JP6322892B2 - Information processing system, portable terminal device, information acquisition method, and program - Google Patents

Description

  The present invention relates to an information processing system, a portable terminal device, an information acquisition method, and a program.

  In recent years, with the spread of smart devices such as smartphones and tablet terminals, there is a user's need to easily print image data such as documents, photos, web pages, etc. stored in smart devices using an image forming apparatus or the like. . As described above, in order to transmit image data from the smart device (mobile terminal) to the image forming apparatus, the mobile terminal specifies address information (for example, an IP address) of the image forming apparatus before performing communication. There is a need.

  Therefore, Patent Document 1 discloses an image forming apparatus having a first wireless communication unit and a second wireless communication unit for the purpose of reducing the operation burden on the user in the authentication process between the image forming apparatus and the portable terminal. A technique is described in which the first wireless communication unit acquires access information for the second wireless communication unit to communicate with the portable terminal, and the second wireless communication unit performs communication based on the acquired access information.

  However, in wireless communication, there may be cases where data cannot be transmitted or received without error depending on the communication environment, such as when the distance between devices that communicate with each other is more than a certain distance or there are obstacles between devices. There is a problem that can be.

  According to the technology described in Patent Document 1 described above, data (access information) used for communication can be acquired by a device that performs communication, but data without errors cannot be reliably acquired depending on the communication environment. The problem cannot be solved.

  The present invention has been made in view of the above points, and an object of the present invention is to reliably acquire information for specifying a device to be connected to the device.

In order to solve the above problems, an image forming system according to the present invention includes a portable terminal device, an image forming device that executes predetermined processing in response to an execution request transmitted from the portable terminal device via a wireless LAN interface, and wherein the said mobile terminal device includes a receiving means for receiving a signal containing information identifying the image forming apparatus via the first acoustic interface comprises at least a microphone and a speaker from the image forming apparatus, said by the reception unit A determination unit that determines whether the signal includes noise when the signal is received via the first sound wave interface, and information that specifies the image forming apparatus included in the signal received by the reception unit. based on the transmits the execution request through the wireless LAN interface, and to said signal by said determining means A transmission unit that transmits the execution request via the wireless LAN interface based on information for identifying the image forming apparatus included in the signal received by the reception unit when it is not determined that a noise is included. When the determination unit determines that the signal includes noise, a request for output of information specifying the image forming apparatus is made via the speaker of the first sound wave interface. Request output means for outputting to the forming apparatus, wherein the request output means includes information for specifying the image forming apparatus received by the receiving means for the first time, and information for specifying the image forming apparatus received next. If but do not match, it makes a request for output of information identifying the image forming apparatus to the image forming apparatus, the image forming apparatus, at least a speaker and Ma A second acoustic interface including a click, further comprising specifying information output means for outputting information specifying the image forming apparatus through the second sound wave interface, the image outputted by the identification information output means based forming apparatus information identifying said to have a control means for controlling to execute a predetermined process in response to said execution request transmitted from the portable terminal device via the wireless LAN interface, the image forming A request for outputting information specifying the device is received via the microphone of the second acoustic wave interface.

  Information for specifying the device for connection with the device can be reliably acquired.

1 is a diagram illustrating an example of a configuration of an image forming system in an embodiment of the present invention. It is a figure which shows an example of the hardware constitutions of the portable terminal in embodiment of this invention. 1 is a diagram illustrating an example of a hardware configuration of an image forming apparatus according to an embodiment of the present invention. It is a figure which shows an example of a function structure of the portable terminal in embodiment of this invention. It is a figure which shows an example of a structure of the information memorize | stored in the connection information storage means in embodiment of this invention. It is a figure which shows an example of a structure of the information memorize | stored in the noise intensity threshold value memory | storage means in embodiment of this invention. 1 is a diagram illustrating an example of a functional configuration of an image forming apparatus according to an embodiment of the present invention. It is a figure which shows an example of the structure of the communication of the address information by the sound wave used with the image forming system in embodiment of this invention. FIG. 10 is a sequence diagram illustrating an example of an operation procedure of the image forming system when the ambient noise intensity is equal to or greater than a threshold value in the embodiment of the present invention. It is a figure which shows an example of the initial screen after starting the IP address acquisition application in embodiment of this invention. 6 is a diagram showing an example of a setting screen for a buzzer sound and a lamp lighting color when connected to the image forming apparatus in the embodiment of the present invention. FIG. FIG. 10 is a sequence diagram illustrating an example of an operation procedure of the image forming system when the ambient noise intensity is less than a threshold value in the embodiment of the present invention. It is the flowchart figure which showed an example of the process sequence of address information acquisition with the portable terminal in embodiment of this invention. It is a figure which shows an example of the response result of the address information acquisition request output and displayed on the display part of the portable terminal in embodiment of this invention. It is a sequence diagram which shows an example of the operation | movement procedure of the image forming system in the modification of embodiment of this invention. It is the flowchart figure which showed an example of the process sequence of address information acquisition with the portable terminal in the modification of embodiment of this invention.

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

  The image forming system 1 according to the embodiment of the present invention transmits address information indicating the location of a device existing in the image forming system 1 on a network to other devices as a sound wave, and uses the address information to communicate between devices. A system for connecting and forming an image. The address information in the embodiment of the present invention is information for specifying a device used for connection between devices. The sound wave in the embodiment of the present invention is a sound frequency generated by an elastic wave, and is not limited to an audible frequency band but may be an ultrasonic wave or a low frequency. However, due to the characteristics of sound waves, there may be cases where the address information contained in the sound waves cannot be read correctly due to the influence of ambient noise (noise). Therefore, the image forming system 1 according to the embodiment of the present invention accurately acquires address information without erroneous detection of sound waves. Here, the address information in the embodiment of the present invention is, for example, an IP address (regardless of IPv4 or IPv6). Note that the address information is not limited to an IP address, and is, for example, physical address information when Bluetooth (registered trademark) is used as a communication method. The address information may include, for example, an SSID (Service Set Identifier) used for wireless LAN communication in addition to the IP address and the like.

  The image forming system 1 includes a network 99 including two LANs (Local Area Networks) (LAN 1 and LAN 2), and the LANs are connected via a router 301. The mobile terminal 100 is connected to the LAN 1, and n image forming apparatuses 200 a, 200 b,... 200 n (hereinafter referred to as “image forming apparatus 200” when not distinguished from each other) are connected to the LAN 2. Yes.

  The mobile terminal 100 is wirelessly connected to the LAN 1 via a wireless LAN access point (hereinafter referred to as “access point”) 300 arranged in the LAN 1. For the wireless connection, for example, a method based on the IEEE 802.11 standard is used. The portable terminal 100 can be connected to the LAN 1 by a wired connection if there is a hub or L2 switch. However, since the portable terminal 100 requires an interface and a cable, in this embodiment, Connect wirelessly. In order to connect to the access point 300, an SSID and an encryption key are required. In the embodiment of the present invention, the mobile terminal 100 can be connected to the LAN 1 via the access point 300.

  The image forming apparatus 200 is connected to the LAN 2 by wire. However, the connection between the image forming apparatus 200 and the LAN 2 may be wirelessly connected via an access point.

  Network addresses are defined for LAN1 and LAN2, and the network addresses of the portable terminal 100 connected to LAN1 and the image forming apparatus 200 connected to LAN2 are different. That is, the network segments to which the portable terminal 100 and the image forming apparatus 200 belong are different.

  The router 301 divides the network 99 into LAN1 and LAN2, and controls communication between the LAN1 and LAN2. That is, when the mobile terminal 100 connected to the LAN 1 transmits a MAC frame (hereinafter simply referred to as “frame”) to a stationary apparatus connected to the LAN 1, for example, all devices including the router 301. Can be received, 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 own device, the router 301 refers to the IP address of the destination, identifies the network address, and relays the frame to the LAN 2, for example. 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, but may be configured via other LANs, intranets, the Internet, or the like.

  The mobile terminal 100 only needs to have a wireless LAN communication function, a speaker, and a microphone. Smart phones, tablet terminals, notebook PCs, PDAs (Personal Digital Assistants), mobile phones, and the like can also be the mobile terminal 100. The mobile terminal 100 has a communication device for connecting to the LAN in advance, or can be equipped with an adapter for connecting to the LAN, and has an IP address and a MAC address.

The image forming apparatus 200 is an example of an information processing apparatus 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 into a character code, bitmap data, image data converted into a JPEG format image, and the like. The image forming apparatus 200 is a multifunction machine that realizes two or more functions of, for example, printing, scanning, copying, facsimile, and the like with a single casing. Further, a device having any one function alone may be used as the image forming apparatus 200. Further, the image forming apparatus 200 only needs to have the above function, and may be, for example, a projector. In the present embodiment, the portable terminal 100 communicates with the image forming apparatus 200 to print an image or send a fax.
[Hardware configuration]
<Mobile device>
FIG. 2 is a diagram illustrating an example of a hardware configuration of the mobile terminal 100 according to the embodiment of the present invention. The portable terminal 100 is an example of a portable portable terminal.

  The portable terminal 100 includes hardware such as a sound wave input / output unit 109 including a CPU 101, ROM 102, RAM 103, NVRAM 104, display unit 105, operation unit 106, media I / F 107, wireless LAN communication unit 108, speaker 110 and microphone 111. Have.

  The CPU 101 executes a portable terminal program 112 stored in the NVRAM 104 and controls the operation of the portable terminal 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 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 that provides functions of the mobile terminal 100.

  The display unit 105 is a user interface (UI) screen such as liquid crystal or organic EL (Electro Luminescence) on which information is output to the user. Note that in the embodiment of the present invention, the display unit 105 integrally includes 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 input 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 wireless LAN communication unit 108 controls the modulation method, transmission speed, frequency, etc. based on the IEEE802.11b / 11a / 11g / 11n standard, 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. The embodiment of the present invention is not limited to communication using a wireless LAN, but may be a wired LAN or the like that conforms to the IEEE 802.3 standard. In this case, an Ethernet (registered trademark) card or the like is used instead of the wireless LAN communication unit 108.

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

  The microphone 111 functions as a sound wave input unit, receives sound waves, and converts sound waves into electrical signals. In the embodiment of the present invention, the microphone 111 receives a sound wave transmitted from the image forming apparatus 200 or collects noise around the mobile terminal 100.

  The program 112 is a file in an installable or executable format, and is distributed on a computer-readable recording medium. The program 112 may be distributed to the mobile terminal 100 in a file that can be installed from a predetermined server or an executable file.

<Image forming apparatus>
FIG. 3 is a diagram illustrating an example of a hardware configuration of the image forming apparatus 200 according to the embodiment of the present invention. The image forming apparatus 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, and an SD card slot 215.

  The controller 201 includes a CPU 202, RAM 203, ROM 204, HDD 205, NVRAM 206, and the like. The ROM 204 stores various programs for the image forming apparatus 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 a program and various data used by the program. The NVRAM 206 stores various setting information of the image forming apparatus 200.

  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 printing paper.

  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. In the embodiment of the present invention, communication with the mobile terminal 100 is performed using an IP address, and print data is transmitted and received.

  The sound wave input / output unit 212 includes a speaker 213 that is a sound wave output unit and a microphone 214 that is a sound wave input unit. The speaker 213 converts an electrical signal into a sound wave and transmits the sound wave. The microphone 214 receives sound waves and converts the sound waves into electrical signals. In the embodiment of the present invention, there may be a plurality of mobile terminals 100 that transmit / receive sound waves to / from the image forming apparatus 200, and the position of the mobile terminal 100 cannot be specified in advance. Therefore, it is desirable that the speaker 213 and the microphone 214 be non-directional that enables transmission and reception in an unspecified direction.

The SD card slot 215 is used for reading a program stored in the SD card 600. That is, in the image forming apparatus 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). 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.
[Function configuration]
<Mobile device>
FIG. 4 is a diagram illustrating an example of a functional configuration of the mobile terminal 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 portable terminal 100 includes a user interface unit 121, an address information acquisition request generation unit 122, a sound wave interface unit 123, a signal analysis unit 124, an address information reception unit 125, a connection information storage unit 126, a retransmission request unit 127, and a noise intensity threshold storage unit. 128, a connection request unit 129, a network interface unit 130, a print data storage unit 131, a print request unit 132, and the like. The sound wave interface unit 123 includes a sound wave transmission unit 1231, a sound wave reception unit 1232, and an ambient noise detection unit 1233. Of these functions, the address information acquisition request generation unit 122, the sound wave interface unit 123, the signal analysis unit 124, the address information reception unit 125, the retransmission request unit 127, and the connection request unit 129 are an address information acquisition application for the portable terminal 100. 120. Therefore, if the hardware elements of the mobile terminal 100 shown in FIG. 3 are provided, the functions of the image forming system 1 can be used by installing the address information acquisition application 120.

  The user interface unit 121 controls the operation unit 106 such as a touch panel so that the user can input information and commands, and also controls the display unit 105 to output and display information to the user. In the embodiment of the present invention, the user interface unit 121 displays an information input screen that is operated to acquire address information of the image forming apparatus 200 and receives an address information acquisition processing command from the user. The received request is notified to the acquisition request generation means 122. In addition, the user interface unit 121 displays information indicating a result regarding whether or not address information can be acquired.

  The address information acquisition request generation unit 122 generates an address information acquisition request signal for acquiring the IP address of the image forming apparatus 200. When the address information acquisition request generation unit 122 generates the address information acquisition request signal, it requests the sound wave interface unit 123 to transmit the address information acquisition request signal by sound waves. The address information acquisition request generation unit 122 performs a conversion process from a digital signal to an analog signal. The signal format of the address information acquisition request signal will be described with reference to FIG.

  The sound wave interface unit 123 includes a sound wave transmission unit 1231 that transmits and processes an address information acquisition request as a sound wave, a sound wave reception unit 1232 that receives and processes IP address information included in the sound wave, and an ambient noise detection unit 1233. The sound wave transmission unit 1231 controls the speaker 110 as a sound wave output unit, converts the address information acquisition request of the electric signal generated by the address information acquisition request generation unit 122 into a sound wave, and transmits the sound wave. The sound wave receiving unit 1232 transfers the electric signal converted from the sound wave by the microphone 111 as a sound wave input unit to the signal analyzing unit 124. The ambient noise detection unit 1233 controls the microphone 111 to detect noise around the mobile terminal 100 and notifies the retransmission request unit 127 of the noise.

  The signal analyzing unit 124 converts the electrical signal (analog signal) converted by the microphone 111 notified from the sound wave receiving unit 1232 into a digital signal and analyzes it. Next, the signal analysis unit 124 determines whether the address information signal transmitted from the image forming apparatus 200 is significant. If it is determined as a result of the analysis, the received address information signal and its reception time are notified to the address information reception means 125 and the retransmission request means 127 is notified of the reception time of the address information. On the other hand, if it is determined that the result is not significant, the signal is discarded. Here, whether the received signal is significant, that is, whether it is an address information signal transmitted from the image forming apparatus 200, is detection of a preamble indicating that it is an address information signal included in the address information signal. Judgment by.

  The address information accepting unit 125 acquires the IP address of the image forming apparatus 200 included in the address information signal notified from the signal analyzing unit 124 and a retransmission flag indicating whether the received address information signal is a retransmission. To do. Then, the information acquired from these address information signals and the reception time of the address information signal are associated with each other and stored in the connection information storage unit 126. Further, the address information accepting unit 125 notifies the connection requesting unit 129 of a connection start request using the network 99 including the address information (IP address).

  The connection information storage unit 126 stores the reception time of the address information signal and the information such as the IP address included in the address information signal in association with each other, for example, in the RAM 103 or the like.

FIG. 5 is a diagram showing an example of a configuration of information stored in the connection information storage unit 126 according to the embodiment of the present invention. As shown in FIG. 5, the connection information storage unit 126 stores a management ID, an IP address, an address information signal reception time, and an address information signal transmission count. The management ID is an identification number uniquely assigned to manage the IP address in the connection information storage unit 126. The IP address is the IP address of the image forming apparatus 200 included in the address information signal. In the example of FIG. 5, the IP address is in the IPv4 format, but may be in the IPv6 format. The reception time is the time when the address information signal is received, and the time when the signal analysis unit 124 receives the address information signal. The retransmission flag is information indicating whether or not the received address information signal is due to retransmission. The retransmission flag is displayed in 2 bits and indicates the following contents.
-"00": IP address included in the address information signal in response to the first address information acquisition request, and not in a waiting state for a resend address information acquisition request-"01": first address information acquisition When the IP address is included in the address information signal of the response to the request and is in a response waiting state for the retransmitted address information acquisition request— “10”: IP address included in the response to the retransmitted address information acquisition request Therefore, in the example of FIG. 5, the retransmission flag of the management ID “1” is “01”, which indicates that the IP address is included in the response to the first address information acquisition request, and the IP address is an image. This is a state in which the address information acquisition request has been retransmitted in order to confirm whether the forming apparatus 200 is legitimate. The retransmission flag of the management ID “2” is “10”, which indicates that the IP address is acquired again by retransmission corresponding to the IP address of the management ID “1”. Also, the correspondence between the management ID “1” and the management ID “2” is determined by whether or not the difference between the reception times is within a predetermined time (for example, within 30 seconds).

  Returning to FIG.

  When the reception time of the address information signal is notified from the signal analysis unit 124, the retransmission request unit 127 refers to the noise intensity (peripheral noise intensity) around the mobile terminal 100 at the reception time. The ambient noise is notified from the ambient noise detection unit 1233 to the retransmission request unit 127, and the retransmission request unit 127 stores the noise intensity for a predetermined time (for example, 1 minute) retroactive to the current time in a memory (for example, the RAM 103). Remember. Then, the retransmission request unit 127 determines whether or not the noise intensity at the reception time of the address information signal is greater than or equal to a predetermined threshold stored in the noise intensity threshold storage unit 128. The noise intensity at the reception time is, for example, an average value for 10 seconds going back from the reception time. In addition, when considering the short-time fluctuation of the noise intensity, the noise intensity may be an average every several seconds (for example, 1 to 2 seconds). If it is determined that the ambient noise intensity is less than the predetermined threshold value, the retransmission request unit 127 notifies the signal analysis unit 124 of a determination result that the address information acquisition request is not retransmitted. On the other hand, if the ambient noise intensity is greater than or equal to a predetermined threshold, the address information acquisition request generation unit 122 is requested to resend the address information acquisition request.

  The noise intensity threshold storage unit 128 stores a noise intensity threshold used as a criterion for determining whether or not to resend the address information acquisition request.

FIG. 6 is a diagram illustrating an example of a configuration of information stored in the noise intensity threshold storage unit 128 according to the embodiment of the present invention. As shown in FIG. 6, the noise intensity threshold storage unit 128 stores a threshold ID, an upper limit and a lower limit of a frequency band, a sound pressure level, and the like. The threshold ID is an identification number that uniquely identifies the threshold in the noise intensity threshold storage unit 128. The sound pressure level is a threshold value of noise intensity whose unit is dB (decibel). The frequency band is displayed in Hz, and an upper limit value and a lower limit value of the frequency band can be set. In the example of FIG. 6, when the frequency band is 0 to 3000 Hz and the noise intensity is 60 dB or more, it is determined that the noise intensity is equal to or more than a predetermined threshold. The noise intensity threshold storage unit 128 can arbitrarily set a threshold (sound pressure level) for each frequency band.

  Returning to FIG.

  When the connection request unit 129 receives a connection start request including the IP address of the image forming apparatus 200 from the address information receiving unit 125, the connection request unit 129 establishes a session using the notified IP address as a destination address via the network 99. Here, the establishment of a session is, for example, establishment of a TCP session. If UDP is used in a print request from the print request unit 132, which will be described later, a prior session establishment process is not necessary. The connection between the portable terminal 100 and the image forming apparatus 200 using the network 99 is not limited to TCP and UDP, and may be a protocol such as SPX (Sequenced Packet Exchange).

  The network interface unit 130 controls communication via the network 99 and communicates with the image forming apparatus 200. In the embodiment of the present invention, the network interface unit 130 performs wireless LAN communication conforming to the IEEE 802.11 standard.

  The print data storage unit 131 stores electronic data (print data) such as an image to be printed in the image forming apparatus 200.

  The print request unit 132 transmits a print request for outputting print data to the image forming apparatus 200 via the network interface unit 130 based on an input operation by the user on the operation unit 106. In the embodiment of the present invention, the print request includes image data to be printed and the like stored in the print data storage unit 131. However, the data to be printed need not be included in the print request. For example, the storage destination address of the print data may be specified in the print request.

<Image forming apparatus>
FIG. 7 is a diagram illustrating an example of a functional configuration of the image forming apparatus 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 image forming apparatus 200 includes a sound wave interface unit 221, a signal analysis unit 222, an address information acquisition request reception unit 223, an address information signal generation unit 224, a storage unit 225, a network interface unit 226, a connection request reception unit 227, and a print request reception unit. 228, a print data generation unit 229, a print data output unit 230, a display unit 231 and the like.

  The sound wave interface unit 221 includes a sound wave transmission unit 2211 that transmits and processes sound waves, and a sound wave reception unit 2212 that receives and processes sound waves. The sound wave transmission unit 2211 controls the speaker 213, converts an electric signal into a sound wave, and transmits the sound wave. The sound wave receiving unit 2212 receives and processes the electric signal converted from the sound wave by the microphone 214.

  The signal analysis unit 222 converts the electrical signal converted by the microphone 214 into a digital signal, and determines whether the converted signal is an address information acquisition request signal transmitted from the mobile terminal 100. The determination is made based on, for example, whether or not a preamble indicating an address information acquisition request signal set in the signal format of the received signal is detected. As a result of the analysis, if it is determined that it is an address information acquisition request signal, the analyzed result is output to the address information acquisition request receiving means 223. On the other hand, as a result of the analysis, if it is not determined that it is an address information acquisition request signal, the received signal is discarded.

  The address information acquisition request receiving unit 223 receives the address information acquisition request signal analyzed by the signal analyzing unit 222, and the address information signal generation unit 224 receives an address information signal that is a response including the IP address of the image forming apparatus 200. Request generation of.

  The address information signal generation means 224 generates an address information signal that is a response to the address information acquisition request signal. In addition to the address information of the image forming apparatus 200, the address information signal determines whether the received address information signal is the first time or a retransmission based on the retransmission flag included in the address information acquisition request. Alternatively, a retransmission flag for identifying a retransmitted address information signal is set. A specific processing procedure will be described later with reference to FIG.

  The storage unit 225 stores an IP address, a MAC address, and the like of the image forming apparatus 200 used for communication. As the storage unit 225, for example, the RAM 203, the ROM 204, the HDD 205, the NVRAM 206, and the like are used.

  The network interface unit 226 communicates with the mobile terminal 100 via the network 99 using the IP address.

  When the connection request reception unit 227 receives a connection request transmitted from the mobile terminal 100 via the network interface unit 226, the connection request reception unit 227 establishes a session.

  When receiving the print request via the network interface unit 226, the print request reception unit 228 requests the print data generation unit 229 to generate print data in the PDL format.

  Based on the request from the print request reception unit 228, the print data generation unit 229 converts, for example, image data to be printed transmitted from the mobile terminal 100 into PDL format print data using a printer driver.

  The print data output unit 230 controls the printer 208 to execute print processing based on the converted PDL format print data. Specifically, the print data output unit 230 converts data in PDL format into bitmap data, and then the printer 208 outputs a print sheet on which an image or the like based on the converted bitmap data is printed. .

The display unit 231 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 image forming apparatus 200 using the operation panel 243.
[Communication method using sound waves]
A method for communicating address information between the portable terminal 100 and the image forming apparatus 200 using sound waves in the embodiment of the present invention will be described.

  In the embodiment of the present invention, the image forming system 1 transmits and receives address information (IP address) with sound waves in the signal format shown in FIG. The signal format shown in FIG. 8 is commonly used for the address information acquisition request signal transmitted from the portable terminal 100 to the image forming apparatus 200 and the address information signal transmitted from the image forming apparatus 200 to the portable terminal 100. It is done.

  FIG. 8 is a diagram illustrating an example of a mechanism of address information communication using sound waves in the image forming system 1 according to the embodiment of the present invention.

  FIG. 8A is a diagram illustrating an example of a signal format of an address information signal and a sound wave communication mechanism using the address information signal. As shown in FIG. 8A, the address information signal has fields of a preamble (8 bits), a start flag (1 bit), a retransmission flag (2 bits), a payload (32 bits), and an end flag (1 bit). “T1” in FIG. 8A is a time per bit (bit time) required at the time of transmission by sound waves, and is determined based on a predetermined sound wave frequency set in the image forming system 1 in advance. When the frequency of the predetermined sound wave is f, it is expressed as T1 = n × 1 / f (n is a natural number).

  The preamble is a field for synchronization at the time of signal reception, and all 8 bits are set as “1” in the embodiment of the present invention. For example, when the address information signal is transmitted from the image forming apparatus 200 to the mobile terminal 100 using a sound wave, when the preamble is detected, the mobile terminal 100 determines that the signal included in the sound wave is significant as the address information signal. Similarly, in the case of an address information acquisition request signal transmitted from the portable terminal 100 to the image forming apparatus 200, when the image forming apparatus 200 detects a preamble, the signal is determined to be significant as an address information acquisition request signal.

  The start flag is a 1-bit field indicating that a valid frame is started, and is set to “0” in the embodiment of the present invention.

The retransmission flag is a 2-bit field indicating whether it is an initial or retransmission address information acquisition request signal or whether the address information signal is an initial or retransmission response. As described above, the retransmission flag is set in each of the following cases.
-"00": If it is the first address information acquisition request signal or if it is an address information signal in response to the first address information acquisition request-"01": If it is a retransmission address information acquisition request signal-"10" When the address information signal is a response to the retransmitted address information acquisition request signal The payload is a data body, and is a 32-bit field in which an IP address is set in the embodiment of the present invention. In the example of FIG. 8A, a value obtained by converting the IPv4 address “192.168.1.2” into a binary number is set in the payload. The payload may be added with a field for setting a subnet or extended for an IPv6 address. The end flag is a 1-bit field indicating the end of the signal, and “0” is set in the embodiment of the present invention.

  The signal format of the address information signal (address information acquisition request signal) is not limited to the field and the number of bits shown in FIG. 8A, and can be expanded or changed.

  In the embodiment of the present invention, when “1” is set in the field, a sound wave of a pulse 901 of 1 bit time T1 having a predetermined frequency is transmitted. When “0” is set in the field, the pulse 901 is not generated for a time T1 per “0”. The sound wave communication according to the embodiment of the present invention is realized by detecting the number (time) of the generated pulses 901 and the interval between the pulses 901.

  Note that the determination as to whether or not a signal received by the above-described device is significant as an address information signal or an address information acquisition request signal is not limited to a method of determining whether or not the pulse 901 corresponding to the preamble is detected. For example, a predetermined bit time (for example, T2 different from T1) indicating that it is an address information signal or an address information acquisition request signal may be set, and the determination may be made based on whether or not it is detected.

FIG. 8B shows the pulse 901 as a pulse train 902. The duty ratio of the pulse 901 is, for example, 50%. Note that a pulse having a duty ratio of, for example, 30% when “0” is set in the signal field is generated to detect a difference between the field setting values “1” and “0”. Good.
[Operation procedure]
An operation procedure of the image forming system 1 until the portable terminal 100 according to the embodiment of the present invention acquires address information of the image forming apparatus 200 and the image forming apparatus 200 executes print processing will be described. In the image forming system 1 according to the embodiment of the present invention, the operation procedure for acquiring address information differs according to the noise situation around the mobile terminal 100. Therefore, the operation procedure when the noise situation around the mobile terminal 100 is equal to or greater than a predetermined threshold and when it is less than the predetermined threshold will be described.

[When the ambient noise intensity is above the threshold]
FIG. 9 is a sequence diagram illustrating an example of an operation procedure of the image forming system 1 when the ambient noise intensity is equal to or higher than the threshold according to the embodiment of the present invention.

  In the initial state of FIG. 9, since the IP address of the image forming apparatus 200 is unknown, the mobile terminal 100 cannot connect to the image forming apparatus 100 via the network 99. Further, in the mobile terminal 100 and the image forming apparatus 200, an IP address acquisition application for the mobile terminal 100 installed in advance to acquire the IP address of the image forming apparatus 200 is activated.

  S101: On the display unit 105 of the portable terminal 100, an initial screen after starting the IP address acquisition application shown in FIG. 10 for selecting whether or not to acquire the IP address of the image forming apparatus 200 is displayed.

  FIG. 10 is a diagram showing an example of an initial screen after the IP address acquisition application is activated in the embodiment of the present invention. As shown in FIG. 10, “YES” and “NO” soft keys are displayed on the initial screen. When “YES” is selected, an address information acquisition process is executed. When “NO” is selected, the IP address acquisition application is terminated without executing the address information acquisition process.

  Returning to FIG.

  When the user operates the operation unit 106 of the portable terminal 100 and selects the soft key “YES” on the initial screen, the user interface unit 121 requests the address information acquisition request generation unit 122 to execute an address information acquisition process.

  S102: The address information acquisition request generator 122 generates an address information acquisition request signal based on the signal format shown in FIG. In the retransmission flag included in the address information acquisition request signal generated here, “00” indicating the first address information acquisition request is set. The address information acquisition request generation unit 122 converts the generated address information acquisition request signal of the digital signal into an analog signal (electric signal), and requests the sound wave transmission unit 1231 to transmit the address information acquisition request signal by sound waves.

  S103: The sound wave transmission unit 1231 controls the speaker 110 to convert the address information acquisition request signal of the electric signal into a sound wave, and transmits it as a sound wave. The sound wave receiving unit 2212 of the image forming apparatus 200 controls the microphone 214, receives the sound wave transmitted from the portable terminal 100, and converts the sound wave into an electric signal.

  S104: The signal analysis unit 222 converts the electrical signal converted by the microphone 214 into a digital signal, and determines whether the converted signal is an address information acquisition request signal transmitted from the mobile terminal 100. Specifically, for example, when a pulse 901 (see FIG. 8) corresponding to the preamble set in the signal format of the received signal is detected, it is determined that it is an address information acquisition request signal. As a result of the analysis, if it is determined that the address information acquisition request signal is received, the address information acquisition request receiving means 223 is notified of the address information acquisition request signal. The address information acquisition request receiving means 223 requests the address information signal generating means 224 to generate an address information signal. On the other hand, if it is not determined as an address information acquisition request signal as a result of analysis, the received signal is discarded.

  S105: The address information signal generation unit 224 generates an address information signal including the IP address of the image forming apparatus 200. In the retransmission flag included in the address information signal generated here, “00” indicating a response to the first address information acquisition request is set. The address information signal generation unit 224 converts the address information signal, which is a digital signal, into an electrical signal, and requests the sound wave transmission unit 2211 to transmit by sound waves.

  S106: The sound wave transmitting unit 2211 controls the speaker 213 to convert the address information signal, which is an electrical signal, into a sound wave and transmit it. The sound wave receiving means 1232 of the portable terminal 100 controls the microphone 111, receives the sound wave signal, and converts the sound wave into an electric signal.

  S 107: The signal analysis unit 124 converts the electrical signal converted by the microphone 111 into a digital signal, and analyzes whether the converted signal is an address information signal transmitted from the mobile terminal 100. Further, the signal analyzing unit 124 determines whether or not “00” indicating that the retransmission flag included in the received address information signal is the first transmission of address information is set. Since the address information signal received in step S106 is a response to the first address information acquisition request, the retransmission flag is set to “00”, and the signal analysis unit 124 informs the retransmission request unit 127 around the mobile terminal 100. Queries the noise situation. At this time, the signal analysis unit 124 notifies the retransmission request unit 127 of the reception time of the address information signal.

  S108: The retransmission request unit 127 acquires the noise intensity around the mobile terminal 100 (for example, a radius of about 2 meters around the mobile terminal 100) from the peripheral noise detection unit 1233, and stores it in the memory (for example, the RAM 103) of the mobile terminal 100. I remember it. As the ambient noise intensity, for example, data for a predetermined time (for example, 1 minute) is stored retroactively from the current time. Further, if the ambient noise intensity is stored as an average value for 10 seconds, the storage area can be saved. The retransmission request unit 127 compares the ambient noise intensity with the noise intensity threshold stored in the noise intensity threshold storage unit 128, and determines whether or not the ambient noise intensity is greater than or equal to the threshold.

  Here, the sequence diagram shown in FIG. 9 is a sequence diagram in the case where the ambient noise intensity is greater than or equal to a threshold value. That is, there is a high possibility that the address information signal transmitted as a sound wave from the image forming apparatus 200 is not correctly received because the noise intensity around the mobile terminal 100 is large. The retransmission request unit 127 requests the address information acquisition request unit 122 to retransmit the address information acquisition request.

  S109: The address information acquisition request unit 122 generates an address information acquisition request signal for retransmission. Here, the retransmission flag included in the address information acquisition request is set to “01”. The retransmission flag “01” indicates that the address information acquisition request is retransmission. The address information acquisition request generation unit 122 converts the generated address information acquisition request signal of the digital signal into an electric signal, and requests the sound wave transmission unit 1231 to retransmit the address information acquisition request signal by sound waves.

  S110: The sound wave transmission unit 1231 controls the speaker 110 to convert the address information acquisition request signal of the electric signal into a sound wave, and retransmits it as a sound wave. The sound wave receiving unit 2212 of the image forming apparatus 200 controls the microphone 214, receives the sound wave, and converts the sound wave into an electric signal.

  S111: The signal analysis unit 222 converts the electrical signal converted by the microphone 214 into a digital signal, and determines whether the converted signal is an address information acquisition request signal transmitted from the portable terminal 100. The analysis process is the same as in step S104.

  S112: The address information signal generation unit 224 generates an address information signal including the IP address of the image forming apparatus 200. The address information signal generated here is a response to the retransmitted address information acquisition request. Therefore, the retransmission flag included in the address information signal is set to “10”.

  S113: The sound wave transmitting unit 2211 controls the speaker 213 to convert an address information signal, which is an electrical signal, into a sound wave and transmit it. The sound wave receiving means 1232 of the portable terminal 100 controls the microphone 111 to receive the sound wave and convert the sound wave into an electric signal.

  S114: The signal analysis unit 124 converts the electrical signal converted by the microphone 111 into a digital signal, and analyzes whether the converted signal is an address information signal transmitted from the mobile terminal 100. The analysis process is the same as in step S107. However, since the address information signal received in step S113 is a response to the retransmitted address information acquisition request, the retransmission flag is set to “10”. When the retransmission flag is “10”, the signal analysis unit 124 causes the address information reception unit 125 to compare the IP address included in the initial address information signal with the IP address included in the retransmitted address information signal. Request.

  S115: The address information receiving means 125 determines whether or not the first received IP address stored in the connection information storage means 126 matches the retransmitted IP address. If it is determined that the IP addresses match, the address information accepting unit 125 causes the connection request unit 129 to use the network 99 for the image forming apparatus 200 with the matched IP address as the destination address. Request execution.

  S116: The connection request unit 129 makes a connection request to the image forming apparatus 200 via the network interface unit 130 using the acquired IP address as the destination address.

  S117: Upon receiving the connection request transmitted from the portable terminal 100 via the network interface unit 226, the connection request receiving unit 227 of the image forming apparatus 200 transmits a connection request response for establishing a connection to the portable terminal 100. .

  S118: After transmitting the connection request response, the connection request receiving unit 227 of the image forming apparatus 200 instructs the display unit 231 to transmit a connection completion sound (buzzer sound) for notifying the user of the completion of connection and to turn on the lamp. Here, for example, the number of buzzer sounds and the lighting color of the lamp are changed according to the number of users connected to the image forming apparatus 200. Here, the connected user is, for example, a user who establishes a TCP session or makes a print request. The number of times the buzzer sound is transmitted and the number of times the lamp is lit can detect the number of jobs that the image forming apparatus 200 accepts jobs and the possibility of being in a busy state. For example, the user can detect other images from the busy image forming apparatus 200. It is possible to determine to change the connection to the forming apparatus 200.

  FIG. 11 is a diagram showing an example of a setting screen for a buzzer sound and a lamp lighting color when connected to the image forming apparatus 200 in the embodiment of the present invention. As shown in FIG. 11, the number of buzzer sounds and the lamp lighting color can be set for each number of persons connected to the image forming apparatus 200 (number of connected persons). The number of connected persons is the number of persons connected from the portable terminal 100 to the image forming apparatus 200. When “1” is set, it means that the connection is the first person. The number of buzzer sounds is, for example, the number of times a beep sound such as “beep” is repeated. If “1”, the beep sound is “beep” once, and if it is “2”, the beep sound is “beep” twice. ”Is transmitted from the speaker 213. The lamp lighting color is a lighting color of a lamp provided in the image forming apparatus 200, and the lighting color can be changed for each connected person.

  Returning to FIG.

  S119: The user interface unit 121 of the portable terminal 100 displays information indicating the completion of connection on the display unit 105. An example of information indicating completion of connection displayed on the screen of the mobile terminal 100 will be described with reference to FIG.

  S 120: The print request unit 132 transmits a print request including data such as an image to be printed stored in the print data storage unit 131 to the image forming apparatus 200 via the network interface unit 130.

  S121: When the print request reception unit 228 of the image forming apparatus 200 receives the print request, the print data generation unit 229 is requested to convert the print data in the PDL format. When the print data generation unit 229 converts the print data into the PDL format, it requests the print data output unit 230 to output the print data. The print data output unit 230 converts print data in PDL format into bitmap format data, controls the printer 208, and executes print processing. As a result, the printer 208 outputs a print sheet on which an image or the like indicated by the bitmap data is printed.

  If it is determined in step S115 that the first received IP address stored in the connection information storage means 126 and the retransmitted IP address do not match (mismatch), the process ends and the IP address is The result that it was not able to be acquired is displayed on the screen of the mobile terminal 100. However, for example, when the IP addresses do not match, the processing after step S102 may be executed again.

[When the ambient noise intensity is below the threshold]
Next, a sequence in the case where the ambient noise intensity is not equal to or higher than the threshold in the determination process of the ambient noise intensity in step S108 illustrated in FIG. 9 will be described. That is, since the noise intensity around the portable terminal 100 is small, there is a high possibility that the address information signal transmitted as a sound wave from the image forming apparatus 200 is correctly received.

  FIG. 12 is a sequence diagram illustrating an example of an operation procedure of the image forming system 1 when the ambient noise intensity is less than the threshold value in the embodiment of the present invention. In addition, about each step shown in FIG. 12, the same step number is provided to the same process as the step shown in FIG. 9, and these detailed description is abbreviate | omitted.

  Regarding the operation procedure of the image forming system 1 shown in FIG. 12, the processing in steps S101 to S108 is the same as the processing shown in FIG. In the example of FIG. 12, as a result of the determination process of the ambient noise intensity of the mobile terminal 100 in step S108, the ambient noise intensity is less than the threshold value. Therefore, after the process in step S108, based on the acquired address information (S106), the network 99 A request for connection to the image forming apparatus 200 using is performed (S116). Henceforth, the process of S117-S121 is the same as the process shown in FIG.

  According to the above-described operation procedure, according to the embodiment of the present invention, the image forming system 1 has the IP address of the image forming apparatus 200 even when the noise intensity around the portable terminal 100 is large (when the noise intensity is equal to or greater than a predetermined threshold) Can be acquired without error and processing such as printing can be executed using the image forming apparatus 200.

In the embodiment of the present invention, the signal transmission / reception procedure and signal format (see FIG. 8) of the address information signal (address information acquisition request signal) are defined in advance. It can be included in a development kit (SDK). By providing the SDK to the developer of the IP address acquisition application 120/220, the developer can develop the IP address acquisition application 120/220. Therefore, the image forming system of the present invention is installed by installing the IP address acquisition application 120 or 220 created by the application developer in the device, not limited to the developer or provider of the mobile terminal 100 or the image forming apparatus 200 main body. 1 can be operated.
[Processing procedure]
Details of the address information acquisition processing procedure executed by the mobile terminal 100 according to the embodiment of the present invention will be described.

  FIG. 13 is a flowchart illustrating an example of a processing procedure for obtaining address information in the mobile terminal 100 according to the embodiment of the present invention. FIG. 13 specifically shows a processing procedure after the address information acquisition request generation processing in the mobile terminal 100 until the address information acquisition result is output to the mobile terminal 100.

  S11: When receiving an input operation for acquiring the IP address of the image forming apparatus 200 on the portable terminal 100 by the user, the address information acquisition request generation unit 122 generates an address information acquisition request signal. The retransmission flag included in the address information acquisition request signal at this time is set to “00” indicating the first signal.

  S12: The sound wave transmitting unit 1231 controls the speaker 110 to convert the address information acquisition request signal from an electric signal to a sound wave and transmit it.

  S13: An address information signal in which the IP address of its own device is set by sound waves is transmitted from the image forming apparatus 200, and the sound wave receiving unit 1232 of the mobile terminal 100 is a signal converted from sound waves to an electrical signal by the microphone 111 of the mobile terminal 100. Receive.

  S14: The signal analysis unit 124 converts the received signal from an electrical signal to a digital signal, and analyzes the signal.

  S15: The signal analysis unit 124 determines whether or not the received signal is an address information signal based on whether or not the preamble is detected.

  S16: When it is determined that the received signal is an address information signal (YES in S15), the signal analyzing unit 124 determines whether or not the received signal is a response to the retransmitted address information acquisition request. Specifically, it is determined whether or not the retransmission flag included in the address information signal is “10” indicating retransmission.

  S17: When the received address information signal is not a response to the retransmission (NO in S16), the signal analyzing unit 124 requests the retransmission request unit 127 to determine the noise intensity situation around the portable terminal 100. This request includes information on the reception time of the received address information signal. The retransmission request unit 127 measures the measured noise intensity around the mobile terminal 100 at a time that is a predetermined time (for example, 10 seconds) from the reception time, and a predetermined threshold value stored in the noise intensity threshold storage unit 128 (FIG. 6). Based on the reference), it is determined whether or not the measured value of the ambient noise intensity is equal to or greater than a predetermined threshold. Here, when it is equal to or greater than the predetermined threshold value, there is a high possibility that the noise around the mobile terminal 100 is large and the address information (IP address) received by the sound wave is different from the IP address set in the image forming apparatus 200. It is shown that. Then, the retransmission request unit 127 notifies the signal analysis unit 124 of the determination result.

  S18: When the surrounding noise intensity is not greater than or equal to the threshold (NO in S17), the signal analysis unit 124 that has received the determination result indicates that the retransmission flag is a response to the first address information acquisition request and is not waiting for retransmission. The address information reception unit 125 is notified of the address information signal set to “00”. The address information receiving unit 125 stores the notified address information (retransmission flag “00”) in the connection information storage unit 126. The address information accepting unit 125 requests the connection request unit 129 to execute the connection process using the network 99 by using the received IP address as the destination address.

  S19: The address information connection request unit 129 uses the IP address notified from the address information reception unit 125 as a destination address, and executes a connection process with the image forming apparatus 200 via the network interface unit 130.

  S20: The connection request unit 129 determines whether or not the connection with the image forming apparatus 200 using the network 99 is successful.

  S21: When the connection with the image forming apparatus 200 using the network 99 is successful (YES in S20), the connection request unit 129 controls the user interface unit 121 to display the result of the successful connection with the acquired IP address. This is displayed on the unit 105.

  S22: When the connection with the image forming apparatus 200 using the network 99 is not successful (NO in S20), the connection request unit 129 displays the result of the connection failure with the acquired IP address on the display unit 105.

  S23: Returning to step S17, if the surrounding noise intensity is greater than or equal to the threshold (YES in S17), the signal analysis unit 124 that has received the determination result sets a retransmission flag as a response to the first address information acquisition request, The address information reception unit 125 is notified of the address information signal set to “01” indicating that it is waiting to receive the address information signal. The address information receiving unit 125 stores the notified address information (retransmission flag is set to “00”) in the connection information storage unit 126. The retransmission request unit 127 requests the address information acquisition request generation unit 122 to retransmit the address information acquisition request.

  S24: The address information acquisition request generator 122 generates an address information acquisition request signal in which the retransmission flag is set to “01” indicating retransmission of the address information acquisition request signal. Next, the processing after step S12 is executed.

  S25: When the address information acquisition request signal is retransmitted from the portable terminal 100, the image forming apparatus 200 transmits an address information signal in which a retransmission flag “10” indicating that it is an address information signal in response to retransmission is set. Here, when the address information signal received by the mobile terminal 100 is a response to retransmission (retransmission flag is set to “10”) (NO in S16), the address information receiving unit 125 determines the address information (retransmission flag “10”). ) Is stored in the connection information storage means 126.

  S26: The address information accepting unit 125 selects an IP address whose retransmission flags stored in the connection information storage unit 126 correspond to “10” and “01”, respectively, and whose reception time difference is within a predetermined time. Compare. Here, the difference in the reception time is within a predetermined time in order to determine whether the IP address of the response to the first address information acquisition request corresponds to the IP address of the response to the retransmission of the first request. Used. The predetermined time is, for example, a time-out time for a response to an address information acquisition request. The response timeout time is, for example, 30 seconds, but can be arbitrarily changed. Then, when the IP address acquired for the first time matches the IP address acquired by retransmission (YES), the processing after step S19 is executed. On the other hand, if the IP address acquired for the first time does not match the IP address acquired by retransmission (NO), the process of step S27 is executed.

  S27: Since the IP address acquired for the first time does not match the IP address acquired by retransmission (NO in S26), the address information receiving unit 125 controls the user interface unit 121, and the acquired IP address does not match. The display unit 105 displays the result that the address information could not be acquired. At this time, you may display the input screen which makes a user determine whether it requests | requires execution of address information acquisition again.

  S28: Returning to step S15, if it is determined that the received sound wave is not an address information signal (NO in S15), it is determined whether or not a predetermined time has elapsed since the address information acquisition request was transmitted. . Here, the predetermined time is a time-out time for a response to the address information acquisition request. As described above, the response time-out time is, for example, 30 seconds. If the predetermined time has not elapsed (NO), the process returns to step S13 to shift to a standby state in order to receive sound waves. On the other hand, when the predetermined time has elapsed (YES), the process of step S29 is executed.

  S29: When a predetermined time has elapsed after the transmission of the address information acquisition request (YES in S28), the address information receiving unit 125 controls the user interface unit 121, and there is no response to the address information acquisition request. Is displayed on the display unit 105.

  Here, FIG. 14 shows an example of a screen showing the response result of the address information acquisition request output to the display unit 105 of the portable terminal 100 in steps S21, S22, S27, and S29.

  FIG. 14 is a diagram illustrating an example of a response result of the address information acquisition request displayed on the display unit 105 according to the embodiment of the present invention.

  FIG. 14A shows a screen output in step S21. As shown in FIG. 14A, the display unit 105 displays information indicating “connection OK”, “connection destination IP address”, and “confirmation of execution of print processing to user”. When the user selects execution of print processing, the print request unit 132 transmits a print request to the image forming apparatus 200.

  FIG. 14B is a screen output in step S22. As shown in FIG. 14B, information indicating “connection NG” and “reason of connection NG” is displayed on the display unit 105.

  FIG. 14C shows a screen output in step S27. As shown in FIG. 14C, information indicating “IP address acquisition NG”, “reason of IP address acquisition NG”, and “confirmation of execution of re-acquisition of IP address to user” is displayed on the display unit 105. Is done. In this case, the reason for the IP address acquisition NG indicates that the IP address included in the response to the first address information acquisition request and the IP address included in the response by retransmission do not match. Further, when execution of reacquisition of address information is selected by the user, the process of step S11 in FIG. 13 is executed.

  FIG. 14D is a screen output in step S29. As shown in FIG. 14C, information indicating “IP address acquisition NG”, “reason of IP address acquisition NG”, and “confirmation of execution of re-acquisition of IP address to user” is displayed on the display unit 105. Is done. In this case, the reason for the IP address acquisition NG indicates that there is no response to the address information acquisition request from the peripheral device. Similarly, in the case of FIG. 14C, when the execution of re-acquisition of address information is selected by the user, the process of step S11 in FIG. 13 is executed.

Through the above-described processing, even when the image forming system 1 according to the embodiment of the present invention does not know the IP address of the image forming apparatus 200 that executes the printing processing, the mobile terminal 100 that requests printing performs image formation using sound waves. The IP address of the device 200 can be acquired. Furthermore, even when the noise around the mobile terminal 100 is large, the IP address can be acquired without error using sound waves. Therefore, by using the image forming system 1, it is possible to easily execute print processing from the portable terminal 100 using the image forming apparatus 200.
[Modification]
After obtaining the address information (IP address) of the image forming apparatus 200 in the portable terminal 100, the image forming system 1 according to the modification of the embodiment of the present invention transmits the IP address to the image forming apparatus 200 having the IP address. Confirmation process whether or not is executed.

  FIG. 15 is a sequence diagram illustrating an example of an operation procedure of the image forming system 1 according to the modification of the embodiment of the present invention. In addition, about each step shown in FIG. 15, the same process number as the step shown in FIG. 9 is provided with the same step number, and these detailed description is abbreviate | omitted.

  In the modification of the embodiment of the present invention, when the IP address matches as a result of the process of determining whether or not the initial and retransmission IP addresses in the mobile terminal 100 match (S115), the IP address is set as the destination. An address information transmission confirmation request is transmitted as an address via the network interface means 130 (S115a). The address information transmission confirmation request is a request for inquiring whether or not the image forming apparatus 200 having the acquired IP address has executed transmission processing (S113) of an address information signal using sound waves. The address information transmission confirmation request is generated by the address information acquisition request generation unit 122.

  Next, the image forming apparatus 200 performs a confirmation process of whether or not the transmission process (S113) of the address information using a sound wave has been performed (S115b).

  In the image forming apparatus 200, the address information transmission process (S113) transmits an address information transmission confirmation request response including the confirmation result of the execution process to the portable terminal 100 via the network interface unit 226 (S115c).

  If the confirmation result is OK, that is, if it is confirmed that the process of S113 is being executed, a connection process using the acquired IP address information is executed as shown in FIG. 15 (S116). The subsequent processing is the same as the sequence (see FIG. 9) in the embodiment of the present invention.

  On the other hand, if the confirmation result is NG, the address information acquisition request processing from step S102 is executed again.

  FIG. 16 is a flowchart illustrating an example of a processing procedure for acquiring address information in the mobile terminal 100 according to the modification of the embodiment of the present invention. In addition, about each step shown in FIG. 16, the same step number is provided to the same process as the step shown in FIG. 13, and these detailed description is abbreviate | omitted.

  In the modification of the embodiment of the present invention, when connection is established by the connection process based on the acquired IP address in step S20 (YES in S20), address information is actually transmitted to the image forming apparatus 200 having the IP address. An inquiry is made as to whether it has been executed (S20a). As a result, if the image forming apparatus 200 has actually transmitted address information, the process of step S21 is executed. On the other hand, if the image forming apparatus 200 has not actually transmitted the address information, it is determined that the acquired IP address has been received in error, so the address information acquisition process is executed again (S11).

As described above, according to the modification of the embodiment of the present invention, the image forming system 1 confirms transmission of the IP address to the image forming apparatus based on the acquired IP address, for example, the image forming apparatus. It is possible to detect a case where the IP address transmitted from 200 and the IP address actually set in the image forming apparatus 200 are inconsistent. Therefore, it is possible to obtain address information with higher accuracy.
[Other variations]
As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to such specific embodiment, In the range of the summary of this invention described in the claim, various deformation | transformation Can be changed.

DESCRIPTION OF SYMBOLS 1 Image forming system 100 Portable terminal 105 Display part 110 Speaker 111 Microphone 120 IP address acquisition application 121 User interface means 122 Address information acquisition request generation means 123 Sound wave interface means (second interface)
1231 Sound wave transmission unit 1232 Sound wave reception unit 1233 Ambient noise detection unit 124 Signal analysis unit 125 Address information reception unit 126 Connection information storage unit 127 Retransmission request unit 128 Noise intensity threshold storage unit 129 Connection request unit 130 Network interface unit (first interface) )
132 Print request means 200 Image forming apparatus 213 Speaker 214 Microphone 220 IP address acquisition application 221 Sonic wave interface means (second interface)
2211 Sound wave transmission means 2212 Sound wave reception means 222 Signal analysis means 223 Address information acquisition request reception means 224 Address information signal generation means 225 Storage means 226 Network interface means (first interface)
227 Connection request receiving means 228 Print request receiving means 230 Print data output means

JP 2010-41563 A

Claims (10)

An image forming system including a mobile terminal device and an image forming device that executes a predetermined process in response to an execution request transmitted from the mobile terminal device via a wireless LAN interface,
The portable terminal device
Receiving means for receiving a signal including information for identifying the image forming apparatus from the image forming apparatus via a first sound wave interface including at least a microphone and a speaker ;
Determining means for determining whether the signal contains noise when the signal is received via the first sound wave interface by the receiving means;
The execution request is transmitted via the wireless LAN interface based on information specifying the image forming apparatus included in the signal received by the receiving unit , and the signal includes noise by the determining unit. A transmission unit that transmits the execution request via the wireless LAN interface based on information that identifies the image forming apparatus included in the signal received by the reception unit;
When the determination unit determines that the signal includes noise, the image forming apparatus requests the output of information for specifying the image forming apparatus via the speaker of the first sound wave interface. Request output means for outputting to
The request output means specifies the image forming apparatus when the information specifying the image forming apparatus received by the receiving means for the first time does not match the information specifying the image forming apparatus received next. Request to the image forming apparatus,
The image forming apparatus includes:
A second sound wave interface including at least a speaker and a microphone; and a specific information output unit that outputs information for specifying the image forming apparatus via the second sound wave interface;
Control to execute a predetermined process in response to the execution request transmitted from the portable terminal device via the wireless LAN interface based on the information specifying the image forming device output by the specifying information output unit and a control means to possess,
An image forming system for receiving a request for outputting information specifying the image forming apparatus via the microphone of the second acoustic wave interface . The image forming apparatus further includes a printer,
The portable terminal device receives information specifying the image forming device including an IP address from the second sound wave interface of the image forming device through the first sound wave interface, and specifies the image forming device. 2. The execution request including printing by the printer of the image forming apparatus is transmitted to the image forming apparatus specified by the IP address via the wireless LAN interface based on Image forming system. 3. The image forming system according to claim 1, further comprising a comparison unit that compares information specifying the image forming apparatus received by the receiving unit for the first time with information specifying the image forming apparatus received next. The request output means outputs a request to output information specifying the image forming apparatus to the image forming apparatus when the noise around the portable terminal apparatus is equal to or higher than a predetermined noise intensity in a predetermined frequency region. The image forming system according to claim 3. The portable terminal device
If the information specifying the image forming apparatus received by the receiving unit for the first time matches the information specifying the image forming apparatus received next, the wireless LAN interface is based on the information specifying the image forming apparatus. the image forming system according to any one of claims 1 to 4 having a connection means for performing connection processing to the image forming apparatus via the means.   The image forming apparatus outputs, via the second sound wave interface, information including a field for synchronization when receiving the signal from the first sound wave interface in addition to the IP address. 2. The image forming system according to 2. A portable terminal device that transmits an execution request for the predetermined process to the image forming apparatus that executes the predetermined process via a wireless LAN interface,
Receiving means for receiving a signal including information for specifying the image forming apparatus from a second sound wave interface including at least a speaker of the image forming apparatus via a first sound wave interface including at least a microphone and a speaker ;
Determining means for determining whether the signal contains noise when the signal is received via the first sound wave interface by the receiving means;
The execution request is transmitted via the wireless LAN interface based on information specifying the image forming apparatus included in the signal received by the receiving unit , and the signal includes noise by the determining unit. A transmission unit that transmits the execution request via the wireless LAN interface based on information that identifies the image forming apparatus included in the signal received by the reception unit;
When the determination unit determines that the signal includes noise, the image forming apparatus requests the output of information for specifying the image forming apparatus via the speaker of the first sound wave interface. Request output means for outputting to
The request output means specifies the image forming apparatus when the information specifying the image forming apparatus received by the receiving means for the first time does not match the information specifying the image forming apparatus received next. A portable terminal device that makes an output request to the image forming apparatus. A portable terminal device that transmits an execution request for the predetermined process via a wireless LAN interface to an image forming apparatus that executes the predetermined process.
Receiving a signal including information for specifying the image forming apparatus from a second sound wave interface including at least a speaker of the image forming apparatus via a first sound wave interface including at least a microphone and a speaker ;
A determination step of determining whether the signal includes noise when the signal is received via the first sound wave interface by the reception step;
The execution request is transmitted via the wireless LAN interface based on information specifying the image forming apparatus included in the signal received in the reception step , and the signal includes noise in the determination step. A transmission step of transmitting the execution request via the wireless LAN interface based on information identifying the image forming apparatus included in the signal received in the reception step;
If it is determined by the determination step that the signal includes noise, a request for outputting information specifying the image forming apparatus is made through the speaker of the first sound wave interface. And a request output step to output to
In the request output step, the information for specifying the image forming apparatus when the information for specifying the image forming apparatus received for the first time in the receiving step does not match the information for specifying the image forming apparatus received next. An information acquisition method including a step of requesting the image forming apparatus to output the image . A program executed in a portable terminal device that transmits an execution request for the predetermined process to the image forming apparatus that executes the predetermined process via a wireless LAN interface,
The portable terminal device;
Receiving means for receiving a signal including information for specifying the image forming apparatus from a second sound wave interface including at least a speaker of the image forming apparatus via a first sound wave interface including at least a microphone and a speaker ;
Determining means for determining whether the signal includes noise when the signal is received via the first sound wave interface by the receiving means;
The execution request is transmitted via the wireless LAN interface based on information specifying the image forming apparatus included in the signal received by the receiving unit , and the signal includes noise by the determining unit. A transmission unit that transmits the execution request via the wireless LAN interface based on information identifying the image forming apparatus included in the signal received by the reception unit,
When the determination unit determines that the signal includes noise, the image forming apparatus requests the output of information for specifying the image forming apparatus via the speaker of the first sound wave interface. Function as request output means to output to
The request output means specifies the image forming apparatus when the information specifying the image forming apparatus received by the receiving means for the first time does not match the information specifying the image forming apparatus received next. A program for making an output request for the image forming apparatus . An image forming system comprising: an image forming apparatus that executes a predetermined process; and an application that is executed in a portable terminal device that transmits an execution request for the predetermined process to the image forming apparatus via a wireless LAN interface. There,
The application is
Receiving means for receiving a signal including information for identifying the image forming apparatus from the image forming apparatus via a first sound wave interface including at least a microphone and a speaker ;
Determining means for determining whether the signal contains noise when the signal is received via the first sound wave interface by the receiving means;
The execution request is transmitted via the wireless LAN interface based on information specifying the image forming apparatus included in the signal received by the receiving unit , and the signal includes noise by the determining unit. A transmission unit that transmits the execution request via the wireless LAN interface based on information that identifies the image forming apparatus included in the signal received by the reception unit;
When the determination unit determines that the signal includes noise, the image forming apparatus requests the output of information for specifying the image forming apparatus via the speaker of the first sound wave interface. Request output means for outputting to
The request output means specifies the image forming apparatus when the information specifying the image forming apparatus received by the receiving means for the first time does not match the information specifying the image forming apparatus received next. Request to the image forming apparatus,
The image forming apparatus includes:
A second sound wave interface including at least a speaker and a microphone; and a specific information output unit that outputs information for specifying the image forming apparatus via the second sound wave interface;
The predetermined process is executed in response to the execution request transmitted from the portable terminal device via the wireless LAN interface based on the information specifying the image forming apparatus output by the specifying information output unit. possess and control means for controlling,
An image forming system for receiving, via the microphone of the second sound wave interface, a request for outputting information specifying the image forming apparatus .

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