JP4483110B2 - Software setting system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a software setting system for setting software for controlling a device from an information processing terminal, a setting method, an information processing terminal, a portable terminal, a device, and a software setting program used in this system.
[0002]
[Prior art]
In order to control a device such as a printer from a computer, a device driver that is software for controlling the device needs to be set in the computer. Therefore, when a new printer is provided or an optional device is added to the printer, it is necessary to newly set a device driver, resulting in a burden on the user.
[0003]
Various attempts have been made in the past in order to reduce the user's workload. For example, it is possible to automatically set a device driver in a computer through a network due to recent network environment improvements. For example, a technique for automatically setting a device driver is disclosed in Japanese Patent Laid-Open No. 2000-172469.
[0004]
[Problems to be solved by the invention]
However, in order to automatically set a device driver for controlling a device such as a printer from a computer, it is necessary to transmit device information, which is information about the device such as a printer, to the computer. Therefore, in order to automatically set a device driver in a computer through a network using a conventional technique, it is necessary to establish a connection between a device information transmission source and a computer in which the device driver is set. As a result, the user needs to input connection information such as an IP address and a subnet mask necessary for establishing a connection in advance, and the work may be complicated. In particular, when the network configuration is complicated, it is difficult to input connection information, and the device driver may not be set automatically.
[0005]
In many cases, optional devices such as a multi-stage paper feeding device, a double-sided printing mechanism, a punch hole device, a mail bin, and a stapling device can be added to a standard printer body. Conventionally, it is difficult to automatically set a device driver in consideration of the state of these optional devices, and the user has to manually set the device driver. Therefore, it may be difficult for a user without specialized knowledge to set a device driver correctly.
[0006]
Furthermore, when there are a plurality of devices on the network, there is a possibility that a device driver corresponding to the wrong device is set.
[0007]
The present invention has been made to solve the above problems. Therefore, an object of the present invention is to provide a system in which complicated connection information setting can be omitted and a device driver can be easily set.
[0008]
Another object of the present invention is to provide a system capable of accurately setting a device driver even when the configuration of optional equipment is complicated.
[0009]
Another object of the present invention is to provide a system capable of preventing a device driver that does not correspond to a device desired by a user from being erroneously set.
[0010]
[Means for Solving the Problems]
  (1) A software setting system according to the present invention is connected to a network.HaveA device and an information processing terminal, and the device and the information processing terminal.Short range wirelessA software setting system for setting a program for controlling the device via the network in the information processing terminal, the device comprising: a portable terminal capable of communicating with the portable terminal;Short range wirelessFirst to communicateShort range wirelesscommunicationAn interface, first list means for listing portable terminals in a communication state communicable via the first short-range wireless communication interface, and information on the device from among the listed portable terminals A destination designation unit for designating a portable terminal that is a transmission destination of the device, and a device information transmission unit that transmits information about the device to the designated portable terminal via the first short-range wireless communication interface; HaveThe aboveDesignatedThe portable terminal is close to the device and the information processing terminal.wirelessconnectforPortable short distanceA wireless interface;From the device to the portableNear field communication interfacePortable storage means for storing information about the device received via the information processing terminal, and the information processing terminal is close to the portable terminalwirelessSecond short distance for communicationA wireless interface; second list means for listing portable terminals in a communication state communicable via the second short-range wireless communication interface; and the device among the listed portable terminals A source designation means for designating a portable terminal that is a source of information, and the designatedThe second short distance from the portable terminalwirelesscommunicationinterfaceThroughBeforeInformation on equipmentDevice information receiving means for receiving and storing information related to the deviceStorage means,Set the program based on information about the deviceAnd setting means.And features.
  (2) A software setting system according to the present invention includes a device and an information processing terminal connected to a network, and a portable terminal capable of short-range wireless communication with the device and the information processing terminal. A software setting system for setting a program for controlling via the network in the information processing terminal, wherein the portable terminal is a portable near terminal for short-range wireless communication with the device and the information processing terminal. A distance wireless interface, a first list means for listing the devices in a communication state communicably connected via the portable short-range wireless interface, and transmission of information about the device from the listed devices Portable transmission source designation means for designating the original device, and the portable short distance from the designated device Portable device information receiving means for receiving information about the device via a line interface; portable storage means for storing information about the device received from the device via the portable short-range wireless communication interface; and A second list means for listing the information processing terminals in a communication state capable of communicating via a portable short-range wireless interface; and a transmission destination of information on the device from the listed information processing terminals Portable destination designation means for designating an information processing terminal, and portable device information transmission means for transmitting information related to the device to the designated device via the portable short-range wireless interface, The designated device includes a first short-range wireless communication interface for short-range wireless communication with the portable terminal. Device information transmitting means for transmitting information related to the device to the portable terminal via the first short-range wireless communication interface, and the designated information processing terminal communicates with the portable terminal through short-range wireless communication. A second short-range wireless interface for receiving, device information receiving means for receiving information about the device from the portable terminal via the second short-range wireless communication interface, storage means for storing information about the device, A software setting system comprising: setting means for setting the program based on information about the device.
[0011]
  (3) Above (1)Or (2)The information processing terminal further includes program selection means for selecting a program to be set based on the information related to the device.
[0012]
  (4)the above(3) Obtains a program to be set through a mobile communication network connected via the portable terminal.
[0016]
  (5) The software setting system of the present invention is connected to a network.HaveA device and an information processing terminal, and the device and the information processing terminal.Short range wirelessA program for controlling the device via the networkUsed inIs set in the information processing terminal, and the device includes the portable terminal andShort range wirelessFirst to communicateShort range wirelesscommunicationAn interface, first list means for listing portable terminals in a communication state communicable via the first short-range wireless communication interface, and information on the device from among the listed portable terminals A destination designation unit for designating a portable terminal that is a transmission destination of the device, and a device information transmission unit that transmits information about the device to the designated portable terminal via the first short-range wireless communication interface; HaveThe aboveDesignatedThe portable terminal is close to the device and the information processing terminal.wirelessconnectforPortable short distanceA wireless interface;From the device to the portableNear field communication interfacePortable storage means for storing information about the device received via the information processing terminal, and the information processing terminal is close to the portable terminalwirelessSecond short distance for communicationA wireless interface; second list means for listing portable terminals in a communication state communicable via the second short-range wireless communication interface; and the device among the listed portable terminals A source designation means for designating a portable terminal that is a source of information, and the designatedThe second short distance from the portable terminalwirelesscommunicationinterfaceThroughBeforeInformation on equipmentDevice information receiving means for receiving and storing information related to the deviceStorage means,Set the data based on information about the deviceAnd setting means.And features.
  (6) The software setting system of the present inventionA device and an information processing terminal connected to a network, a portable terminal capable of short-range wireless communication with the device and the information processing terminal, and used in a program for controlling the device via the network A software setting system for setting data to be processed in the information processing terminal, wherein the portable terminal includes a portable short-range wireless interface for short-range wireless communication with the device and the information processing terminal, and the portable A first list means for listing the devices in a communication state capable of communication connection via a near field wireless interface, and designating a device that is a transmission source of information on the device from among the listed devices A portable transmission source designating means for transmitting from the designated device via the portable short-range wireless interface Portable device information receiving means for receiving information about the device, portable storage means for storing information about the device received from the device via the portable short-range wireless communication interface, and the portable short-range wireless interface A second list means for listing the information processing terminals that are in a communicable communication state, and specifying an information processing terminal that is a transmission destination of information related to the device from the listed information processing terminals A portable transmission destination designating unit, and a portable device information transmission unit that transmits information about the device to the designated device via the portable short-range wireless interface. A first short-range wireless communication interface for short-range wireless communication with the portable terminal; and Device information transmitting means for transmitting information related to the device via a remote wireless communication interface, wherein the designated information processing terminal is a second short-range wireless interface for short-range wireless communication with the portable terminal And device information receiving means for receiving information on the device from the portable terminal via the second short-range wireless communication interface, storage means for storing information on the device, and the data based on the information on the device And setting means for setting.
[0017]
  (7)the above(5) or (6)The information processing terminal sets data used in the existing program in the information processing terminal.
[0021]
  (8The software setting method of the present invention uses a device and an information processing terminal connected to a network, and the information processing terminal and a portable terminal capable of short-range wireless communication with the device to connect the device to the network. A software setting method for setting a program for controlling via an information processing terminal, wherein the device is communicably connectable via a first short-range wireless communication interface for short-range wireless communication Listing a portable terminal in a situation; receiving a designation of a portable terminal that is a transmission destination of information related to the apparatus from the listed portable terminals; and the designated Transmitting information on the device to the portable terminal via the first short-range wireless communication interface; and A terminal for storing information about the device received via a portable short-range wireless interface for short-range wireless communication with the device and the information processing terminal; and the information processing terminal for short-range wireless communication A list of portable terminals that are in a communication state capable of communication connection via a second short-range wireless communication interface for performing the information processing, and the information processing terminal includes the device from among the listed portable terminals Receiving a designation of a portable terminal that is a transmission source of information on the information, and the information processing terminal receives information about the device from the portable terminal via the second short-range wireless communication interface from the designated portable terminal The information processing terminal stores information related to the device, and the information processing terminal And having a steps of configuring the programs based on the information.
  (9The software setting method of the present invention uses a device and an information processing terminal connected to a network, and the information processing terminal and a portable terminal capable of short-range wireless communication with the device to connect the device to the network. A software setting method for setting a program for controlling via an information processing terminal, wherein the portable terminal is communicably connectable via a portable short-range wireless interface for short-range wireless communication Listing the devices in communication status, receiving a designation of a device from which the portable terminal is a source of information on the device among the listed devices, and the designated device Transmits information regarding the device via a first short-range wireless communication interface for short-range wireless communication with the portable terminal. The portable terminal receiving information about the device from the designated device via the portable short-range wireless interface; and the portable terminal receiving the portable short-range wireless from the device. Storing information related to the device received via a communication interface; listing the information processing terminals in a communication state in which the portable terminal can communicate via the portable short-range wireless interface; The portable terminal accepts designation of an information processing terminal that is a transmission destination of information related to the device from the listed information processing terminals; and the portable terminal receives the designation of the designated device. Transmitting information about the device via a portable short-range wireless interface, and the designated information processing terminal Receiving information related to the device from the portable terminal via a second short-range wireless communication interface for line communication; storing information related to the device in the information processing terminal; And setting the program based on information on the device.
[0024]
  (10The information processing terminal according to the present invention includes software having a device connected to a network and a portable terminal that receives information on the device from the device via a portable short-range wireless interface for short-range wireless communication. An information processing terminal for use in a wear setting system, which can be connected via the short-range wireless interface for information processing terminal for short-range wireless communication with the portable terminal and the short-range wireless interface for information processing terminal List means for listing portable terminals in various communication conditions, transmission source designation means for designating a portable terminal that is a transmission source of information on the device from among the listed portable terminals, Information on the device is received from the designated portable terminal via the short-range wireless interface for the information processing terminal. A device information receiving means for a storage means for storing information relating to the device, and having a setting means for setting the program based on the information about the device.
[0027]
  (11The software setting program of the present invention is a software having a device connected to a network and a portable terminal that receives information on the device from the device via a portable short-range wireless interface for short-range wireless communication. A list of portable terminals that are mounted on an information processing terminal used in a wear setting system and are in a communication state capable of communication connection via a short-range wireless interface for information processing terminals for short-range wireless communication with the portable terminal A procedure for accepting designation of a portable terminal that is a transmission source of information related to the device among the listed portable terminals, and a short-range wireless for the information processing terminal from the designated portable terminal A procedure for receiving information about the device via an interface and storing information about the device And forward, to execute a procedure for setting the program based on the information about the device to the information processing terminal.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0029]
(First embodiment)
FIG. 1 is a block diagram showing the overall configuration of the software setting system according to the first embodiment of the present invention. The software setting system in FIG. 1 is a system for setting a printer driver in the computer 200, in other words, an installation system for installing the printer driver in the computer 200. The printer driver set in the computer 200 is software for controlling the printer 100. Specifically, the printer driver is software used when the computer 200 creates a print job to be transmitted to the printer 100. .
[0030]
The software setting system includes a printer 100, a computer 200, and a portable terminal 300. The printer 100 and the computer 200 are connected to a network 400. Note that the types and number of devices on the network 400 are not actually limited to the example shown in FIG. In practice, there may be a plurality of portable terminals 300. The network 400 is, for example, a LAN such as Ethernet (registered trademark), token ring, FDDI (fiber distributed data interface), or a WAN in which several LANs are connected.
[0031]
The portable terminal 300 is a portable terminal such as a mobile phone, a PDA, a notebook computer, or an electronic notebook. The portable terminal 300 has a function of performing near field communication with the computer 200 and the printer 100. In this specification, near field communication includes both wireless communication and wired communication, and refers to communication at a short distance not via the network 400. In particular, as short-range communication, it is desirable to use short-range wireless communication with a communicable distance of preferably within 100 m, more preferably within 10 m. Specifically, near field communication corresponds to communication standards such as Bluetooth, IEEE 802.11, HomeRF, or IrDA.
[0032]
In the software setting system of the present embodiment, information relating to the printer 100 (hereinafter referred to as “device information”) is transferred from the printer 100 to the computer 200 via a portable terminal that can be freely carried by the user. The computer 200 uses this device information when setting the printer driver. Specific processing contents will be described later.
[0033]
Next, configurations of the printer 100, the computer 200, and the portable terminal 300 that configure the software setting system in the present embodiment will be described. For parts having similar functions in each device, only the first time is described to avoid duplication of description, and the description is omitted for the second and subsequent times.
[0034]
FIG. 2 is a block diagram showing an example of the configuration of the printer shown in FIG. The printer 100 includes a CPU 101, ROM 102, storage unit 103, operation panel unit 104, printing unit 105, network interface 106, local interface 107, sensor 108, and optional device 109.
[0035]
The CPU 101 performs control and calculation processes. The ROM 102 stores a control program. The memory | storage part 103 is comprised from memory and a hard disk, for example. The storage unit 103 has not only an area for storing image data and printing conditions included in a print job received from the computer 200 but also an area for storing device information of the printer 100. Accordingly, the printer 100 not only functions as a normal printer, but also functions as a storage device that stores device information of the printer 100 in advance.
[0036]
The operation panel unit 104 includes an operation unit for instructing the printer 100 to perform an operation and a display unit for performing various displays. For example, the display unit displays a list of a plurality of portable terminals 300 capable of short-range communication with the printer 100 (hereinafter referred to as “communication destination list”). The operation unit is used to designate the portable terminal 300 that actually communicates with the printer 100 from among the portable terminals 300 listed in the communicable destination list.
[0037]
The printing unit 105 prints on a sheet based on the print job received from the computer 200. The network interface 106 is an interface for the printer 100 to communicate with other devices such as the computer 200 via the network 400.
[0038]
The local interface 107 of the present embodiment is an interface for short-range communication, and is preferably a wireless communication system interface in which the communicable distance is limited to about 10 m. From the viewpoint of high-speed data transmission, the local interface 107 desirably supports the Bluetooth standard for transmitting data under a frequency higher than 2 GHz.
[0039]
The sensor 108 detects the states of the printer 100 main body and the optional device 109. The optional device 109 is a device such as a multi-stage paper feeding device, a double-sided printing mechanism, a punch hole device, a mail bin, or a staple that is added to the printer 100 main body.
[0040]
FIG. 3 is a block diagram showing an example of the configuration of the computer shown in FIG. The computer 200 includes a CPU 201, a ROM 202, a storage unit 203, an input device 204, a display 205, a network interface 206, and a local interface 207.
[0041]
The storage unit 203 includes, for example, a hard disk and a memory. A program file relating to the printer driver (hereinafter referred to as “driver program file”) is stored in the hard disk. In other words, the storage unit 203 functions as a printer driver installation destination.
[0042]
The input device 204 includes a pointing device such as a mouse and a keyboard. For example, the input device 204 is used to designate a portable terminal 300 that actually performs short-range communication from among a plurality of portable terminals 300. Further, the input device 204 is used for inputting a password to be described later.
[0043]
The display 205 performs various displays. For example, the display 205 displays a communication destination list in which a plurality of portable terminals 300 capable of short-range communication with the computer 200 are listed.
[0044]
FIG. 4 is a block diagram showing an example of the configuration of the portable terminal shown in FIG.
[0045]
The portable terminal 300 includes a CPU 301, ROM 302, storage unit 303, input key 304, microphone 305, display 306, speaker 307, local interface 308, and wireless device 309.
[0046]
The storage unit 303 stores device information received from the printer 100. The device information is used to set the printer driver in an executable state in the computer 200. The device information can include acquisition destination information for connecting to an external device in which the driver program file is stored.
[0047]
The input key 304 is used to give various input and operation instructions. The microphone 305 is used for inputting sound. The display 306 performs various displays. The speaker 307 outputs various sounds. The wireless device 309 transmits and receives signals to and from the outside via a mobile communication network (not shown).
[0048]
The local interface 308 is an interface for short-range communication with the local interface 107 of the printer 100 and the local interface 207 of the computer 200. Preferably, the local interface 308 corresponds to the Bluetooth standard that transmits data under a frequency higher than 2 GHz.
[0049]
Unlike the case shown in FIG. 4, a microphone 305, a speaker 307, a PDA that does not have a wireless device 309 for a mobile communication network, or the like can be used as the portable terminal 300.
[0050]
The software setting system of the present embodiment configured as described above functions as follows. First, referring to the sequence chart of FIG. 5 and FIG. 1 described above, an outline of the processing contents of the software setting system is shown.
[0051]
In step S <b> 10, the printer 100 transmits the above-described device information to the portable terminal 300 via the local interface 107. The portable terminal 300 receives device information via the local interface 308. The received device information is stored in the storage unit 303.
[0052]
In step S <b> 11, after the user who has the portable terminal 300 storing the device information moves near the computer 200, the portable terminal 300 transmits the device information to the computer 200 via the local interface 308. The computer 200 receives this device information via the local interface 207. The received device information is stored in the storage unit 203 in the computer 200.
[0053]
In step S12, the computer 200 specifies an external device based on acquisition destination information for connecting to the external device storing the driver program file, and transmits a connection request to the specified external device. The external device may be any device to which the computer 200 can be connected. For example, the external device may be the printer 100 or an external file server. The external file server includes a web (Web) server of a software supplier.
[0054]
In step S <b> 13, the external device transmits a connection response to the computer 200.
[0055]
In step S14, the computer 200 recognizes information such as the types and model names of the printer 100 and the optional device 107 based on the device information received in step S11. As a result, the computer 200 selects a driver program file to be set based on the recognized information. The computer 200 requests the selected driver program file from the external device.
[0056]
In step S15, the external device transmits the requested driver program file to the computer 200. The computer receives the driver program file. More specifically, the selected driver program file is copied to a predetermined directory in the storage unit 203 of the computer 200 and set to an executable state.
[0057]
In step S16, the computer 200 sets data of various items related to the printer driver based on the device information received in step S11. Note that data of various items related to the printer driver is data used in a program related to the printer driver.
[0058]
Unlike the present embodiment, a printer driver to be set may be selected from existing printer drivers in the computer 200 without newly acquiring a driver program file from an external device.
[0059]
Further, when a general-purpose driver program file corresponding to the printer 100 is already stored in the storage unit 203 of the computer 200, it is not necessary to select a driver program file, so the processing of steps S12 to S15 is performed. Omitted.
[0060]
6, 7 and 8 show examples of various types of information included in the device information. In particular, the device information shown in FIGS. 6 and 7 corresponds to data of various items set for the printer driver.
[0061]
As shown in FIG. 6, the device information in the present embodiment can include information relating to printer body settings, information relating to network settings, and information relating to connection settings.
[0062]
The information related to the settings of the printer main body includes information used for creating a print job. Specifically, the setting of the printer main body includes setting of the type of device such as a printer or digital copying machine, model name, memory capacity, resolution (400 dpi / 600 dpi), and printer language type (PCL / PostScript (registered trademark)) ) Etc. are included.
[0063]
The information related to the network setting is information for establishing a connection between the computer 200 and the printer 100. Information regarding the network settings is used to transmit a print job from the computer 200 to the printer 100. Specifically, the information regarding the network setting includes information regarding the setting of the IP address of the printer 100, the setting of the subnet mask, and the setting of whether or not the protocol such as NetBEUI or IPX / SPX is used.
[0064]
The information regarding the connection setting is information for instructing a transmission method or the like when a print job is transmitted from the computer 200 to the printer 100. Specifically, the connection setting includes a setting of the name of the printer 100 and a setting of the transmission method of the print job, and an identification code for identifying the printer 100. Transmission methods include line printer remote (LPR), Internet facsimile (IFAX), and JetSend. When the transmission method is LPR, the server name is used as the identification code. When the transmission method is IFAX, an electronic mail address is used as the identification code. When the transmission method is JetSend, an IP address is used as the identification code.
[0065]
Furthermore, information regarding the presence / absence of the optional device 109 and the type of the optional device can be included in the device information.
[0066]
FIG. 7 shows an example of information related to setting of optional equipment. The optional device settings include the presence / absence of optional devices such as a paper feed tray, punch hole device, and mail bin. In addition, when a mail bin or a multi-stage paper feeder is added, information on the setting of the user name used in each bin of the mail bin, and information on the paper size and orientation setting in each tray of the multi-stage paper feeder Can be included in the device information.
[0067]
Furthermore, as described above, the acquisition destination information for connecting to the external device that stores the driver program file can be included in the device information.
[0068]
FIG. 8 shows an example of acquisition source information for connecting to an external device. Specifically, in order to acquire a printer driver using HTTP (Hyper Text Transfer Protocol), information on a WWW (World Wide Web) page is included in the driver program file. In order to acquire a driver program file using FTP (File Transfer Protocol), address information is included in the acquisition destination information. In order to acquire a driver program file using a telephone line, a telephone number for connecting to the acquisition destination is included in the acquisition destination information. Note that, when a driver program file is acquired using a telephone line, the driver program file can be acquired via a wireless communication network connected via the wireless device 309 of the portable terminal 300. In particular, when an instruction to select the latest driver (hereinafter referred to as “latest driver selection instruction”) is input by the input device 204, the latest driver is acquired based on the acquisition destination information. The latest driver selection process will be described later.
[0069]
(Communication between printer and portable terminal)
FIG. 9 shows the processing contents of the printer when the printer and the portable terminal in the first embodiment communicate with each other. The content of the flowchart shown in FIG. 9 is stored as a control program in the ROM 102, for example, and is executed by the CPU 101.
[0070]
In step S <b> 101, a communication destination list in which portable terminals 300 capable of near field communication with printer 100 are listed is displayed on operation panel unit 104.
[0071]
In step S102, it is determined whether or not the portable terminal 300 that is the transmission destination of the device information is designated from among the portable terminals 300 listed in the communicable destination list. The portable terminal 300 is designated using the operation panel unit 104 that functions as a transmission destination designation unit. More specifically, by pressing a display location corresponding to the desired portable terminal 300 on the touch panel of the operation panel unit, the portable terminal 300 that is the transmission destination can be selected and designated.
[0072]
In step S103, a process of receiving a security check by the designated portable terminal 300 is executed.
[0073]
In step S <b> 104, the above-described device information is transmitted from the printer 100 to the portable terminal 300 via the local interface 107.
[0074]
FIG. 10 shows a subroutine corresponding to the process of automatically creating and displaying the communicable destination list in step S101 of FIG. Note that the communicable destination list in the printer 100 corresponds to a device information transmission destination list by the printer 100.
[0075]
In step S <b> 201, it is determined whether there is a portable terminal 300 that can be connected to the local interface 107. Specifically, it is determined whether or not portable terminal 300 exists within the communicable distance. For example, when a radio wave having a predetermined frequency is received, it is determined that there is a portable terminal 300 that can be connected. If there is a portable terminal 300 that can be connected to the local interface 107 (step S201: YES), the process of step S202 is executed. On the other hand, when there is no connectable portable terminal 300 (step S201: NO), the process of step S208 described later is executed.
[0076]
In step S202, the portable terminal 300 is automatically selected one by one from the portable terminals 300 connectable to the local interface 107.
[0077]
In step S203, the portable terminal 300 selected in step S203 is requested to transmit identification information.
[0078]
In step S204, it is determined whether or not the identification information has been received from the portable terminal 300 that has received the request to transmit the identification information in step S203. When the identification information is received (step S204: YES), the process of step S205 is executed. If the identification information is not received even after a predetermined time has elapsed (step S204: NO), the process of step S206 is executed.
[0079]
In step S205, the portable terminal 300 that has received the identification information is registered in the communicable destination table as the portable terminal 300 that can communicate.
[0080]
In step S206, it is determined whether or not all selections of the portable terminal 300 that can be connected to the local interface 107 have been completed. When there is a portable terminal 300 that has not yet been selected (step S206: NO), the processing of step S202 to step S205 is repeatedly executed. As a result, when there are a plurality of portable terminals 300 that can be connected to the local interface 107, the processing of steps S202 to S205 is executed for each portable terminal 300. On the other hand, when selection of all the portable terminals 300 is completed (step S206: YES), the process of step S207 is executed.
[0081]
In step S207, it is determined whether or not the portable terminal 300 is registered in the communicable destination table. When the portable terminal 300 is not registered (step S207: NO), the process of step S208 is executed. If the portable terminal 300 is registered, the process of step S209 is executed.
[0082]
In step S208, the operation panel unit 104 displays that there is no portable terminal 300 that can communicate.
[0083]
On the other hand, in step S209, a communication destination list is displayed on the operation panel unit 104 based on the contents of the communication destination table.
[0084]
FIG. 11 shows a display example of the communicable destination list.
[0085]
In the example shown in FIG. 11, the type and detailed information of the portable terminal 300 that can transmit device information are displayed on the operation panel unit 104. Specifically, the type of the portable terminal 300 such as a cellular phone, PHS (registered trademark), PDA, or notebook computer (PC) is displayed. As detailed information, mobile phone and PHS phone numbers, user names registered in the PDA and PC, and the like are displayed. Therefore, the user can easily specify on the operation panel unit 104 the portable terminal 300 that desires short-range communication by looking at the communicable destination list. Note that the type and detailed information of the portable terminal 300 are displayed based on the content of the identification information received by the printer 100 from the portable terminal 300 in step S204 of FIG.
[0086]
FIG. 12 shows a subroutine corresponding to the process of receiving a security check in step S103 of FIG.
[0087]
In step S301, it is determined whether or not a security check by the portable terminal 300 is executed. When the security check is not executed (step S301: NO), the process is returned as it is. On the other hand, when the security check is executed (step S301: YES), the process of step S302 is executed.
[0088]
In step S302, it is determined whether an authentication password has been input by the user. The operation panel unit 104 is used to input the authentication password. Waiting for the input of the authentication password (step S302: YES), the process of step S303 is executed. Here, the authentication password is, for example, a preset character string. The authentication password is set for each portable terminal 300 and is stored in the storage unit 303 in each portable terminal 300. Each portable terminal 300 ensures security by permitting access only to the printer 100 that has transmitted the authentication password.
[0089]
In step S303, the authentication password is transmitted to the portable terminal 300 via the local interface 107.
[0090]
In step S304, it is determined whether a signal indicating that access is permitted is received from portable terminal 300 that has received the authentication password. Waiting for reception of a signal for permitting access (step S304: YES), a return is made.
[0091]
Through the above processing, the printer 100 can perform short-range communication with a portable terminal designated from among the listed portable terminals 300. As a result, the printer 100 can transmit the device information to the portable terminal 300 via the local interface 107.
[0092]
FIG. 13 is a flowchart showing the processing contents of the portable terminal when the printer and the portable terminal in the first embodiment communicate with each other. Specifically, FIG. 13 shows the processing contents of the portable terminal 300 that receives device information from the printer 100. The contents of the flowchart shown in FIG. 13 are stored as a control program in the ROM 302, for example, and executed by the CPU 301.
[0093]
In step S <b> 401, the portable terminal 300 permits access to the printer 100.
[0094]
In step S402, it is determined whether data has been received from the printer 100 that has permitted access via the local interface 308. Waiting for data to be received (step S402: YES), step S403 is executed.
[0095]
In step S403, it is determined whether the received data is device information. If this data is device information (step S403: YES), the process of step S404 is executed, and if it is not device information (step S403: NO), the process of step S405 is executed.
[0096]
In step S <b> 404, the received device information is stored in the storage unit 303. When device information is received from a plurality of printers, the device information is stored for each computer.
[0097]
In step S405, the communication connection is disconnected, and the process of step S401 is executed.
[0098]
FIG. 14 shows a subroutine corresponding to the access permission process in step S401 of FIG.
[0099]
In step S501, it is determined whether the printer 100 is connected to the local interface 308 provided in the portable terminal 300. Waiting for the computer 200 to be connected to the local interface 308 (step S501: YES), the process of step S502 is executed.
[0100]
In step S <b> 502, it is determined whether a transmission request for identification information has been received via the local interface 308. Waiting for the reception of the identification information transmission request (step S502: YES), the process of step S503 is executed.
[0101]
In step S503, identification information is transmitted via the local interface 308. The identification information can include information regarding the type of the portable terminal 300, a telephone number to be set for each portable terminal 300, and a user registration name.
[0102]
In step S504, it is determined whether to execute a security check. The portable terminal 300 may not perform the security check shown in Steps S505 to S507 for the printer 100 whose security has been confirmed in advance, but may perform the security check only for the printer 100 whose security has not been confirmed. it can. If the security check is executed (step S504: YES), the process of step S505 is executed. If the security check is not executed (step S504: NO), a return is made.
[0103]
In step S505, it is determined whether an authentication password transmitted from the printer 100 in response to the identification information described in step S5503 is received via the local interface 308. When the authentication password is received (step S505: YES), the process of step S506 is executed. On the other hand, if the authentication password is not received even after a certain period of time has elapsed (step S505: NO), the process of step S507 is executed. As described above, the authentication password is a character string stored in advance in the storage unit 303. Therefore, when a character string is received from the printer 100, the received character string is compared with a character string stored in advance in the storage unit 303. As a result of the comparison, if the two match, it is determined that the authentication password has been received. On the other hand, if the two do not match, it is determined that the authentication password has not been received.
[0104]
In step S506, a signal for permitting access is transmitted to the printer 100 that has transmitted the authentication password.
[0105]
In step S507, the connection is disconnected. When a character string different from the authentication password is sent, a message such as “Please enter the correct authentication password” can be sent to the printer 100.
[0106]
As described above, according to the processes shown in FIGS. 13 and 14, the portable terminal 300 can receive device information from the printer 100 storing the device information and store the received device information. it can.
[0107]
(Communication between portable terminal and computer)
FIG. 15 is a flowchart showing the processing contents of the portable terminal when the portable terminal and the computer communicate with each other in the first embodiment. Specifically, FIG. 15 shows the processing contents in which the portable terminal 300 storing device information transmits the device information to the computer 200. The contents of the flowchart shown in FIG. 15 are stored as a control program in the ROM 302, for example, and executed by the CPU 301. Note that the processing in step S601, step S602, and step S605 is the same as that in FIG. 13 except that the processing is not between the portable terminal 300 and the printer 100, but between the portable terminal 300 and the computer 200. Step S401, step S402, step S405, and the processing of FIG.
[0108]
In step S603, it is determined whether or not the received data is a signal for requesting transmission of device information (hereinafter referred to as “device information transmission request”). When this data is a device information transmission request (step S603: YES), the process of step S604 is executed. When the data is not a device information transmission request (step S603: NO), the process of step S605 is executed. .
[0109]
In step S604, the device information is transmitted to the computer 200 via the local interface 308.
[0110]
FIG. 16 shows the processing contents of the computer when the computer and the portable terminal in the first embodiment communicate with each other. The contents of the flowchart shown in FIG. 16 are stored as a control program in the ROM 202, for example, and executed by the CPU 201. The processes in steps S701 to S703 are the same as those in step S101 in FIG. 9 except that the process is not between the printer 100 and the portable terminal 300 but between the computer 200 and the portable terminal 300. To Step S103, similar to the processing in FIG. 10 and FIG. Therefore, detailed description is omitted to avoid repetition.
[0111]
In step S <b> 704, a device information transmission request is transmitted from the computer 200 to the portable terminal 300 via the local interface 207.
[0112]
In step S <b> 705, device information is received from the portable terminal 300 via the local interface 207.
[0113]
In step S706, the received device information is stored in the storage unit 203.
[0114]
As a result of the above processing, the device information is transmitted from the printer 100 that stores the device information in advance to the computer 200 that desires to set the printer driver via the portable terminal 300.
[0115]
The processing contents of the above software setting system will be described focusing on the operation procedure on the operation panel unit 104 of the printer 100 and the display 205 of the computer 200.
[0116]
FIG. 17 is a flowchart showing processing contents in the printer.
[0117]
In step S801, it is detected that the operation panel unit 104 of the printer 100 is instructed to start a screen for designating a portable terminal that is a device information transmission destination (hereinafter referred to as a “device information transmission destination designation screen”). Is done. As a result, the device information transmission destination designation screen display program is activated, and the device information transmission destination designation screen is displayed.
[0118]
FIG. 18 shows an example of a device information transmission destination designation screen displayed on the operation panel unit. As shown in FIG. 18, an automatic search instruction button 501 is provided on the device information transmission destination designation screen 500 to instruct automatic search of the portable terminal 300 that is the transmission destination of device information. In addition, a cancel button 502 is provided for canceling the processing halfway.
[0119]
In step S802 in FIG. 17, it is determined whether or not an automatic search instruction for the portable terminal 300 has been issued. Specifically, it is determined whether or not the portion of the automatic search instruction button 501 displayed on the operation panel unit 104 has been pressed with the user's fingertip or the like. If automatic search is not instructed (S802: NO), the process of step S803 is executed. When the automatic search is instructed (S802: YES), the communication destination list is automatically created as described above, and the process of step S804 is executed.
[0120]
In step S803, it is determined whether or not the cancel button 502 has been pressed. If the cancel button 502 is pressed (S803: YES), the process ends.
[0121]
In step S804, it is determined whether the printer 100 is connected to the portable terminal 300 or not. If the printer 100 is not connected to the portable terminal 300 (S804: NO), it is determined in step S805 whether the cancel button 502 has been pressed. If the cancel button 502 is pressed (S805: YES), the process ends. On the other hand, when the printer 100 is connected to the portable terminal 300 (S804: YES), the device information is stored for the portable terminal 300 specified from the communicable destination list as shown in FIG. Sent. After the transmitted device information is stored by the portable terminal 300, the process of step S806 is executed.
[0122]
In step S805, the display of the device information transmission destination designation screen ends.
[0123]
FIG. 19 is a flowchart showing the processing contents in the computer.
[0124]
In step S901, a screen for designating a portable terminal that is a transmission source (acquisition destination) of device information (hereinafter referred to as “device information transmission source designation screen”) is displayed. The device information transmission source designation screen is displayed on the display 205 of the computer 200. For example, the device information transmission destination designation screen is the same as the device information transmission destination designation screen shown in FIG. 18 except that the designated portable terminal is not the transmission destination but the transmission source. Specifically, the device information transmission source designation screen is provided with an automatic search instruction button 501 for instructing automatic search of the portable terminal 300 from which the device information is acquired, and a cancel button 502 for interrupting processing. It is done.
[0125]
In step S902, it is determined whether an automatic search instruction for portable terminal 300 has been issued. If automatic search is not instructed (step S902: NO), the process of step S903 is executed. When the automatic search is instructed (step S902: YES), the process of step S904 is executed.
[0126]
In step S903, it is determined whether or not the cancel button 502 has been pressed. If the cancel button 502 is pressed (step S903: YES), the process ends.
[0127]
In step S904, the latest driver selection instruction is set using the input device 204 as necessary. The latest driver selection instruction is for instructing the computer 200 to select the latest driver program file and for permitting the use of a telephone line or the Internet to obtain the latest driver program file. Instructions are included.
[0128]
In step S905, it is determined whether the computer 200 is connected to the portable terminal. If the computer 200 is not connected to the portable terminal 300 (step S905: NO), it is determined in step S906 whether the cancel button 502 has been pressed. If the cancel button 502 has been pressed (step S906: YES), the process ends. On the other hand, when the computer 200 is connected to the portable terminal 300 (step S905: YES), the device information is received from the portable terminal 300 and stored in the storage unit 203 of the computer 200, and then the process of step S907. Is executed.
[0129]
In step S907, the display of the device information transmission source designation screen ends.
[0130]
In step S908, setting of the printer driver is started. In other words, installation of the printer driver is started. Specifically, information on a directory in the storage unit 203 is referred to.
[0131]
In step S909, a driver program file suitable for the printer 100 is read based on the device information. The read driver file file is in an executable state in association with the OS in the computer 200. If the driver program file suitable for the printer 100 does not exist in the storage unit 203, the driver program file corresponding to the printer 100 is stored based on the acquisition destination information of the driver program file shown in FIG. A connection is established with an external device. As a result, the computer 200 reads a driver program file suitable for the printer 100 from the external device.
[0132]
In step S910, data is set for each item of the printer driver based on the device information shown in FIGS. As a result, the data for each item of the printer driver is set without displaying the setting screen for the various items of the printer driver on the display as usual and manually inputting the data for the various items of the printer driver. In particular, according to the present embodiment, since the device information includes information related to the setting of the optional device, the user does not need to perform complicated settings according to the optional device, and the burden is reduced.
[0133]
In step S911, after the printer driver setting is completed, a message indicating that the printer driver is completed is displayed on the display 205.
[0134]
Next, the latest printer driver selection process by the computer of this embodiment will be described.
[0135]
FIG. 20 is a flowchart for explaining processing in which the computer selects the latest driver program file. The process of FIG. 20 is executed by the CPU 201 of the computer 200, for example.
[0136]
In step S1001, it is determined whether selection of the latest printer driver is instructed. Specifically, it is determined whether or not the latest driver selection instruction is input by the input device 204. If the selection of the latest printer driver is instructed (step S1001: YES), the process of step S1002 is executed. If not instructed (step S1001: NO), the process of step S1003 is executed.
[0137]
In step S1002, it is determined whether access to the Internet is permitted. If access to the Internet is permitted (step S1002: YES), the process of step S1004 is executed. On the other hand, if access to the Internet is not permitted (step S1002: NO), it is further determined in step S1005 whether or not use of the telephone line is permitted. If neither access to the Internet nor use of the telephone line is permitted (step S1005: NO), the process of step S1003 is executed.
[0138]
In step S1003, the driver program file already stored in the storage unit 103 is read as a process when the external device in which the driver program file is stored cannot be accessed.
[0139]
In step S1004, as processing when access to the Internet or use of a telephone line is permitted, a driver program file corresponding to the printer 100 corresponds to the printer 100 in an external device, for example, a predetermined website. It is determined whether the driver program file exists. When the driver program file corresponding to the printer 100 exists (step S1004: YES), the process of step S1006 is executed. When the driver program file does not exist (step S1004: NO), the process of step S1003 described above is executed. The
[0140]
In step S1006, it is determined whether or not the driver program file existing in the external device is newer (upgraded) than the existing driver program file already stored in the storage unit 203. If the driver program file existing in the external device is newer than the driver program file in the storage unit 203 (step S1006: YES), the process of step S1007 is executed. If the driver program file is not new (step S1006: NO), The process of step S1003 described above is executed. The telephone line may be a mobile communication network connected via the wireless device 309 of the portable terminal 300. In this case, the portable terminal 300 not only functions as a device that transmits device information to the computer 200 but also functions as a device for acquiring the latest driver program file. As a result, even when the network 400 itself is a closed LAN, the computer 200 can select and acquire the latest driver program file.
[0141]
In step S1007, a new driver program file is downloaded from the external device.
[0142]
In step S1008, the downloaded driver file is stored in the storage unit 203 of the computer 200.
[0143]
In step S1009, the driver program file stored in the storage unit 103 is used as the program file to be set.
[0144]
According to the processing shown in FIG. 20, the computer 200 appropriately selects and downloads the latest driver program file from the outside through the Internet or a telephone line, and sets the downloaded driver program file to an executable state. it can.
[0145]
As described above, according to the first embodiment, device information can be transmitted from a printer to a computer using a portable terminal having short-range communication means capable of short-range communication. Therefore, the printer driver can be easily set based on the device information.
[0146]
In the above description, a case has been described in which various types of information shown in FIGS. 6, 7, and 8 are communicated as short-distance communication as device information, but unlike the present embodiment, connection with the printer 100 is established. For example, a configuration may be employed in which only information related to network settings, that is, information related to network settings and connection settings, is short-range communication. If information for establishing a connection with the printer 100 is transmitted from the printer 100 to the computer 200 via the portable terminal 300, the computer 200 establishes a connection with the printer 100 based on the received information. Can be established. As a result, the computer 200 can acquire other information through the network 400, and can set the printer driver in an executable state.
[0147]
(Second Embodiment)
In the first embodiment, a portable terminal that is a device information transmission destination is specified in the printer, and a portable terminal that is a device information transmission source (acquisition destination) is specified in the computer. On the other hand, unlike the first embodiment, the second embodiment designates a printer that is a transmission source of device information and a computer that is a transmission destination in the portable terminal.
[0148]
The configuration of the software setting system in the second embodiment is the same as that shown in FIGS. Moreover, the same code | symbol is used for the member similar to the member shown by FIGS.
[0149]
According to the present embodiment, the display 306 of the portable terminal 300 displays a communicable destination list in which the computer 200 and the printer 300 are listed. The input key 304 is used to designate a printer and a computer that are a transmission source and a transmission destination of device information from the devices listed in the communication destination list.
[0150]
21 and 22 show communication processing between the printer and the portable terminal.
[0151]
FIG. 21 illustrates processing contents of the portable terminal when the printer and the portable terminal in the second embodiment communicate with each other.
[0152]
First, in step S <b> 1101, a communication destination list is displayed on the display 306. However, unlike the first embodiment, the printer 100 that can communicate with the portable terminal 300 is listed in the communicable destination list.
[0153]
In step S <b> 1102, it is determined whether the printer 100 that is the device information transmission source is designated by the input key 304.
[0154]
In step S1103, processing for receiving a security check by the designated printer 100 is executed.
[0155]
In step S 1104, the above-described device information is received from the printer 100 via the local interface 308.
[0156]
Note that the list display process of communicable devices (step S1101) and the process of receiving a security check by the computer (step S1103) are the same as those in the process of FIG. 10 and FIG. This corresponds to the case where the role of the printer 100 is changed. Therefore, repeated description is omitted.
[0157]
FIG. 22 is a flowchart illustrating the processing contents of the printer when the printer and the portable terminal according to the second embodiment communicate with each other. Specifically, FIG. 22 is a flowchart illustrating processing contents of a printer that transmits device information to a portable terminal. The content of the flowchart shown in FIG. 22 is stored as a control program in the ROM 102, for example, and is executed by the CPU 101.
[0158]
In step S <b> 1201, the printer 100 permits access to the portable terminal 300.
[0159]
In step S1202, it is determined whether data is received from portable terminal 300 that has permitted access. Waiting for data to be received (step S1202: YES), step S1203 is executed.
[0160]
In step S1203, it is determined whether the received data is a device information transmission request. If this data is a device information transmission request (step S1203: YES), the process of step S1204 is executed. If the data is not a device information transmission request (step S1203: NO), the process of step S1205 is executed. Is done.
[0161]
In step S1204, the device information is transmitted to the portable terminal 300.
[0162]
In step S1205, the connection is disconnected, and the process of step S1201 is executed.
[0163]
Note that the process of permitting access (step S1201) corresponds to the case where the roles of the portable terminal 300 and the printer 100 are switched in the process of FIG. 14 described in the first embodiment. Therefore, repeated description is omitted.
[0164]
FIG. 23 is a flowchart illustrating the processing contents of the computer when the portable terminal and the computer communicate with each other in the second embodiment. Specifically, FIG. 23 shows the processing contents in which the computer 200 receives device information from the portable terminal 300. The contents of the flowchart shown in FIG. 23 are stored as a control program in the ROM 202, for example, and are executed by the CPU 201. Note that the processing in step S1301, step S1302, and step S1305 is the same as step S1201, step S1202, and step S1205 in FIG.
[0165]
In step S1303, it is determined whether the received data is device information. If the data is device information (step S1303: YES), the process of step S1304 is executed. If the data is not device information (step S1303: NO), the process of step S1305 is executed.
[0166]
In step S1304, the received device information is stored in the storage unit 203.
[0167]
FIG. 24 is a flowchart illustrating the processing contents of the portable terminal when the portable terminal and the computer communicate with each other in the second embodiment. The contents of the flowchart shown in FIG. 24 are stored as a control program in the ROM 302, for example, and are executed by the CPU 301. The processes in steps S1401 to S1403 are the same as those in step S1101 in FIG. 21 except that the process is not between the portable terminal 300 and the printer 100 but between the portable terminal 300 and the computer 200. -Same as the processing in step S1103. Therefore, detailed description is omitted to avoid repetition.
[0168]
In step S <b> 1404, device information is transmitted from the portable terminal 300 to the computer 200 via the local interface 207.
[0169]
Note that the process for setting the printer driver based on the device information is the same as the process described in the first embodiment.
[0170]
According to the present embodiment, both the transmission source and the transmission destination of device information can be easily specified on the portable terminal side, and only the portable terminal can be used even by a user who is unfamiliar with computer and printer operations. The printer driver can be easily set by operating.
[0171]
(Third embodiment)
In the first and second embodiments described above, the printer and the computer have a local interface for direct near field communication with the portable terminal. On the other hand, in the third embodiment, the printer and the computer do not need to have a local interface. The printer and the computer communicate indirectly with the portable terminal via another communication device connected to the network.
[0172]
FIG. 25 is a block diagram showing an overall configuration of a software setting system according to the third embodiment of the present invention. The system of FIG. 25 is a system in which communication devices 600a and 600b are added to the system shown in FIG. 1 of the first embodiment. In general, a plurality of communication devices 600 may exist. In this case, the communication devices 600a and 600b are selected from a plurality of communication devices connected to the network. The communication device may be a dedicated device provided for communication with the portable terminal 300, and a normal printer or computer may function as the communication device 600.
[0173]
In the present embodiment, the printer 100 transmits device information to the communication device 600b via the network 400. The communication device 600b transmits this device information to the portable terminal through an interface for short-range communication provided in the communication device 600b. The portable terminal 300 transmits the device information of the printer 100 to the communication device 600a through an interface for short-distance communication provided in the portable terminal. The communication device 600a transmits this device information to the computer 200 via the network 400. Then, the computer 200 sets the printer driver in an executable state based on the received device information.
[0174]
1 shows a configuration of a printer, a computer, and a portable terminal that constitute a software setting system in the present embodiment. For convenience of explanation, the same members as those in the first and second embodiments are given the same numbers.
[0175]
26, 27, and 28 are block diagrams showing configurations of a printer, a computer, and a communication device included in the software setting system of FIG. 25, respectively. As shown in FIGS. 26 and 27, the printer 100 and the computer 200 according to the present embodiment are different from the configurations shown in FIGS. 2 and 3 in that local interfaces 107 and 207 are not provided. . The network interface 106 of the printer 100 is an interface for communicating with the communication device 600b via the network 400. The network interface 206 of the computer 200 is an interface for communicating with the communication device 600a via the network 400.
[0176]
FIG. 28 shows the configuration of the communication device. The configuration of the communication device 600a will be described as an example.
[0177]
As illustrated in FIG. 28, the communication device 600a includes a CPU 601, a ROM 602, a storage unit 603, a network interface 604, and a local interface 605.
[0178]
The network interface 604 is an interface for communicating with the computer 200 via the network 400.
[0179]
The local interface 605 is an interface for short-distance communication, and preferably corresponds to the Bluetooth standard. The communication device 600a performs short-range communication with the portable terminal 300 via the local interface 605. Similarly, the communication device 600 b includes a network interface 604 for communicating with the printer 100 via the network 400 and a local interface 605 for short-range communication with the portable terminal 300.
[0180]
(Communication between printer and communication device)
FIG. 29 is a flowchart illustrating the processing contents of the printer when the printer and the communication device in the third embodiment communicate. Specifically, FIG. 29 shows the processing contents of the printer for the communication device 600b. The contents of the flowchart shown in FIG. 29 are stored as a control program in the ROM 102, for example, and executed by the CPU 101.
[0181]
In step S1501, the communicable destination table created by the communication device 600b is acquired through the network 400. The communicable destination table acquired in step S1501 does not list the portable terminal 300 capable of short-range communication with the printer 100 as in the case of the first embodiment. A portable terminal 300 capable of near field communication by a communication device 600b connected to the printer 100 via the network is listed.
[0182]
In step S1502, it is determined whether there is a portable terminal 300 listed in the communicable destination table. When the portable terminal 300 exists in the communicable destination table (step S1502: YES), the process of step S1503 is executed, and when the portable terminal 300 does not exist (step S1502: NO), the processing of step S1504 is performed. Processing is executed.
[0183]
In step S1503, a list of portable terminals 300 that can communicate based on the communicable destination table acquired in step S1501 is displayed on the operation panel unit 104. The portable terminal 300 listed in the communicable destination table is capable of near field communication with the communication device 600b. Further, as shown in FIG. 25, the communication device 600b and the printer 100 can communicate with each other through the network 400. Therefore, the portable terminal 300 listed in the communicable destination table corresponds to the portable terminal 300 that can transmit device information via the communication device 600b by the printer 100.
[0184]
In step S1504, the operation panel unit 104 displays that there is no portable terminal 300 that can communicate. That is, the fact that there is no portable terminal 300 capable of transmitting device information via the communication device 600b is displayed on the operation panel unit 104.
[0185]
In step S1505, it is determined whether or not the portable terminal 300 that is the transmission destination of the device information communication device 600b is designated from among the listed portable terminals 300.
[0186]
In step S1506, the communication device 600b is notified that the portable terminal 300 has been designated.
[0187]
In step S1507, processing for receiving a security check by the designated portable terminal 300 is executed. Here, the processing in step S1507 is the same as the processing shown in FIG. 12 except that transmission / reception between the printer 100 and the portable terminal 300 is executed via the communication device 600b. Therefore, detailed description is omitted to avoid repetition.
[0188]
In step S1508, device information is transmitted from the network interface 106 to the communication device 600b via the network 400.
[0189]
FIG. 30 shows a subroutine corresponding to the communication destination table acquisition process in step S1501 of FIG.
[0190]
In step S1601, a signal requesting a communicable destination table (hereinafter referred to as “table request”) is transmitted to the communication device 600b.
[0191]
In step S1602, it is determined whether a communicable destination table is received from communication device 600b. When the communicable destination table is received (step S1602: YES), the process of step S1603 is executed. On the other hand, if the communicable destination table is not received (step S1602: NO), it is further determined in step S1604 whether or not there is a portable terminal 300 that can communicate. As a result, when it is received that there is no portable terminal 300 that can communicate (step S1604: YES), the process of step S1603 is executed.
[0192]
In step S1603, the contents of the communicable destination table are updated based on the determination result in step S1602 or step S1604. Since the user carries the portable terminal 300, the number and types of portable terminals 300 that can perform near field communication with the communication device 600 change as the user moves. Accordingly, the portable terminal 300 that has already become incapable of short-range communication is deleted from the communicable destination table, and the portable terminal 300 that has become newly communicable is added to the communicable destination table. Is done.
[0193]
The processing shown in step S1605 is processing when a plurality of communication devices 600 are connected to the network 400. Specifically, a table request is transmitted for each communication device 600. Accordingly, in step S1605, it is determined whether transmission of table requests to all communication devices 600 has been completed. Until the transmission of the table request to all the communication devices 600 is completed (step S1605: YES), the processing from step S1601 to step S1605 is repeatedly executed.
[0194]
FIG. 31 is a flowchart showing processing contents of a communication device that receives device information from a printer and transmits the device information to a portable terminal. FIG. 31 specifically shows the processing contents of the communication device 600b. The contents of the flowchart shown in FIG. 31 are stored, for example, as a control program in the ROM 602 and executed by the CPU 601.
[0195]
In step S1701, it is determined whether a table request is received from the printer 100. Waiting for the table request to be received (step S1701: YES), the process of step S1702 is executed.
[0196]
In step S <b> 1702, the communication device 600 b creates a communicable destination table in which the portable terminals 300 that can perform near field communication are listed, and transmits the communication destination table to the printer 100.
[0197]
In step S <b> 1703, it is determined whether information related to designation of the portable terminal 300 that is the transmission destination of device information has been received from the printer 100. Waiting for the information related to the designation to be received (step S1703: YES), the process of step S1704 is executed.
[0198]
In step S1704, processing for receiving a security check by the designated portable terminal 300 is executed.
[0199]
In step S 1705, it is determined whether device information has been received from the printer 100. Waiting for device information to be received from the printer 100 (step S1705: YES), the process of step S1706 is executed.
[0200]
In step S1706, the device information received from the printer 100 is transmitted to the portable terminal 300 via the local interface 605. As a result, the device information is transferred from the printer 100 to the portable terminal 300 via the communication device 600b.
[0201]
FIG. 32 shows a subroutine corresponding to the creation and transmission processing of the communicable destination table in step S1702 of FIG.
[0202]
Except for the point that the communication device 600b performs processing instead of the printer 100, the processing in steps S1801 to S1807 is the same as the processing in steps S201 to S207 in FIG. Therefore, detailed description is omitted.
[0203]
In step S 1808, the printer 100 is notified that there is no portable terminal 300 that can communicate. On the other hand, in step S 1809, the communicable destination table is transmitted to the printer 100. Therefore, unlike the first embodiment shown in FIG. 10, the communicable destination table itself is sent to the printer 100 instead of the process of displaying the list of portable terminals 300 that can communicate based on the communicable destination table on the screen. The list of portable terminals 300 that can be communicated is displayed on the operation panel unit 204 of the printer 100.
[0204]
FIG. 33 shows a subroutine corresponding to the process of receiving a security check by the portable terminal 300 in step S1704 of FIG.
[0205]
Steps S1901, S1903, and S1904 are the same as the processes in steps S301, S303, and S304 in FIG. 12 except that the communication device 600b performs the process instead of the printer 100. Therefore, detailed description is omitted.
[0206]
In step S1902, it is determined whether an authentication password has been received from the printer 100. Waiting for the authentication password to be received from the printer 100 (step S1902: YES), the process of step S1903 is executed. Therefore, the authentication password input by the user is received from the printer 100, and the received authentication password is transmitted to the portable terminal 300 by the communication device 600b.
[0207]
In step S 1905, a signal indicating that the access received by the communication device 600 b from the portable terminal 300 in step S 1904 is permitted is transmitted to the printer 100. As described above, in the present embodiment, the authentication password is transmitted and received to permit access between the printer 100 and the portable terminal 300 via the communication device 600b.
[0208]
(Communication between communication device and computer)
FIG. 34 is a flowchart showing processing contents of a communication device that receives device information from a portable terminal and transmits the received device information to a computer. FIG. 34 specifically shows processing of the communication device 600a.
[0209]
The processing in steps S2001 to S2004 is the processing in steps S1701 to S1704 in FIG. 31 except that the processing is not between the printer 100 and the communication device 600b but between the computer 200 and the communication device 600a. It is the same. Therefore, the description is omitted to avoid repetition.
[0210]
In step S2005, it is determined whether a device information transmission request for requesting transmission of device information has been received. Waiting for the device information transmission request to be received (step S2005: YES), the process of step S2006 is executed.
[0211]
In step S2006, a device information transmission request is transmitted to the portable terminal 300. As a result, a device information transmission request is transmitted from the computer 200 to the portable terminal 300 via the communication device 600a.
[0212]
In step S2007, it is determined whether device information is received from the portable terminal 300. Waiting for the device information to be received, the process of step S2008 is executed.
[0213]
In step S2008, the device information received from the portable terminal 300 is transmitted to the computer 200 via the network interface 604. As a result, the device information is transferred from the portable terminal 300 to the computer 200 via the communication device 600a.
[0214]
FIG. 35 is a flowchart illustrating the processing contents of the computer when the communication device and the computer in the third embodiment communicate with each other. Specifically, FIG. 35 shows the processing contents of the computer 200 for the communication device 600a. The contents of the flowchart shown in FIG. 35 are stored as a control program in the ROM 202, for example, and executed by the CPU 201.
[0215]
Steps S <b> 2101 to S <b> 2107 are performed except that the processing is performed by the computer 200 instead of processing by the printer 100, and the portable terminal 300 designated by the computer 200 is not a transmission destination of device information. This is the same as the processing in steps S1501 to S1507 in FIG. Therefore, detailed description is omitted.
[0216]
In step S2108, a device information transmission request is transmitted from the network interface 206 to the communication device 600a via the network 400.
[0217]
In step S <b> 2109, device information is received by the network interface 206 from the communication device 600 a via the network 400.
[0218]
In step S2110, the received device information is stored in the storage unit 203.
[0219]
The process in which the computer 200 sets the printer driver to an executable state based on the device information is the same as in the first embodiment, and a detailed description thereof will be omitted.
[0220]
In the present embodiment, the case where the portable terminal 300 which is the transmission destination or transmission source of the device information is designated by the printer 100 and the computer 200 is shown. However, as shown in the second embodiment, the portable terminal device 300 can specify the printer 100 that is the transmission source of device information and can also specify the computer 200 that is the transmission destination of device information.
[0221]
According to the present embodiment, even when the computer 200 and the printer 100 do not support a near field communication function such as Bluetooth, the communication devices 600a and 600b having the near field communication function are connected to the network 400. As a result, a printer driver for controlling the printer 100 can be set in the computer 200. As a result, a software setting system can be realized by providing the communication device 600 that performs near field communication with the portable terminal 300 without changing the hardware of the computer 200 or the printer 100. In addition, since communication between a plurality of computers and printers and the portable terminal 300 can be performed via one communication device 600, it is not necessary to provide a local interface for near field communication for each computer or printer. The cost for realizing the software setting system can be reduced.
[0222]
(Fourth embodiment)
In the above-described first to third embodiments, the communication destination list is displayed first, and the portable terminal 300 that functions as the transmission destination and the transmission source of the device information of the device information from the displayed communication destination list. The case where is specified is shown. Unlike the first to third embodiments, the fourth embodiment specifies the transmission destination of the device information and the portable terminal 300 that is the transmission source before acquiring the communicable destination table.
[0223]
Note that the configuration of the software setting system in the fourth embodiment is the same as that shown in FIGS. Moreover, the same code | symbol is used for the member similar to the member shown by FIGS.
[0224]
(Communication between printer and communication device)
FIG. 36 shows the processing contents of the printer when the printer and the communication device in the fourth embodiment communicate with each other. Specifically, FIG. 36 shows the processing contents of the printer 100 that communicates with the communication device 600b.
[0225]
The process of step S2202 is executed after waiting for input of information related to the designation of the portable terminal 300 that is the communication destination of device information (hereinafter referred to as “designated information”) (step S2201: YES). Note that the designation information input in the printer 100 is information that designates the portable terminal 300 that is the transmission destination of the device information.
[0226]
FIG. 37 shows an example of an input screen for specifying information. An input screen for specifying information is displayed on the operation panel unit 104. Further, the type of communication destination, identification method, identification information (telephone number, etc.), presence / absence of a security check, and password contents when there is a security check are input by the operation panel unit 104.
[0227]
FIG. 38 shows an example of the designation information. The designation information includes, for example, the type of the portable terminal 300, the identification information (for example, telephone number) of the portable terminal 300, the presence / absence of security, the content of the password when security is provided, and the like.
[0228]
In step S2202 of FIG. 36, designation information related to the designated portable terminal 300 is stored. Steps S2203 and S2204 are the same as steps S1501 and S1502 in FIG.
[0229]
In step S2205, it is determined whether or not the designated portable terminal 300 is included in the communicable destination table. Therefore, when the portable terminal 300 listed in the communicable destination table does not exist, or the portable terminal 300 is listed in the communicable destination table, the portable terminal 300 specified in S2201 If they do not match, the process of step S2203 is executed again. When there are a plurality of communication devices 600, a communicable table is acquired for each communication device 600, and whether or not the acquired portable terminal 300 specified by the specification information is included in the acquired communicable destination table. To be judged. As a result, the communicable destination table in which the portable terminal 300 designated in step S2201 is listed is searched, and the communication device 600b that can communicate with the designated portable terminal 300 is specified.
[0230]
In step S2206, designation information is transmitted to the specified communication device 600b.
[0231]
In step S2207, a process of receiving a security check by the portable terminal 300 designated based on the designation information is executed.
[0232]
In step S2208, the device information is transmitted to communication device 600b.
[0233]
(Communication between communication device and computer)
FIG. 39 is a flowchart illustrating the processing contents of the computer when the communication device and the computer communicate with each other in the fourth embodiment. Specifically, FIG. 39 shows the processing contents of the computer 200 that receives device information from the communication device 600a.
[0234]
The processing in steps S2301 to S2307 is performed except that the computer 200 processes instead of the printer 100 and the source portable terminal 300 is specified instead of the device information transmission destination portable terminal 300. This is the same as the processing in steps S2201 to S2207 in FIG. Therefore, detailed description is omitted.
[0235]
In step S2308, a device information transmission request is transmitted to the communication device 600a that can communicate with the designated portable terminal 300.
[0236]
In step S2309, it is determined whether device information has been received via the communication device 600a. In step S2310, the device information is stored in the storage unit 103.
[0237]
According to the above processing, when the device information transmission destination or the transmission source portable terminal 300 is not selected from the communicable destination list, the portable terminal 300 is directly designated by a telephone number or the like. Even if it exists, the communication apparatus 600a, b for communicating with the portable terminal 300 is specified automatically. In particular, this embodiment is effective when there are a large number of communication devices and it is unclear to which communication device a predetermined portable terminal 300 can communicate. Specifically, according to the present embodiment, by designating a predetermined portable terminal 300, device information is automatically transmitted to the predetermined portable terminal 300 via the automatically specified communication device 600b. In addition, device information can be received from a predetermined portable terminal 300 via the terminal 600a.
[0238]
The present invention is not limited to the above-described embodiments, but can be variously modified within the scope of the claims.
[0239]
In the above embodiment, the case where the present invention is applied to the software setting system for setting the printer driver, which is software for controlling the printer, has been described. However, the present invention is not limited to this case. For example, the present invention can be applied to all cases where a device driver necessary for using and controlling a network device having a network interface from a computer is set in the computer. Specifically, the present invention can be applied to setting a device driver necessary when a printer, a digital copying machine, a network scanner, a network facsimile, or the like is used from a computer. Furthermore, the present invention can also be applied to remotely sensing various multimedia devices having a network interface or setting device drivers necessary for remote control in a computer.
[0240]
In the above embodiment, a computer has been described as an example of a device for which a device driver is set. However, the present invention is not limited to this case. That is, the present invention can be applied to all cases where a device driver is set in an information processing terminal that requires a device driver to use a network device.
[0241]
Note that each means for executing processing in the software setting system according to the present invention and a driver setting method are software (program) for operating each device such as a computer, device, or portable terminal, or a dedicated hardware circuit. It can be realized by either.
[0242]
When the present invention is realized by a program, the program for operating each device may be provided by a readable recording medium such as a flexible disk or a CD-ROM. The program may be incorporated in the device as a function of the device.
[0243]
【The invention's effect】
According to the present invention, since information about a device can be easily obtained using short-range communication, a program for controlling the device in the information processing terminal can be easily set. As a result, there is no need to set connection information such as the IP address and subnet mask of the information processing terminal in advance, and even a user who does not fully understand the network configuration can execute a program for controlling devices. Can be set.
[0244]
In addition, since device information acquired by short-range communication using a portable terminal can include information related to an optional device, the device is controlled even when the configuration of the optional device is complicated. Program can be set accurately.
[0245]
Furthermore, since the user can set a program for controlling the device through short-range communication with the device and the computer using the portable terminal, the user may set the program that does not correspond to the device desired by the user by mistake. Can be prevented.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an overall configuration of a software setting system corresponding to a first embodiment of the present invention.
FIG. 2 is a block diagram illustrating an example of a configuration of a printer in FIG.
FIG. 3 is a block diagram illustrating an example of a configuration of a computer in FIG.
4 is a block diagram showing an example of the configuration of the portable terminal in FIG. 1. FIG.
FIG. 5 is a diagram showing an example of an operation sequence of the software setting system corresponding to the first embodiment.
FIG. 6 is a diagram illustrating an example of device information of a printer.
FIG. 7 is a diagram illustrating an example of information regarding setting of an optional device included in device information.
FIG. 8 is a diagram illustrating an example of information for connecting to an external device included in device information.
FIG. 9 is a flowchart showing processing contents of the printer when the printer and the portable terminal in the first embodiment communicate with each other.
10 is a flowchart showing a subroutine corresponding to the communicable destination list display process in FIG. 9;
FIG. 11 is a diagram showing a display example of a communicable destination list.
12 is a flowchart showing a subroutine corresponding to processing for receiving a security check in FIG. 9;
FIG. 13 is a flowchart showing the processing contents of the portable terminal when the printer and the portable terminal in the first embodiment communicate with each other.
FIG. 14 is a flowchart showing a subroutine corresponding to the access permission process in FIG. 13;
FIG. 15 is a flowchart showing processing contents of the portable terminal when the portable terminal and the computer communicate with each other in the first embodiment.
FIG. 16 is a flowchart showing the processing contents of the computer when the computer and the portable terminal in the first embodiment communicate with each other.
FIG. 17 is a flowchart illustrating processing contents of the printer according to the first embodiment.
FIG. 18 is a diagram illustrating an example of a designation screen.
FIG. 19 is a flowchart illustrating processing contents of the computer according to the first embodiment;
FIG. 20 is a flowchart showing processing contents of a computer for selecting the latest driver.
FIG. 21 is a flowchart illustrating processing contents of the portable terminal when the printer and the portable terminal according to the second embodiment communicate with each other.
FIG. 22 is a flowchart illustrating processing contents of the printer when the printer and the portable terminal according to the second embodiment communicate with each other.
FIG. 23 is a flowchart illustrating processing contents of a computer when the portable terminal and the computer communicate with each other in the second embodiment.
FIG. 24 is a flowchart showing the processing contents of the portable terminal when the portable terminal and the computer communicate with each other in the second embodiment.
FIG. 25 is a block diagram showing an overall configuration of a software setting system corresponding to a third embodiment of the present invention.
26 is a block diagram illustrating a configuration of the printer in FIG. 25. FIG.
27 is a block diagram illustrating a configuration of a computer in FIG. 25. FIG.
28 is a block diagram showing a configuration of a communication device in FIG. 25. FIG.
FIG. 29 is a flowchart illustrating processing contents of a printer when a printer and a communication device in the third embodiment communicate with each other.
30 is a flowchart showing a subroutine corresponding to the communication destination table acquisition process in FIG. 29;
FIG. 31 is a flowchart illustrating processing contents of a communication device that receives device information from a printer and transmits the device information to a portable terminal in the third embodiment.
32 is a flowchart showing a subroutine corresponding to creation and transmission processing of a communicable destination table in FIG. 31. FIG.
FIG. 33 is a flowchart showing a subroutine corresponding to processing for receiving a security check in FIG. 31;
FIG. 34 is a flowchart showing processing contents of a communication device that receives device information from a portable terminal in the third embodiment.
FIG. 35 is a flowchart illustrating processing contents of a computer when a communication device and the computer communicate with each other in the third embodiment.
FIG. 36 is a flowchart illustrating processing contents of a printer when a printer and a communication device according to a fourth embodiment communicate with each other.
FIG. 37 is a diagram showing an example of an input screen for specifying information.
FIG. 38 is a diagram illustrating an example of designation information.
FIG. 39 is a flowchart illustrating processing contents of a computer when a communication device and the computer communicate with each other in the fourth embodiment;
[Explanation of symbols]
100 ... printer,
101 ... CPU,
103 ... storage part,
104 ... operation panel section,
106: Network interface,
107: Local interface,
108 ... sensor,
200: Computer (information processing terminal),
201 ... CPU,
203 ... storage unit,
204 ... input device,
205 ... Display,
206 ... network interface,
207 ... Local interface,
300 ... portable terminal,
301 ... CPU,
303 ... storage part,
304 ... Input key,
306 ... Display,
308 ... Local interface,
400 ... Network,
600a, b ... communication devices.

Claims (11)

A device and an information processing terminal connected to a network, a portable terminal capable of short-range wireless communication with the device and the information processing terminal, and a program for controlling the device via the network A software setting system for setting information processing terminals,
The equipment is
A first list for listing a first short-range wireless communication interface for short-range wireless communication with the portable terminal and a portable terminal in a communication state capable of communication connection via the first short-range wireless communication interface Means, a transmission destination designating means for designating a portable terminal that is a transmission destination of information related to the device among the listed portable terminals, and the designated short distance to the designated portable terminal Device information transmitting means for transmitting information related to the device via a wireless communication interface,
The designated portable terminal is
Portable short-range wireless interface for short-range wireless communication with the device and the information processing terminal, and portable storage means for storing information about the device received from the device via the portable short-range wireless communication interface And
The information processing terminal
A second short-range wireless interface for short-range wireless communication with the portable terminal, and a second list means for listing portable terminals in a communication state capable of communication connection via the second short-range wireless communication interface A transmission source designating unit for designating a portable terminal that is a transmission source of information on the device from the listed portable terminals, and the second short-range wireless communication from the designated portable terminal. Device information receiving means for receiving information on the equipment via a communication interface, storage means for storing information on the equipment, and setting means for setting the program based on the information on the equipment,
A software setting system characterized by that. A device and an information processing terminal connected to a network, a portable terminal capable of short-range wireless communication with the device and the information processing terminal, and a program for controlling the device via the network A software setting system for setting information processing terminals,
The portable terminal is
A portable short-range wireless interface for short-range wireless communication with the device and the information processing terminal, and a first list that lists the devices in a communication state capable of communication connection via the portable short-range wireless interface Means, a portable transmission source designating means for designating a device that is a transmission source of information related to the device among the listed devices, and the designated device via the portable short-range wireless interface Portable device information receiving means for receiving information about the device, portable storage means for storing information about the device received from the device via the portable short-range wireless communication interface, and the portable short-range Second list means for listing the information processing terminals in a communication state capable of communicating via a wireless interface A portable transmission destination designating unit for designating an information processing terminal that is a transmission destination of information related to the device among the listed information processing terminals, and the portable short-range wireless interface for the designated device Portable device information transmitting means for transmitting information on the device via
The designated device is
A first short-range wireless communication interface for short-range wireless communication with the portable terminal; device information transmission means for transmitting information on the device to the portable terminal via the first short-range wireless communication interface; With
The designated information processing terminal is
A second short-range wireless interface for short-range wireless communication with the portable terminal; device information receiving means for receiving information about the device from the portable terminal via the second short-range wireless communication interface; and the device Storage means for storing information about, and setting means for setting the program based on information about the device,
A software setting system characterized by that.   3. The software setting system according to claim 1, wherein the information processing terminal further includes a program selection unit that selects a program to be set based on information on the device.   The software setting system according to claim 3, wherein the program selection unit acquires a program to be set through a mobile communication network connected through the portable terminal. A device and an information processing terminal connected to a network, a portable terminal capable of short-range wireless communication with the device and the information processing terminal, and used in a program for controlling the device via the network A software setting system for setting data to be processed in the information processing terminal,
The equipment is
A first list for listing a first short-range wireless communication interface for short-range wireless communication with the portable terminal and a portable terminal in a communication state capable of communication connection via the first short-range wireless communication interface Means, a transmission destination designating means for designating a portable terminal that is a transmission destination of information related to the device among the listed portable terminals, and the designated short distance to the designated portable terminal Device information transmitting means for transmitting information related to the device via a wireless communication interface,
The designated portable terminal is
Portable short-range wireless interface for short-range wireless communication with the device and the information processing terminal, and portable storage means for storing information about the device received from the device via the portable short-range wireless communication interface And
The information processing terminal
A second short-range wireless interface for short-range wireless communication with the portable terminal, and a second list means for listing portable terminals in a communication state capable of communication connection via the second short-range wireless communication interface And a transmission source designating unit for designating a portable terminal that is a transmission source of information related to the device from the listed portable terminals, and the second portable radio from the designated portable terminal. Device information receiving means for receiving information on the equipment via a communication interface, storage means for storing information on the equipment, and setting means for setting the data based on the information on the equipment,
A software setting system characterized by that. A device and an information processing terminal connected to a network, a portable terminal capable of short-range wireless communication with the device and the information processing terminal, and used in a program for controlling the device via the network A software setting system for setting data to be processed in the information processing terminal,
The portable terminal is
A portable short-range wireless interface for short-range wireless communication with the device and the information processing terminal, and a first list that lists the devices in a communication state capable of communication connection via the portable short-range wireless interface Means, a portable transmission source designating means for designating a device that is a transmission source of information related to the device among the listed devices, and the designated device via the portable short-range wireless interface Portable device information receiving means for receiving information about the device, portable storage means for storing information about the device received from the device via the portable short-range wireless communication interface, and the portable short-range Second list means for listing the information processing terminals in a communication state capable of communicating via a wireless interface A portable transmission destination designating unit for designating an information processing terminal that is a transmission destination of information related to the device among the listed information processing terminals, and the portable short-range wireless interface for the designated device Portable device information transmitting means for transmitting information on the device via
The designated device is
A first short-range wireless communication interface for short-range wireless communication with the portable terminal; device information transmission means for transmitting information on the device to the portable terminal via the first short-range wireless communication interface; With
The designated information processing terminal is
A second short-range wireless interface for short-range wireless communication with the portable terminal; device information receiving means for receiving information about the device from the portable terminal via the second short-range wireless communication interface; and the device Storage means for storing information on, and setting means for setting the data based on information on the device,
A software setting system characterized by that.   The software setting system according to claim 5 or 6, wherein the information processing terminal sets data used in the existing program in the information processing terminal. Using a device and an information processing terminal connected to a network, and a portable terminal capable of short-range wireless communication with the information processing terminal and the device, a program for controlling the device via the network A software setting method for setting in an information processing terminal,
Listing the portable terminal in a communication state in which the device is communicably connectable via a first short-range wireless communication interface for short-range wireless communication; and
The device accepts designation of a portable terminal that is a transmission destination of information related to the device from among the listed portable terminals, and the first short-range wireless communication interface to the designated portable terminal Sending information about the device via
Storing the information related to the device received via the portable short-range wireless interface for the designated portable terminal to perform short-range wireless communication with the device and the information processing terminal;
Listing the portable terminal in a communication state in which the information processing terminal is communicably connectable via a second short-range wireless communication interface for short-range wireless communication; and
The information processing terminal accepts designation of a portable terminal that is a transmission source of information related to the device from among the listed portable terminals;
The information processing terminal receiving information on the device from the portable terminal via the second short-range wireless communication interface from the designated portable terminal;
The information processing terminal storing information related to the device;
The information processing terminal sets the program based on information on the device;
A software setting method characterized by comprising: Using a device and an information processing terminal connected to a network, and a portable terminal capable of short-range wireless communication with the information processing terminal and the device, a program for controlling the device via the network A software setting method for setting in an information processing terminal,
Listing the devices in a communication state in which the portable terminal is communicably connectable via a portable short-range wireless interface for short-range wireless communication; and
The portable terminal accepting designation of a device that is a transmission source of information related to the device from the listed devices;
The designated device transmits information about the device via a first short-range wireless communication interface for short-range wireless communication with the portable terminal;
The portable terminal receiving information regarding the device from the designated device via the portable short-range wireless interface;
The portable terminal storing information about the device received from the device via the portable short-range wireless communication interface;
Listing the information processing terminal in a communication state in which the portable terminal can communicate via the portable short-range wireless interface; and
The portable terminal accepts designation of an information processing terminal that is a transmission destination of information related to the device from the listed information processing terminals;
The portable terminal transmitting information about the device to the designated device via the portable short-range wireless interface;
The designated information processing terminal receives information on the device from the portable terminal via a second short-range wireless communication interface for short-range wireless communication;
The information processing terminal storing information related to the device;
The information processing terminal sets the program based on information on the device;
A software setting method characterized by comprising: Information processing terminal used in a software setting system having a device connected to a network and a portable terminal that receives information about the device from the device via a portable short-range wireless interface for short-range wireless communication Because
A short-range wireless interface for an information processing terminal for short-range wireless communication with the portable terminal;
A list means for listing portable terminals in a communication state capable of communication connection via the short-range wireless interface for the information processing terminal;
A transmission source designating means for designating a portable terminal that is a transmission source of information on the device from the listed portable terminals;
Device information receiving means for receiving information on the device from the designated portable terminal via the short-range wireless interface for information processing terminal;
Storage means for storing information about the device;
An information processing terminal comprising: setting means for setting the program based on information on the device. Information processing terminal used in a software setting system having a device connected to a network and a portable terminal that receives information on the device from the device via a portable short-range wireless interface for short-range wireless communication Implemented in
A procedure for listing portable terminals in a communication state capable of communication connection via a short-range wireless interface for information processing terminal for short-range wireless communication with the portable terminal;
A procedure of accepting designation of a portable terminal that is a transmission source of information related to the device among the listed portable terminals;
A procedure for receiving information about the device from the designated portable terminal via the short-range wireless interface for information processing terminal;
A procedure for storing information about the device;
A software setting program for causing an information processing terminal to execute a procedure for setting the program based on information on the device.

Images