JP2014078966A - Wireless communication connection system and network device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless communication connection system capable of identifying a cause more easily than before when a network device cannot be connected to a wireless communication network.SOLUTION: A first printer 10 connected to the wireless communication network stores a network wireless setting. First and second printers 10, 50 store the same ad hoc wireless setting. The first printer 10 wirelessly transmits the network wireless setting with ad hoc wireless setting. A second printer 50 receives wirelessly-transmitted network wireless setting with the ad hoc wireless setting, determines whether or not the network wireless setting is available, and wirelessly transmits a determination result with the ad hoc wireless setting. The first printer 10 receives the wirelessly-transmitted determination result with the ad hoc wireless setting to output the received determination result.

Description

  The present invention relates to a wireless communication connection system for connecting a network device to a wireless communication network, and a network device used in the wireless communication connection system. In this specification, “network device” means a device capable of transmitting and receiving information by wireless communication. The “wireless communication network” means a network device group configured by two or more network devices capable of wireless communication with each other. Therefore, the minimum wireless communication network is composed of two network devices. Further, “a network device is connected to a wireless communication network” means that the network device is one device constituting the wireless communication network. Therefore, “connecting a network device to a wireless communication network” means that the network device is one device constituting the wireless communication network.

  A wireless communication network that transmits and receives information between a plurality of network devices wirelessly, such as a wireless LAN, is known. When information is wirelessly transmitted from a network device, a wireless signal may reach a network device (for example, another person's network device) outside the wireless communication network. Therefore, in a normal wireless communication network, wireless settings that are commonly used only by each network device constituting the wireless communication network are determined in advance. The wireless setting is a rule (for example, an authentication method or an encryption method) for transmitting and receiving information wirelessly. When information is wirelessly transmitted from a network device to another network device, correct information cannot be received on the reception side unless the wireless setting on the transmission side corresponds to the wireless setting on the reception side. Hereinafter, the wireless setting commonly used by each network device configuring the wireless communication network is referred to as network wireless setting. Each network device constituting the wireless communication network performs wireless communication according to network wireless settings. Therefore, even if a wireless signal reaches a network device outside the wireless communication network, the transmitted information cannot be read. When a new network device is connected to such a wireless communication network (that is, when a new network device is added to the wireless communication network), it is necessary to enable the new network device to perform wireless communication according to the network wireless setting.

  Patent Literature 1 discloses a wireless communication connection system that can connect a new network device to a wireless communication network in an infrastructure mode (a mode in which the network device performs wireless communication using an access point). In this wireless communication connection system, a predetermined network device constituting a wireless communication network (hereinafter referred to as a transmission-side network device) and a new network device are connected to each other in an ad hoc mode (one network device without using an access point). Wireless connection in a one-to-one wireless communication mode). The transmission-side network device wirelessly transmits the network wireless setting of the wireless communication network (more specifically, an infrastructure mode authentication method or encryption method; hereinafter referred to as infrastructure wireless setting) according to the ad-hoc wireless setting. The new network device receives the infrastructure wireless setting according to the ad-hoc wireless setting. The new network device can wirelessly communicate according to this infrastructure setting. That is, it is possible to connect a new network device to an infrastructure mode wireless communication network.

JP-A-2005-174134

  Even if the technology disclosed in Patent Document 1 is used, there are cases where a new network device cannot be connected to an existing wireless communication network (in the above example, an infrastructure mode wireless communication network) due to various causes. .

  The present invention provides a wireless communication connection system that can specify that a new network device cannot be connected when an event occurs in which the new network device cannot be connected to an existing wireless communication network.

  The inventor has noted that there are multiple types of network radio settings (eg, multiple types of authentication schemes) and not all network devices can use all types of network radio settings. . For example, even if the transmitting network device transmits an authentication method used in a wireless communication network to which the transmitting network device is subscribed to the new network device, the new network device may use the authentication method. There are things that cannot be done. That is, the new network device may not be connected to the wireless communication network because the new network device does not support the network wireless settings used in the existing wireless communication network. In the wireless communication connection system according to the present invention, it is possible to output that the network device as the setting target cannot be connected to the wireless communication network, and has the following configuration.

The wireless communication connection system disclosed in this specification includes a first network device connected to a wireless communication network and a second network device capable of wireless communication. The first network device includes network wireless setting storage means, first ad hoc wireless setting storage means, network wireless setting transmission means, determination result reception means, and determination result output means. The second network device includes second ad hoc radio setting storage means, network radio setting reception means, determination means, and determination result transmission means. The network wireless setting storage means of the first network device stores network wireless settings for wireless communication using a wireless communication network. The first ad hoc radio setting storage means of the first network device and the second ad hoc radio setting storage means of the second network device store the same ad hoc radio settings. The network wireless setting transmission means of the first network device wirelessly transmits the network wireless setting stored in the network wireless setting storage means to the second network device according to the ad hoc wireless setting. The network wireless setting receiving means of the second network device receives the network wireless setting wirelessly transmitted from the first network device according to the ad-hoc wireless setting. The determination means of the second network device determines whether or not the network wireless setting received by the network wireless setting receiving means can be used by the second network device. The determination result transmission means of the second network device wirelessly transmits the determination result by the determination means to the first network device according to the ad hoc wireless setting. The determination result receiving unit of the first network device receives the determination result wirelessly transmitted from the second network device according to the ad-hoc wireless setting. The determination result output means of the first network device outputs the determination result received by the determination result receiving means.
Note that “output” refers to transmitting information to another device (a device in the first network device or a device configured separately from the first network device). By transmitting (ie, outputting) information to another device, it is possible to cause the device at the transmission destination (output destination) to execute the operation. For example, if information is transmitted (output) to a display device such as an LCD, a message or the like corresponding to the information can be displayed on the display device. If information is transmitted (output) to a printing apparatus such as a printer, a message or the like corresponding to the information can be printed by the printing apparatus. If the information is transmitted (output) to the wireless transmission device, the information is wirelessly transmitted, and the device that has received the information can execute an operation corresponding to the information. As described above, “output” includes transmitting information to various apparatuses (means).

  In this wireless communication connection system, the first network device and the second network device store the same ad hoc wireless settings. According to this ad-hoc wireless setting, the first network device and the second network device can perform wireless communication. Network wireless settings are sent from the first network device to the second network device by wireless communication in this ad-hoc mode. That is, the network wireless setting of the wireless communication network to which the first network device is subscribed is sent to the second network device. The second network device can perform wireless communication according to the received network wireless setting. However, the second network device may not be able to use the received network wireless settings. Therefore, the determination unit of the second network device determines whether or not the network wireless setting can be used by the second network device. Then, the determination result is wirelessly transmitted to the first network device according to the ad hoc wireless setting. The first network device can receive and output the determination result. If a negative determination result is output, the user may cause the second network device to become a wireless communication network because the second network device does not support the network wireless setting of the existing wireless communication network. It is possible to recognize that an event that cannot be connected has occurred. The user can take measures for connecting the second network device to the wireless communication network (for example, changing the network wireless setting).

  The determination result output means of the first network device may be configured to always output the determination result when a negative determination result is obtained (the positive determination result may be output). Not required). That is, the determination result output means may output the determination result when the determination result receiving means receives the determination result indicating that the network wireless setting is not available in the second network device. In contrast, the determination result output means may output a positive determination result and not output a negative determination result. This is because if the determination result is not output, the user can recognize that the determination result is negative. The determination result output means may output both a positive determination result and a negative determination result.

  Even when a positive determination result is obtained, the second network device may not be connected to the wireless communication network due to various factors. For example, the connection setting to be set in the second network device (for example, the IP address of the second network device) may not be compatible with the existing wireless communication network. In this case, even if the second network device corresponds to the network wireless setting of the wireless communication network, the second network device may not be connected to the wireless communication network. In order to confirm that the second network device is securely connected to the wireless communication network, the following configuration may be adopted.

  That is, the first network device may further include a confirmation signal transmission unit, a reply signal reception unit, and a reply result output unit. The second network device may further include a confirmation signal receiving unit and a reply signal transmitting unit. The confirmation signal transmitting means of the first network device is stored in the network wireless setting storage means when the determination result indicating that the network wireless setting is available in the second network device is received by the determination result receiving means. A confirmation signal is wirelessly transmitted to the second network device according to the network wireless setting. The confirmation signal receiving means of the second network device receives the confirmation signal wirelessly transmitted from the first network device in accordance with the network wireless setting received by the network wireless setting receiving means. The reply signal transmitting means of the second network device wirelessly transmits the reply signal to the first network device according to the network wireless setting received by the network wireless setting receiving means when the confirmation signal is received by the confirmation signal receiving means. . The reply signal receiving means of the first network device receives the reply signal wirelessly transmitted from the second network device in accordance with the network wireless setting stored in the network wireless setting storage means. The reply result output means of the first network device outputs information indicating that the reply signal is received when the reply signal is received by the reply signal receiving means, and the reply signal is received by the reply signal receiving means. If not, information indicating that a reply signal has not been received is output.

  In this wireless communication connection system, when a determination result indicating that the network wireless setting is available in the second network device is received by the determination result receiving means, the network is connected between the first network device and the second network device. Wireless communication is performed according to the wireless settings. That is, a confirmation signal is transmitted from the first network device to the second network device. When the confirmation signal is received by the second network device, a reply signal is transmitted from the second network device to the first network device. If the second network device is connected to the wireless communication network, transmission and reception of a confirmation signal and a reply signal are suitably performed. Accordingly, whether or not the second network device is connected to the wireless communication network can be determined based on whether or not the first network device has received the reply signal. The reply result output means of the first network device outputs whether or not the reply signal has been received by the first network device (for the output, see, for example, the above description). Therefore, it is possible to easily confirm whether or not the second network device is connected to the wireless communication network based on the output. For example, the user can easily confirm this based on the output to the LCD regarding the reception of the reply signal.

  In the wireless communication connection system described above, various network devices can be used as the second network device. In this case, available ad-hoc wireless settings may vary depending on the network device model. The following configuration may be employed so that the first network device can perform ad-hoc mode wireless communication with various types of second network devices. That is, the first network device may further include specific information receiving means and ad hoc wireless setting specifying means. The second network device may further include a specific information storage unit and a specific information transmission unit. The first ad hoc radio setting storage means of the first network device stores a plurality of patterns of ad hoc radio settings. Device specific information is associated with each pattern of ad hoc wireless settings. The specific information storage means of the second network device stores device specific information of the second network device. The specific information transmitting means of the second network device wirelessly transmits the device specific information stored in the specific information storage means using broadcast. The specific information receiving means of the first network device receives the device specific information wirelessly transmitted from the second network device. The ad hoc wireless setting specifying means of the first network device specifies the ad hoc wireless setting stored in the first ad hoc wireless setting storage means in association with the device specifying information received by the specifying information receiving means. The network radio setting transmitting unit and the determination result receiving unit of the first network device perform radio communication according to the ad hoc radio setting specified by the ad hoc radio setting specifying unit.

  In this wireless communication connection system, the first ad hoc wireless setting storage means of the first network device stores a plurality of patterns of ad hoc wireless settings. Device specific information is associated with each pattern of ad hoc wireless settings. When connecting the second network device to the wireless communication network, the second network device wirelessly transmits device identification information of the second network device using broadcast. Broadcasting refers to transmitting information to an unspecified network device. When the first network device receives the device specifying information of the second network device, the first network device specifies an ad hoc wireless setting associated with the device specifying information from among a plurality of patterns of ad hoc wireless settings. Then, wireless communication is performed with the second network device according to the specified ad hoc wireless setting. That is, the first network device can specify an ad hoc wireless setting that can be used by the second network device and perform wireless communication according to the specified ad hoc wireless setting. Therefore, it is possible to connect various second network devices having different available ad hoc wireless settings to the wireless communication network.

The first network device may further include a connection setting input unit that inputs connection settings. The network wireless setting transmission unit of the first network device may wirelessly transmit the network wireless setting and the connection setting input to the connection setting input unit to the second network device.
Note that the connection setting is information (for example, an IP address) used for specifying a network device when the network device performs communication.

  When the first network device transmits the connection setting, the first network device may further include a connection setting determination unit and a selection permission unit. The connection setting determination unit determines whether or not the connection setting input to the connection setting input unit matches the connection setting of the first network device. When the connection setting determination unit determines that the connection setting input to the connection setting input unit does not match the connection setting of the first network device, the selection permission unit determines the connection setting input to the connection setting input unit. 2 Allow the user to select whether to wirelessly transmit to the network device. Then, the network wireless setting transmission means of the first network device, when the connection setting determination means determines that the connection setting input to the connection setting input means matches the connection setting of the first network device, and the connection setting input The connection setting input to the second network device may be wirelessly transmitted to the second network device when the selection permission unit selects that the connection setting input to the device is wirelessly transmitted to the second network device. .

  In this wireless communication connection system, it is determined whether or not the connection setting input to the connection setting input unit matches the connection setting of the first network device. If it is determined that the connection is appropriate, the connection setting input to the connection setting input means is transmitted to the second network device. On the other hand, even if the input connection setting does not match the connection setting of the first network device, the connection setting may be suitable for use in the second network device. Therefore, the first network device determines whether or not to transmit to the second network device the connection setting determined to be incompatible with the connection setting of the first network device (connection setting input to the connection setting input means). Allow to choose. Then, even when it is selected that the connection setting input to the connection setting input means by the user is transmitted to the second network device, the connection setting is transmitted to the second network device. Since the wireless communication connection system is configured as described above, a user who is not familiar with the connection setting determines the connection setting when the input connection setting is determined not to match the connection setting of the first network device. It is possible not to transmit to the second network device. Further, the user who is familiar with the connection setting can transmit a connection setting suitable for the second network device to the second network device even if the user does not conform to the connection setting of the first network device.

The connection setting described above may include the IP address of the second network device and the subnet mask. Note that the connection setting may include other information.
The network wireless setting described above may include a network ID of the wireless communication network, an authentication method used in the wireless communication network, and an encryption method used in the wireless communication network. Note that the network wireless setting may include other information.
Further, the above-described ad-hoc wireless setting may include an ad-hoc ID for ad-hoc wireless communication, an authentication method used for ad-hoc wireless communication, and an encryption method used for ad-hoc wireless communication. Note that the ad hoc wireless setting may include other information.

  The wireless communication network described above may be an infrastructure mode wireless communication network. On the other hand, the above-described wireless communication network may be an ad-hoc mode wireless communication network word.

In addition, the first network device for constructing the wireless communication connection system is a novel and useful creation by itself. This network device can be connected to a wireless communication network. The network device includes network wireless setting storage means, ad hoc wireless setting storage means, network wireless setting transmission means, determination result reception means, and determination result output means. The network wireless setting storage means stores network wireless settings for wireless communication using a wireless communication network. The ad hoc wireless setting storage unit stores the ad hoc wireless setting. The network wireless setting transmission unit wirelessly transmits the network wireless setting stored in the network wireless setting storage unit to another network device according to the ad hoc wireless setting. The determination result receiving unit receives the determination result according to the ad-hoc wireless setting when the determination result indicating whether or not the network wireless setting is usable in another network device is wirelessly transmitted from the other network device. The determination result output means outputs the determination result received by the determination result receiving means.
By using this network device, the above-described wireless communication connection system can be constructed.

The second network device for constructing the wireless communication connection system is also a new and useful creation. This network device can be connected to a wireless communication network. The network device includes an ad-hoc wireless setting storage unit, a network wireless setting receiving unit, a determining unit, and a determination result transmitting unit. The ad hoc wireless setting storage unit stores the ad hoc wireless setting. The network wireless setting receiving unit receives the network wireless setting according to the ad-hoc wireless setting when the wireless network setting for wireless communication using the wireless communication network is wirelessly transmitted from another network device. The determining unit determines whether the network wireless setting received by the network wireless setting receiving unit is available in the network device. The determination result transmission means wirelessly transmits the determination result by the determination means to another network device according to the ad hoc wireless setting.
By using this network device, the above-described wireless communication connection system can be constructed.

Furthermore, the network device includes network wireless setting storage means, ad hoc wireless setting storage means, network wireless setting transmission means, confirmation signal transmission means, reply signal reception means, and reply result output means. The network wireless setting storage means stores network wireless settings for wireless communication using a wireless communication network. The ad hoc wireless setting storage unit stores the ad hoc wireless setting. The network wireless setting transmission unit wirelessly transmits the network wireless setting stored in the network wireless setting storage unit to another network device according to the ad hoc wireless setting. The confirmation signal transmission unit wirelessly transmits a confirmation signal to another network device according to the network wireless setting stored in the network wireless setting storage unit. The reply signal receiving means receives a reply signal for the confirmation signal wirelessly transmitted from another network device in accordance with the network wireless setting stored in the network wireless setting storage means. The reply result output means outputs information indicating that the reply signal is received when the reply signal is received by the reply signal receiving means, and returns when the reply signal is not received by the reply signal receiving means. Outputs information indicating that no signal was received.
When this network device is used, other network devices can be connected to the wireless communication network. It is also possible to easily confirm whether or not another network device is connected to the wireless communication network.

1 is a block diagram of a wireless communication connection system 100. FIG. Flowchart of wireless communication connection process (first half process). Flowchart of wireless communication connection process (second half process). The flowchart of a network connection confirmation process. An example of a display screen. An example of a display screen. An example of a display screen.

The main features of the embodiments described in detail below are listed first.
(Feature 1) The first network device includes a wireless setting storage unit, a transmission / reception unit, and a backup unit.
(Characteristic 2) The network radio setting transmission means and the determination result reception means are constituted by transmission / reception means.
(Feature 3) The wireless setting storage means stores one wireless setting. The transmission / reception means performs wireless communication according to the wireless setting stored in the wireless setting storage means. That is, when the ad hoc wireless setting is stored in the wireless setting storage unit, the transmitting / receiving unit performs wireless communication according to the ad hoc wireless setting. When the network wireless setting is stored in the wireless setting storage unit, the transmission / reception unit performs wireless communication according to the network wireless setting.
(Characteristic 4) When the transmission / reception means performs wireless communication according to the ad-hoc wireless setting, the ad-hoc wireless setting is stored in the wireless setting storage means.
(Feature 5) When the ad hoc wireless setting is stored in the wireless setting storage unit, the backup unit stores the wireless setting stored in the wireless setting storage unit immediately before.

(Example)
A wireless communication connection system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram illustrating a schematic configuration of a wireless communication connection system 100 according to the present embodiment. The wireless communication connection system 100 includes a first printer 10 and a second printer 50. Both the first printer 10 and the second printer 50 have a wireless LAN function, and can wirelessly communicate with an external device.
The first printer 10 is connected to the wireless communication network 110. The wireless communication network 110 is composed of a plurality of network devices (a personal computer, a printer, a scanner, etc., not shown in FIG. 1) that can communicate with each other via an access point 90. That is, the first printer 10 can perform wireless communication with the network devices constituting the wireless communication network 110 by wireless communication via the access point 90 (that is, wireless communication in infrastructure mode). It can also be said that the first printer 10 constitutes a part of the wireless communication network 110.
The second printer 50 is not connected to the wireless communication network 110. As described above, the second printer 50 has a wireless LAN function. Therefore, the second printer 50 can be connected to the wireless communication network 110 by changing the setting of the second printer 50.
According to the wireless communication connection system 100, the second printer 50 can be easily connected to the wireless communication network (the wireless communication network 110 in this embodiment) to which the first printer 10 is connected.

  The first printer 10 includes a wireless LAN interface 12, an arithmetic device 14, a storage device 16, a display unit 18, an input unit 20, and a printer unit 22.

  The wireless LAN interface 12 includes a wireless antenna that transmits and receives wireless signals (radio waves), a control circuit that controls the wireless antenna, and the like. The wireless LAN interface 12 is connected to the arithmetic device 14. The wireless LAN interface 12 receives data input from the arithmetic device 14 and wirelessly transmits the input data to an external device. The wireless LAN interface 12 receives data wirelessly transmitted from an external device and outputs the received data to the arithmetic device 14. The wireless LAN interface 12 performs wireless communication according to the wireless setting set (stored) in a wireless setting storage area 16b (described in detail later) provided in the storage device 16.

  The computing device 14 is connected to the wireless LAN interface 12, the storage device 16, the display unit 18, the input unit 20, and the printer unit 22. The arithmetic device 14 executes various calculations, control of each part of the first printer 10 and data input / output with each part.

  The storage device 16 can store various data. The data stored in the storage device 16 is read by the arithmetic device 14. The storage device 16 receives data input from the arithmetic device 14 and stores the data. The storage device 16 includes a normal storage area 16a, a wireless setting storage area 16b, and a backup area 16c.

In the normal storage area 16a, a wireless communication connection program 30 and an ad hoc wireless setting database 32 are stored.
The wireless communication connection program 30 is a program for connecting an external network device to a wireless communication network (in this embodiment, the wireless communication network 110) to which the first printer 10 is connected. The wireless communication connection program 30 is read by the arithmetic device 14 and executed.
The ad hoc wireless setting database 32 includes data specifying the type of network device (hereinafter referred to as device specifying data), and data indicating ad hoc wireless setting that enables wireless communication with the network device of that type (hereinafter referred to as ad hoc wireless setting data). This is a database that is described in association with each other. The ad-hoc wireless setting is a wireless setting used when network devices perform ad-hoc wireless communication (a mode in which network devices perform wireless communication on a one-to-one basis). Ad-hoc wireless communication is possible when two network devices perform wireless communication according to the same ad-hoc wireless setting.

The wireless setting storage area 16b stores wireless setting data and connection setting data.
The wireless setting data is data indicating wireless settings for wireless communication by the wireless LAN interface 12. Specifically, the wireless setting data is data describing an SSID, an authentication method, and an encryption method. The SSID is an ID (network ID) used when performing wireless communication. The authentication method is a method (standard) for permitting wireless communication. The encryption method is a data encryption method (encryption standard) for wireless communication. The encryption method may include a keyword (character string) used for data encryption and decryption. By transmitting and receiving wireless signals using common wireless communication settings (SSID, authentication method, encryption method), wireless communication between network devices becomes possible. In the wireless setting storage area 16b, various wireless setting data such as network wireless setting data for wireless communication within the wireless communication network 110 and ad hoc wireless setting data for performing ad hoc wireless communication are stored.
The connection setting data is data for specifying a network device. Specifically, the connection setting data is data describing the IP address, subnet mask, and the like of the first printer 10. When connecting the first printer 10 to an external network (a network other than the wireless communication network 110 (for example, the Internet)), a gateway is also included in the connection setting data.
The wireless setting storage area 16b can store only one wireless setting data and one connection setting data. That is, when new wireless setting data and connection setting data are stored in the wireless setting storage area 16b, the previous wireless setting data and connection setting data disappear. As described above, the wireless LAN interface 12 performs wireless communication according to the wireless settings (wireless setting data) and connection settings (connection setting data) stored in the wireless setting storage area 16b. Therefore, by rewriting the wireless setting data and the connection setting data stored in the wireless setting storage area 16b, the setting for the wireless LAN interface 12 to perform wireless communication is changed.

  The backup area 16c can store various data. In the backup area 16c, important data is temporarily backed up when the setting of the first printer 10 is changed.

  The display unit 18 is a liquid crystal display, and displays information according to a command input from the arithmetic device 14.

  The input unit 20 includes a plurality of input buttons and the like. When the user operates the input button, a command is input from the input unit 20 to the arithmetic device 14.

  The printer unit 22 is mainly configured by a paper tray, a paper transport mechanism, an ink jet head, an ink jet head driving mechanism, and the like. The printer unit 22 conveys the paper stored in the paper tray to the ink jet head, and prints an image on the paper by the ink jet head. The printer unit 22 executes printing in response to a command input from the arithmetic device 14.

  The second printer 50 is configured in substantially the same manner as the first printer 10. That is, the second printer 50 includes a wireless LAN interface 52, an arithmetic device 54, a storage device 56, a display unit 58, an input unit 60, and a printer unit 62.

  The wireless LAN interface 52 receives data input from the arithmetic device 54 and wirelessly transmits the input data to an external device. The wireless LAN interface 52 receives a wireless signal transmitted from an external device and inputs the received data to the arithmetic device 54. The wireless LAN interface 52 performs wireless communication according to wireless settings set in a wireless setting storage area 56b (detailed later) of the storage device 56.

  The computing device 54 is connected to the wireless LAN interface 52, the storage device 56, the display unit 58, the input unit 60, and the printer unit 62. The arithmetic device 54 executes various calculations, control of each part of the second printer 50, and data input / output with each part.

  The storage device 56 can store various data. The storage device 56 includes a normal storage area 56a and a wireless setting storage area 56b.

The normal storage area 56a stores a wireless communication connection program 70, device identification data 72, and ad hoc wireless setting data 74.
The wireless communication connection program 70 is a program for connecting the second printer 50 to a wireless communication network (in this embodiment, the wireless communication network 110). The wireless communication connection program 70 is read by the arithmetic device 54 and executed.
The device specifying data 72 is data for specifying the type of the second printer 50. In the present embodiment, the device specifying data 72 is composed of the MAC address of the second printer 50 and the model name (model number indicating the type of the second printer 50).
The ad hoc wireless setting data 74 is data indicating wireless settings used when the second printer 50 performs ad hoc wireless communication. The ad hoc wireless setting data 74 is data describing an SSID (also referred to as an ad hoc ID: BSSID), an authentication method, and an encryption method. In the present embodiment, the ad-hoc wireless setting data 74 describes the MAC address of the second printer 50 as the SSID, the Open system as the authentication method, and WEP as the encryption method.

Wireless setting data and connection setting data are set (stored) in the wireless setting storage area 56b.
The wireless LAN interface 52 performs wireless communication according to wireless settings (wireless setting data) and connection settings (connection setting data) set in the wireless setting storage area 56b. For example, when the ad hoc wireless setting data 74 stored in the normal storage area 56a is set in the wireless setting storage area 56b, the wireless LAN interface 52 executes wireless communication according to the ad hoc wireless setting (ad hoc wireless setting data) 74.

  The display unit 58 is a liquid crystal display, and displays information according to a command input from the arithmetic device 54.

  The input unit 60 includes a plurality of input buttons and the like. When the user operates the input button, a command is input from the input unit 60 to the arithmetic device 54.

  The printer unit 62 executes printing in response to a command input from the arithmetic device 54.

Next, processing for connecting the second printer 50 to the wireless communication network 110 by the wireless communication connection system 100 will be described. Before the start of this process, the first printer 10 is connected to the wireless communication network 110. Therefore, in the wireless setting storage area 16b of the first printer 10, wireless setting data (hereinafter referred to as network wireless setting data 110a) used in the wireless communication network 110 and connection setting data (hereinafter referred to as network connection setting data). 110b) is stored. In this embodiment, the network wireless setting data 110a describes NETWORK as the SSID, WPA-PSK as the authentication method, and TKIP as the encryption method.
Further, the second printer 50 is not in wireless communication. Therefore, no data is stored in the wireless setting storage area 56b of the second printer 50.
When starting the process of connecting the second printer 50 to the wireless communication network 110, the input unit 20 of the first printer 10 is operated to cause the arithmetic device 14 to execute the wireless communication connection program 30. Further, the input unit 60 of the second printer 50 is operated to cause the arithmetic device 54 to execute the wireless communication connection program 70. As a result, the first printer 10 and the second printer 50 execute the wireless communication connection process shown in the flowcharts of FIGS. 2 and 3 indicate the transmission and reception of data between the first printer 10 and the second printer 50. Although not shown in the flowcharts of FIGS. 2 and 3, the first printer 10 and the second printer 50 generate an error or the like (for example, data that is scheduled to be received cannot be received even after a predetermined time has elapsed). If you do, the process may be stopped.

In step B2, the second printer 50 uses the device identification data 72 and data indicating that the second printer 50 is not connected to the wireless communication network (hereinafter referred to as unset notification data) as a predetermined channel. Broadcast on. In wireless communication by broadcasting, it is not necessary to set wireless settings and connection settings (that is, it is not necessary to store wireless setting data and connection setting data in the wireless setting storage area 56b).
On the other hand, the first printer 10 scans all the channels for broadcast radio signals (step A2). As a result, the first printer 10 receives the device specifying data 72 and the non-setting notification data wirelessly transmitted from the second printer 50. If the device specifying data and the non-setting notification data are broadcast from the network device other than the second printer 50, the data is also received in step A2.

  When the second printer 50 broadcasts the device identification data 72 and the non-setting notification data for a predetermined time, in step B4, the second printer 50 sets the ad hoc wireless setting data 74 stored in the normal storage area 56a in the wireless setting storage area 56b. As a result, the wireless LAN interface 52 of the second printer 50 becomes ready for ad-hoc wireless communication according to the ad-hoc wireless setting 74.

  When the all-channel scan in step A2 is completed, the first printer 10 displays the device specifying data 72 (that is, the MAC address and model name of the second printer 50) received during the all-channel scan on the display unit 18 (step A4). ). If a plurality of device specifying data is received in step A2, the received plurality of device specifying data is displayed as a list. FIG. 5 shows an example of this list display. In this example, three devices are displayed. In this embodiment, it is assumed that the model “MFC-9990CDW” in FIG. 5 corresponds to the second printer 50.

  When the device identification data is displayed in step A4, the first printer 10 waits for input from the user (step A6). The user can operate the input unit 20 to select a network device connected to the wireless communication network 110 from the network devices displayed on the display unit 18. Here, the following process will be described on the assumption that the second printer 50 (that is, the model “MFC-9990CDW”) is selected by the user.

  When the second printer 50 is selected in step A6, the first printer 10 specifies the ad hoc wireless setting data 74 stored in the second printer 50 (step A8). That is, the arithmetic device 14 of the first printer 10 reads the ad hoc wireless setting database 32 from the storage device 16a. As described above, the ad-hoc wireless setting database 32 is a database in which device identification data and ad-hoc wireless setting data capable of wireless communication with that type of network device are described in association with each other. The computing device 14 specifies the ad hoc radio setting data 74 associated with the device specifying data 72 received in step A2 from among a large number of ad hoc radio setting data described in the ad hoc radio setting database 32.

  When step A8 ends, the first printer 10 waits for input of network connection settings (step A10). FIG. 6 shows an example of an input screen for network connection settings. In step A10, the network connection setting to be transmitted to the second printer 50 (that is, the network connection setting to be used later by the second printer 50) is input to the first printer 10. As the network connection setting, an IP address and subnet mask assigned to the second printer 50 are input. In addition, a gateway is input as necessary. The network connection setting can be input by the user operating the input unit 20. Further, the user can select one acquisition method from a plurality of IP address acquisition methods (such as “AUTO” and “STATIC” in FIG. 6). When a DHCP server is installed in the wireless communication network 110, network connection setting data automatically determined by the DHCP server can be received via the wireless communication network 110. Hereinafter, the network connection setting input in step A10 is referred to as network connection setting (network connection setting data) 110c. When the network connection setting data automatically determined by the DHCP server is received via the wireless communication network 110, the input of the network connection setting by the input unit 20 is omitted in step A10.

When the network connection setting 110c is input in step A10, the computing device 14 of the first printer 10 causes the network connection setting 110b of the first printer 10 in which the input network connection setting 110c is stored in the wireless setting storage area 16b. (Step A12). The computing device 14 determines the following four points.
(1) The computing device 14 determines whether or not the IP address of the network connection setting 110c overlaps with the IP address of the network connection setting 110b. In the example of FIG. 6, the IP address of the network connection setting 110c is “192.168.111.003”. If the same IP address is stored in the wireless setting storage area 16b, NO is determined in step A12.
(2) The computing device 14 determines whether or not the subnet mask of the network connection setting 110c matches the subnet mask of the network connection setting 110b. Determine. In the example of FIG. 6, the subnet mask of the network connection setting 110c is “255.255.000.0000”. If a subnet mask with a different value is stored in the wireless setting storage area 16b, NO is determined in step A12.
(3) The computing device 14 has an IP address corresponding to the subnet mask (numerical value “255”) of the network connection setting 110c corresponding to the subnet mask (numerical value “255”) of the network connection setting 110b. It is determined whether or not it matches. In the example of FIG. 6, “255.255” is set in the upper six digits in the subnet mask of the network connection setting 110c. In this case, it is determined whether the upper 6 digits “192.168.” Of the IP address of the network connection setting 110c matches the upper 6 digits of the IP address stored in the wireless setting storage area 16b. If not, NO is determined in step A12.
(4) When the gateway is included in the network connection setting 110c, the arithmetic device 14 determines whether or not the gateway matches the gateway of the network connection setting 110b. In the example of FIG. 6, the gateway of the network connection setting 110 c is “192.168.111.001”. If a gateway with a different value is stored in the wireless setting storage area 16b, NO is determined in step A12.

  As described in (1) to (4) above, if the network connection setting 110c does not match the network connection setting 110b, NO is determined in step A12. In this case, step A14 is executed. On the other hand, if the network connection setting 110c matches the network connection setting 110b, YES is determined in step A12. That is, the IP address does not overlap between the network connection setting 110c and the network connection setting 110b, the subnet masks match, the IP addresses corresponding to the subnet masks match, and If the gateways match, YES is determined in step A12. In this case, step A16 is executed.

  In step A14, the first printer 10 determines whether or not to transmit the network connection setting data 110c to the second printer 50 together with a message that the network connection setting 110c does not match the network connection setting 110b of the first printer 10. Is displayed on the display unit 18. When the user operates the input unit 20 to select transmission of the network connection setting data 110c to the second printer 50, Step A16 is executed (YES in Step A14). If the user selects not to transmit the network connection setting data 110c to the second printer 50, the subsequent processing is stopped (NO in step A14).

  In step A16, the first printer 10 stores (backups) the network wireless setting data 110a and the network connection setting data 110b stored in the wireless setting storage area 16b in the backup area 16c.

  When the backup in step A16 is completed, the first printer 10 sets (overwrites) the ad hoc wireless setting data 74 specified in step A8 in the wireless setting storage area 16b (step A18). As a result, only the ad-hoc wireless setting data 74 is stored in the wireless setting storage area 16b. When the ad hoc wireless setting data 74 is set in the wireless setting storage area 16 b, the wireless LAN interface 12 of the first printer 10 can perform wireless communication according to the ad hoc wireless setting 74. As described above, the wireless LAN interface 52 of the second printer 50 is capable of wireless communication according to the ad hoc wireless setting 74 in step B4. Therefore, at the end of step A18, the first printer 10 and the second printer 50 can perform ad hoc wireless communication. Note that when performing ad-hoc wireless communication, it is not necessary to set connection settings (that is, it is not necessary to store connection setting data in the wireless setting storage areas 16b and 56b).

  In Step A20, the first printer 10 wirelessly transmits the network wireless setting data 110a stored in the backup area 16c and the network connection setting data 110c input in Step A10 to the second printer 50. The wirelessly transmitted network wireless setting data 110a and network connection setting data 110c are received by the second printer 50 (step B6). Data transmission / reception in steps A20 and B6 is performed according to the ad-hoc wireless setting 74. Therefore, data can be transmitted and received in a high security state.

  In step B8, the computing device 54 of the second printer 50 determines whether or not the network wireless setting 110a received in step B6 can be used by the second printer 50 (step B8). For example, if the network wireless setting 110 a cannot be used by the second printer 50 due to the configuration of each part of the second printer 50, the computing device 54 determines that the network wireless setting 110 a cannot be used by the second printer 50. More specifically, for example, when the second printer 50 does not support the authentication method described in the network wireless setting 110a, the second printer 50 determines that the network wireless setting 110a cannot be used. For example, when the second printer 50 does not support the encryption method described in the network wireless setting 110a, the second printer 50 determines that the network wireless setting 110a cannot be used.

  In step B10, the second printer 50 wirelessly transmits the determination result of step B8 to the first printer 10. The determination result transmitted wirelessly is received by the first printer 10 (step A22). Data transmission / reception in steps B 10 and A 22 is performed according to the ad-hoc wireless setting 74.

If the determination result received in step A22 indicates that the network wireless setting 110a cannot be used by the second printer 50 (NO in step A24), the first printer 10 executes step A26. In step A26, the computing device 14 outputs to the display unit 18 data indicating the determination result received in step A22 (determination result indicating that the network wireless setting 110a cannot be used by the second printer 50). As a result, a message indicating the determination result is displayed on the display unit 18. When executing step A26, the arithmetic unit 14 stops the subsequent processing. In this case, the arithmetic device 14 returns the settings of the respective units of the first printer 10 to the state before the execution of the wireless communication connection process. That is, the arithmetic device 14 stores (returns) the network wireless setting data 110a and the network connection setting data 110b stored in the backup area 16c in the wireless setting storage area 16b. As a result, the first printer 10 can perform wireless communication within the wireless communication network 110.
Thus, when the network wireless setting 110a cannot be used by the second printer 50, a message to that effect is displayed on the display unit 18. Therefore, the user can easily know that the reason why the second printer 50 cannot be connected to the wireless communication network 110 is the network wireless setting 110a.

  If the determination result received in step A22 indicates that the network wireless setting 110a can be used by the second printer 50 (YES in step A24), the first printer 10 performs step A28. In step A28, the first printer 10 sets again the network wireless setting data 110a and the network connection setting data 110b backed up in the backup area 16c in step A16 in the wireless setting storage area 16b. Accordingly, the wireless LAN interface 12 of the first printer 10 can perform wireless communication according to the network wireless setting 110a and the network connection setting 110b. That is, the first printer 10 is again connected to the wireless communication network 110.

If the second printer 50 wirelessly transmits a determination result indicating that the network wireless setting 110a cannot be used by the second printer 50 in step B10, the second printer 50 stops the subsequent processing as indicated by an arrow X in step B10. In this case, the setting of each part of the second printer 50 is returned to the state before the execution of the wireless communication connection process.
When the second printer 50 wirelessly transmits a determination result indicating that the network wireless setting 110a can be used by the second printer 50 in step B10, the second printer 50 executes step B12 as indicated by an arrow Y in step B10. In Step B12, the second printer 50 sets the network wireless setting data 110a and the network connection setting data 110c received in Step B6 in the wireless setting storage area 56b. Accordingly, the wireless LAN interface 52 of the second printer 50 can perform wireless communication according to the network wireless setting 110a and the network connection setting 110c. That is, the second printer 50 is connected to the wireless communication network 110.

As described above, the first printer 10 and the second printer 50 execute the wireless communication connection process shown in FIGS. 2 and 3, whereby the second printer 50 can be connected to the wireless communication network 110. However, depending on various conditions, the second printer 50 may not be connected to the wireless communication network 110 even after step B12 is executed.
For example, if the network connection setting 110c input in step A10 is inappropriate, the second printer 50 is not connected to the wireless communication network 110. Specifically, for example, a case where the IP address of the network connection setting 110c overlaps with the IP address of another network device (a network device other than the first printer 10) in the wireless communication network 110 can be considered. In this case, YES is determined in step 12 (because it does not overlap with the IP address of the first printer 10). However, since the IP address conflict (collision) with other network devices occurs, the second printer 50 is not connected to the wireless communication network 110.
Even when the network connection setting 110 c is appropriate, the second printer 50 may not be connected to the wireless communication network 110. That is, the second printer 50 is in a positional relationship in which wireless communication with the first printer 10 is possible, but is in a positional relationship in which wireless communication with the access point 90 is impossible. Specifically, for example, the distance between the second printer 50 and the first printer 10 is short, but the distance between the second printer 50 and the access point 90 is very long. In this case, since the distance between the second printer 50 and the first printer 10 is short, the process up to step B12 can be executed. However, since the distance between the second printer 50 and the access point 90 is long, wireless communication between the second printer 50 and the access point 90 becomes impossible due to the influence of radio wave noise and the like.
As described above, the second printer 50 may not be connected to the wireless communication network 110 even after step B12 is executed. Therefore, when Steps A28 and B12 are completed, the first printer 10 and the second printer 50 execute the network connection confirmation process shown in FIG.

  In Step A30 of FIG. 4, the first printer 10 wirelessly transmits a PING signal to the second printer 50 via the wireless communication network 110 (that is, the access point 90). The wirelessly transmitted PING signal is received by the second printer 50 (step B30). That is, transmission / reception of the PING signal in steps A30 and B30 is performed according to the network wireless setting 110a. At this time, the first printer 10 uses the network connection setting 110b, and the second printer 50 uses the network connection setting 110c.

When the second printer 50 receives the PING signal in step B30, the second printer 50 wirelessly transmits a PING response signal to the first printer 10 via the wireless communication network 110 (step B32). The wirelessly transmitted PING response signal is received by the first printer 10 (step A32).
When the first printer 10 receives the PING response signal in step A32, the arithmetic unit 14 of the first printer 10 outputs data indicating that the PING response signal has been received to the display unit 18 (step A34). As a result, a message indicating that the second printer 50 is connected to the wireless communication network 110 is displayed on the display unit 18.
Also, when the PING signal or the PING response signal is not transmitted / received well and the first printer 10 cannot receive the PING response signal in Step A32 (that is, when the PING response signal cannot be received even if Step A30 is continued for a predetermined time). There is. In this case, the computing device 14 of the first printer 10 outputs data indicating that the PING response signal has not been received to the display unit 18 (step A34). As a result, a message indicating that the second printer 50 is not connected to the wireless communication network 110 is displayed on the display unit 18.
As described above, since communication is attempted between the first printer 10 and the second printer 50 via the wireless communication network 110, the user determines whether or not the second printer 50 is connected to the wireless communication network 110. Can be confirmed immediately. As can be seen from the flowcharts of FIGS. 2 to 4, the data (data indicating whether or not the PING response signal has been received) output by the arithmetic unit 14 in step A34 is determined as YES in step A22. Is output. Therefore, the data output by the computing device 14 in step A34 is data including the determination result received in step A22 (that is, the determination result indicating that the network wireless setting 110a can be used in the second printer 50). It can be said that there is.
When step A34 and step B32 are completed, the first printer 10 and the second printer 50 end the processing of FIG.

  As described above, in the wireless communication connection system 100 of this embodiment, when the network wireless setting 110a cannot be used by the second printer 50, a message to that effect is displayed on the display unit 18 of the first printer 10. The Therefore, the user can easily know that the reason why the second printer 50 cannot be connected to the wireless communication network 110 is the network wireless setting 110a. Therefore, the user can take measures for connecting the second printer 50 to the wireless communication network 110. For example, the second printer 50 can be connected to the wireless communication network 110 by changing the network wireless setting 110a of the wireless communication network 110 according to the second printer 50 and executing the wireless communication connection process again.

  Further, in the wireless communication connection system 100, after the wireless communication connection process shown in FIGS. 2 and 3 is performed, a network for confirming whether or not the second printer 50 shown in FIG. 4 is connected to the wireless communication network 110. Connection confirmation processing is performed. Therefore, the user can immediately confirm whether or not the second printer 50 is connected to the wireless communication network 110.

  In the wireless communication connection system 100, the first printer 10 stores an ad hoc wireless setting database 32 (that is, a plurality of patterns of ad hoc wireless settings associated with device identification information). Then, the first printer 10 receives device specifying data broadcast from another network device, and specifies an ad hoc wireless setting corresponding to the received device specifying data. Therefore, the first printer 10 can connect various network devices to the wireless communication network 110 in addition to the second printer 50.

  Further, the first printer 10 determines whether or not the network connection setting 110c input in step A10 matches the network connection setting 110b of the first printer 10. When it is determined that the input network connection setting 110c does not match the network connection setting 110b of the first printer 10, the user is allowed to select whether to wirelessly transmit the network connection setting 110c to the second printer 50. Therefore, a user who is not familiar with the wireless LAN communication can re-enter the network connection setting 110 c that matches the network connection setting 110 b of the first printer 10. In addition, a user who is familiar with wireless LAN communication can transmit a suitable network connection setting 110c for the second printer 50 to the second printer 50 without conforming to the network connection setting 110b of the first printer 10. it can.

  In the above-described embodiment, the case where the first printer 10 is connected to the wireless communication network 110 that performs wireless communication via the access point 90 (that is, the wireless communication network in the infrastructure mode) has been described. However, even when the first printer 10 is connected to another form of wireless communication network, the second printer 50 can be connected to the wireless communication network. For example, consider a case where the first printer 10 is connected to a wireless communication network that performs ad-hoc wireless communication using a common ad-hoc wireless setting among a plurality of network devices. In this case, the first printer 10 wirelessly transmits to the second printer 50 an ad hoc wireless setting commonly used in the wireless communication network, so that the second printer 50 wirelessly uses the received ad hoc wireless setting. It becomes possible to connect to a communication network.

  In the above-described embodiment, the wireless communication network 110 includes a plurality of network devices in addition to the first printer 10 and the access point 90. However, the wireless communication network may be configured by only the first printer 10 and one other network device. For example, the access point 90 may be connected to another network such as the Internet by wire, and the access point 90 (that is, the network device) and the first printer 10 alone may constitute a wireless communication network. In this case, the first printer 10 can communicate with another network via the access point 90. Further, by connecting the second printer 50 to the wireless communication network, the second printer 50 communicates with the first printer 10 or another network connected to the access point 90 via the access point 90 in a wired manner. Will be able to. As described above, the wireless communication network includes a configuration including only the first printer 10 and one other network device (such as the access point 90).

Specific examples of the present invention have been described in detail above, but these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above.
The technical elements described in this specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the technology illustrated in the present specification or the drawings achieves a plurality of objects at the same time, and has technical utility by achieving one of the objects.

10: first printer 12: wireless LAN interface 14: arithmetic device 16: storage device 18: display unit 20: input unit 22: printer unit 50: second printer 52: wireless LAN interface 54: arithmetic device 56: storage device 58: Display unit 60: Input unit 62: Printer unit 90: Access point 100: Wireless communication connection system 110: Wireless communication network

The present invention is a wireless communication connection system comprising a first network device capable of wireless communication and a second network device capable of wireless communication, wherein the first network device comprises an access point-based network wireless setting preparation means. The access point utilization type network wireless setting transmission means and the specific signal reception means, and the second network device comprises an access point utilization type network wireless setting reception means and a specific signal transmission means. The access point using network wireless setting preparing means of the first network device prepares an access point using network wireless setting, and the access point using network wireless setting includes the first network device and the first network device. The second network device includes an access point Network wireless setting for wireless communication using a specific wireless communication network, and the access point using network wireless setting transmitting means of the first network device is prepared by the access point using network wireless setting preparing means The access point using network wireless setting is wirelessly transmitted to the second network device using an access point non-use wireless communication that is a one-to-one wireless communication not via the access point, and An access point utilization type network wireless setting receiving means of the two network device receives the access point utilization type network wireless setting from the first network device using the access point non-use type wireless communication, and the second network Said of the device The constant signal transmitting means uses the specific wireless communication network according to the access point using network wireless setting when the access point using network wireless setting is received by the access point using network wireless setting receiving means. Then, the specific signal is wirelessly transmitted to the first network device, and the specific signal receiving unit of the first network device is prepared by the access point using network wireless setting preparing unit. The wireless communication connection system, wherein the specific signal is received from the second network device using the specific wireless communication network in accordance with settings.
The inventor has noted that there are multiple types of network radio settings (eg, multiple types of authentication schemes) and not all network devices can use all types of network radio settings. . For example, even if the transmitting network device transmits an authentication method used in a wireless communication network to which the transmitting network device is subscribed to the new network device, the new network device may use the authentication method. There are things that cannot be done. That is, the new network device may not be connected to the wireless communication network because the new network device does not support the network wireless settings used in the existing wireless communication network. In the wireless communication connection system disclosed in this specification, it is possible to output that the network device that has been set as such cannot be connected to the wireless communication network, and includes the following configuration.

Claims (13)

A wireless communication connection system for connecting a second network device to the wireless communication network, comprising: a first network device connected to a wireless communication network; and a second network device capable of wireless communication.
The first network device includes network wireless setting storage means, first ad hoc wireless setting storage means, network wireless setting transmission means, determination result receiving means, and determination result output means,
The second network device includes second ad hoc wireless setting storage means, network wireless setting reception means, determination means, and determination result transmission means,
The network wireless setting storage means of the first network device stores network wireless settings for wireless communication using the wireless communication network,
The first ad hoc radio setting storage means of the first network device and the second ad hoc radio setting storage means of the second network device store the same ad hoc radio settings,
The network wireless setting transmission means of the first network device wirelessly transmits the network wireless setting stored in the network wireless setting storage means to the second network device according to the ad hoc wireless setting,
The network radio setting receiving means of the second network device receives the network radio setting wirelessly transmitted from the first network device according to the ad-hoc radio setting,
The determination unit of the second network device determines whether or not the network wireless setting received by the network wireless setting receiving unit can be used in the second network device;
The determination result transmission unit of the second network device wirelessly transmits the determination result by the determination unit to the first network device according to the ad hoc wireless setting,
The determination result receiving means of the first network device receives the determination result wirelessly transmitted from the second network device according to the ad hoc wireless setting,
A wireless communication connection system, wherein the determination result output means of the first network device outputs the determination result received by the determination result receiving means. The determination result output means of the first network device outputs the determination result when the determination result indicating that the network wireless setting cannot be used by the second network device is received by the determination result receiving means. The wireless communication connection system according to claim 1. The first network device further includes a confirmation signal transmitting means, a reply signal receiving means, and a reply result output means,
The second network device further includes a confirmation signal receiving unit and a reply signal transmitting unit,
The confirmation signal transmitting means of the first network device is stored in the network wireless setting storage means when the determination result indicating that the network wireless setting is available in the second network device is received by the determination result receiving means. Wirelessly transmitting a confirmation signal to the second network device according to the network wireless setting,
The confirmation signal receiving means of the second network device receives the confirmation signal wirelessly transmitted from the first network device according to the network wireless setting received by the network wireless setting receiving means,
The reply signal transmitting means of the second network device wirelessly transmits the reply signal to the first network device according to the network wireless setting received by the network wireless setting receiving means when the confirmation signal is received by the confirmation signal receiving means. ,
The reply signal receiving means of the first network device receives the reply signal wirelessly transmitted from the second network device according to the network wireless setting stored in the network wireless setting storage means,
The reply result output means of the first network device outputs information indicating that the reply signal is received when the reply signal is received by the reply signal receiving means, and the reply signal is not received by the reply signal receiving means. The wireless communication connection system according to claim 1 or 2, wherein information indicating that a reply signal has not been received is output. The first network device further includes a specific information receiving unit and an ad hoc wireless setting specifying unit,
The second network device further includes a specific information storage unit and a specific information transmission unit,
The first ad hoc radio setting storage means of the first network device stores a plurality of patterns of ad hoc radio settings,
Device specific information is associated with each pattern's ad hoc wireless settings,
The specific information storage means of the second network device stores device specific information of the second network device,
The specific information transmitting means of the second network device wirelessly transmits the device specific information stored in the specific information storage means using broadcast,
The specific information receiving means of the first network device receives the device specific information wirelessly transmitted from the second network device,
An ad hoc wireless setting specifying unit of the first network device specifies an ad hoc wireless setting stored in the first ad hoc wireless setting storage unit in association with the device specifying information received by the specifying information receiving unit;
The network wireless setting transmission unit and the determination result receiving unit of the first network device perform wireless communication according to the ad-hoc wireless setting specified by the ad-hoc wireless setting specifying unit. Wireless communication connection system. The first network device further includes connection setting input means for inputting connection settings,
The network wireless setting transmission means of the first network device wirelessly transmits the network wireless setting and the connection setting input to the connection setting input means to the second network device. The wireless communication connection system according to item 1. The first network device
Connection setting determination means for determining whether or not the connection setting input to the connection setting input means conforms to the connection setting of the first network device;
When the connection setting determining unit determines that the connection setting input to the connection setting input unit does not match the connection setting of the first network device, the connection setting input to the second network device is wirelessly transmitted to the second network device. Selection permission means for allowing the user to select whether or not to transmit, and
The network wireless setting transmission means of the first network device, when the connection setting determination means determines that the connection setting input to the connection setting input means matches the connection setting of the first network device, and to the connection setting input means When the selection permitting unit selects to wirelessly transmit the input connection setting to the second network device, the connection setting input to the second network device is wirelessly transmitted to the second network device. The wireless communication connection system according to claim 5.   7. The wireless communication connection system according to claim 5, wherein the connection setting includes an IP address of a second network device and a subnet mask. The network wireless setting includes a network ID of the wireless communication network, an authentication method used in the wireless communication network, and an encryption method used in the wireless communication network. The wireless communication connection system according to any one of claims 1 to 7. 2. The ad-hoc wireless setting includes an ad-hoc ID for ad-hoc wireless communication, an authentication method used for ad-hoc wireless communication, and an encryption method used for ad-hoc wireless communication. The wireless communication connection system according to any one of? 8. The wireless communication connection system according to any one of claims 1 to 9, wherein the wireless communication network is an infrastructure mode wireless communication network. A network device connectable to a wireless communication network,
Network wireless setting storage means for storing network wireless settings for wireless communication using the wireless communication network;
An ad-hoc radio setting storage unit storing ad-hoc radio settings;
Network wireless setting transmission means for wirelessly transmitting the network wireless setting stored in the network wireless setting storage means to another network device according to the ad hoc wireless setting;
A determination result receiving means for receiving a determination result according to the ad hoc wireless setting when a determination result of whether or not the network wireless setting is usable in the other network device is wirelessly transmitted from the other network device;
And a determination result output means for outputting the determination result received by the determination result receiving means. A network device connectable to a wireless communication network,
An ad-hoc radio setting storage unit storing ad-hoc radio settings;
Network wireless setting receiving means for receiving the network wireless setting in accordance with the ad-hoc wireless setting when a wireless network setting for wireless communication using the wireless communication network is wirelessly transmitted from another network device;
Determining means for determining whether or not the network wireless setting received by the network wireless setting receiving means is available in the network device;
A network apparatus comprising: a determination result transmission unit that wirelessly transmits a determination result by the determination unit to the other network apparatus according to the ad hoc wireless setting. A network device connectable to a wireless communication network,
Network wireless setting storage means for storing network wireless settings for wireless communication using the wireless communication network;
An ad-hoc radio setting storage unit storing ad-hoc radio settings;
Network wireless setting transmission means for wirelessly transmitting the network wireless setting stored in the network wireless setting storage means to another network device according to the ad hoc wireless setting;
Confirmation signal transmitting means for wirelessly transmitting a confirmation signal to the other network device according to the network wireless setting stored in the network wireless setting storage means;
A reply signal receiving means for receiving a reply signal to the confirmation signal wirelessly transmitted from the other network device according to the network wireless setting stored in the network wireless setting storage means;
When the reply signal is received by the reply signal receiving means, information indicating that the reply signal is received is output, and when the reply signal is not received by the reply signal receiving means, the reply signal is not received. And a reply result output means for outputting information indicating that.

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