JP6551573B2 - Information processing apparatus, network system, electronic data output method - Google Patents

Description

  The present invention relates to an information processing apparatus, a network system, and an electronic data output method.

  In recent years, with the spread of mobile phones such as smartphones, users who want to directly print documents in various formats created on mobile devices, photographed photo data, web pages, etc. directly from portable information processing devices Needs are growing.

  In order to print a document etc. stored by a portable terminal etc. using a network according to an instruction from the portable terminal etc., the portable terminal etc. communicates with the electronic equipment such as the printer such as the IP address or MAC address of the electronic equipment. Need to get an address.

  By the way, even when the mobile terminal or the like does not know the IP address of the other device, it is possible to automatically connect the device connected to the network by simply connecting the mobile terminal or the like to an IP network such as Ethernet (registered trademark) or wireless LAN. Generally, a technique for detecting indiscriminately is known.

  Also, conventionally, there has been disclosed a technique by which a user can easily identify a device to be communicated with when a plurality of devices connected to a portable terminal or the like via a network are detected (see, for example, Patent Document 1). For example, when the user has previously logged in to an electronic device such as a printer, information indicating that the electronic device is logging in is displayed on the detected connectable device list.

  However, although the above-mentioned technology is capable of identifying devices connected within the same network (LAN (Local Area Network)), identifying devices connected to different networks configured via a router. I can not do it.

  Also, for example, even if the communication address of the electronic device on the network can be known, if the user wants to print electronic data using the electronic device located near the current position, the distance on the network and Since it is different from the physical distance, it is impossible to determine which electronic device is physically close.

  The present invention has been made in view of the above-described point, and is an information processing apparatus capable of specifying an electronic device by an information processing device and outputting electronic data using the specified electronic device. An object is to provide a network system and an electronic data output method.

In order to solve the above problems, according to the present invention, information capable of requesting output of electronic data to a plurality of electronic devices via a second communication interface different from the first communication interface performing direct wireless communication between devices a processing apparatus, the first through the communication interface, the address information receiving means for an electronic device information including the address information in the second communication interface receives from the respective one or more electronic devices, the address information received At the second communication interface included in the one or more pieces of the electronic device information received by the address information receiving means based on the reception strength at the first communication interface when each of the electronic device information is received by the means of the address information, the output of the electronic data via the second communication interface And address information specifying means for specifying an address information to be used for seeking, the address information based on the address information specified by the specifying means, the output request unit for requesting the output of the electronic data via the second communication interface And having.

  It is possible to provide an information processing apparatus, a network system, and an electronic data output method that make it possible to specify an electronic device by an information processing device and output electronic data using the specified electronic device.

It is a figure showing an example of composition of a network system in an embodiment of the invention. It is a figure which shows an example of the signal format in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the information processing apparatus in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the electronic device in embodiment of this invention. It is a figure which shows an example of a function structure of the information processing apparatus in embodiment of this invention. It is a figure which shows an example of a structure of a connecting point information management table. It is a figure which shows an example of a function structure of the electronic device in embodiment of this invention. It is a flowchart figure which shows an example of the process sequence of the information processing apparatus in embodiment of this invention. It is a figure which shows an example of the connecting point information acquisition result displayed on the operation panel of the information processing apparatus in embodiment of this invention. It is a sequence diagram which shows an example of the operation | movement procedure of the network system in embodiment of this invention. It is a figure which shows an example of the initial screen after application starting displayed on the operation panel of the information processing apparatus in embodiment of this invention. It is a figure which shows the structural example of device information. It is a figure which shows an example of the connecting point information acquisition result displayed on the operation panel of the information processing apparatus in the modification of embodiment of this invention.

Hereinafter, modes for carrying out the present invention will be described.
[System configuration example]
FIG. 1 is a diagram showing a configuration example of a network system 1 according to an embodiment of the present invention.

  The network system 1 is a system that transmits, to another device, address information indicating the location of the device present in the network system 1 on the network using a sound wave signal. Here, the sound wave signal in the present embodiment is a sound frequency by an elastic wave, and is not limited to the audible frequency band.

  The network system 1 has a network 99 including two LANs (LAN 1 and LAN 2), and the LANs are connected via a router 301. The information processing apparatus 100 is connected to the LAN 1, and n electronic devices 200a, 200b,... 200n (hereinafter referred to as the “electronic device 200” when not distinguished from one another) are connected to the LAN 2. .

  The information processing apparatus 100 is wirelessly connected to the LAN 1 via a wireless LAN access point (hereinafter referred to as “access point”) 300 disposed in the LAN 1. Although it is possible to connect the information processing apparatus 100 and the LAN 1 by wire if there is a hub or L2 switch, an interface is required for the information processing apparatus 100 and a cable is also required. In the form, wireless connection is made. In order to connect to the access point 300, an SSID (Service Set Identifier) and an encryption key are required. In the present embodiment, the information processing apparatus 100 can be connected to the LAN 1 via the access point 300.

  The electronic device 200 is connected to the LAN 2 by wire, but may be connected wirelessly via an access point.

  Network addresses are defined for the LAN 1 and the LAN 2, and the network addresses of the information processing apparatus 100 connected to the LAN 1 and the electronic device 200 connected to the LAN 2 are different.

  The router 301 divides the network 99 into LAN 1 and LAN 2 and controls communication between the LANs 1 and 2. That is, the information processing apparatus 100 connected to the LAN 1 has a MAC frame (hereinafter simply referred to as “frame”) to a stationary apparatus connected to the LAN 1 (referred to as “device” if not distinguished). All devices including the router 301 can receive, and each device selectively receives a frame whose destination MAC address is addressed to itself. When the destination MAC address of the frame is addressed to the router 301, the router 301 refers to the IP address of the destination to specify the network address, and relays the frame to, for example, the LAN 2. The router 301 is connected to the Internet, and performs route control such as transmitting IP layer packets to the Internet side depending on the destination IP address. The network 99 is not limited to the configuration shown in FIG. 1, and may be configured via another LAN, an intranet, the Internet or the like.

  The information processing apparatus 100 only needs to have a wireless LAN communication function, a speaker, and a microphone, and a smartphone, a tablet terminal, a notebook PC, a PDA (Personal Digital Assistants), a mobile phone, and the like can also be the information processing apparatus 100. The information processing apparatus 100 has a communication apparatus for connecting to the LAN in advance, or an adapter for connecting to the LAN can be attached and has an IP address and a MAC address.

The electronic device 200 is a device that includes a communication function that communicates via a network 99 (wired or wireless), a speaker, and a microphone, and outputs electronic data. Here, the electronic data refers to, for example, character data converted to character code, image data converted to bitmap data, an image of JPEG format, and the like. The electronic device 200 is, for example, a multi-function device that realizes two or more functions of printing, scanning, copying, facsimile and the like by a single case. Further, a device having any one function alone may be used as the electronic device 200. Moreover, the electronic device 200 should just be provided with the said function, for example, a projector etc. may be sufficient as it. In the present embodiment, the information processing apparatus 100 communicates with the electronic device 200 to print or fax an image.
[Operation overview]
According to the above configuration, the embodiment of the present invention operates as follows.

  (1) When a user outputs electronic data using electronic data (for example, image data) stored in the information processing apparatus 100 using the electronic device 200 located closest to the information processing apparatus 100 (for example, , And printing) will be described as an example. In order to print image data and the like, it is necessary to communicate via the network 99. Here, since the information processing apparatus 100 and the electronic device 200 belong to different networks (segments), in order for the information processing apparatus 100 to communicate with the electronic device 200, the information processing apparatus 100 is an IP of the electronic device 200. I need to know the address. The operation such as communication processing for the information processing apparatus 100 to acquire the IP address of the electronic device 200 is executed by, for example, an address information acquisition application (hereinafter, referred to as “IP address acquisition application”).

  (2) The information processing apparatus 100 transmits an address information acquisition request (request signal) in order to acquire the IP address of the electronic device 200. In the embodiment of the present invention, the address information acquisition request is transmitted as a sound wave signal. The address information is, for example, an IP address indicating the location of the device used when the device communicates. The signal format of the address information acquisition request uses the MAC frame configuration.

  FIG. 2 is an example of a signal format of a position registration information request signal using a MAC frame configuration. As shown in the figure, the MAC frame includes a preamble, an SFD (Start of Frame Delimiter), a destination address, a source address, a Type, a data part, and an FCS (Frame Check Sequence). The preamble is a field for synchronization when receiving a frame. SFD is a field for indicating that a valid frame is started. Type is a field for indicating the type of the upper layer packet included in the frame. The destination address is a field in which a destination MAC address is set. The source address is a field in which a source MAC address is set. The FCS is a field for checking whether or not the data is erroneous. In the present embodiment, an identifier indicating that it is an address information acquisition request signal or an address information signal that is a response signal to the request signal, a device ID of the information processing apparatus 100, an IP address of the electronic device 200, and an electronic device The device ID of the device 200 and the model name of the electronic device 200 are set. The device ID is a unique ID that uniquely identifies the device. The model name is generally a combination of the manufacturer and the machine number.

  Note that the address information acquisition request signal format may be any format other than the MAC frame.

  (3) Upon receiving the address information acquisition request transmitted as a sound wave signal by the information processing apparatus 100, the electronic device 200 analyzes the sound wave signal. As a result of the analysis, when it is determined that the request is an address information acquisition request sent by the information processing apparatus 100, an address information signal including the IP address of the electronic device 200, the device ID, the model name and the like is sent. When an IP address is set to the address information signal, the address information signal of the digital signal is converted into a sound wave signal of a predetermined frequency shown in FIG. 2 and transmitted.

  (4) When the information processing apparatus 100 receives a sound wave signal including the address information of the electronic device 200, the information processing apparatus 100 analyzes the frequency of the sound wave signal and extracts the address information (IP address) included in the sound wave signal. Also, the sound pressure level (dB), which is the received intensity of the sound signal, is measured. The sound pressure level has the property of decaying in inverse proportion to the square of the distance from the sound source. That is, the larger the sound pressure level, the shorter the distance between the information processing device 100 and the electronic device 200, and the smaller the sound pressure level, the longer the distance between the information processing device 100 and the electronic device 200. For this reason, in the present embodiment, it is only necessary to relatively compare the lengths of the distances in the sections between the information processing apparatus 100 and the plurality of electronic devices 200. Therefore, the distance information indicating the sections includes the reception intensity (sound pressure). Level). The IP address and sound pressure level of the electronic device 200 acquired as a result of analysis are stored in the storage device (connection destination information management table). When the n sound wave signals transmitted from the n electronic devices 200 are received, the above process is repeated n times. n connection destination candidates in which n IP addresses and sound pressure levels corresponding to the IP addresses are associated are stored in the connection destination information management table.

  (5) The information processing apparatus 100 specifies a connection destination candidate having the largest sound pressure level as an output destination of electronic data from the connection destination information management table. That is, the electronic device 200 located closest to the information processing apparatus 100 is identified. Thereafter, connectivity check is performed with the IP address of the identified electronic device 200 as the destination address. The connectivity check uses, for example, the telnet command. By using telnet, it is possible to check connectivity when a firewall is set in the transport layer of the OSI reference model. Although ping may be used to check the connectivity of the network layer, connectivity check can not be performed in the case where communication restriction by a firewall or the like in the upper layer is set.

  (6) The result of connectivity confirmation performed from the information processing apparatus 100 to the electronic device 200 and the model name of the connection-destination electronic device 200 are displayed on the screen of the information processing apparatus 100.

  (7) When the image data name to be printed is selected by the user by mouse operation of the information processing apparatus 100 by the user, the information processing apparatus 100 uses the destination IP address as the IP address of the electronic device 200 to print the image data to be printed. Together with the output (print) request.

  (8) When receiving the output request, the electronic device 200 generates output data based on the received image data using a printer driver or the like. The format of the output data is, for example, data in the PDL (Page Description LAN) format. Subsequently, the electronic device 200 prints an image to be printed using a printer based on the generated output data.

The electronic device 200 may print the image data stored in advance in the electronic device or the like based on the electronic data output request from the information processing apparatus 100.
[Hardware configuration]
<Information processing device>
FIG. 3 is a diagram illustrating an example of a hardware configuration of the information processing apparatus 100 according to the embodiment of the present invention. The information processing apparatus 100 is a portable information processing apparatus as described above. The information processing apparatus 100 includes a wireless LAN communication unit 108 connected to a wireless LAN. The wireless LAN communication unit 108 controls the modulation method, transmission speed, frequency, etc. based on IEEE802.11b / 11a / 11g / 11n, and converts the received radio wave into a digital signal. Further, the data requested to be transmitted from the CPU 101 is modulated and transmitted as a radio wave according to the standard.

  In addition, the information processing apparatus 100 includes hardware such as a CPU 101, a ROM 102, a RAM 103, an NVRAM 104, a display unit 105, an operation unit 106, a media I / F 107, a speaker 110, and a sound wave input / output unit 109 having a microphone 111. The CPU 101 executes the information processing apparatus program 112 stored in the NVRAM 104 to control the overall operation of the information processing apparatus 100. The ROM 102 stores IPL (Initial Program Loader) and static data. The RAM 103 is used as a work area when the CPU 101 executes the program 112.

  The NVRAM 104 stores a program 112 to be executed by the CPU 101. The program 112 includes an OS (for example, Android (registered trademark), iOS (registered trademark), Windows (registered trademark)), middleware, and a program for providing the following functions of the information processing apparatus 100.

  The display unit 105 is a UI screen of liquid crystal, organic EL, or the like on which display output of information to the user is performed. In the embodiment of the present invention, the display unit 105 integrally has a touch panel.

  The operation unit 106 is a hard key or button for a user to perform input operations such as setting and command, and a soft key such as a touch panel in the display unit 105. The operation content is notified to the CPU 101.

  The media I / F 107 controls reading or writing (storage) of data with respect to a recording medium such as a flash memory.

  The speaker 110 functions as a sound wave output unit, converts an electric signal into a sound wave signal, and transmits the sound wave signal.

  The microphone 111 functions as a sound wave input unit, receives a sound wave signal, converts the sound wave signal into an electric signal, and measures a sound pressure level. The sound pressure level may be measured directly from the received sound waves, but it may also measure the signal level converted to an electrical signal. This is because the signal level converted into an electric signal is proportional to the sound pressure level.

  The program 112 is a file in an installable format or an executable format, and is recorded and distributed in a computer readable recording medium. Further, the program 112 may be distributed to the information processing apparatus 100 in a file that can be installed from a predetermined server or that can be executed.

<Electronic equipment>
FIG. 4 is a diagram illustrating an example of a hardware configuration of the electronic device 200 according to the embodiment of the present invention. In FIG. 4, the electronic device 200 includes hardware such as a controller 201, a scanner 207, a printer 208, a modem 209, an operation panel 210, a network communication unit 211, a sound wave input / output unit 212, a speaker 213, a microphone 214, and an SD card slot 215. Have

  The controller 201 includes a CPU 202, a RAM 203, a ROM 204, an HDD 205, an NVRAM 206, and the like. The ROM 204 stores various programs for electronic devices and data used by the programs. The RAM 203 is used as a storage area for loading a program, a work area for the loaded program, and the like. The CPU 202 realizes various functions by processing a program loaded in the RAM 203. The HDD 205 stores programs, various data used by the programs, and the like. The NVRAM 206 stores various setting information of the electronic device 200 and the like.

  The scanner 207 is hardware for reading image data and the like from a document.

  The printer 208 is hardware for printing PDL format print data on a print sheet.

  A modem 209 is hardware for connecting to a telephone line, and is used to execute transmission / reception of image data and the like by fax communication.

  The operation panel 210 is hardware including input means such as buttons for accepting input from the user, display means such as a liquid crystal panel, and the like. Operation panel 210 may be a touch panel. The network communication unit 211 is hardware for connecting to a network such as a LAN (whether wired or wireless).

  The sound wave input / output unit 212 includes a speaker 213 which is a sound wave output unit and a microphone 214 which is a sound wave input unit. The speaker 213 converts an electric signal into a sound wave signal and transmits the sound wave signal. The microphone 214 receives a sound wave signal and converts the sound wave signal into an electric signal. In the embodiment of the present invention, there are a plurality of information processing apparatuses 100 that transmit and receive sound signals with the electronic device 200, and the position of the information processing apparatus 100 can not be estimated in advance. Therefore, it is desirable that the speaker and the microphone be omnidirectional, which enables transmission and reception in an unspecified direction. Further, in each of the electronic devices 200, the speakers 213 transmit sound wave signals at the same volume (output sound pressure level).

  The SD card slot 215 is used to read a program stored in the SD card 600. That is, in the electronic device 200, not only the program stored in the ROM 204 but also the program stored in the SD card 600 can be loaded into the RAM 203 and executed. The SD card 600 may be replaced by another recording medium (for example, a CD-ROM or a USB (Universal Serial Bus) memory, etc.). That is, the type of recording medium corresponding to the positioning of the SD card 600 is not limited to a predetermined one. In this case, the SD card slot 215 may be replaced by hardware corresponding to the type of recording medium.

<Overview of hardware operation>
In the embodiment of the present invention, hardware operates as follows.

  (1) The case where the user directly outputs (prints) electronic data (image data etc.) stored in the information processing apparatus 100 using the electronic device 200 will be described. First, when the user of the information processing apparatus 100 operates the operation unit 106 (soft key) displayed on the display unit 105 that is a touch panel, the CPU 101 acquires the IP address of the electronic device 200 that is installed in the NVRAM 104 in advance. To start an application (IP address acquisition application). Subsequently, the user inputs execution of an IP address acquisition request on the touch panel.

  (2) The CPU 101 acquires a device ID which is identification information uniquely identifying the information processing apparatus 100 stored in the NVRAM 104, and generates an address information acquisition request signal which is an electrical signal including the device ID.

  (3) The request signal of the electrical signal is converted into a sound wave signal by the speaker 110 which is a sound wave output unit based on the transmission request of the CPU 101, and is transmitted.

  (4) When the microphone 214 serving as the sound wave input unit of the electronic device 200 receives the sound wave signal, the sound wave signal is converted into an electric signal.

  (5) The CPU 202 executes a process of converting an electrical signal into a digital signal, and it is analyzed whether the digital signal is an address information acquisition request signal transmitted from the information processing apparatus 100. If it is determined that the address information acquisition request is the address information acquisition request transmitted by the information processing apparatus 100 as a result of analysis, the CPU 202 generates an address information signal which is an electrical signal. In the address information signal, the IP address of the electronic device 200 stored in the NVRAM 206, the device ID, the model name, and the device ID of the information processing apparatus 100 are set.

  (6) The address information signal, which is an electric signal, is converted into a sound wave signal by the speaker 213 which is a sound wave output unit based on the transmission request of the CPU 202, and is transmitted.

  (7) When the microphone 111 serving as the sound wave input unit of the information processing apparatus 100 receives the sound wave signal, the sound wave signal is converted into an electric signal. The microphone 111 measures the sound pressure level of the sound wave signal.

  (8) The CPU 101 executes a process of converting an electric signal into a digital signal, and analyzes whether the digital signal is a response signal to the address information acquisition request transmitted by the own device (the information processing apparatus 100). When the CPU 101 determines that the received signal is a response signal to the address information acquisition request transmitted by the own device as a result of the analysis, the CPU 101 measures the IP address of the electronic device 200 included in the response signal. The sound pressure level is stored in the NVRAM 104 as the associated connection destination information. The above process is repeated for the number of received sound wave signals.

  (9) The CPU 101 identifies the electronic device 200 having the highest sound pressure level from the connection destination information stored in the NVRAM 104, and performs the connectivity check on the IP address of the identified electronic device 200. If the result of the connectivity check is not good (OK), the connectivity check is performed on the electronic device 200 with the second highest sound pressure level, and the electronic device 200 having the good connectivity check can be confirmed repeat.

  (10) The CPU 101 displays on the screen of the information processing apparatus 100 the model name of the electronic device 200 whose connectivity check was good, and the result indicating that the connectivity check was good.

  (11) The user of the information processing apparatus 100 operates the soft key on the touch panel to display the image data name which is electronic data, and then selects the image data name to be printed, and executes the output (printing) of the electronic data When input, the IP address of the electronic device 200 stored in the NVRAM 104 is set as the destination address, and the CPU 101 generates an output (print) request including the image data stored in the NVRAM 104.

  (12) Based on the transmission request from the CPU 101, the wireless LAN communication unit 108 converts the print request, which is a digital signal, into a radio wave, and transmits it to the IP address of the electronic device 200 via the network 99 (access point 300). .

(13) When the network communication unit 211 of the electronic device 200 receives the print request, the CPU 202 controls the printer 245 to perform print output based on the received image data.
[Function configuration example]
<Information processing device>
FIG. 5 is a diagram illustrating an example of a functional configuration of the information processing apparatus 100 according to the embodiment of the present invention. Each function is realized by the CPU 101 executing a program and cooperating with hardware.

  The information processing apparatus 100 is an information processing apparatus main body 101, a speaker 141 that is a sound wave output unit, and a sound wave input unit, and includes a microphone 142 that measures a sound pressure level, an operation panel 143, an information storage device 144, and the like. The connection destination information management table 145 is included in the information storage device 144.

  As the information storage device 144, the ROM 102, the RAM 103, and the NVRAM 104 shown in FIG. 3 are used. In the information storage device 144, in addition to the information stored in the connection information management table 145, the IP address and MAC address of the own device of the information processing apparatus 100, electronic information such as device information and an image to be output (printed) Is remembered.

  FIG. 6 is a diagram illustrating an example of a configuration of information stored in the connection destination information management table 145. The information stored in the connection destination information management table 145 is based on the information included in the sound wave signal transmitted by the electronic device 200. The IP address is an IP address of the electronic device 200 that is a connection destination candidate. In the figure, although described in the form of IPv4, if each device supports IPv6 and an IPv6 address is allocated, an IPv6 address may be used. The device ID is a part of the device information, and is a unique ID uniquely identifying the electronic device 200. The model name is a friendlyName that is part of the device information of the electronic device 200. When a plurality of electronic devices 200 having the same model name in the UI exist in the connection destination information management table 145, they are distinguished by the device ID and displayed. The sound pressure level is used as distance information in the present embodiment, and is a sound pressure level of the received sound signal displayed in decibels (dB). The larger the sound pressure level, the shorter the distance between the information processing device 100 and the electronic device 200. In the present embodiment, the update date and time is stored in the information stored in the connection destination information management table 145, and the original data is overwritten and updated when the next address information is received. However, the information in the connection destination information management table 145 may be deleted, for example, when an electronic data output request is transmitted, or may be deleted after a certain period of time or by a user operation if the memory has sufficient storage capacity. .

  The information processing apparatus main body 101 includes an address information acquisition request generation unit 121, an information management unit 122, an address information interface unit 123, a signal analysis unit 126, a sound pressure level measurement unit 127, an address information reception and specification unit 128, and an operation panel control unit. 130, output request generation means 131, network interface control means 129 and the like. The address information interface unit 123 includes an address information acquisition request transmission unit 124 and an address information reception unit 125.

  The address information acquisition request generation unit 121 generates an address information acquisition request for acquiring the address information (IP address) of the electronic device 200. Further, an ID unique to the own device is set in the address information acquisition request. Thus, when the ID included in the response signal to the address information acquisition request signal matches the ID unique to the own device, it can be confirmed that the response is a response to the request from the own device. Here, the unique ID is, for example, a device ID for uniquely identifying an individual, a serial ID, and a MAC address. In the present embodiment, a device ID is used.

  The information management unit 122 stores the device information including the IP address of the own device, the device ID, the model name, and the like, the image data to be output by printing, and the like in the information storage device 144, and receives the IP of the received electronic device 200 The address, device information, sound pressure level, and the like are stored in the connection destination information management table 145. The information management unit 122 reads out these pieces of information. The information management unit 122 outputs the device ID of the own device (the information processing apparatus 100) based on the acquisition request of the device ID from the address information acquisition request generation unit 121. Further, based on the storage request of the connection destination information from the address information receiving / specifying unit 128, the connection destination information management table 145 stores the connection destination information of the electronic device 200.

  The address information interface means 123 has an address information acquisition request transmitting means 124 for transmitting and processing an address information acquisition request as a sound wave signal, and an address information receiving means 125 for receiving and processing address information which is a sound wave signal. Here, the received address information is included as part of electronic device information such as the device ID of the electronic device 200 and the model name. The address information acquisition request transmission unit 124 controls the speaker 141 which is a sound wave output unit, converts an electric signal into a sound wave signal, and transmits the sound signal. The address information receiving unit 125 receives and processes the electric signal converted from the sound wave signal by the microphone 142 which is a sound wave input unit.

  First, the signal analysis unit 126 converts the electrical signal converted by the microphone 142 into a digital signal, and acquires information such as address information included in the signal. When address information and the like are transmitted by, for example, DTMF (Dual-Tone Multi-Frequency), a sound including a plurality of specific frequencies is analyzed using FFT (Fast Fourier Transform), and from the included frequencies Take out address information, etc. As a method of extracting address information and the like, a method of extracting information from a generally used sound may be used. Subsequently, when the signal analyzing unit 126 extracts information from the received signal, the signal analyzing unit 126 determines whether the IP address is included and whether the converted signal is a response to the address information acquisition request from the own device. . Specifically, it is determined whether or not the analyzed information includes an ID that matches the unique ID of the information processing apparatus 10 included in the address information acquisition request. If they match, the IP address of the electronic device 200 specified in the response signal and the identification information for identifying the electronic device 200 are output to the address information receiving / specifying unit 128.

  The sound pressure level measuring means 127 controls the microphone 142 to measure the sound pressure level of the sound wave signal. The measured sound pressure level is output to the address information receiving and specifying means 128.

  The address information reception / identification unit 128 receives a response to the address information acquisition request, and requests the information management unit 122 to store the IP address of the electronic device 200. The IP address, device information, and sound pressure data of the electronic device 200 specified in the response signal are associated with each other and stored in the connection destination information management table 145. In addition, the address information receiving / specifying unit 128 performs the connectivity check via the network interface control unit 129 with the acquired IP address of the electronic device 200 as a destination. The connectivity check uses, for example, the telnet command. In the telnet command, the IP address of the acquired electronic device 200 is set as the IP address, and the connection protocol with the printer is set as the port number. As a connection protocol with the printer, for example, when the LPR (Line Printer Remote) protocol is used, the port number is 515, and a standard TCP / IP port monitor used standardly in windows (registered trademark) OS is When used, the port number is 9100 (default value). The address information receiving and specifying unit 128 specifies the electronic device 200 of the connection destination based on the sound pressure level stored in the connection destination information management table 145 and the result of the connectivity check. When the connection destination electronic device 200 is specified, the operation panel control unit 130 is requested to display a screen indicating the result of the connection destination information.

  The network interface control means 129 communicates with the electronic device 200 via the network 99. In order to communicate with the electronic device 200, the information processing apparatus 100 needs to know the IP address of the electronic device 200. In the present embodiment, for example, the network 99 (IP network) is used via the network interface means 129 to check connectivity with the electronic device 200 and to send an output request for electronic data in the electronic device 200.

  The operation panel control unit 130 performs display control for displaying and outputting information for the user on the operation panel 143, and operation control for the user to input information to the information processing apparatus 100 via the operation panel 143. The operation panel 143 is a touch panel, and includes a display unit 105 and an operation unit 106. In the present embodiment, for example, the result of the connectivity check for the electronic device 200 and the connection destination information that is the result of the address information acquisition request are displayed on the operation panel 143. For example, when the user wants to obtain the IP address of the electronic device 200, the user operates the soft key displayed on the operation panel 143 to instruct the information processing apparatus 100.

  The output request generation unit 131 makes an electronic data output request to the electronic device 200 based on an input operation on the operation panel 143 by the user. The output request for electronic data is, for example, a print request for image data or the like. The print request may include image data to be printed and the like.

<Electronic equipment>
FIG. 7 is a diagram illustrating an example of a functional configuration of the electronic device 200 according to the embodiment of the present invention. Each function is realized by the CPU 202 executing a program and cooperating with hardware.

  The electronic device 200 includes an electronic device main body 201, a speaker 241 as a sound wave output unit, a microphone 242 as a sound wave input unit, an operation panel 243, a device information storage device 244, and a printer 245.

  The electronic device main body 201 includes an address information interface unit 221, an analysis unit 224, an address information acquisition request reception unit 225, an address information signal generation unit 226, a device information management unit 227, a network interface unit 228, an output request reception unit 229, and output data. It has generation means 230, electronic data output means 231 and operation panel control means 232. The address information interface unit 221 includes an address information transmission unit 222 and an address information acquisition request reception unit 223.

  The address information interface unit 221 includes an address information transmission unit 222 that transmits a sound wave signal and an address information acquisition request reception unit 223 that receives a sound wave signal. The address information transmitting means 222 controls the speaker 241 to convert an electric signal into a sound wave signal and transmit it. The address information acquisition request receiving unit 223 receives and processes the electric signal converted from the sound wave signal by the microphone 242.

  The analysis unit 224 converts the electrical signal converted by the microphone 242 into a digital signal, and determines whether the converted signal is an address information acquisition request signal transmitted from the information processing apparatus 100. As a determination method, for example, it is determined based on an identifier for identifying whether it is an address information acquisition request signal set in the signal format of the received signal. As a result of the analysis, if it is determined that the address information acquisition request signal is received, the analysis result and the device ID of the portable device 100 included in the address information acquisition request signal are output to the address information acquisition request receiving means 225. As a result of analysis, if it is not determined that the received signal is an address information acquisition request signal, the received signal is discarded.

  The address information acquisition request reception means 225 receives the address information acquisition request signal analyzed by the analysis means 224, and the address information signal generation means 226 generates an address information signal which is a response including the IP address of the electronic device 200. Request.

  The address information signal generation means 226 generates an address information signal that is a response to the address information acquisition request signal. The signal format of the address information signal includes an IP address, a device ID, a model name, and a device ID of the information processing apparatus 100 that are electronic device information of the own device. The address information and the like are transmitted as a sound wave signal using, for example, DTMF.

  The device information management unit 227 stores connection information such as an IP address and a MAC address of the electronic device 200 used when communicating, device information, and the like in the device information storage device 244 and reads information from the device information storage device 244. . As the device information storage device 244, the RAM 203, the ROM 204, the HDD 205, and the NVRAM 206 are used. For example, the information management unit 122 reads and outputs information from the device information storage device 244 based on a device ID acquisition request from the address information signal generation unit 226.

  The network interface unit 228 communicates with the information processing apparatus 100 via the network 99. If the IP address of the information processing apparatus 100 is known, the electronic device 200 can communicate with the information processing apparatus 100.

  When receiving the output request via the network interface unit 228, the output request receiving unit 229 requests the output data generation unit 230 to generate output data (print data).

  The output data generation unit 230 generates print data, which is output data, based on, for example, image data to be printed which is transmitted from the information processing apparatus 100 using a printer driver. The print data is PDL format data obtained by converting image data or the like by a printer driver.

  The electronic data output unit 231 controls the printer 245 to execute print processing based on the generated print data. Specifically, the electronic data output unit 231 converts the data in the PDL format into bitmap data, and then the printer 245 outputs a print sheet on which an image or the like based on the converted bitmap data is printed. .

The operation panel control unit 232 performs display control for displaying information for the user on the operation panel 243 and operation control for the user to input information to the electronic device 200 using the operation panel 243. Operation panel 243 is a touch panel in the present embodiment.
[Processing procedure in information processing apparatus]
An example of a processing procedure of the information processing apparatus 100 according to the embodiment of the present invention and a screen example of a connection destination information acquisition result displayed on the operation panel 143 of the information processing apparatus 100 as a result of the processing will be described. The detailed operation procedure in the network system 1 will be described later with reference to FIG.

  FIG. 8 is a flowchart showing an example of the processing procedure of the information processing apparatus 100 according to the embodiment of the present invention.

  FIG. 9 is a diagram showing an example of the connection destination information acquisition result displayed on the operation panel 143 according to the embodiment of the present invention.

  In FIG. 8, first, based on an input operation by the user in the information processing apparatus 100, an address information acquisition request is transmitted as a sound wave signal from the information processing apparatus 100 (S11). After sending the address information acquisition request, the information processing apparatus 100 determines whether a response signal including the address information of the electronic device 200 which is a sound wave signal has been received within a predetermined time (S12). Here, the fixed time is a time for response timeout, for example, 10 to 20 seconds. The CSMA / CD backoff time is generally tens to hundreds of microseconds. When the response signal is received within a certain time (YES in S12), the response signal is analyzed (S13), and the device ID included in the received response signal is included in the transmitted address information acquisition request. It is determined whether or not it matches the device ID of the information processing apparatus 100 (S14). As a result of the determination, if it matches the device ID included in the transmitted address information acquisition request (YES in S14), the IP address of the electronic device 200, the device ID, the model name, and the received sound wave are stored in the connection destination information management table 145. The sound pressure level of the signal is registered (S15). On the other hand, if the result of determination in step S14 is that the device ID included in the received response signal does not match the device ID included in the transmitted address information acquisition request (NO in S14), the parameters do not match. Therefore, acquisition of the IP address will fail. The processes of steps S13 to S15 or S16 are repeated as many times as the number of times of receiving the response signal.

  When the processing of steps S13 to S15 or S16 for the number of times the response signal has been received is completed, it is determined whether or not one or more connection destination information is registered in the connection destination information management table 145 (S17). When one or more connection destination information is registered in the connection destination information management table 145 (YES in S17), the connectivity confirmation is performed on the connection destination having the largest sound pressure level in the connection destination information management table 145. Performed (S18). The connectivity check is performed by telnet specifying the IP address of the target electronic device 200 and a specific port number. If the result of the connectivity check is good (OK) (YES in S19), the electronic device 200 for which the connectivity check is OK is specified as the connection destination, indicating that the acquisition of the IP address of the electronic device 200 is completed. A message is displayed on the operation panel 143 (S20).

  An example of the screen in the case of step 20 is shown in FIG. The screen displays that the acquisition of the IP address has been completed, that the result of the connectivity check for the electronic device 200 is good (OK), and the information on the IP address and model name of the electronic device 200.

  Returning to FIG. When the result of the connectivity check in step S19 is no (NG) (NO in S19), in the connection destination information management table 145, the connectivity check is performed for the connection destination candidate having the next largest sound pressure level. (S21). If the result of the connectivity check is good (OK) (YES in S22), the electronic device 200 for which the connectivity check is OK is specified as the connection destination, indicating that the acquisition of the IP address of the electronic device 200 is completed. A message is displayed on the operation panel 143 (S20).

  On the other hand, in step S22, when the connectivity check is not (NG) (NO in S22), whether or not there is a connection destination candidate for which the connectivity check has not been performed exists in the connection destination information management table 145 Is determined (S23). If there is a connection destination candidate for which connectivity confirmation has not been performed in the connection destination information management table 145 (YES in S23), the processing in steps S21 to S22 is repeated again. If there is no connection destination candidate for which connectivity check has not been performed, that is, if the connectivity check of all connection destination candidates existing in the connection destination information management table 145 has failed (NG) (NO in S23) And a message indicating that the connection to the electronic device 200 can not be made is displayed on the operation panel 143 (S24).

  An example of the screen in the case of step 24 is shown in FIG. 9 (B). The screen displays that the connection to the electronic device 200 is not possible, that the result of the connectivity check is not (NG), and the information on the IP address and model name of the electronic device 200 is displayed.

  Returning to FIG. In step S17, when there is no registration of connection destination information in connection destination information management table 145 (NO in S17), that is, the device IDs included in all received response signals are the device IDs of information processing apparatus 100. If not, a message indicating that the IP address could not be obtained due to a parameter error (device ID mismatch) is displayed and output on the operation panel 143 (S25).

  An example of the screen in the case of step 25 is shown in FIG. 9 (C). The screen displays that the IP address could not be acquired and that the parameter error is the reason why the IP address could not be acquired.

  Returning to FIG. If the response to the address information acquisition request transmitted in step S12 is not within the predetermined time (NO in S12), a message indicating that the IP address could not be acquired due to a response timeout is displayed on the operation panel 143. (S26).

An example of the screen in the case of step 26 is shown in FIG. On the screen, it is displayed on the screen that the IP address could not be acquired and that the peripheral device did not respond is the reason why the IP address could not be acquired.
[Operation procedure]
FIG. 10 is a sequence diagram illustrating an example of an operation procedure of the network system 1 according to the embodiment of the present invention. The usage scene in which the operation is performed is a scene in which the user of the information processing apparatus 100 performs output (printing) of electronic data (image data) using the electronic device 200 located near the information processing apparatus 100.

  In the initial state of FIG. 10, since the IP address of the electronic device 200 is unknown, the information processing apparatus 100 can not connect to the electronic device 100 via the network 99. Therefore, the information processing apparatus 100 acquires the IP address of the electronic device 200 by transmitting and receiving a sound wave signal. The operation of acquiring the IP address is executed by the IP address acquisition application installed in the information processing apparatus 100. The IP address acquisition application needs to be installed in both the information processing apparatus 100 and the electronic device 200.

  S101: The user of the information processing apparatus 100 operates the operation panel 143 controlled by the operation panel control unit 130, and activates the IP address acquisition application. When the IP address acquisition application is activated, the operation panel control unit 130 causes the operation panel 143 to display an initial screen indicating whether to execute an IP address acquisition request.

  FIG. 11 is a view showing an example of an initial screen displayed on the operation panel 143 after application activation. When the user wants to obtain the IP address of the electronic device 200, the user operates the operation panel 143 to display the illustrated screen. Two soft keys a1 and b1 are displayed on the initial screen.

  a1. “YES” is a soft key selected by the user when the information processing apparatus 100 transmits an IP address acquisition request as a sound wave signal.

  b1. “NO” is a soft key selected by the user when the IP address acquisition request is not made.

  When the user selects “acquire IP address (YES)” on the initial screen of FIG. 11, operation panel control unit 130 requests address information acquisition request generation unit 121 to generate an address information acquisition request. On the other hand, when the user selects “NO”, the IP address acquisition application ends.

  Returning to FIG.

  S102: The address information acquisition request generation unit 121 requests the information management unit 122 to acquire an ID unique to the information processing apparatus 100. The unique ID is, for example, a unique device name (UDN) (hereinafter referred to as a "device ID") uniquely set in the device in the present embodiment. The information management unit 122 reads the device ID of the own device stored in the information storage device 144 and outputs the device ID to the address information acquisition request generation unit 121. The device ID is one piece of information in the device information possessed by the device, and is a unique ID uniquely identifying the device. In addition, since the information processing apparatus 100 and the electronic device 200 are the same, the example of a structure of device information is later mentioned using FIG. The device ID is included in the address information acquisition request issued by the information processing apparatus 100, and is used to identify that the response to the request is a response to the request of the own device. Note that a MAC address may be used as information for uniquely identifying the information processing apparatus 100.

  S103: Address information acquisition request generation means 121 generates an address information acquisition request in which the device ID of its own device is set in the signal format of the address information acquisition request signal. The address information acquisition request generation unit 121 converts an address information acquisition request, which is a digital signal, into an electric signal, and sends a transmission request to the address information acquisition request transmission unit 124.

  S104: The address information acquisition request transmission means 124 controls the speaker 141, converts the address information acquisition request, which is an electrical signal, into a sound wave signal, and transmits it to the electronic device 200. The address information acquisition request transmission unit 124 determines whether the response signal from the electronic device 200 has been received within a predetermined time set in advance after the transmission of the address information acquisition request. The address information acquisition request transmitting unit 124 determines that the electronic device 200 does not exist around the information processing apparatus 100 when there is no response within a predetermined time, and cancels the transmission of the address information acquisition request. Control. In addition, regarding transmission of address information acquisition request and determination of cancellation, for example, the number of transmissions of the address information acquisition request may be counted, and judgment of re-transmission or cancellation may be performed based on the counted number of transmissions.

  The address information acquisition request receiving unit 223 of the electronic device 200 controls the microphone 242, receives a sound wave signal, and converts the sound wave signal into an electric signal.

  S105: The analysis unit 224 converts the electrical signal converted by the microphone 242 into a digital signal, and determines whether the converted signal is an address information acquisition request sent from the information processing apparatus 100. As a determination method, for example, determination is made based on an identifier inserted in a frame indicating that the request signal is set to the signal format of the received signal. As a result of analysis, when it is determined that the request is an address information acquisition request, the analysis result and the device ID of the portable device 100 included in the address information acquisition request are output to the address information acquisition request accepting unit 225. As a result of analysis, when it is not recognized that it is an address information acquisition request, the received signal is discarded.

  S106: If the analysis result is found to be an address information acquisition request, the address information signal generation means 226 causes the device information management means 227 to determine the IP address of its own device, the device ID of its own device included in the device information, and Request acquisition of model name.

  FIG. 12 is a diagram showing an example of the configuration of device information. As shown in the figure, the device information includes friendlyName, manufacturer, modelName, UDN (Unique Device Name), and the like. The friendlyName is a model name of the electronic device 200. manufacturerName is the name of the manufacturer of the electronic device 200. modelName is a machine number of the electronic device 200. The UDN (device ID) is a unique ID that uniquely identifies a device. The model name (friendlyName) is information displayed on the operation panel 143 of the information processing apparatus 100 as a result of the address information acquisition request. The device ID is used to identify which electronic device 200 the response is from when the information processing apparatus 100 receives a response from a plurality of electronic devices 200 having the same model name. Note that a MAC address may be used as information for uniquely identifying the electronic device 200.

  Returning to FIG. The device information management unit 227 reads the IP address, device ID, and model name of the own device stored in the device information storage device 244 and outputs the same to the address information signal generation unit 226.

  S107: The address information signal generation unit 226 generates an address information signal which is a response signal including identification information indicating that the response is a response to the address information acquisition request. The IP address of the electronic device 200, the device ID, the model name, and the device ID of the information processing apparatus 100 included in the address information acquisition request are set in the signal format of the address information signal which is the response signal. The address information signal generation unit 226 converts a response signal, which is a digital signal, into an electric signal, and sends a transmission request to the address information transmission unit 222.

  S108: The address information transmitting means 222 controls the speaker 241, converts a response signal which is an electric signal into a sound wave signal, and transmits the sound signal to the information processing apparatus 100. Here, in order to avoid collision (interference) of sound wave signals transmitted from a plurality of electronic devices 200 on the information processing apparatus 100 side that receives the information, the address information transmission unit 222 sets the transmission timing of the sound wave signals to the electronic device 200a. , 200b,... As a method for avoiding the collision of sound signal, for example, a mechanism of Carrier Sense Multiple Access with Collision Avoidance (CSMA / CA) is used. CSMA / CD is adopted as a communication procedure of wireless LAN communication standards IEEE 802.11a, 802.11b, and 802.11g. If the microphone of the electronic device 200a does not detect a sound wave signal transmitted by another electronic device 200n for a certain period of time, the electronic device 200a waits for a random time (backoff), and transmits the sound wave signal. In addition, for example, the collision of the sound wave signal may be avoided by changing the frequency to be used for each electronic device 200 in advance.

  The address information receiving means 125 of the information processing apparatus 100 controls the microphone 142, receives the sound wave signal, converts the sound wave signal into an electric signal, and requests the signal analysis means 126 to analyze the signal. Also, the microphone 142 measures the sound pressure level of the received sound wave signal.

  S109: The signal analysis unit 126 of the information processing apparatus 100 converts the electrical signal converted by the microphone 142 into a digital signal, and the converted signal is a response signal corresponding to the address information acquisition request transmitted from the information processing apparatus 100. It is analyzed whether or not. Specifically, it is determined whether or not the response signal is an identifier indicating that it is a response signal, and subsequently, whether there is a device ID of the information processing apparatus 100 or not. If the signal analysis unit 126 determines that the received signal is a response signal corresponding to the request signal transmitted from the information processing apparatus 100 as a result of analysis, the IP address of the electronic device 200 contained in the response signal The device ID and model name are output to the address information reception / identification means 128.

  S110: When the sound pressure level measuring unit 127 controls the microphone 142 and acquires the sound pressure level measured by the microphone 142, the sound pressure level measuring unit 127 outputs the acquired sound pressure level to the address information receiving / identifying unit 128.

  S111: The address information reception / identification unit 128 causes the information management unit 122 to store the IP address of the electronic device 200, the device ID, the model name, and the sound pressure level of the received sound wave signal in the connection destination information management table 145. Request. When the information management means 122 receives the request for the process, it distinguishes each electronic device 200 as shown in FIG. 6 and connects the IP address, device ID, model name and sound pressure level to the connection destination information management table 145. Remember.

  The processes in steps S109 to 111 are repeated for the number of received response signals.

  S112: The address information reception / identification unit 128 sends a connectivity confirmation request for connectivity confirmation to the connection destination having the highest sound pressure level in the connection destination information management table 145 via the network interface control unit 129. To do. The connectivity check is performed, for example, via the network 99 by telnet specifying the IP address of the target electronic device 200 and a specific port number.

  S113: The network interface means 228 of the electronic device 200 sends a response when it receives the connectivity confirmation request. The address information receiving / specifying unit 128 specifies the electronic device 200 to be the communication destination based on the result of the connectivity check.

  The connectivity check in steps S112 to S113 is repeated for the connection destination with the next largest sound pressure level if the check result is negative (NG). The specific procedure for checking the connectivity is as described above with reference to the flowchart of FIG.

  S114: The address information receiving / specifying unit 128 requests the operation panel control unit 130 to display and output the screen shown in FIG. 9 according to the result of the connectivity check.

  S115: The operation panel control means 130 controls the operation panel 143 to display a screen showing the generated result.

  S116: The user of the information processing apparatus 100 operates a soft key on the operation panel 143 to display a list of image data names which are electronic data, and then selects image data to be output (printed) and inputs output execution . Operation panel control means 130 instructs output request generation means 131 to generate an output request for printing. The output request generation unit 131 generates an output request set with the IP address of the electronic device 200 stored in the information storage device 144 as the destination address via the information management unit 122. The output request includes image data stored in the information storage device 144 when the user selects image data stored in the information processing apparatus 100 as an output target. The output request generation unit 131 requests the network interface control unit 129 to transmit the output request. The image data includes document data such as characters, symbols, numerical values, and moving image / audio data in addition to image data such as photographs and graphics.

  S117: The network interface control unit 129 transmits an output request to the IP address of the electronic device 200 set as the communication destination address via the network 99 (access point 300). When the network interface unit 228 of the electronic device 200 receives the output request, the network interface unit 228 requests the output request receiving unit 229 to perform processing corresponding to the request.

  S118: The output request receiving unit 229 requests the output data generating unit 230 to generate output data based on the image data included in the output request. The output data generation unit 230 generates output data in the PDL format based on the image data received using a printer driver or the like.

  Note that the output data generation unit 230 may generate output data from image data stored in advance in the memory device RAM 203 of the electronic device 200 or the HDD 205 based on a print request from the information processing apparatus 100.

  S119: The electronic data output unit 231 converts the generated data in PDL format into bitmap data, controls the printer 245, and executes print processing.

  S120: As a result, the printer 245 outputs a print sheet on which an image or the like indicated by the bitmap data is printed.

  As described above, according to the embodiment of the present invention, the information processing apparatus 100 participating in the network easily acquires the address information (IP address) of the plurality of electronic devices 200 connected to the network, and the sound pressure level By comparing these, it is possible to identify and use the electronic device 200 located closest to the information processing apparatus 100. Accordingly, the user of the information processing apparatus 100 can print or output electronic data (image data) using the electronic device 200 closest to the information processing apparatus 100 by an easy operation of the information processing apparatus.

In the present invention, the signal transmission procedure and signal format (FIG. 2) of the address information acquisition request (S101 of FIG. 10) and the output request of electronic data (S116 of FIG. 10) transmitted to the electronic device 200 by the information processing apparatus 100. Etc. in advance, these signal transmission procedures, signal formats, etc. can be incorporated into a software development kit (SDK). By providing the SDK to the application developer, not only the developer / provider of the information processing apparatus 100 or the electronic device 200 main body, but also the application created by the application developer is installed in the information processing apparatus 100, It becomes possible to operate the network system 1 of the present invention.
[Modification]
In the modification of the present embodiment, when the address information (IP address) of the plurality of electronic devices 200 is acquired, the IP addresses of the plurality of electronic devices 200 connectable via the network 99 are displayed. FIG. 13 is a diagram illustrating an example of the connection destination information acquisition result displayed on the screen of the information processing apparatus according to the modification. Output destination candidates are displayed in descending order from the highest sound pressure level in the connection destination information management table 145. For example, the IP address “192.168.1.ccc” having the largest sound pressure level described in FIG. 6 and the next “192.168.1.aaa” having the largest sound pressure level are displayed in this order. That is, the electronic devices 200 at positions closer to the information processing apparatus 100 are displayed in order. Further, by pressing the “selection key” described in FIG. 13, the electronic device 200 to which the electronic data is to be output is specified, and the electronic data is output using the specified electronic device 200.

  In the present embodiment, although the information processing apparatus 100 and the electronic apparatus 200 have been described as an example of the apparatus, the information processing apparatus 100 can be any apparatus that can provide a predetermined function to the information processing apparatus. The present embodiment may be applied to devices other than the electronic device 200.

  Further, in the present embodiment, the electronic device 200 uses the address information (IP address), the device ID, and the model name of the electronic device 200 as a part of the information included in the signal transmitted to the information processing device 100. However, information indicating the function of the electronic device 200, for example, information including a color printing function and a fax function may be further transmitted. Thus, when the information processing apparatus 100 receives the signal, it is possible to display not only the model name of the electronic device 200 but also the provided functions on the touch panel of the information processing apparatus 100 or the like.

  Although the embodiments of the present invention have been described above in detail, the present invention is not limited to such specific embodiments, and various modifications may be made within the scope of the present invention as set forth in the claims. Can be changed.

DESCRIPTION OF SYMBOLS 1 Network system 100 Information processing apparatus 105 Display part 109 Sound wave input / output part 110, 141 Speaker 111, 142 Microphone 121 Address information acquisition request production | generation means 122 Information management means 123 Address information interface means (1st communication interface)
124 Address Information Acquisition Request Transmission Means (Request Transmission Means)
125 Address information receiving means 126 Signal analyzing means 127 Sound pressure level measuring means 128 Address information receiving / specifying means (electronic device specifying means)
129 Network interface means (second communication interface)
130 Operation panel control means 131 Output request generation means 143 Operation panel 144 Device information storage device 145 Connection destination information management table 200 Electronic equipment 212 Sound wave input / output unit 213, 241 Speaker 214, 242 Microphone 221 Address information interface means (first communication interface)
222 Address Information Transmission Means 223 Address Information Acquisition Request Reception Means (Request Reception Means)
224 analysis means 225 address information acquisition request acceptance means 226 address information signal generation means 227 information management means 228 network interface means (second communication interface)
229 Output request acceptance means 230 Output data generation means 231 Electronic data output means

JP2011-255517A

Claims (7)

An information processing apparatus capable of making an electronic data output request to a plurality of electronic devices via a second communication interface different from a first communication interface that directly performs wireless communication between devices ,
Via the first communication interface, the address information receiving means for receiving the electronic device information from each of one or more electronic devices, including address information in said second communication interface,
The second information included in the one or more pieces of electronic device information received by the address information receiving means on the basis of the reception intensity in the first communication interface when each of the electronic device information is received by the address information receiving means Address information specifying means for specifying one address information to be used for the output request of the electronic data through the second communication interface among the address information in the communication interface ;
An information processing apparatus comprising: output requesting means for requesting output of electronic data via the second communication interface based on the address information specified by the address information specifying means. The address information specifying means includes
The address information of the source of the electronic device information at which the reception strength at the first communication interface at the time of receiving each of the electronic device information is maximum is specified by the address information receiving means. The information processing apparatus described in 1. The information processing apparatus further includes:
2. The information processing apparatus according to claim 1, further comprising: address information display means for displaying a screen including the address information specified by the address information specifying means.   When the result of the connectivity check with the address information specified by the address information specifying means as the destination is NG, the connection to the electronic device can not be made, and the result of the connectivity check is NG, the electronic The information processing apparatus according to claim 1, wherein information of an IP address or a model name of the device is displayed.   The information processing apparatus according to claim 1, wherein the second communication interface is a wireless LAN connected via an access point. Information capable of requesting output of electronic data to a plurality of electronic devices via a plurality of electronic devices that output electronic data and a second communication interface different from the first communication interface that performs direct wireless communication between the devices. A network system having a processing unit,
The information processing apparatus is
Via the first communication interface, the address information receiving means for receiving the electronic device information from each of one or more electronic devices, including address information in said second communication interface,
The second information included in the one or more pieces of electronic device information received by the address information receiving means on the basis of the reception intensity in the first communication interface when each of the electronic device information is received by the address information receiving means Address information specifying means for specifying one address information to be used for the output request of the electronic data through the second communication interface among the address information in the communication interface ;
And output request means for requesting an output of electronic data through the second communication interface based on the address information specified by the address information specifying means,
The electronic device is
Address information transmitting means for transmitting electronic device information including address information of the electronic device to the information processing apparatus via the first communication interface;
An output unit that outputs electronic data based on the output request of the electronic data transmitted from the output request unit via the second communication interface;
A network system. An electronic data output method performed by an information processing apparatus capable of making an electronic data output request to a plurality of electronic devices via a second communication interface different from a first communication interface that performs direct wireless communication between devices . ,
Via the first communication interface, the address information receiving step of receiving the electronic device information from each of one or more electronic devices, including address information in said second communication interface,
The one or more pieces of the electronic device information received in the address information receiving step, based on the reception intensity in the first communication interface when each of the electronic device information is received in the address information receiving step An address information identification step of identifying one address information to be used for the output request of the electronic data through the second communication interface among the address information in the second communication interface ;
An electronic data output method comprising: an output requesting step for requesting output of electronic data via the second communication interface based on the address information specified in the address information specifying step.

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