JP2005064552A - Printer and scanner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer or the like for establishing direct wireless connection to a terminal to make wireless communication by securing e.g., security and wirelessly connecting to the other wireless communication apparatus to make wireless communication. <P>SOLUTION: In a printer F1 making wireless communication, a first wireless communication means (communication function 1) establishes, in e.g., an ad hoc mode, direct wireless connection to a terminal C1 to make wireless communication, a second wireless communication means 2 establishes, in e.g., an infrastructure mode, wireless connection to a wireless communication apparatus B1 other than the terminal C1 with which the first wireless communication means (communication function 1) makes wireless communication through direct wireless connection. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a printer device, a scanner device, and the like that perform wireless communication. In particular, for example, security is ensured and wireless communication is performed by directly wirelessly connecting to a terminal device, and wirelessly connected to another wireless communication device. The present invention relates to a printer device, a scanner device, and the like that can communicate.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, network communication using a wired LAN (Local Area Network) has improved wireless communication speed, standardized interconnection, and the like, and the wireless network environment is expanding. In particular, transmission / reception of data using short-range wireless communication such as IEEE802.11 and Bluetooth is beginning to be put into practical use.
[0003]
A printer apparatus (printing apparatus) such as a printer dedicated machine or a multi-function machine is equipped with such a wireless communication function, so that it can be used not only in an office but also in a store or public space. It is possible to print by connecting to a printer device wirelessly using a client device such as Assistant.
[0004]
In particular, for printing needs on the go, the convenience of wireless is great, and the use of wireless printing is expected in the future.
Currently, such wireless printing communication functions include, for example, IEEE802.11b and Bluetooth. In particular, 2.4 GHz wireless LAN technology based on the IEEE802.11b standard is expanding as a wireless infrastructure. Is being viewed.
[0005]
In the IEEE802.11b wireless communication, an infrastructure mode connected to a network via a base station device called an access point (AP) and an ad hoc mode connected between terminals are supported. Usually, since it is premised on connecting to a LAN via an access point, a printer device such as a printer is also provided on the LAN in an infrastructure mode.
[0006]
Therefore, in a case where printing is performed from a client device in an office or the like outside, it is necessary to first connect to an access point and output to a printer device on the network.
[0007]
However, in order to connect to an access point, it is necessary to search for the access point, acquire information on the ESS-ID (Extended Service Set Identity) and MAC address of the access point, and acquire an IP (Internet Protocol) address for LAN connection. It becomes. In addition, as a security measure, authentication and encryption processing may be performed during wireless connection. Further, when performing authentication, since only a specific user is permitted to connect, it is necessary to register client information in advance. Further, when encryption processing is performed, encryption key information is required. When performing authentication or encryption processing, it is necessary to set these pieces of information in advance, and in particular, it is not easy to set access point connection in the first environment.
[0008]
Even when connected to an access point, it is necessary to search for a printer device suitable for the content to be printed. For example, even when it is desired to output to a printer device in front of the user, there is a problem that information such as the IP address and host name of the printer device is required.
[0009]
Further, as a method of eliminating such a troublesome connection, an ad hoc connection method that directly connects to a printer device can be considered. Usually, a printer device such as a printer is placed under the management of an access point. Since it is shared on the LAN, there is a problem that infrastructure connection does not function when switching to ad hoc connection. Further, the troublesomeness regarding the search for the printer device and the service acquisition is not eliminated.
[0010]
In addition, as a problem at the time of ad hoc connection, it is necessary to set the use frequency band, ESS-ID, etc. each time. However, since the optimum value cannot be set in advance like an access point, the situation is checked each time. It is necessary to judge.
[0011]
[Patent Document 1]
JP 2002-118597 A
[Patent Document 2]
JP 2002-124989 A
[Patent Document 3]
JP 2001-237858 A
[Patent Document 4]
JP-A-8-172434
[Patent Document 5]
JP-A-11-55727
[Patent Document 6]
JP 2002-58075 A
[Patent Document 7]
JP 2002-64473 A
[0012]
[Problems to be solved by the invention]
As described in the above-described conventional example, in a conventional printer device, for example, in an office where the user is away from home, a search for a printer to be output, acquisition of service contents of the printer, connection with the printer, print output by the printer Up to this point, there has been a problem that the acquisition of necessary information, connection setting, and the like are complicated, and there is a problem that efficiency is poor.
In addition, the scanner device such as the scanner dedicated machine or the multifunction machine has the same problem as the printer device described above.
[0013]
The present invention has been made to solve such a conventional problem. For example, while ensuring security, the wireless communication is performed by directly wirelessly connecting to a terminal device, and wirelessly connected to another wireless communication device. It is an object of the present invention to provide a printer device that can be connected and wirelessly communicated.
The present invention has been made to solve such a conventional problem. For example, while ensuring security, wireless communication is performed by directly wirelessly connecting to a terminal device, and other wireless communication devices. An object of the present invention is to provide a scanner device that can wirelessly connect to and communicate wirelessly.
[0014]
[Means for Solving the Problems]
(1) A printer apparatus according to the present invention will be described.
In order to achieve the above object, the printer apparatus according to the present invention performs wireless communication with the following configuration.
That is, the first wireless communication unit performs wireless communication by directly wirelessly connecting with the terminal device, and the second wireless communication unit is wirelessly connected by wireless connection directly by the first wireless communication unit. Wirelessly communicates with a wireless communication device other than the terminal device.
Accordingly, for example, security can be ensured, and wireless communication can be performed by directly connecting to the terminal device by wireless connection, and wireless communication can be performed by connecting wirelessly to another wireless communication device.
[0015]
Specifically, in the terminal device, in the case of performing wireless communication by directly wirelessly connecting to the printer device, for example, setting for connecting to the network is unnecessary, and since it is not connected to the network, Security can be ensured. Further, in the case where the terminal device only needs to wirelessly connect to the printer device and use the printing process by the printer device, it is not necessary to connect to the base station device (access point).
[0016]
Here, various devices may be used as the first wireless communication unit and the second wireless communication unit, respectively.
In addition, various numbers may be used as the number of the plurality of wireless communication units provided in the printer apparatus. For example, the number may be two of the first wireless communication unit and the second wireless communication unit. It may be three or more.
Further, as the plurality of wireless communication means, for example, those using different wireless communication systems such as different frequencies used for wireless communication can be used.
[0017]
In the printer apparatus according to the present invention, as one configuration example, the second wireless communication unit wirelessly communicates with a base station apparatus that accommodates the printer apparatus.
Accordingly, for example, security can be ensured, and wireless communication can be performed by directly connecting to the terminal device by wireless connection, and wireless communication can be performed by connecting wirelessly to the base station device. As an example, even when the wireless connection between the printer device and the base station device should not be disconnected, the printer device directly connects to the terminal device as necessary while maintaining the wireless connection. Wireless communication.
[0018]
In the printer device according to the present invention, as one configuration example, the second wireless communication unit wirelessly connects to a terminal device other than the terminal device that performs wireless communication directly by the first wireless communication unit. connect.
Therefore, for example, security can be ensured, and wireless communication can be performed by wireless connection directly with a terminal device, and wireless communication can be performed by wireless connection with another terminal device.
[0019]
As an example, in the printer device, the first wireless communication unit performs wireless communication by directly wirelessly connecting to a terminal device that does not exist under the base station device that accommodates the printer device, and the second wireless communication unit. It is possible to perform wireless communication by directly wirelessly connecting to other terminal devices existing under the base station device, or by indirectly connecting and communicating via the base station device.
[0020]
In the printer apparatus according to the present invention, as one configuration example, the second wireless communication unit wirelessly communicates with another printer apparatus by wireless connection.
Accordingly, for example, security can be ensured, and wireless communication can be performed by directly connecting to the terminal device by wireless connection, and wireless communication can be performed by connecting wirelessly to another printer device.
[0021]
The printer apparatus according to the present invention includes a base station apparatus function that operates as a base station apparatus as one configuration example. And the said base station apparatus function communicates by radio | wireless using a 2nd radio | wireless communication means.
Therefore, for example, security can be ensured and wireless communication can be performed by wireless connection directly with the terminal device, and wireless communication can be performed by the base station device function.
[0022]
As an example, the printer device has a built-in base station device function, and determines whether or not to authenticate the terminal device as valid with respect to the network connection, and only the terminal device authenticated as valid is networked. It has a filtering function to connect to.
[0023]
In the printer apparatus according to the present invention, as one configuration example, a terminal apparatus that is directly wirelessly connected by the first wireless communication unit and performs wireless communication directly accesses the second wireless communication unit side. prohibited.
Therefore, for example, the wireless communication by the first wireless communication unit and the wireless communication by the second wireless communication unit are performed independently, and the first wireless communication unit performs direct wireless connection to perform wireless communication. Since the terminal device prohibits the second wireless communication means side from being directly accessed, the security of the network on the second wireless communication means side can be ensured.
[0024]
Here, it is always done that a terminal device that is directly wirelessly connected and wirelessly communicated with the first wireless communication means is prohibited from directly accessing the second wireless communication means side. Alternatively, the case where it is prohibited and the case where it is not prohibited (that is, permitted) may be switched depending on the result of the authentication.
[0025]
Also, in the printer device, for example, the data is received from one side between the terminal device that is directly wirelessly connected by the first wireless communication unit and wirelessly communicates with the communication device on the second wireless communication unit side. An analysis relay function for analyzing data and transmitting data based on the analysis result to the other may be provided. Even in such a configuration, it is prohibited to communicate data between the terminal device on the first wireless communication means side and the communication device on the second wireless communication means side without the analysis relay by the printer device. Therefore, security can be ensured.
[0026]
In the printer apparatus according to the present invention, as one configuration example, the first wireless communication unit can use a plurality of communication channels, and selects a communication channel to be used based on the quality of each communication channel.
Therefore, based on the quality of each communication channel, wireless communication can be performed with good quality by using the communication channel with the best quality or relatively good quality.
[0027]
Here, various numbers may be used as the number of the plurality of communication channels, and as an example, 14 channels can be used.
Various channels may be used as the plurality of communication channels. For example, a plurality of channels having different radio frequency bands used for communication, a plurality of channels having different communication time zones, and the like can be used. .
Moreover, various communication channels may be used as each communication channel.
[0028]
Further, for example, each of a plurality of communication channels may be used by switching to a different time zone, or two or more communication channels may be used at the same time.
In addition, various types of communication channel quality relating to the quality of wireless communication may be used.
[0029]
In the printer apparatus according to the present invention, as one configuration example, the first wireless communication unit uses quality based on the number of packets received per unit time as the quality of the communication channel.
Therefore, a communication channel with good quality can be selected based on the number of packets received per unit time.
[0030]
As an example, in a configuration in which all incoming packets are received once and received packets that are not addressed to the device are discarded, the quality of wireless communication is better as the number of received packets is smaller in each communication channel. The higher the number of packets received, the worse the quality of the wireless communication.
[0031]
In the printer apparatus according to the present invention, as one configuration example, the first wireless communication unit uses a quality based on the average value of the received electric field strength as the quality of the communication channel.
Therefore, a communication channel with good quality can be selected based on the average value of the received electric field strength.
[0032]
As an example, in each communication channel, the higher the average value of the received electric field strength, the better the quality of the wireless communication, and the lower the average value of the received electric field strength, the lower the quality of the radio communication.
[0033]
The printer apparatus according to the present invention has the following configuration as an example of the configuration.
That is, the terminal device identifying means identifies the terminal device that requests direct wireless connection by the first wireless communication means, and the request processing execution availability determination means is based on the identification result by the terminal device identifying means, Whether to execute the process requested by the terminal device is determined.
Therefore, based on the identification result of the terminal device, it is possible to control whether or not to execute the process requested by the terminal device.
[0034]
Here, various methods may be used as a method of identifying the terminal device. For example, a method of using identification information of the terminal device may be used.
Various processes required by the terminal device may be used.
[0035]
As an example, in a printer device, identification information of a terminal device to be authenticated as valid is stored in a memory in advance, and processing for allowing or not permitting (that is, prohibiting) is performed for each identification information of each terminal device. ) The process is stored in the memory in advance, and identification information is received from the terminal device, the terminal device is authenticated based on the identification information, and requested by the terminal device based on the identification information. Whether to execute the process is determined and controlled.
[0036]
In the printer device according to the present invention, as one configuration example, the received data transfer unit transmits data received from a terminal device that is wirelessly connected directly by the first wireless communication unit to the other printer device. Forward.
Therefore, in the printer device, for example, when it is impossible to respond to a request from a terminal device that performs wireless communication by direct wireless connection using the first wireless communication unit, data received from the terminal device is stored. It can be transferred to other printer devices.
[0037]
In the printer device according to the present invention, as one configuration example, the transfer data processing result receiving unit receives the processing result by the other printer device of the data transferred to the other printer device by the received data transfer unit, and The first wireless communication means wirelessly transmits the processing result received by the transfer data processing result receiving means to the terminal device that is the transmission data transmission source.
Therefore, the printer device can transmit the processing result of the data returned from the other printer device to which the data received from the terminal device is transferred to the terminal device.
[0038]
In the printer apparatus according to the present invention, as one configuration example, the data transferred by the received data transfer unit is data to be printed.
Therefore, the printer device can transfer the data to be printed received from the terminal device to another printer device, and cause the other printer device to print the data.
Here, various data may be used as the data to be printed. For example, PDL (Page Description Language) data may be used.
[0039]
In the printer device according to the present invention, as one configuration example, the processing result received by the transfer data processing result receiving unit and wirelessly transmitted by the first wireless communication unit is attribute information relating to the printer function of another printer device. .
Therefore, in the printer device, for example, when the first wireless communication unit cannot directly respond to a request from a terminal device that performs wireless communication by wireless connection, the printer function of the other printer device is provided. The attribute information regarding can be received and transmitted to the terminal device.
[0040]
Here, various types of attribute information relating to the printer function may be used. For example, black and white and color support, paper type, both sides correspondence, imposition, printer driver, and printer driver can be output. Information about the printer service that can be provided can be used, such as information about the format (direct printing format), etc. Also, for example, information on the printer such as out of paper, error status, congestion status, failure status, etc. Information about the state can be used.
[0041]
For the other printer apparatuses described above, it is also possible to use attribute information related to the position of the printer apparatus, as well as attribute information related to the printer function.
Here, various pieces of attribute information relating to the position of the printer device may be used. For example, the fact that the printer device is located near the terminal device, that the device is located far from the terminal device, and the distance from the terminal device. Information such as distance and direction viewed from the terminal device can be used. For example, information indicating where the printer device exists in a predetermined room using characters or a map, When the pillars are numbered in the room, information indicating which number of pillars are near the printer device can be used.
[0042]
In the printer device according to the present invention, as one configuration example, the processing result received by the transfer data processing result receiving unit and wirelessly transmitted by the first wireless communication unit is attribute information for wireless connection with another printer device. is there.
Therefore, in the printer device, for example, when it is not possible to respond to a request from a terminal device that performs wireless communication by direct wireless connection using the first wireless communication unit, the printer device wirelessly connects to another printer device. Attribute information can be received and transmitted to the terminal device. As a result, the terminal device can, for example, directly or indirectly wirelessly connect to the other printer device and use the printer function of the other printer device.
[0043]
Here, various pieces of attribute information for wireless connection with the printer apparatus may be used. For example, identification information such as a base station apparatus or address information may be used. As information for wireless connection, for example, an ID name, an IP address, a host name, or the like used on the Internet can be used regardless of the use of the Internet.
[0044]
In the present invention, the technology related to the printer apparatus as described above can also be provided as a method.
As an example, in the printer device wireless communication method according to the present invention, in the printer device that performs wireless communication, the first wireless communication function directly connects to the terminal device for wireless communication, and the second wireless communication function is the first wireless communication function. Wireless communication is performed by wireless connection with a wireless communication device other than a terminal device that performs wireless communication by direct wireless connection using the wireless communication function 1.
[0045]
In the present invention, the technology relating to the printer apparatus as described above can also be provided as a program.
As an example, a program according to the present invention is executed by a computer that constitutes a printer device that performs wireless communication, and has a first wireless communication function that wirelessly communicates by directly wirelessly connecting to a terminal device; A second wireless communication function for wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device that performs wireless communication by direct wireless connection using the first wireless communication function is realized by the computer.
[0046]
In the present invention, the technology relating to the printer apparatus as described above can also be provided as a storage medium.
As an example, in the storage medium according to the present invention, a program to be executed by a computer constituting a printer device that performs wireless communication is stored so as to be readable by an input unit of the computer. The program includes a process in which the first wireless communication function is wirelessly connected directly to the terminal device and wirelessly communicated, and the second wireless communication function is wirelessly connected directly to the first wireless communication function. A process of performing wireless communication by wireless connection with a wireless communication device other than a terminal device that performs wireless communication is executed by the computer.
[0047]
(2) A scanner device according to the present invention will be described.
In order to achieve the above object, the scanner device according to the present invention performs wireless communication with the following configuration.
That is, the first wireless communication unit performs wireless communication by directly wirelessly connecting with the terminal device, and the second wireless communication unit is wirelessly connected by wireless connection directly by the first wireless communication unit. Wirelessly communicates with a wireless communication device other than the terminal device.
Accordingly, for example, security can be ensured, and wireless communication can be performed by directly connecting to the terminal device by wireless connection, and wireless communication can be performed by connecting wirelessly to another wireless communication device.
[0048]
Specifically, in the case where the terminal device performs wireless communication by directly wirelessly connecting to the scanner device, for example, the setting for connecting to the network is unnecessary and the connection to the network is not required. Security can be ensured. Further, in the case where the terminal device only needs to wirelessly connect to the scanner device and use the scanning process by the scanner device, it is not necessary to connect to the base station device (access point).
[0049]
Here, various devices may be used as the first wireless communication unit and the second wireless communication unit, respectively.
In addition, various numbers may be used as the number of the plurality of wireless communication units provided in the scanner device, for example, two of the first wireless communication unit and the second wireless communication unit may be used. It may be three or more.
Further, as the plurality of wireless communication means, for example, those using different wireless communication systems such as different frequencies used for wireless communication can be used.
[0050]
In the scanner device according to the present invention, as one configuration example, the second wireless communication unit wirelessly communicates with a base station device that accommodates the scanner device.
Accordingly, for example, security can be ensured, and wireless communication can be performed by directly connecting to the terminal device by wireless connection, and wireless communication can be performed by connecting wirelessly to the base station device. As an example, even when the wireless connection between the scanner device and the base station device should not be disconnected, the scanner device directly connects to the terminal device as necessary while maintaining the wireless connection. Wireless communication.
[0051]
In the scanner device according to the present invention, as one configuration example, the second wireless communication unit is wirelessly connected to a terminal device other than the terminal device that is wirelessly connected directly by the first wireless communication unit. connect.
Therefore, for example, security can be ensured, and wireless communication can be performed by wireless connection directly with a terminal device, and wireless communication can be performed by wireless connection with another terminal device.
[0052]
As an example, in the scanner device, the first wireless communication unit performs wireless communication by directly wirelessly connecting to a terminal device that does not exist under the base station device that accommodates the scanner device, and the second wireless communication unit. It is possible to perform wireless communication by directly wirelessly connecting to other terminal devices existing under the base station device, or by indirectly connecting and communicating via the base station device.
[0053]
In the scanner device according to the present invention, as one configuration example, the second wireless communication unit wirelessly communicates with another scanner device by wireless connection.
Therefore, for example, security can be ensured, and wireless communication can be performed by directly connecting to the terminal device by wireless connection, and wireless communication can be performed by connecting wirelessly to another scanner device.
[0054]
The scanner apparatus according to the present invention includes a base station apparatus function that operates as a base station apparatus as one configuration example. And the said base station apparatus function communicates by radio | wireless using a 2nd radio | wireless communication means.
Therefore, for example, security can be ensured and wireless communication can be performed by wireless connection directly with the terminal device, and wireless communication can be performed by the base station device function.
[0055]
As an example, the scanner device has a built-in base station device function, and determines whether or not to authenticate the terminal device as valid with respect to the network connection, and only the terminal device authenticated as valid is networked. It has a filtering function to connect to.
[0056]
In the scanner device according to the present invention, as one configuration example, a terminal device that is directly wirelessly connected and wirelessly communicated with the first wireless communication unit may directly access the second wireless communication unit side. prohibited.
Therefore, for example, the wireless communication by the first wireless communication unit and the wireless communication by the second wireless communication unit are performed independently, and the first wireless communication unit performs direct wireless connection to perform wireless communication. Since the terminal device prohibits the second wireless communication means side from being directly accessed, the security of the network on the second wireless communication means side can be ensured.
[0057]
Here, it is always done that a terminal device that is directly wirelessly connected and wirelessly communicated with the first wireless communication means is prohibited from directly accessing the second wireless communication means side. Alternatively, the case where it is prohibited and the case where it is not prohibited (that is, permitted) may be switched depending on the result of the authentication.
[0058]
In the scanner device, for example, the first wireless communication unit directly receives a wireless connection and wireless communication is performed between the terminal device and the communication device on the second wireless communication unit side. An analysis relay function for analyzing data and transmitting data based on the analysis result to the other may be provided. Even in such a configuration, it is prohibited to communicate data between the terminal device on the first wireless communication means side and the communication device on the second wireless communication means side without the analysis relay by the scanner device. Therefore, security can be ensured.
[0059]
In the scanner device according to the present invention, as one configuration example, the first wireless communication unit can use a plurality of communication channels, and selects a communication channel to be used based on the quality of each communication channel.
Therefore, based on the quality of each communication channel, wireless communication can be performed with good quality by using the communication channel with the best quality or relatively good quality.
[0060]
Here, various numbers may be used as the number of the plurality of communication channels, and as an example, 14 channels can be used.
Various channels may be used as the plurality of communication channels. For example, a plurality of channels having different radio frequency bands used for communication, a plurality of channels having different communication time zones, and the like can be used. .
Moreover, various communication channels may be used as each communication channel.
[0061]
Further, for example, each of a plurality of communication channels may be used by switching to a different time zone, or two or more communication channels may be used at the same time.
In addition, various types of communication channel quality relating to the quality of wireless communication may be used.
[0062]
In the scanner apparatus according to the present invention, as one configuration example, the first wireless communication unit uses quality based on the number of packets received per unit time as the quality of the communication channel.
Therefore, a communication channel with good quality can be selected based on the number of packets received per unit time.
[0063]
As an example, in a configuration in which all incoming packets are received once and received packets that are not addressed to the device are discarded, the quality of wireless communication is better as the number of received packets is smaller in each communication channel. The higher the number of packets received, the worse the quality of the wireless communication.
[0064]
In the scanner apparatus according to the present invention, as one configuration example, the first wireless communication unit uses quality based on the average value of the received electric field strength as the quality of the communication channel.
Therefore, a communication channel with good quality can be selected based on the average value of the received electric field strength.
[0065]
As an example, in each communication channel, the higher the average value of the received electric field strength, the better the quality of the wireless communication, and the lower the average value of the received electric field strength, the lower the quality of the radio communication.
[0066]
The scanner device according to the present invention has the following configuration as an exemplary configuration.
That is, the terminal device identifying means identifies the terminal device that requests direct wireless connection by the first wireless communication means, and the request processing execution availability determination means is based on the identification result by the terminal device identifying means, Whether to execute the process requested by the terminal device is determined.
Therefore, based on the identification result of the terminal device, it is possible to control whether or not to execute the process requested by the terminal device.
[0067]
Here, various methods may be used as a method of identifying the terminal device. For example, a method of using identification information of the terminal device may be used.
Various processes required by the terminal device may be used.
[0068]
As an example, in the scanner device, the identification information of the terminal device to be authenticated as valid is stored in advance in the memory, and the permitted processing or not permitted (that is, prohibited) for each identification information of each terminal device. ) The process is stored in the memory in advance, and identification information is received from the terminal device, the terminal device is authenticated based on the identification information, and requested by the terminal device based on the identification information. Whether to execute the process is determined and controlled.
[0069]
In the scanner apparatus according to the present invention, as one configuration example, the received data transfer means transmits data received from a terminal apparatus that is wirelessly connected directly by the first wireless communication means to the other scanner apparatus. Forward.
Therefore, in the scanner device, for example, when it is not possible to respond to a request from a terminal device that performs wireless communication by direct wireless connection using the first wireless communication unit, data received from the terminal device is stored. It can be transferred to other scanner devices.
[0070]
In the scanner device according to the present invention, as one configuration example, the transfer data processing result receiving unit receives the processing result by the other scanner device of the data transferred to the other scanner device by the received data transfer unit, and The first wireless communication means wirelessly transmits the processing result received by the transfer data processing result receiving means to the terminal device that is the transmission data transmission source.
Therefore, the scanner device can transmit the processing result of the data returned from another scanner device that is a transfer destination of the data received from the terminal device to the terminal device.
[0071]
In the scanner apparatus according to the present invention, as one configuration example, the data transferred by the received data transfer means is data related to scanning.
Accordingly, the scanner device can transfer the scan-related data received from the terminal device to another scanner device, and the other scanner device can refer to the data.
Here, various data may be used as data related to scanning.
[0072]
In the scanner device according to the present invention, as one configuration example, the processing result received by the transfer data processing result receiving unit and wirelessly transmitted by the first wireless communication unit is attribute information relating to the scanner function of another scanner device. .
Accordingly, in the scanner device, for example, when the first wireless communication unit cannot directly respond to a request from a terminal device that performs wireless communication by wireless connection, the scanner function of the other scanner device has. The attribute information regarding can be received and transmitted to the terminal device.
[0073]
Here, various types of attribute information related to the scanner function may be used. For example, information related to scanner services that can be provided, such as information related to black and white and color support, paper types, scanner drivers, and the like. For example, information on the status of the scanner can be used, such as information on error status, congestion status, failure status, and the like.
[0074]
For the other scanner devices described above, it is also possible to use attribute information related to the position of the scanner device, as well as attribute information related to the scanner function.
Here, various pieces of attribute information relating to the position of the scanner device may be used. For example, the fact that the information is present at a position close to the terminal device, that the device is located far from the terminal device, and the distance from the terminal device. Information such as distance and direction viewed from the terminal device can be used. For example, information indicating where the scanner device exists in a predetermined room using characters or a map, When the pillars are numbered in the room, information indicating which number of pillars are near the scanner device can be used.
[0075]
In the scanner device according to the present invention, as one configuration example, the processing result received by the transfer data processing result receiving unit and wirelessly transmitted by the first wireless communication unit is attribute information for wirelessly connecting to another scanner device. is there.
Accordingly, in the scanner device, for example, when it is not possible to respond to a request from a terminal device that performs wireless communication by direct wireless connection using the first wireless communication unit, the scanner device wirelessly connects to another scanner device. Attribute information can be received and transmitted to the terminal device. As a result, the terminal device can use, for example, the scanner function of the other scanner device by directly or indirectly wirelessly connecting to the other scanner device.
[0076]
Here, various pieces of attribute information for wireless connection with the scanner device may be used. For example, identification information such as a base station device or address information may be used. As information for wireless connection, for example, an ID name, an IP address, a host name, or the like used on the Internet can be used regardless of the use of the Internet.
[0077]
In the present invention, the technique related to the scanner device as described above can also be provided as a method.
As an example, in the scanner device wireless communication method according to the present invention, in the scanner device that performs wireless communication, the first wireless communication function directly connects to the terminal device for wireless communication, and the second wireless communication function is the first wireless communication function. Wireless communication is performed by wireless connection with a wireless communication device other than a terminal device that performs wireless communication by direct wireless connection using the wireless communication function 1.
[0078]
In the present invention, the technology related to the scanner device as described above can also be provided as a program.
As an example, a program according to the present invention is executed by a computer that constitutes a scanner device that performs wireless communication, and has a first wireless communication function that wirelessly communicates by directly wirelessly connecting to a terminal device; A second wireless communication function for wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device that performs wireless communication by direct wireless connection using the first wireless communication function is realized by the computer.
[0079]
In the present invention, the technology relating to the scanner device as described above can also be provided as a storage medium.
As an example, in the storage medium according to the present invention, a program to be executed by a computer constituting a scanner device that performs wireless communication is stored so as to be readable by an input unit of the computer. The program includes a process in which the first wireless communication function is wirelessly connected directly to the terminal device and wirelessly communicated, and the second wireless communication function is wirelessly connected directly to the first wireless communication function. A process of performing wireless communication by wireless connection with a wireless communication device other than a terminal device that performs wireless communication is executed by the computer.
[0080]
(3) Further, a printer device, a scanner device, and a terminal device according to the present invention will be described.
As the printer device, for example, various devices that print information on characters and images on a paper surface may be used. To do.
As the scanner device, for example, various devices that read character or image information from the paper surface may be used, and examples include a scanner and a FAX (particularly, a reading function at the time of transmission).
Further, the present invention also includes a multi-function machine having both the printer device function and the scanner device function.
[0081]
As the terminal device, a wireless terminal device is used. For example, the terminal device can be constituted by a personal computer (PC), a PDA, or the like.
As the terminal device, for example, a portable device can be used.
[0082]
The printer device and the scanner device include a memory as one configuration example, and attribute information is stored in the memory. As an example, it is possible to manage attribute information using MIB (Management Information Base).
[0083]
As one configuration example, a system including a printer device and a terminal device and a system including a scanner device and a terminal device can be constructed using a wireless LAN.
As a specific example, a printer device and a scanner device are connected to a base station device through a wired or wireless line. The base station apparatus is connected to a backbone network.
[0084]
Then, the terminal device performs communication connection with the printer device directly or indirectly through the base station device, and transmits data to be printed to the printer device. The received data is printed.
Further, the terminal device is connected to the scanner device directly or indirectly through the base station device, and the scanner device transmits data read by scanning to the terminal device, etc. The terminal device receives the data.
[0085]
As an example of the configuration, the printer apparatus has a function for performing wireless communication in infrastructure mode and a function for performing wireless communication in ad hoc mode. The printer apparatus switches between infrastructure mode wireless communication and ad hoc mode wireless communication. It is possible to execute, or it is possible to execute both modes of wireless communication simultaneously.
As an example of the configuration, the terminal device performs switching between infrastructure mode wireless communication and ad hoc mode wireless communication in accordance with an instruction input from the user.
[0086]
As an example of the configuration, in the ad hoc mode, the printer device or the scanner device conforms to the information on the terminal device side and the wireless connection is performed, or the terminal device conforms to the information on the printer device side or the scanner device side and the wireless connection is established. Is done.
As one configuration example, the first wireless communication unit included in the printer device or the scanner device performs wireless communication in ad hoc mode, and the second wireless communication unit included in the printer device or the scanner device is wireless communication in infrastructure mode or ad hoc mode. I do.
[0087]
As one configuration example, the terminal device transmits URL (Uniform Resource Locator) information to the printer device, the scanner device, or the base station device, and the printer device, scanner device, or base station device is based on the URL information. The network information is searched and the search result is transmitted to the terminal device.
[0088]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described with reference to the drawings.
In this embodiment, a plurality of client devices, which are terminal devices that transmit and receive print data, scan data, processing signals related to printing, and processing signals related to scanning via a wireless communication interface, and a plurality of printer devices and scanner functions. A case is shown in which the present invention is applied to a multifunction machine system constructed by using a wireless LAN of a multifunction machine (device) and a system including a plurality of base station apparatuses.
In this embodiment, the printer function of the multifunction peripheral will be described as a representative example, but the same configuration and operation can be implemented for the scanner function.
[0089]
An MFP system according to a first embodiment of the present invention will be described.
FIG. 1 shows a configuration example and an outline of operation of the multifunction machine system of this example.
Specifically, in the figure, one MFP F1 (device 1), one base station apparatus B1 (access point AP1), and a plurality of client devices C1, C2, C3 (clients 1, 2, 3). ) Is shown.
[0090]
Each of the client devices C1 to C3 and the multifunction device F1 has a wireless communication function.
The multifunction device F1 and the two client devices C2 and C3 are included in the service set of the access point AP1 (base station device B1).
[0091]
The multi-function device F1 has a first wireless communication function (wireless communication function 1) and a second wireless communication function (wireless communication function 2).
The wireless communication function 1 is connected to the client devices C2 and C3 via the access point AP1 in the infrastructure mode (Infra Mode). These are composed of a basic service set 1.
[0092]
The client device C1 that is not included in the basic service set 1 normally searches for the access point AP1, acquires the ESS-ID, and sets WEP (Wired Equivalent Privacy) or the like if there is an encryption setting. The IP address for LAN connection is acquired, and the MFP 1 can be connected as a client of the basic service set 1. In this example, the client device C1 is further configured to be able to directly connect to the multifunction device F1 using the wireless communication function 2 possessed by the multifunction device F1.
[0093]
Here, the wireless communication function 1 and the wireless communication function 2 are configured to be controlled independently, and the multi-function device F1 transmits and receives data through the communication paths of the respective wireless communication functions 1 and 2. Is possible.
Further, for example, a configuration in which a private address (IP address of the client device) is transmitted to the client device C1 using a DHCP (Dynamic Host Configuration Protocol) function in which the IP address necessary for ad hoc communication is provided in the multi-function device F1. It is also possible. The DHCP function has a function of allocating IP addresses to users.
[0094]
FIG. 2 shows a configuration example of the wireless communication unit of the multifunction machine F1.
The radio communication unit includes a plurality of n antennas A1 to An, n radio frequency (RF) units G1 to Gn that are physical (PHY) layers, and a MAC unit 1 that is a MAC layer. Yes. The MAC unit 1 is connected to a printer host system 2.
[0095]
The MAC unit 1 includes n transmission / reception buffer units H1 to Hn, a packet (PKT) count determination unit 11, a reception strength determination unit 12, an encryption unit 13, a host communication unit 14, and a control unit 15. It is composed of
As n, various numbers of 2 or more may be used.
[0096]
Here, the radio communication unit includes n radio communication functions 1 to n, and each radio communication function 1 to n includes one antenna A1 to An and one radio frequency unit G1 to Gn. It is composed of one transmission / reception buffer unit H1 to Hn.
In this example, one of the n wireless communication functions 1 to n performs wireless communication in ad hoc mode, and the other wireless communication function 2 performs wireless communication in infrastructure mode. Do. The other wireless communication functions 3 to n may be assigned to various wireless communications.
[0097]
In each of the wireless communication functions 1 to n of the wireless communication unit of this example, transmission signals output from the MAC unit 1 through the transmission / reception buffer units H1 to Hn are processed by the radio frequency units G1 to Gn and are transmitted from the antennas A1 to An. Signals that are wirelessly transmitted and wirelessly received by the antennas A1 to An are processed by the radio frequency units G1 to Gn and input to the MAC unit 1 via the transmission / reception buffer units H1 to Hn. In this example, transmission / reception data is once stored in transmission / reception buffers (transmission / reception buffer units H1 to Hn), and transferred to the radio frequency units G1 to Gn or the host by switching at the control unit 15. The
[0098]
In the wireless communication unit of this example, the packet count determination unit 11 counts the number of packets received by each of the wireless communication functions 1 to n, and determination based on the count value is performed. 12, the reception strength of each of the wireless communication functions 1 to n is detected and determination based on the reception strength is performed, the encryption unit 13 performs encryption processing, and the host communication unit 14 performs the printer host system 2 connection with the printer host system 2. And various processes and controls are performed by the control unit 15.
[0099]
Each of the radio frequency units G1 to Gn may have, for example, a modulation function and a demodulation function using the same frequency band, or may have a modulation function and a demodulation function based on different frequency bands.
[0100]
As described above, in the multifunction peripheral system of this example, in the multifunction peripheral F1 having a plurality of wireless communication functions 1 to n, at least one of the plurality of wireless communication functions 1 to n is directly connected to the client device C1. As a communication function, at least one of the remaining wireless communication functions 1 to n is a communication function with the wireless base station apparatus B1.
[0101]
Therefore, in the MFP system of this example, for example, even if the MFP F1 is shared on the network, the client device C1 can be easily located in front of the user while ensuring security. It is possible to connect to the machine F1 wirelessly and to process a print or scan job in an optimal communication state.
[0102]
Note that, in the MFP F1 of this example, the first wireless communication unit is configured by the wireless communication function 1 that performs wireless communication in the ad hoc mode, and the second wireless communication function 2 that performs wireless communication in the infrastructure mode. Wireless communication means is configured.
[0103]
A multifunction machine system according to a second embodiment of the present invention will be described.
FIG. 3 shows a configuration example and an outline of the operation of the MFP system of this example.
Specifically, in the figure, one MFP F11 (device 1), a plurality of client devices C11, C12, C13 (clients 1, 2, 3), and a wired LAN 21 connected to the MFP 1 are shown. It is shown.
[0104]
In the multifunction machine system of this example, the multifunction machine F11 and each of the client devices C11 to C13 are, for example, the first device described above except that the multifunction machine F11 has a function of a base station device (access point). The embodiment has the same function as that shown in FIG. 1 above, and different points will be described in detail below.
[0105]
That is, in this example, the multifunction device F11 functions as an access point.
The multi-function device F11 has an IP address for an access point, and also has an IP address as a printer device that provides a printer function and a scanner device that provides a scanner function.
[0106]
Each of the client devices C12 and C13 accommodated by the base station apparatus function of the multifunction device F11 can communicate with each device in the basic service set 1 via the multifunction device F11. Further, by providing a connection function with the wired LAN 21 in the multi-function device F11, each of the client devices C12 and C13 can access the wired LAN 21.
[0107]
As described above, in the multifunction peripheral system of this example, in the multifunction peripheral F11, at least one of the plurality of wireless communication functions 1 to n is a communication function that directly connects to the client device C1, and the remaining wireless communication functions 1 At least one of ˜n is a communication function capable of operating as a radio base station.
[0108]
A multifunction device system according to a third embodiment of the present invention will be described.
The outline of the configuration and operation of the multifunction machine system of this example is the same as the configuration and operation of the multifunction machine system shown in the first embodiment and the second embodiment, and different points will be described in detail.
[0109]
FIG. 4 shows an example of a processing procedure performed by the multifunction peripheral of the multifunction peripheral system of this example.
In the MFP, first, an initial channel is set from a plurality of channels (step S1), the number of packets of the set channel is counted (step S2), and the counted value (count value) is greater than a predetermined threshold value. Or it is determined whether it is below the said threshold value (step S3).
[0110]
As a result of the determination, if the count value of the number of packets is equal to or smaller than the threshold value, the multifunction device sets the set channel as a communication channel (step S4).
On the other hand, as a result of the determination, if the count value of the number of packets is larger than the threshold value, the multi-function peripheral determines whether all the channels are selected and the count value of the number of packets is compared with the threshold value ( Step S5).
[0111]
If all the channels have not been selected as a result of the determination, the multi-function peripheral selects a different channel that has not yet been selected (step S6), and returns to the packet count process described above (step S6). S2), the count value is compared with the threshold value (step S3).
On the other hand, if all the channels have been selected as a result of the determination, the multi-function peripheral selects the channel with the smallest packet count value (step S7), and sets the channel as a communication channel. Set (step S4).
[0112]
As described above, when the MFP of this example is directly connected to the client device, the channel used for communication is selected using the number of packets per unit time.
Various channels may be used. For example, a plurality of frequency band channels that use different radio frequency bands for communication may be used, or time periods for communication in the same frequency band may be used. A plurality of channels having different values can be used.
[0113]
Normally, the number of packets increases in proportion to the amount of traffic, so the larger the number of packets, the longer the waiting time for collision avoidance.
Therefore, the multifunction peripheral of this example counts the number of packets per unit time in each channel in response to a direct connection request from the client device. If the count value is larger than the preset number of packets, the channel is not selected, and another channel is measured. If the measured values for all channels are greater than the set value, the channel for which the minimum value has been measured is selected.
[0114]
As another configuration example, when the MFP is in a standby state, the number of packets in each channel is monitored in advance, and when the request is made in response to a direct connection request from a client device. It is also possible to adopt a configuration in which the optimum channel is set.
[0115]
As described above, the MFP of the MFP system of this example is provided with a plurality of wireless communication channels such as channels of a plurality of radio frequency bands, and is assigned to a wireless communication function directly connected to the client device. A function for determining the number of packets per unit time is held for each channel to be used, and a channel used for wireless communication with the client device is selected based on a result measured by the determination function. . As a result, wireless communication can be performed by directly connecting to the client device using a channel with good quality.
[0116]
A multifunction machine system according to a fourth embodiment of the present invention will be described.
The outline of the configuration and operation of the multifunction machine system of this example is the same as the configuration and operation of the multifunction machine system shown in the first embodiment and the second embodiment, and different points will be described in detail.
[0117]
FIG. 5 shows an example of a processing procedure performed by the multifunction peripheral of the multifunction peripheral system of this example.
In the MFP, first, an initial channel is set from a plurality of channels (step S11), an RSSI (Receive Signal Strength Indicator) of the set channel is acquired (step S12), and the acquired RSSI value (RSSI value). ) Is lower than a predetermined threshold or greater than or equal to the threshold (step S13).
[0118]
If the RSSI value is equal to or greater than the threshold value as a result of the determination, the multifunction peripheral sets the set channel as a communication channel (step S14).
On the other hand, if the RSSI value is lower than the threshold value as a result of the determination, the multi-function peripheral determines whether all the channels are selected and the RSSI value is compared with the threshold value (step S15).
[0119]
If all the channels have not been selected as a result of the determination, the multi-function peripheral selects a different channel that has not yet been selected (step S16), and returns to the RSSI acquisition process described above (step S12). ), The RSSI value is compared with the threshold value (step S13).
On the other hand, if all the channels have been selected as a result of the determination, the MFP selects the channel with the maximum RSSI value (step S17) and sets the channel as a communication channel. (Step S14).
[0120]
As described above, when the MFP of this example is directly connected to the client device, a channel to be used for communication is selected using the average value of received intensity per unit time (in this example, RSSI value).
Various channels may be used. For example, a plurality of frequency band channels that use different radio frequency bands for communication may be used, or time periods for communication in the same frequency band may be used. A plurality of channels having different values can be used.
[0121]
Usually, when there is a communication failure such as interference, the radio field intensity decreases.
Therefore, in the MFP of this example, the received radio wave intensity is measured when a direct connection request is received from the client device, and when it is lower than the preset reception intensity level, the channel is switched to another channel. In this example, an RSSI signal is used as the reception intensity.
[0122]
As described above, the MFP of the MFP system of this example is provided with a plurality of wireless communication channels such as channels of a plurality of radio frequency bands, and is assigned to a wireless communication function directly connected to the client device. A function for determining the average value of the radio field intensity is held for each of the channels, and the channel used for wireless communication with the client device is selected based on the result measured by the determination function. As a result, wireless communication can be performed by directly connecting to the client device using a channel with good quality.
[0123]
A multifunction device system according to a fifth embodiment of the present invention will be described.
FIG. 6 shows a configuration example and an outline of the operation of the multifunction machine system of this example.
Specifically, FIG. 2 shows one client device C21 (client 1), one multifunction device F21 (device 1), and one service device C22 (service).
[0124]
The multi-function device F21 wirelessly communicates with the client device C21 using the communication function 1 in the ad hoc mode.
Further, the multi-function device F21 communicates wirelessly with the service device C22 in the infrastructure mode using the communication function 2, or communicates with the service device C22 through a wired LAN.
[0125]
With reference to the figure, an example of a procedure of processing performed by the multifunction peripheral system of the present example is shown.
(1) First, the client device C21 wirelessly transmits a direct connection request to the MFP F21. The multi-function device F21 receives the MAC address of the client device C21 from the client device C21, and based on a pre-registered table, the type of processing (job level) permitted to be executed for the client device C21 To get.
[0126]
Specifically, a table that stores one or a plurality of MAC addresses and job levels corresponding to the respective MAC addresses in association with each other is stored in the MFP F21. Then, the MFP F21 refers to the table and acquires the job level associated with the MAC address of the client device C11.
[0127]
(2) As an example, for the client device C21, job level 1 is set in which only print processing is permitted and other processing is not permitted. The multifunction device F21 determines that the job level of the client device C21 is job level 1, and permits the client device C21 to perform print processing.
[0128]
(3) For example, the client device C21 transmits data to be printed (print data) to the multifunction device F21. The multi-function device F21 executes processing for printing the print data received from the client device C21.
(4) When the printing process is completed, the multi-function device F21 wirelessly transmits a signal for notifying the printing result to the client device C21. Then, for example, the user of the client device C21 goes to the multifunction device F21 and obtains a document printed by the multifunction device F21.
[0129]
(5) As another example, a job level 2 is set for the client device C21, in which a predetermined service by print processing and LAN connection is permitted. In this case, in response to the direct connection request from the client device C21, the multi-function device F21 determines that the job level of the client device C21 is job level 2, and performs print processing and LAN connection to the client device C21. Allow.
[0130]
(6) For example, the client device C21 wirelessly transmits a predetermined service request to the multifunction device F21. The multi-function device F21 transfers the service request received from the client device C21 to the communication function 2.
Specifically, the MFP F21 connects to the service device C22 (server) using the communication function 2 and transmits the service request to the service device C22. The service device C22 executes the service in response to the service request received from the multi-function device F21. When the service is completed, the service device C22 transmits the result of the service to the multi-function device F21.
[0131]
(7) The multi-function device F21 transfers the service result received from the service device C22 to the communication function 1, and wirelessly transmits the service result to the client device C21 that made the service request.
[0132]
As described above, in this example, the client device C21 that has made a direct connection request to the MFP F21 is identified using the MAC address of the client device C21. In the multi-function device F21, security can be ensured by registering the MAC address of the client device C21 that permits connection and restricting access to the network via the multi-function device F21. Also, by setting the job level for permitting connection and registering the MAC address of the client device in the setting table, for example, the case of permitting only a print job and the case of permitting connection to a network destination are identified. Can be managed.
[0133]
As described above, in the MFP system of this example, the MFP F21 has a function of identifying the client device C21 that requests direct connection, and the job requested by the client device C21 based on the identified result. Control is performed by determining whether or not to execute the above.
[0134]
In the MFP F21 of this example, the terminal device identification unit is configured by the function of identifying the client device C21 that requests direct connection, and the processing requested by the client device C21 is executed based on the identification result. A request processing execution determination unit is configured by the function of determining whether to permit or not.
[0135]
A multifunction device system according to a sixth embodiment of the present invention will be described.
FIG. 7 shows a configuration example and an outline of the operation of the MFP system of this example.
Specifically, in the figure, one client device C31 (client 1) and two multifunction devices F31 and 32 (devices 1 and 2) are shown.
[0136]
The multi-function device F31 performs wireless communication with the client device C31 in the ad hoc mode using the communication function 1.
Further, the multi-function device F31 wirelessly communicates with another multi-function device F32 in the ad hoc mode using the communication function 2.
[0137]
With reference to the figure, an example of a procedure of processing performed by the multifunction peripheral system of the present example is shown.
(1) First, the client device C31 wirelessly transmits an inquiry about whether printing is possible to the multi-function device F31. Then, the MFP F31 confirms the attribute (characteristic) related to printing requested by the client device C31, and determines whether or not it is possible to provide the printing attribute by the own device (the MFP F31). judge.
[0138]
(2) If the multifunction peripheral F31 determines that the printing apparatus requested by the client apparatus C31 can provide the printing attribute by the own apparatus (the multifunction apparatus F31), the client apparatus permits permission of printing. Wireless transmission to C31. In this case, the printing process is performed by the MFP F31.
[0139]
(3) On the other hand, if the multifunction device F31 determines that the printing attribute requested by the client device C31 cannot be provided by the own device (the multifunction device F31), the multifunction device F31 itself (the multifunction device F31). ) Wirelessly transmits to the client device C31 information regarding printing that can be performed and to the effect that the other MFP F32 is inquired.
[0140]
At the same time, the multi-function device F31 transfers the print attribute (print request attribute) requested from the client device C31 to the communication function 2.
Specifically, the multi-function device F31 connects to another multi-function device F32 using the communication function 2 and wirelessly transmits the print request attribute to the other multi-function device F32. Then, the other multifunction device F32 confirms the attribute related to printing requested by the client device C31 based on the received print request attribute, and provides the print attribute by the own device (the other multifunction device F32). It is determined whether or not it is possible.
[0141]
Then, based on the print request attribute received from the multi-function peripheral F31, the other multi-function peripheral F32 can provide the print attribute requested from the client device C31 by its own apparatus (the other multi-function peripheral F32). If it is determined that there is, device information including information for performing wireless connection with the own device (the other multifunction device F32) and attribute information related to the printer function of the own device (the other multifunction device F32). And wirelessly transmit to the multi-function device F31.
[0142]
(4) The multi-function device F31 transfers the device information of the other multi-function device F32 received from the other multi-function device F32 to the communication function 1 and wirelessly transmits it to the client device C31 that has made a request for printing. In this case, when the other multifunction device 32 satisfies the request from the client device C31, the printing process is performed by the other multifunction device F32 in response to a direct or indirect request from the client device C31, for example. Is called.
[0143]
As described above, in this example, according to the content of the request from the client device C31, the multi-function device F31 establishes a new independent wireless connection with the other multi-function device F32, and the other multi-function device F32. Send / receive data to / from. Specifically, the multifunction device F31 receives various attributes for printing required by the client device C31 as a request, and if the own device (the multifunction device F31) does not satisfy the request, the multifunction device F31 Based on the result of the inquiry to F32, information on the optimum multifunction peripheral is returned to the requesting client device C31. Here, various attributes may be used as various attributes for printing. For example, paper size, double-sided printing, color printing, imposition, format specifications at the time of direct printing, and the like can be used.
[0144]
Note that various multifunctional machines (in this example, other multifunctional machines F32) to be inquired may be various, one, or plural.
Further, for example, in response to a request from the client device C31, the multifunction device F31 may also receive print data and transfer the print data to the optimum multifunction device for output. At this time, the multifunction device F31 returns, for example, a print completion notification and position information about another multifunction device that has output the print data to the client device C31.
[0145]
As another configuration example, the multifunction device F31 searches for another multifunction device with a low waiting time based on the volume of data to be printed, and returns information about the other multifunction device to the requesting client device C31. It is also possible.
In addition, the MFP system as in this example can be used for, for example, notification when an error occurs, notification of completion of printing, search and output of a specific document in another server, and the like. .
[0146]
As described above, in the MFP system of this example, the MFP F31 transfers data transmitted by the directly connected client device C31 to at least one other MFP F32. The processing result of the transferred data is acquired from the transfer destination (the other multifunction device F32), and the processing result is transmitted to the requesting client device C31.
[0147]
In the MFP F31 of this example, for example, the data to be transferred to the transfer destination is print data such as PDL, and the data to be transmitted to the client device C31 is a wireless communication apparatus (in this example, other complex ESS-ID, IP address, host name information, and printing attribute information of the machine F32).
[0148]
In the MFP F31 of this example, the received data transfer means is configured by the function of transmitting data received from the directly connected client device C31 to the other MFP F32. A transfer data processing result receiving means is configured by the function of receiving the transfer data processing result.
[0149]
Here, the configuration of the printer device, the scanner device, or the multifunction device according to the present invention is not necessarily limited to the above-described configuration, and various configurations may be used. The present invention can also be provided as, for example, a method or method for executing processing according to the present invention, a program for realizing such a method or method, or a storage medium for storing the program. It is also possible to provide various devices and systems.
The application field of the present invention is not necessarily limited to the above-described fields, and the present invention can be applied to various fields.
[0150]
In addition, as various processes performed in the printer device, the scanner device, and the multifunction device according to the present invention, for example, a control program in which a processor is stored in a ROM (Read Only Memory) in a hardware resource including a processor, a memory, and the like. May be used, and for example, each functional means for executing the processing may be configured as an independent hardware circuit.
The present invention can also be understood as a computer-readable storage medium such as a floppy (registered trademark) disk or a CD (Compact Disc) -ROM storing the above control program, or the program (itself). The processing according to the present invention can be performed by inputting a program from the storage medium to a computer and causing the computer to execute the program.
[0151]
【The invention's effect】
As described above, according to the printer device, the scanner device, or the like according to the present invention, the first wireless communication function directly connects to the terminal device for wireless communication, and the first wireless communication function directly Wireless communication with a wireless communication device other than the terminal device that wirelessly connects and wirelessly communicates by using the second wireless communication function, for example, security is ensured, and wireless connection directly with the terminal device is performed. Thus, wireless communication can be performed and wireless communication can be performed by wireless connection with other wireless communication devices.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration example of a multifunction machine system according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a configuration example of a wireless communication unit of a multifunction machine.
FIG. 3 is a diagram illustrating a configuration example of a multifunction machine system according to a second embodiment of the present invention.
FIG. 4 is a diagram illustrating an example of an operation performed by the multifunction peripheral of the multifunction peripheral system according to the third embodiment of the present invention.
FIG. 5 is a diagram illustrating an example of an operation performed by the multifunction peripheral of the multifunction peripheral system according to the fourth embodiment of the present invention.
FIG. 6 is a diagram illustrating a configuration example of a multifunction machine system according to a fifth embodiment of the present invention.
FIG. 7 is a diagram illustrating a configuration example of a multifunction machine system according to a sixth embodiment of the present invention.
[Explanation of symbols]
F1, F11, F21, F31, F32 ・ ・ Multifunction machine,
C1-C3, C11-C13, C21, C31 .. Client device,
B1 .. base station device, A1 to An .. antenna,
G1 to Gn ··· Radio frequency unit, ··· MAC unit,
2. Printer host system, H1-Hn
11 ··· Packet count determination unit, 12 · · Reception strength determination unit,
13 .... Encryption part, 14 .... Host communication part, 15 .... Control part,
21..Wired LAN, C22..Service equipment,

Claims (36)

A printer device for wireless communication,
First wireless communication means for performing wireless communication by directly wirelessly connecting with a terminal device;
A second wireless communication means for wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device for wirelessly communicating by wirelessly connecting directly with the first wireless communication means;
A printer apparatus comprising: The printer apparatus according to claim 1,
A second wireless communication unit wirelessly communicates with a base station apparatus that accommodates the printer apparatus by wireless connection;
A printer apparatus characterized by the above. The printer apparatus according to claim 1,
The second wireless communication means wirelessly connects and wirelessly communicates with a terminal device other than the terminal device that wirelessly communicates directly with the first wireless communication means.
A printer apparatus characterized by the above. The printer apparatus according to claim 1,
A second wireless communication unit wirelessly communicates with another printer device;
A printer apparatus characterized by the above. The printer apparatus according to claim 1,
It has a base station device function that operates as a base station device,
The base station apparatus function performs wireless communication using the second wireless communication means.
A printer apparatus characterized by the above. The printer apparatus according to any one of claims 1 to 5,
It is prohibited for the terminal device that is directly wirelessly connected and wirelessly connected by the first wireless communication means to directly access the second wireless communication means side,
A printer apparatus characterized by the above. The printer apparatus according to any one of claims 1 to 6,
The first wireless communication means can use a plurality of communication channels, and selects a communication channel to be used based on the quality of each communication channel.
A printer apparatus characterized by the above. The printer apparatus according to claim 7.
The first wireless communication means uses the quality based on the number of packets received per unit time as the quality of the communication channel.
A printer apparatus characterized by the above. The printer apparatus according to claim 7.
The first wireless communication means uses the quality based on the average value of the received electric field strength as the quality of the communication channel.
A printer apparatus characterized by the above. The printer apparatus according to any one of claims 1 to 9,
Terminal device identification means for identifying a terminal device that requests direct wireless connection by the first wireless communication means;
Based on the identification result by the terminal device identification means, request processing execution availability determination means for determining whether or not the processing requested by the terminal device can be executed;
A printer apparatus comprising: The printer apparatus according to any one of claims 1 to 10,
Received data transfer means for transferring data received from a terminal device that is directly wirelessly connected and wirelessly communicated with the first wireless communication means to another printer device;
A printer apparatus characterized by the above. The printer apparatus according to claim 11.
Transfer data processing result receiving means for receiving the processing result by the other printer device of the data transferred to the other printer device by the received data transfer means,
The first wireless communication means wirelessly transmits the processing result received by the transfer data processing result receiving means to the terminal device that is the transmission data transmission source.
A printer apparatus characterized by the above. The printer apparatus according to claim 11 or 12,
The data transferred by the reception data transfer means is data to be printed.
A printer apparatus characterized by the above. The printer apparatus according to claim 11 or 12,
The processing result received by the transfer data processing result receiving means and wirelessly transmitted by the first wireless communication means is attribute information related to the printer function of another printer device.
A printer apparatus characterized by the above. The printer apparatus according to claim 11 or 12,
The processing result received by the transfer data processing result receiving means and wirelessly transmitted by the first wireless communication means is attribute information for wireless connection with another printer device.
A printer apparatus characterized by the above. In a printer device for wireless communication,
The first wireless communication function is wirelessly connected directly to the terminal device for wireless communication,
The second wireless communication function wirelessly connects to and wirelessly communicates with a wireless communication apparatus other than the terminal apparatus that wirelessly communicates with the first wireless communication function.
A printer apparatus wireless communication method. A program to be executed by a computer constituting a printer device for wireless communication,
A first wireless communication function for wirelessly communicating directly with a terminal device by wireless connection;
A second wireless communication function for wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device for wirelessly communicating directly by wirelessly connecting with the first wireless communication function is realized by the computer;
A program characterized by that. A storage medium that stores a program to be executed by a computer constituting a printer device that performs wireless communication in an readable manner by an input unit of the computer,
The program includes a process in which the first wireless communication function directly wirelessly communicates with a terminal device to perform wireless communication;
Causing the computer to execute a process of wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device that wirelessly communicates by wirelessly connecting the second wireless communication function directly with the first wireless communication function;
A storage medium characterized by that. A scanner device for wireless communication,
First wireless communication means for performing wireless communication by directly wirelessly connecting with a terminal device;
A second wireless communication means for wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device for wirelessly communicating by wirelessly connecting directly with the first wireless communication means;
A scanner device comprising: The scanner device according to claim 19, wherein
The second wireless communication means wirelessly communicates with the base station device that accommodates the scanner device by wireless connection.
A scanner device characterized by that. The scanner device according to claim 19, wherein
The second wireless communication means wirelessly connects and wirelessly communicates with a terminal device other than the terminal device that wirelessly communicates directly with the first wireless communication means.
A scanner device characterized by that. The scanner device according to claim 19, wherein
The second wireless communication unit wirelessly communicates with another scanner device by wireless connection.
A scanner device characterized by that. The scanner device according to claim 19, wherein
It has a base station device function that operates as a base station device,
The base station apparatus function performs wireless communication using the second wireless communication means.
A scanner device characterized by that. The scanner device according to any one of claims 19 to 23,
It is prohibited for the terminal device that is directly wirelessly connected and wirelessly connected by the first wireless communication means to directly access the second wireless communication means side,
A scanner device characterized by that. The scanner device according to any one of claims 19 to 24,
The first wireless communication means can use a plurality of communication channels, and selects a communication channel to be used based on the quality of each communication channel.
A scanner device characterized by that. The scanner device according to claim 25, wherein
The first wireless communication means uses the quality based on the number of packets received per unit time as the quality of the communication channel.
A scanner device characterized by that. The scanner device according to claim 25, wherein
The first wireless communication means uses the quality based on the average value of the received electric field strength as the quality of the communication channel.
A scanner device characterized by that. The scanner device according to any one of claims 19 to 27,
Terminal device identification means for identifying a terminal device that requests direct wireless connection by the first wireless communication means;
Based on the identification result by the terminal device identification means, request processing execution availability determination means for determining whether or not the processing requested by the terminal device can be executed;
A scanner device comprising: The scanner device according to any one of claims 19 to 28,
A reception data transfer unit configured to transfer data received from a terminal device that performs wireless communication by wireless connection directly with the first wireless communication unit to another scanner device;
A scanner device characterized by that. 30. The scanner device according to claim 29, wherein:
Transfer data processing result receiving means for receiving the processing result by the other scanner device of the data transferred to the other scanner device by the received data transfer means,
The first wireless communication means wirelessly transmits the processing result received by the transfer data processing result receiving means to the terminal device that is the transmission data transmission source.
A scanner device characterized by that. The scanner device according to claim 29 or claim 30, wherein
The data transferred by the received data transfer means is data related to scanning.
A scanner device characterized by that. The scanner device according to claim 29 or claim 30, wherein
The processing result received by the transfer data processing result receiving means and wirelessly transmitted by the first wireless communication means is attribute information related to the scanner function of another scanner device.
A scanner device characterized by that. The scanner device according to claim 29 or claim 30, wherein
The processing result received by the transfer data processing result receiving means and wirelessly transmitted by the first wireless communication means is attribute information for wireless connection with another scanner device.
A scanner device characterized by that. In a scanner device for wireless communication,
The first wireless communication function is wirelessly connected directly to the terminal device for wireless communication,
The second wireless communication function wirelessly connects to and wirelessly communicates with a wireless communication apparatus other than the terminal apparatus that wirelessly communicates with the first wireless communication function.
A wireless communication method for a scanner device. A program to be executed by a computer constituting a scanner device for wireless communication,
A first wireless communication function for wirelessly communicating directly with a terminal device by wireless connection;
A second wireless communication function for wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device for wirelessly communicating directly by wirelessly connecting with the first wireless communication function is realized by the computer;
A program characterized by that. A storage medium storing a program to be executed by a computer constituting a scanner device for wireless communication so that the computer can read the program,
The program includes a process in which the first wireless communication function directly wirelessly communicates with a terminal device to perform wireless communication;
Causing the computer to execute a process of wirelessly connecting and wirelessly communicating with a wireless communication device other than a terminal device that wirelessly communicates by wirelessly connecting the second wireless communication function directly with the first wireless communication function;
A storage medium characterized by that.

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