is returned to the ping, it determines that the LAN interface is connected to the device having the IP address. Further, the connection determination unit 15 transmits a ping to the designated IP address, and when no response is returned to the ping, it determines that the LAN interface is not connected to the device having the IP address.

In step S107, the connection determination unit 15 checks whether the "target interface" of the condition acquired in step S101 is linked up as a survey of the connection status with the connection destination of the LAN interface or WAN interface corresponding to the target interface. It is checked whether it is down, and the process proceeds to step S108.

In step S108, the connection determination unit 15 determines whether the link state of the "target interface" checked in step S107 and the "state" of the condition acquired in step S101 match.

In step S108, when it is determined that the checked link state and the "state" of the condition match, the process proceeds to step S105. In this case, in step S105, the connection determination unit 15 sets the "result" of the condition acquired in step S101 to "establish", and the process proceeds to step S109.

On the other hand, in step S108, when it is determined that the checked link state and the "state" of the condition do not match, the process proceeds to step S106. In this case, in step S106, the connection determination unit 15 sets the "result" of the condition acquired in step S101 to "disabled", and the process proceeds to step S109.

In this way, the connection determination unit 15 checks the connection state with the LAN interface or the connection destination of the WAN interface as a determination object. Specifically, the connection determination unit 15 checks whether the LAN interface or the WAN interface is linked up or down.

In step S109, the connection determination unit 15 determines whether or not all conditions in the condition definition table 13 have been examined.

In step S109, when it is determined that the investigation of all conditions has been completed, the process is terminated.

On the other hand, when it is determined in step S109 that the investigation of all conditions has not been completed, the process returns to step S101, and the processing after step S101 is performed again for the unexamined conditions in the condition definition table.

In this way, the connection determination unit 15 performs a series of processing shown in Fig. 6 with respect to all the conditions in the condition definition table 13 to determine whether each condition in the condition definition table 13 is satisfied or not satisfied. Can be obtained.

Here, as a specific example, in the situation shown in Fig. 5, a case in which the connection determination units 15 of each of the wireless communication device 1 (A) and the wireless communication device 1 (B) execute a series of processes shown in Fig. 6 In consideration, the operation of the wireless communication device 1 will be further described with reference to FIGS. 7 and 8.

7 is a table showing an example of a condition definition table 13 stored by the wireless communication device 1 (A) on the side connected to the connection destination in FIG. 5. FIG. 8 is a table showing an example of a condition definition table 13 stored by the wireless communication device 1 (B) on the side not connected to the connection destination in FIG. 5.

In the situation shown in Fig. 5, a case in which a series of processing shown in Fig. 6 is executed by the connection determination unit 15 of the wireless communication device 1 (A) is executed as the wireless communication device 1 (A) starts up. think.

In this case, as shown in Fig. 5, in the wireless communication device 1 (A), since the WAN interface and the upper-level network are connected, the WAN interface is linked up. Therefore, the "state" of the condition 1 in the condition definition table 13 matches the link state checked by the connection determination unit 15, and the "result" of the condition 1 becomes "established".

Further, in the wireless communication device 1 (A), since the LAN interface and the device are connected, when a ping is transmitted to the IP address designated by the connection determination unit 15, a response is returned to the ping. Therefore, the "result" of condition 2 becomes "established".

Further, in the wireless communication device 1 (A), since the LAN interface and the device are connected, the LAN interface is linked up. Therefore, since the "state" of the condition 3 in the condition definition table 13 does not match the link state checked by the connection determination unit 15, the "result" of the condition 3 becomes "disabled".

In this way, when the connection determination unit 15 of the wireless communication device 1 (A) executes the series of processes shown in FIG. 6, the condition definition table 13 changes from the content shown in FIG. 3 to the content shown in FIG. 7. .

Next, in the situation shown in Fig. 5, the series of processing shown in Fig. 6 is executed by the connection determination unit 15 of the wireless communication device 1 (B) as the wireless communication device 1 (B) starts up. Think of the case.

In this case, as shown in FIG. 5, in the wireless communication device 1 (B), since the WAN interface and the upper network are not connected, the WAN interface is linked down. Therefore, since the "state" of the condition 1 in the condition definition table 13 does not match the link state checked by the connection determination unit 15, the "result" of the condition 1 is "not established".

Further, in the wireless communication device 1 (B), since the LAN interface and the device are not connected, when a ping is transmitted to the IP address designated by the connection determination unit 15, no response is returned to the ping. . Therefore, the "result" of condition 2 becomes "non-conformity".

Further, in the wireless communication device 1 (B), since the LAN interface and the device are not connected, the LAN interface is linked down. Therefore, since the "state" of the condition 3 in the condition definition table 13 matches the link state checked by the connection determination unit 15, the "result" of the condition 3 becomes "established".

In this way, when the connection determination unit 15 of the wireless communication device 1 (B) executes the series of processes shown in FIG. 6, the condition definition table 13 changes from the content shown in FIG. 3 to the content shown in FIG. 8. .

Next, the operation mode setting performed by the operation mode setting unit 16 after the connection determination unit 15 performs the connection determination will be described with reference to FIG. 9. 9 is a flowchart showing a series of operations of operation mode setting performed by the operation mode setting unit 16 of the wireless communication device 1 according to the first embodiment of the present invention.

In step S201, the operation mode setting unit 16 obtains a logical expression of the master unit mode from the operation mode determination table 14, and the process proceeds to step S202.

In step S202, the operation mode setting unit 16 refers to the condition definition table 13 and determines whether or not the logical expression obtained in step S201 is true.

In step S202, when it is determined that the logical expression is true, the processing proceeds to step S203, and when it is determined that the logical expression is false, the processing proceeds to step S204.

In step S203, the operation mode setting unit 16 sets the operation mode to "master unit mode", and the process ends.

As described above, in the condition definition table 13, when the "result" of condition 1 or the "result" of condition 2 is "consist", the operation mode setting unit 16 sets the operation mode to the master unit mode. Set to Specifically, the operation mode setting unit 16 refers to the condition definition table 13 and the operation mode determination table 14, and sets the operation mode to the master unit mode when the logical expression corresponding to the master unit mode is true. do.

In step S204, the operation mode setting unit 16 obtains a logical expression of the repeater mode from the operation mode determination table 14, and the process proceeds to step S205.

In step S205, the operation mode setting unit 16 refers to the condition definition table 13 and determines whether or not the logical expression obtained in step S204 is true.

In step S205, when it is determined that the logical expression is true, the process proceeds to step S206, and when it is determined that the logical expression is false, the process proceeds to step S207.

In step S206, the operation mode setting unit 16 sets the operation mode to "repeater mode", and the process ends.

As described above, in the condition definition table 13, the operation mode setting unit 16 sets the operation mode to the slave unit mode when the "result" Specifically, the operation mode setting unit 16 refers to the condition definition table 13 and the operation mode determination table 14, and sets the operation mode to the repeater mode when the logical expression corresponding to the repeater mode is true.

In step S207, the operation mode setting unit 16 sets the operation mode to "mode not set", and the process ends.

Here, as a specific example, in the situation shown in Fig. 5, by executing a series of processes shown in Fig. 6, the wireless communication device 1 (A) obtains the condition definition table 13 shown in Fig. 7 and the wireless communication device 1 (B) considers a case where the condition definition table 13 shown in Fig. 8 is obtained. In addition, the operation mode determination table 14 of each of the wireless communication device 1 (A) and the wireless communication device 1 (B) is a table shown in FIG. 4.

In this case, the operation mode setting unit 16 of the wireless communication device 1 (A) acquires "1 or 2" as a logical expression corresponding to the master unit mode from the operation mode determination table 14 in step S201. do.

As shown in Fig. 7, in the condition definition table 13, the "result" of the condition 1, the "result" of the condition 2, and the "result" of the condition 3 are, respectively, "established", "established" and "disabled". "to be. Therefore, in step S202, the operation mode setting unit 16 refers to the condition definition table 13, and determines that the "result" of the condition 1 or the "result" of the condition 2 is "established", It is determined that the acquired logical expression is true.

As a result, the operation mode setting unit 16 sets the operation mode to the master unit mode. Accordingly, in the situation shown in Fig. 5, the operation mode of the radio communication device 1A is automatically set to the master unit mode without requiring manual setting by the installer.

In addition, in the above-described case, the operation mode setting unit 16 of the wireless communication device 1 (B), from the operation mode determination table 14, in step S201, as a logical expression corresponding to the master unit mode, "1 or 2 '.

As shown in Fig. 8, in the condition definition table 13, the "result" of the condition 1, the "result" of the condition 2, and the "result" of the condition 3 are, respectively, "not established", "not established", and "established". "to be. Therefore, in step S202, the operation mode setting unit 16 refers to the condition definition table 13, and determines that the "result" of the condition 1 or the "result" of the condition 2 is not "established". , It is determined that the acquired logical expression is false.

Next, in step S204, the operation mode setting unit 16 obtains "3" from the operation mode determination table 14 as a logical expression corresponding to the repeater mode. In this case, in step S205, the operation mode setting unit 16 refers to the condition definition table 13, determines that the "result" of the condition 3 is "consistent", and determines that the acquired logical expression is true. .

As a result, the operation mode setting unit 16 sets the operation mode to the repeater mode. Therefore, in the situation shown in Fig. 5, the operation mode of the radio communication device 1 (B) is automatically set to the repeater mode without requiring manual setting by the installer.

In this way, the operation mode setting unit 16 is configured to switch and set the operation mode to the master unit mode and the repeater mode according to the result of the connection determination made by the connection determination unit 15. Accordingly, it is possible to automatically set the operation mode according to the installation situation of the wireless communication device 1.

As described above, according to the first embodiment, the wireless communication device determines whether the interface unit for wired communication with the connection destination and the connection destination are connected, and according to the determination result, the operation mode is set to a master unit mode and a repeater mode. It is configured to turn on.

This makes it possible to automatically set the operation mode appropriately in accordance with the installation situation of the wireless communication device. As a result, it is possible to reduce the load of the operation mode setting work by the installation worker of the wireless communication device, and it is possible to suppress the setting error of the operation mode by the installation worker.

In addition, in the first embodiment, the following configuration is exemplified as a specific configuration for determining whether or not the interface unit and the connection destination are connected. That is, in connection determination, the wireless communication device is configured to determine whether the interface unit and the connection destination are connected by examining the connection state of the target interface included in the interface unit with the connection destination.

In addition, in the first embodiment, the following configuration is illustrated as a more specific configuration for determining whether or not the interface unit and the connection destination are connected. That is, the wireless communication device is configured to store a condition definition table in which a target interface included in the interface unit and a connection state of a connection destination of the target interface are associated and defined for each condition. Further, the wireless communication device is configured to determine whether all conditions are satisfied or not satisfied by examining the connection state of the target interface with the connection destination for each condition of the condition definition table.

In addition, in the first embodiment, the following configuration is exemplified as a specific configuration for switching and setting the operation mode to the master unit mode and the repeater mode when the condition definition table is used. That is, the radio communication apparatus is configured to further store an operation mode determination table defined by associating an operation mode with a logical expression defining a condition that needs to be satisfied in the condition definition table. Further, referring to the condition definition table and the operation mode determination table, when the logical expression corresponding to the master unit mode is true, the operation mode is set to the master unit mode, and when the logical expression corresponding to the repeater mode is true, the operation mode is set. It is configured to set to repeater mode.

1 wireless communication device, 2 slave units, 11 wireless communication unit, 12 wired communication unit, 13 condition definition table, 14 operation mode determination table, 15 connection determination unit, 16 operation mode setting unit.

Claims (5)

A wireless communication unit that performs wireless communication with a connection destination;
A wired communication unit that performs wired communication with a connection destination through the interface unit,
A connection determination unit that performs a connection determination to determine whether the interface unit of the wired communication unit and the connection destination are connected;
An operation mode setting unit for switching and setting an operation mode to a master unit mode and a repeater mode according to a result of the connection determination made by the connection determination unit,
The operation mode setting unit,
In the connection determination, when it is determined that the interface unit and the connection destination are connected, the operation mode is set to the master unit mode,
In the connection determination, when it is determined that the interface unit and the connection destination are not connected, the wireless communication device sets the operation mode to the repeater mode. The method according to claim 1,
The connection determination unit, in the connection determination,
A wireless communication device that determines whether or not the interface unit and the connection destination are connected by examining a connection state of a target interface included in the interface unit with the connection destination. The method according to claim 2,
A storage unit for storing a condition definition table in which the target interface and the connection state are defined in association with each condition,
The connection determination unit, in the connection determination,
A wireless communication device that determines whether or not all of the conditions are satisfied by examining the connection state for each of the conditions in the condition definition table. The method of claim 3,
The storage unit,
An operation mode determination table defined in association with the operation mode and a logical expression defining the condition that needs to be established in the condition definition table is stored,
The operation mode setting unit,
Referring to the condition definition table and the operation mode determination table, if the logical expression corresponding to the master unit mode is true, the operation mode is set to the master unit mode, and the logical expression corresponding to the repeater mode is true. In this case, the wireless communication device sets the operation mode to the repeater mode. The method according to any one of claims 1 to 4,
The interface unit is a wireless communication device configured to include at least one of a LAN interface and a WAN interface.

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