JP6175793B2 - Information processing program and information processing apparatus - Google Patents

Description

  The present invention relates to an information processing program and an information processing apparatus.

  Patent Document 1 describes an information processing apparatus that downloads an application description file with reference to a program URL in control data received by approaching an IC chip provided on a poster. Specifically, the information processing apparatus described in Patent Literature 1 determines whether an application corresponding to the application description file is installed in the own apparatus and whether the version of the application is consistent. If it is not installed on its own device or if the version does not match, the application is downloaded from the content server and activated after being installed.

JP 2005-275891 A

  However, according to Patent Document 1, when the versions are not matched, the user cannot use even some functions based on the application description file until the matched version of the application is installed. Therefore, even when the user desires to use some functions based on the application description file, the user needs to wait until the installation of the matching version of the application is completed, which is inconvenient.

  The present invention has been made in view of the above-described circumstances, and even when the versions of applications installed on the receiving device and the transmitting device are different from each other, the receiving device is not connected to the transmitting device. It is an object of the present invention to provide an information processing program and an information processing apparatus that can suitably process data received from the apparatus.

  In order to achieve this object, an information processing program according to the first aspect of the present invention is a program that can be executed by a control unit of an information processing device that can communicate with an external device and a server on a network. When the processing information including the data that can be processed and the version of the program corresponding to the data is received from the external device, and the processing information is received by the data receiving unit, the processing information Version determination means for determining whether the version included in the device is newer than the current version of the program installed in the device, and the version included in the processing information by the version determination means is the current version If it is determined that the data is newer, of the data included in the processing information A first process control unit that processes data that can be processed by the current version of the program; and the version determination unit determines that the version included in the processing information is newer than the current version, The control unit functions as an update unit that downloads the version of the program included in the processing information or a version newer than the version from the server on the network, and updates the current version of the program to the downloaded version. Let

  An information processing program according to a second aspect of the present invention is a program that is installed in an information processing apparatus that can communicate with an external device and a server on a network, and that can be executed by a control unit of the information processing apparatus. Inquiry means for inquiring of the external device the version of the program of the same type as the program installed in the external device corresponding to the processable data, and from the external device in response to the inquiry by the inquiry means, Version receiving means for receiving a version of a program of the same type as the program installed in the apparatus, and determining whether the version received by the version receiving means is newer than the current version of the program installed in the apparatus. Version And the version determination means on the network where the program can be downloaded when it is determined that the version of the program of the same type as the program installed in the external device is newer than the current version. A connection determination unit that determines whether or not the own device can be connected to the server, and the version receiving unit that receives the version reception unit when the connection determination unit determines that the own device is connectable to the server on the network. The version program or a version newer than the version is downloaded from a server on the network, the current version of the program is updated to the downloaded version, and the version determination unit is used to update the program. If it is determined that the version of the program of the same type as Gram is newer than the current version, the program of the same type as the program installed in the external device on condition that the program has been updated by the update means The control unit is caused to function as data transmission means for transmitting data to be processed to the external device.

  The present invention can be configured in various modes such as an information processing device, a control device that controls the information processing device, an information processing system, an information processing method, and a recording medium that records an information processing program.

  According to the information processing program of claim 1, when it is determined that the version of the program corresponding to the data received from the external device is newer than the current version of the program installed in the own device, the received data Of these, data that can be processed by the current version of the program is processed by the first processing control means. In such a case, the version of the program corresponding to the received data or a version of the program that is newer than the version is downloaded from the server, and the program installed on the device is updated to the downloaded version. . Therefore, when data corresponding to a newer version than the installed version of the program is received from an external device, it can be received even if the program cannot be updated due to reasons such as the inability of the device to connect to the network. The processed data can be suitably processed according to the current version. Thereby, the user can acquire the processing result of a part of the received data without waiting for the update of the program, which is highly convenient.

  The “information processing program” described in the claims is not limited to a single program, but includes a case where the program is one or two or more programs among a plurality of programs acting cooperatively. . Further, the “processing information” described in the claims is not limited to the case where data that can be processed by the program and the version of the program corresponding to the data are included in one data. This includes the case where the data different from the version is configured as one data group.

  According to the information processing program of claim 2, in addition to the effect of claim 1, the following effect is obtained. On the condition that this program has been updated, at least the data that has not been processed by the first processing control means is processed by the second processing control means, so that all processing of the received data is completed. Can be made.

  According to the information processing program of claim 3, in addition to the effect of claim 2, the following effect is obtained. At least the data that has not been processed by the first processing control means is stored in the storage unit in which the stored contents are not lost when the program is updated. Therefore, even if the program is updated, the data is not stored in the storage unit. The stored data can be retained without being lost. Therefore, after the update of the program, at least data that has not been processed by the first processing control means can be processed by the second processing control means. And since the data memorize | stored in the memory | storage part are deleted after the process of the data by a 2nd process control means, the memory consumption of a memory | storage part can be suppressed.

According to the information processing program of claim 4, in addition to the effect of claim 1, the following effect is obtained. The server on the network is configured to include a cloud server that can store various data and a download server that can download the program. When processing information is received, the processing information is stored in the storage unit. Of the data included in the received processing information, at least data that has not been processed by the first processing control means is transmitted to the cloud server , and the processing information stored in the storage unit is deleted on the condition of the transmission. . Then, on the condition that the program is downloaded from the download server by the update means and updated , the transmitted data is acquired from the cloud server that is the transmission destination of the data, and at least the first processing among the acquired data not treated with the control unit data is processed. Therefore, since at least data that has not been processed by the first processing control means is transmitted to the cloud server, even if the program is updated, the data can be retained without being lost. Thereby, after the update of the program, at least data that has not been processed by the first processing control means can be processed by the second processing control means. Moreover, on the condition that at least the data that has not been processed by the first processing control means is transmitted to the cloud server, the processing information including the data is deleted from the storage unit, so that the memory consumption of the storage unit can be suppressed.

According to the information processing program of claim 5, in addition to the effect of claim 2 or 3, the following effect is obtained. The server on the network is configured to include a cloud server capable of storing various types of data. The data processed by the first processing control unit on the condition that the data is processed by the first processing control unit, and the cloud Position information indicating a predetermined storage location in the server is transmitted to the external device. Then, on condition that the data is processed by the second processing control means, the data processed by the second processing control means is transmitted to the cloud server so as to be stored in the storage location indicated by the position information. The Therefore, since the external device can access the storage location received from its own device and receive the data processed by the second processing control means, the second processing control means can be connected to the network. Thus, the processed data can be received.

  According to the information processing program of claim 6, in addition to the effect of claim 2, the following effect is obtained. The data processed by the first process control means is transmitted to the external device on condition that the data is processed by the first process control means. Then, on condition that the data is processed by the second processing control unit, the data processed by the second processing control unit is transmitted to the external device based on the acquired mail address. Therefore, the external device can receive the data processed by the second processing control means by e-mail, so that the data processed by the second processing control means can be received at any place where the mail can be received. .

  According to the information processing program of the seventh aspect, in addition to the effect produced by any one of the first to sixth aspects, the following effect is produced. Since the processing information is received from the external device using a communication method different from the communication with the server via the network, each communication method can be used properly.

According to the information processing apparatus of the eighth aspect, the same effect as the information processing program of the first aspect is obtained.

It is a block diagram which shows the electric constitution of a terminal. (A)-(c) is a flowchart which respectively shows a transmission terminal process, a receiving terminal process, and an update process. It is a schematic diagram explaining an example of the process performed to the received information. It is a flowchart which shows the transmission terminal process of 2nd Embodiment. It is a flowchart which shows the receiving terminal process of 2nd Embodiment. (A) And (b) is a flowchart which respectively shows the receiving terminal process of 3rd Embodiment, and an update process. (A) And (b) is a flowchart which respectively shows the receiving terminal process of 4th Embodiment, and an update process. (A) And (b) is a flowchart which respectively shows the receiving terminal process of 5th Embodiment, and an update process.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. First, a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a block diagram showing an electrical configuration of a terminal 10 equipped with a data transmission / reception application (hereinafter referred to as “data transmission / reception application”) 12b which is an embodiment of an information processing program of the present invention. The terminal 10 on which the data transmission / reception application 12b is mounted can function as the reception terminal 10A or the transmission terminal 10B. The transmitting terminal 10B can transmit data to the receiving terminal 10A, and the receiving terminal 10A can receive data from the transmitting terminal 10B.

  Although details will be described later, when the version installed in the receiving terminal 10A is older than the version installed in the transmitting terminal 10B, the data transmitting / receiving application 12b cannot connect to the download server 100 and is new. Even in a situation where the version cannot be updated, the receiving terminal 10A is configured to process data that can be processed by the data transmission / reception application 12b of the current version among the data received from the transmitting terminal 10B. Therefore, the user of the receiving terminal 10A can acquire the processing result of a part of the data received from the transmitting terminal 10B without waiting for the data transmission / reception application 12b to be updated to a new version. Is expensive. In this specification, the “version” of the data transmission / reception application 12b indicates a version (number of revisions) of the data configuration that can be processed by the data transmission / reception application 12b.

  The terminal 10 of the present embodiment is configured as a mobile terminal such as a smartphone. The terminal 10 includes a CPU 11, a flash memory 12, a RAM 13, an operation key 15, an LCD 16, a touch panel 17, a memory card interface (memory card I / F) 18, a voice input / output unit 19, a telephone network communication unit 20, and a short-range communication unit. 22, a wireless LAN communication unit 23 is provided. These units are connected to each other via a bus line 24.

  The CPU 11 controls each unit connected to the bus line 24 according to a fixed value, a program, or the like stored in the flash memory 12 or the like. The flash memory 12 is a rewritable nonvolatile memory. The flash memory 12 stores an operating system 12a (hereinafter referred to as OS 12a) and a data transmission / reception application 12b. Hereinafter, the CPU 11 that executes a program such as an application or an operating system may be simply described by a program name. For example, the description “application” may mean “CPU 11 that executes the application”. The OS 12 a is basic software for realizing standard functions of the terminal 10. In this embodiment, an Android (registered trademark) OS is adopted as the OS 12a.

  The data transmission / reception application 12b is an application for causing the terminal 10 to function as the reception terminal 10A or the transmission terminal 10B and to perform data transmission / reception between the terminals 10A and 10B. Specifically, the data transmission / reception application 12b causes the terminal 10 that functions as the transmission terminal 10B to transmit data, and causes the terminal 10 that functions as the reception terminal 10A to receive the data. Each process shown in the flowcharts of FIGS. 2A to 2C described later is executed by the CPU 11 in accordance with the data transmission / reception application 12b. In addition, the data transmission / reception application 12b of this embodiment performs transmission / reception of the data performed between terminal 10A, 10B by near field communication.

  The flash memory 12 is provided with an information storage area 12c. In the present embodiment, the NDEF information received from the transmission terminal 10B is stored in the information storage area 12c before the reception terminal 10A updates the data transmission / reception application 12b. Since the NDEF information stored in the information storage area 12c is retained without being lost even when the receiving terminal 10A updates the data transmitting / receiving application 12b, the receiving terminal 10A stores the data transmitting / receiving application 12b. After the update, the NDEF information stored in the information storage area 12c can be processed using the updated data transmission / reception application 12b. The “NDEF information” is information that conforms to the data format of the near field communication of the non-contact communication method according to the NFC (Near Field Communication) standard.

  The RAM 13 is a rewritable volatile memory having a temporary area for temporarily storing various data when the CPU 11 executes the data transmission / reception application 12b and the like. The RAM 13 is provided with an update flag 13a. The update flag 13a is a flag indicating whether or not the data transmission / reception application 12b is waiting for an update. When the update flag 13a indicates ON, it indicates that the data transmission / reception application 12b is waiting for an update. The update flag 13a is initialized to OFF with the start of a transmission terminal process (see FIG. 2A) and a reception terminal process (see FIG. 2B) described later.

  The operation key 15 is a mechanical key for inputting an instruction or the like to the terminal 10, and is provided on the housing of the terminal 10, for example. The LCD 16 is a liquid crystal display device that displays various screens. The touch panel 17 is provided so as to overlap the LCD 16, and inputs an instruction or the like to the terminal 10 by contacting or approaching an indicator such as a finger or a stick. The memory card I / F 18 is an interface to which a rewritable nonvolatile memory card MC is attached, and controls writing or reading of data with respect to the memory card MC. The voice input / output unit 19 is a voice input / output device including a microphone, a speaker, and the like. The telephone network communication unit 20 is a circuit for performing a call via a mobile phone network (not shown).

  The short-range communication unit 22 is an interface for performing short-range communication with a very short distance of about 10 cm, for example, as a communicable distance. In the present embodiment, the near field communication performed by the near field communication unit 22 is a non-contact communication according to the NFC standard. The terminal 10 of the present embodiment is configured to be able to perform near field communication with the other terminal 10 via the near field communication unit 22. When the distance between the two terminals 10 (10A, 10B) is a communicable distance or less, transmission / reception of NDEF information by short-range communication via the short-range communication unit 22 is performed between the terminals 10A, 10B. Is done.

  The wireless LAN communication unit 23 is an interface for performing wireless communication using a wireless LAN compliant with the IEEE802.11b / g standard. In this embodiment, the wireless LAN communication unit 23 includes the wireless LAN communication unit 23 in either an infrastructure mode via an access point (not shown) that is a relay device or an ad hoc mode that is a direct connection. Wi-Fi (registered trademark) is connected to the terminal 10. The wireless LAN communication unit 23 connects the terminal 10 and the various servers 100, 200, and 300 on the network 800 through an access point (not shown) so that they can communicate with each other.

  The download server 100 is a server in which a download site where the data transmission / reception application 12b can be downloaded is provided by a supplier of the data transmission / reception application 12b. The terminal 10 can download the data transmission / reception application 12b from the download server 100 by connecting to the download site of the download server 100. The cloud server 200 is a database server prepared by a service provider to provide an electronic file storage service (cloud service). The server 300 is various servers that are neither the download server 10 nor the cloud server 200.

  FIG. 2A is a flowchart illustrating a transmission terminal process executed by the CPU 11 when the terminal 10 functions as the transmission terminal 10B. This process is started when the user operates the user interface displayed on the LCD 16 and selects the function of the terminal 10 as the transmission terminal 10B while selecting one or more transmission information to be transmitted. The Information that can be transmitted and received between the transmission terminal 10B and the reception terminal 10A by the data transmission / reception application 12b, that is, information that can be the transmission information includes telephone book data, image data, document creation software, and spreadsheet. Various data such as data created by various software such as software, mail data, and telephone directory data can be exemplified.

  In step S201 (hereinafter, step is omitted), the CPU 11 converts the transmission information selected by the user and the version information indicating the version of the data transmission / reception application 12b installed in the transmission terminal 10B, which is its own device, into NDEF information. Store. Next, the CPU 11 transmits NDEF information from the short-range communication unit 22 (S202), and ends this process. The NDEF information transmitted from the near field communication unit 22 by the process of S202 is received by the receiving terminal 10A located within the communication range of the near field communication.

  FIG. 2B is a flowchart illustrating a receiving terminal process executed by the CPU 11 when the terminal 10 functions as the receiving terminal 10A. This process is started when the user operates the user interface displayed on the LCD 16 and designates that the terminal 10 functions as the receiving terminal 10A. The CPU 11 waits for NDEF information to be received via the short-range communication unit 22 (S221: No). When the NDEF information is received via the short-range communication unit 22 (S221: Yes), the CPU 11 stores the received NDEF information in the temporary area of the RAM 13 (S222), and acquires version information from the NDEF information (S223). ).

  The CPU 11 indicates that the version of the data transmission / reception application 12b installed in the transmission terminal 10B (the version of the other party) indicated by the acquired version information is the version of the data transmission / reception application 12b installed in the reception terminal 10A as its own device ( It is determined whether it is newer than its own version) (S224). When the CPU 11 determines that the version of the other party is not newer than its own version (S224: No), the CPU 11 analyzes the received NDEF information and executes processing according to the content (S229). Specifically, for example, when the information included in the NDEF information, that is, the information selected as the transmission information by the transmission terminal 10B is the phone book data, the CPU 11 stores the received phone book data in the memory in S229. It is added and stored in the phone book stored in the card MC or the like. After the process of S229, the CPU 11 deletes the NDEF information stored in the RAM 13 (S230) and ends this process.

  On the other hand, when the CPU 11 determines in S224 that the version of the other party is newer than its own version (S224: Yes), the CPU 11 transmits wireless LAN communication to the download server 100 provided with a download site where the data transmission / reception application 12b can be downloaded. It is determined whether connection is possible via the unit 23 (S225). When the CPU 11 determines that the connection with the download server 100 via the wireless LAN communication unit 23 is possible (S225: Yes), the CPU 11 stores the NDEF information in the information storage area 12c (S226).

  After the processing of S226, the CPU 11 downloads the data transmission / reception application 12b having the same version as the counterpart version from the download site of the download server 100 using the Wi-Fi connection via the wireless LAN communication unit 23, and the own device ( The data transmission / reception application 12b installed in the receiving terminal 10A) is updated (S227). Since the latest version of the data transmission / reception application 12b is constantly updated on the download server of the download server 100, the data transmission / reception application installed in the device itself is downloaded by downloading the appropriate version of the data transmission / reception application 12b. The version of 12b can be upgraded to a newer version than the current version, in this embodiment, the same version as the partner's version. Next, the CPU 11 reads the NDEF information stored in the information storage area 12c (S228). After the process of S228, the CPU 11 analyzes the read NDEF information, executes the process according to the content (S229), and obtains the NDEF information stored in the information storage area 12c and the NDEF information stored in the RAM 13. Delete (S230), and the process ends.

  In S225, when the CPU 11 determines that connection with the download server 100 via the wireless LAN communication unit 23 is impossible (S225: No), the CPU 11 can process the received NDEF information with its own version. The state is corrected (S231), the corrected NDEF information is analyzed, and the process is executed according to the content (S232). Note that in S225, the CPU 11 determines that the connection with the download server 100 via the wireless LAN communication unit 23 is impossible. If the network 800 has a failure or the download server 100 has a failure. The case where has occurred. After the process of S232, the CPU 11 stores the NDEF information in the information storage area 12c (S233), and sets the update flag 13a to on (S234). The CPU 11 deletes the NDEF information stored in the RAM 13 (S235) and ends this process.

  FIG. 2C is a flowchart showing an update process executed by the CPU 11 when the terminal 10 functions as the receiving terminal 10A. This process is started periodically, for example, every 5 minutes after the start of the receiving terminal process in FIG. The CPU 11 determines whether or not the update flag 13a is set to ON (S241). When the CPU 11 determines that the update flag 13a is not set to ON (S241: No), the CPU 11 ends this process.

  When the CPU 11 determines that the update flag 13a is set to ON (S241: Yes), the CPU 11 determines whether the download server 100 can be connected via the wireless LAN communication unit 23 (S242). When the CPU 11 determines that connection with the download server 100 via the wireless LAN communication unit 23 is impossible (S242: No), the CPU 11 ends this process.

  On the other hand, if the CPU 11 determines that the connection with the download server 100 via the wireless LAN communication unit 23 is possible (S242: Yes), a new version of the data transmission / reception application 12b is downloaded in the same manner as the process of S227 described above. Update the data transmission / reception application 12b downloaded from the server 100 and installed in the own device (receiving terminal 10A) (S243). Next, the CPU 11 reads the NDEF information stored in the information storage area 12c (S244), analyzes the read NDEF information, and executes processing according to the content (S245). Next, the CPU 11 deletes the NDEF information stored in the information storage area 12c (S246), and ends this process.

  Here, with reference to FIG. 3, when the version of the data transmission / reception application 12b installed in the transmission terminal 10B is different from the version of the data transmission / reception application 12b installed in the reception terminal 10A that is its own device, Processing performed on information received by the data transmission / reception application 12b will be described. In the example shown in FIGS. 3A and 3B, the phone book data processed by the new version of the data transmission / reception application 12b includes name data D1, mail address data D2, and phone number data D3. The address book data processed by the old version data transmission / reception application 12b includes name data D1, mail address data D2, and phone number data D3. Consists of

  First, FIG. 3 (a) shows that the version of the data transmission / reception application 12b installed in the transmission terminal 10B is newer than the version of the data transmission / reception application 12b installed in the reception terminal 10A as its own apparatus, and the reception terminal 10A is a schematic diagram illustrating an example of processing performed on information received by the data transmission / reception application 12b when 10A cannot connect to the download server 100. FIG.

  In the reception terminal process of FIG. 2B described above, the version of the data transmission / reception application 12b installed in the transmission terminal 10B is newer than the version of the data transmission / reception application 12b installed in the reception terminal 10A as its own device. In step S231, the CPU 11 corrects the data D1 to D4 by deleting the address data D4 that cannot be interpreted by the old version of the data transmission / reception application 12b, so that the received NDEF information can be processed in its own version. . Next, in S232, the CPU 11 stores the data in the phone book composed of the data D1 to D3 obtained by the correction in addition to the phone book stored in the memory card MC or the like.

  Next, FIG. 3B shows data when the version of the data transmission / reception application 12b installed in the transmission terminal 10B is older than the version of the data transmission / reception application 12b installed in the reception terminal 10A as its own device. It is a schematic diagram explaining an example of the process performed to the information which the transmission / reception application 12b received.

  In the reception terminal process of FIG. 2B described above, the version of the data transmission / reception application 12b installed in the transmission terminal 10B is older than the version of the data transmission / reception application 12b installed in the reception terminal 10A as its own device. In S229, the CPU 11 uses the address data D4 as empty data, and additionally stores the phone book data composed of the data D1 to D4 in the phone book stored in the memory card MC or the like.

  According to the first embodiment, when the version of the transmission terminal 10B is newer than the version of the reception terminal 10A and the reception terminal 10A cannot connect to the download server 100, the reception terminal 10A receives from the transmission terminal 10B. The processed data is processed to the extent that it can be processed by its own version. Therefore, the user of the receiving terminal 10A can receive the minimally processed data without waiting for the data transmission / reception application 12b to be updated. For example, as shown in FIG. 3A, of the phone book data composed of the data D1 to D4, the data D1 to D3 are used without waiting for the data transmission / reception application 12b to be updated. be able to. In addition, when the data received from the transmission terminal 10B is image data, an output image obtained by processing the image data with low processing capability by the old version without waiting for the data transmission / reception application 12b to be updated. For example, the image can be displayed on the LCD 16 as a low resolution or monochrome image.

  When the data transmission / reception application 12b is updated in the reception terminal 10A, the reception terminal 10A processes the data received from the transmission terminal 10B by the updated data transmission / reception application 12b. Can be completed. Thus, for example, even when the data D1 to D3 are stored by the old version of the phone book data composed of the data D1 to D4, the complete phone book data, that is, the data D1 to D4 is updated after the update. Can be stored. Further, even if an image based on the image data received from the transmission terminal 10B is displayed on the LCD 16 as a low-resolution or monochrome image by the old version, it can be displayed on the LCD 16 as a high-resolution or color image after the update. it can.

  Further, when the version of the transmission terminal 10B is newer than the version of the reception terminal 10A and the reception terminal 10A cannot connect to the download server 100, the reception terminal 10A processes the data received from the transmission terminal 10B with its own version. After processing as much as possible, the received NDEF information is stored in the information storage area 12c. Therefore, even if the data transmission / reception application 12b installed in the receiving terminal 10A is updated, the data received from the transmitting terminal 10B can be retained without losing the data. It can be processed by the application 12b. Further, when the NDEF information is stored in the information storage area 12c, the NDEF information stored in the RAM 13 is deleted, so that the memory consumption of the RAM 13 can be suppressed.

  Next, a second embodiment of the present invention will be described with reference to FIGS. In the first embodiment described above, only the receiving terminal 10A is configured to execute the process considering the version of the data transmission / reception application 12b. However, in the second embodiment, the transmission terminal 10B also considers the version of the data transmission / reception application 12b. Execute the process. In the second embodiment, the same parts as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted. In the second embodiment, the CPU 11 of the receiving terminal 10A executes an update process (FIG. 2C) similar to that in the first embodiment.

  FIG. 4 is a flowchart illustrating a transmission terminal process according to the second embodiment. The CPU 11 generates NDEF information that inquires about the version of the other party, and transmits the generated NDEF information from the short-range communication unit 22 (S401). The NDEF information transmitted from the short-range communication unit 22 by the process of S401 is received by the receiving terminal 10A located within the communication range of the short-range communication. Next, the CPU 11 waits for NDEF information to be received via the short-range communication unit 22 (S402: No). When NDEF information is received via the short-range communication unit 22 (S402: Yes), version information is acquired from the received NDEF information (S403).

  The CPU 11 indicates that the version of the data transmission / reception application 12b installed in the receiving terminal 10A (the version of the other party) indicated by the acquired version information is the version of the data transmission / reception application 12b installed in the transmission terminal 10B that is its own device ( It is determined whether it is newer than the self version (S404). When the CPU 11 determines that the version of the other party is not newer than its own version (S404: No), the CPU 11 executes the processes of S201 and S202, and ends this process, as in the first embodiment.

  On the other hand, when the CPU 11 determines in S404 that the version of the other party is newer than its own version (S404: Yes), the CPU 11 determines whether the download server 100 can be connected via the wireless LAN communication unit 23 (S405). . When the CPU 11 determines that the connection with the download server 100 via the wireless LAN communication unit 23 is impossible (S405: No), the CPU 11 executes the processes of S201 and S202 as in the first embodiment. Then, this process ends. In the case of S404: No or S405: Yes, the CPU 11 may display a warning display on the LCD 16 before ending this process.

  In S405, when the CPU 11 determines that the connection with the download server 100 via the wireless LAN communication unit 23 is possible (S405: Yes), the CPU 11 stores the transmission information selected by the user in the flash memory 12. The data is stored in a predetermined area (S406). After the processing of S406, the CPU 11 uses the Wi-Fi connection via the wireless LAN communication unit 23 from the download server of the download server 100 for the data transmission / reception application 12b of the new version, more specifically, the same version as the partner version. And download and update the data transmission / reception application 12b installed in the own device (transmission terminal 10B) (S407). Thereby, the version of the data transmission / reception application 12b installed in the transmission terminal 10B is upgraded to the same version as the version of the other party.

  Next, the CPU 11 reads transmission information stored in the flash memory 12c (S408), and the CPU 11 executes the processing of S201 and S202 as in the first embodiment, and ends this processing. In this case, the transmission information stored in the NDEF information in S201 is the transmission information read in S408.

  FIG. 5 is a flowchart showing the receiving terminal process of the second embodiment. The CPU 11 waits for NDEF information to be received via the short-range communication unit 22 (S221: No). When the NDEF information is received via the short-range communication unit 22 (S221: Yes), the CPU 11 determines whether the received NDEF information is NDEF information for inquiring about the version (S501).

  When the CPU 11 determines that the received NDEF information is NDEF information for inquiring about the version (S501: Yes), the CPU 11 has version information indicating the version of the data transmission / reception application 12b installed in the receiving terminal 10A as its own device. The stored NDEF information is generated, and the generated NDEF information is transmitted from the short-range communication unit 22 (S502). The NDEF information transmitted from the short-range communication unit 22 by the process of S502 is received by the transmission terminal 10B located within the communication range of the short-range communication. On the other hand, when the CPU 11 determines that the received NDEF information is not the NDEF information for inquiring the version (S501: No), the received NDEF information is NDEF information including transmission information. The process of S222-S235 is performed similarly to a form.

  According to the second embodiment, when the version of the transmission terminal 10B is older than the version of the reception terminal 10A and the transmission terminal 10B can be connected to the download server 100, the transmission terminal 10B updates the version. Therefore, since the transmission information can be transmitted in a version corresponding to the version of the receiving terminal 10A, the receiving terminal 10A can suitably process the data (transmission information) transmitted from the transmitting terminal 10B.

  Further, when the version of the transmission terminal 10B is older than the version of the reception terminal 10A and the transmission terminal 10B is connectable to the download server 100, the transmission terminal 10B is selected by the user before updating the version. The transmission information is stored in the flash memory 12. Therefore, even if the data transmission / reception application 12b installed in the transmission terminal 10B is updated, the transmission information can be retained without losing, so that a situation in which the user selects transmission information again can be prevented.

  Next, a third embodiment of the present invention will be described with reference to FIG. In the first embodiment described above, the version of the data transmission / reception application 12b installed in the transmission terminal 10B is newer than the version of the data transmission / reception application 12b installed in the reception terminal 10A that is the own device, and the reception terminal 10A. Is configured to store the processing target NDEF information in the information storage area 12c, but in the third embodiment, the storage destination of the NDEF information in this case is the cloud server 200. To do. In the third embodiment, the same parts as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted. In 3rd Embodiment, CPU11 of the transmission terminal 10B performs the transmission terminal process (FIG. 2 (a)) similar to 1st Embodiment.

  FIG. 6A is a flowchart illustrating the receiving terminal process according to the third embodiment. The difference from the receiving terminal process (FIG. 2B) of the first embodiment will be mainly described. In the receiving terminal process of the third embodiment, when the CPU 11 determines that connection with the download server 100 via the wireless LAN communication unit 23 is impossible (S225: No), the CPU 11 is the same as in the first embodiment. In addition, after executing the processing of S231 and S232, the NDEF information is uploaded to the cloud server 200 using the Wi-Fi connection via the wireless LAN communication unit 23 (S621). As a result of the processing in S621, the NDEF information is stored in the cloud server 200. After the process of S621, the CPU 11 executes the processes of S234 and S235 as in the first embodiment, and ends this process.

  FIG. 6B is a flowchart showing the update process of the third embodiment. The description will focus on the differences from the update process of the first embodiment (FIG. 2C). In the update process of the third embodiment, when the update flag 13a is set to ON and the CPU 11 determines that connection with the download server 100 via the wireless LAN communication unit 23 is possible (S241: Yes, S242). : Yes), the CPU 11 downloads the NDEF information from the cloud server 200 after executing the processing of S243 as in the first embodiment (S641). Next, similarly to the first embodiment, the CPU 11 executes the processes of S245 and S246 and ends this process. In such a case, the NDEF information to be processed in S245 is the NDEF information downloaded in S641.

  According to the third embodiment, when the version of the transmission terminal 10B is newer than the version of the reception terminal 10A and the reception terminal 10A is unable to connect to the download server 100, the reception terminal 10A receives from the transmission terminal 10B. The processed NDEF information is uploaded to the cloud server 200 after being processed within a range that can be processed by the own version. Therefore, even if the data transmission / reception application 12b installed in the receiving terminal 10A is updated, the data received from the transmitting terminal 10B can be retained without losing the data. It can be processed by the application 12b. Further, when the NDEF information is uploaded to the cloud server 200, the NDEF information stored in the RAM 13 is deleted, so that the memory consumption of the RAM 13 can be suppressed.

  Next, a fourth embodiment of the present invention will be described with reference to FIG. In the first embodiment described above, the transmission information transmitted by the transmission terminal 10B is received and stored by the reception terminal 10A. However, in the fourth embodiment, the reception terminal 10A receives the information received from the transmission terminal 10B. After performing the processing, the transmitting terminal 10B is made to acquire the processed data. In the fourth embodiment, the same portions as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted. In 4th Embodiment, CPU11 of the transmission terminal 10B performs the transmission terminal process (FIG. 2 (a)) similar to 1st Embodiment.

  FIG. 7A is a flowchart showing the receiving terminal process of the fourth embodiment. The difference from the receiving terminal process (FIG. 2B) of the first embodiment will be mainly described. In the receiving terminal processing of the fourth embodiment, when the CPU 11 determines that connection with the download server 100 via the wireless LAN communication unit 23 is impossible (S225: No), the CPU 11 is the same as in the first embodiment. In addition, the processing of S231 to S234 is executed. Next, the CPU 11 stores the data processed in S232 and the storage destination URL of the cloud server 200 in the NDEF information (S723). Note that the storage destination URL of the cloud server 200 may be a predetermined URL, or the URL obtained by the CPU 11 inquiring the cloud server 200 at least at a predetermined timing before executing the process of S723. There may be. The CPU 11 transmits the NDEF information processed in S723, that is, the NDEF information including the data processed by the old version data transmission / reception application 12b installed in the receiving terminal 10A to the transmitting terminal 10B that is the communication partner ( S724). After the process of S724, the CPU 11 executes the process of S235 as in the first embodiment, and ends this process.

  On the other hand, even after the processing of S229, the CPU 11 stores the data processed in S229, that is, the data processed by the data transmission / reception application 12b installed in the receiving terminal 10A in the NDEF information (S721), and the NDEF Information is transmitted to the transmission terminal 10B (S722). After the process of S722, the CPU 11 executes the process of S230 as in the first embodiment, and ends this process.

  FIG. 7B is a flowchart showing the update process of the fourth embodiment. The description will focus on the differences from the update process of the first embodiment (FIG. 2C). In the update process of the fourth embodiment, when the update flag 13a is set to ON and the CPU 11 determines that connection to the download server 100 via the wireless LAN communication unit 23 is possible (S241: Yes, S242). : Yes), the CPU 11 executes the processes of S243 to S245 as in the first embodiment. Next, the CPU 11 uses the Wi-Fi connection via the wireless LAN communication unit 23 to transfer the data processed in S245, that is, the data processed in the data transmission / reception application 12b updated in S243, to the cloud server 200. Upload (S741). When the process of S741 is executed, the cloud server 200 stores the data uploaded from the receiving terminal 10A in the storage location corresponding to the storage destination URL stored in the NDEF information in S723. The transmission terminal 10B can acquire the data processed in S245 by accessing the storage destination URL notified by the process of S724 at a predetermined timing. The timing at which the transmission terminal 10B accesses the storage destination URL can be exemplified by a regular timing such as every 5 minutes or a timing when the user designates access by a predetermined operation. After the process of S741, the CPU 11 executes the process of S246 as in the first embodiment, and ends this process.

  According to the fourth embodiment, when the version of the transmission terminal 10B is newer than the version of the reception terminal 10A and the reception terminal 10A is unable to connect to the download server 100, the reception terminal 10A receives from the transmission terminal 10B. The processed data is processed in a range that can be processed by the own version, and the processed data is transmitted to the transmission terminal 10B. Therefore, the user of the transmission terminal 10B can receive the minimally processed data without waiting for the data transmission / reception application 12b to be updated in the reception terminal 10A. When the data transmission / reception application 12b is updated in the receiving terminal 10A, the data processed by the updated data transmission / reception application 12b is uploaded to the cloud server 200. Since the URL indicating the storage location of the data is notified to the transmission terminal 10B in advance, if the transmission terminal 10B is accessible to the cloud server 200, the processed data uploaded to the cloud server 200 is It can be acquired at any time. Therefore, the transmission terminal 10B can acquire data processed by the updated data transmission / reception application 12b even at a position where short-range communication with the reception terminal 10A is not possible.

  Next, a fifth embodiment of the present invention will be described with reference to FIG. In the fourth embodiment described above, the data processed by the data transmission / reception application 12b updated in the update process (FIG. 7B) is configured to be acquired by the transmission terminal 10 via the cloud server 200. In the fifth embodiment, the transmission terminal 10 is made to acquire processed data using mail. In the fifth embodiment, the same parts as those in the above-described fourth embodiment are denoted by the same reference numerals, and the description thereof is omitted. In the fifth embodiment, the CPU 11 of the transmission terminal 10B executes the same transmission terminal process (FIG. 2A) as that in the first embodiment. However, in the fifth embodiment, in S201, in addition to the transmission information selected by the user and the version information of the own apparatus (transmission terminal 10B), the mail address of the own apparatus is stored in the NDEF information.

  FIG. 8A is a flowchart showing the receiving terminal process of the fifth embodiment. The difference from the receiving terminal process of the fourth embodiment (FIG. 7B) will be mainly described. In the present embodiment, the NDEF information received by the receiving terminal 10A from the transmitting terminal 10B in S221 includes a mail address as described above. In the receiving terminal processing of the fifth embodiment, when the CPU 11 determines that connection with the download server 100 via the wireless LAN communication unit 23 is impossible (S225: No), the CPU 11 is the same as in the fourth embodiment. In addition, the processing of S231 to S234 is executed. Next, the CPU 11 stores the data processed in S232, that is, the data processed by the old version data transmission / reception application 12b installed in the receiving terminal 10A in the NDEF information (S821), and the NDEF information is stored in the NDEF information. It transmits to the transmitting terminal 10B which is a communication partner (S822). After the process of S822, the CPU 11 executes the process of S235 as in the fourth embodiment, and ends this process.

  FIG. 8B is a flowchart showing the update process of the fifth embodiment. The difference from the update process (FIG. 7B) of the fourth embodiment will be mainly described. In the update process of the fifth embodiment, when the update flag 13a is set to ON and the CPU 11 determines that connection to the download server 100 via the wireless LAN communication unit 23 is possible (S241: Yes, S242). : Yes), the CPU 11 executes the processes of S243 to S245 as in the fourth embodiment. Next, the CPU 11 acquires a mail address from the NDEF information read in S244, that is, the NDEF information stored in the information storage area 12c (S841). The CPU 11 sends the data processed in S245, that is, the data processed by the data transmission / reception application 12b updated in S243, attached to the mail with the acquired mail address as the destination (S842). The transmission terminal 10B can acquire the data processed in S245 by receiving the mail transmitted in S842. After the process of S842, the CPU 11 executes the process of S246 as in the fourth embodiment, and ends this process.

  According to the fifth embodiment, when the version of the receiving terminal 10B is newer than the version of the receiving terminal 10A and the receiving terminal 10A cannot connect to the download server 100, the receiving terminal 10A receives from the transmitting terminal 10B. When the data transmission / reception application 12b is updated in the receiving terminal 10A after the processed data is processed within the range that can be processed by its own version, the data processed by the updated data transmission / reception application 12b is transmitted to the transmission terminal 10B acquired in advance. Attached to a mail addressed to the mail address. Therefore, if the transmission terminal 10B is a place where mail can be received, the data processed by the updated data transmission / reception application 12b can be transmitted from time to time even at a position where short-range communication with the reception terminal 10A is impossible. Can get.

In the above embodiments, the data transmission / reception application 12b is an example of an information processing program. The receiving terminal 10A is an example of an information processing apparatus according to claims 1 and 11, and the transmitting terminal 10B is an example of an external apparatus according to claims 1 and 11. The transmission terminal 10B is an example of an information processing apparatus according to claim 8, and the reception terminal 10A is an example of an external apparatus according to claim 8. Network 800 is an example of a network. Servers 100, 200, and 300 are examples of servers. The download server 100 is an example of a download server. The cloud server 200 is an example of a cloud server. The CPU 11 is an example of a control unit. The flash memory 12 is an example of a storage unit according to claims 3 and 10. The RAM 13 is an example of a storage unit according to claim 4. The phone book data shown in FIG. 3 is an example of data that can be processed by the information processing program. NDEF information is an example of processing information. The storage destination URL is an example of position information. A mail address included in the NDEF information is an example of a mail address.

The CPU 11 that executes the process of S221 is an example of a data receiving unit. The CPU 11 that executes the processing of S224 is an example of the version determination means of claims 1 and 8 . The CPU 11 that executes the processes of S231 and S232 is an example of a first process control unit. The CPU 11 that executes the process of S243 is an example of the update means of claims 1 and 8 . The CPU 11 that executes the process of S245 is an example of the second process control means of claims 2 and 4 . The CPU 11 that executes the process of S233 is an example of the storage control means of claim 3. The CPU 11 that executes the process of S246 is an example of a deleting unit. The CPU 11 that executes the process of S222 is an example of the storage control means of claim 4. The CPU 11 that executes the process of S621 is an example of a data transmission unit according to a fourth aspect. The CPU 11 that executes the process of S235 in FIG. 6 is an example of a deleting unit. CPU11 that performs the processing of S 641 is an example of a data acquisition unit. The CPU 11 that executes the processes of S 723 and S 724 is an example of a first data transmission unit according to claim 5. The CPU 11 that executes the process of S741 is an example of a second data transmission unit according to a fifth aspect. CPU11 that performs the processing of S841 is an example of an address acquisition unit of claim 6. The CPU 11 that executes the processes of S821 and S822 is an example of a first data transmission unit according to a sixth aspect. The CPU 11 that executes the process of S842 is an example of a second data transmission unit according to a sixth aspect.

  Although the present invention has been described based on the embodiments, the present invention is not limited to the above-described embodiments, and various improvements and modifications can be easily made without departing from the spirit of the present invention. Can be inferred.

  For example, in each of the above embodiments, the data transmission / reception application 12b is mounted on the terminal 10 (10A, 10B). However, the information processing apparatus on which the data transmission / reception application 12b is mounted is limited to the terminal 10 illustrated above. It is also possible to adopt a tablet terminal or a digital camera. Further, an information processing apparatus such as a personal computer or a multi-function peripheral device (MFP) capable of executing various functions may be employed as the information processing apparatus on which the data transmission / reception application 12b is installed. When the receiving terminal 10A is a multi-function peripheral device, the multi-function peripheral device is determined when the firmware of the multi-function peripheral device is determined to be older than the latest based on communication with the transmission terminal 10B. Instead of the town road site 100, a manufacturer of a multi-function peripheral device may be connected to a server 300 provided as a solution center so that the latest version of firmware is downloaded from the server 300 and updated.

  In each of the above embodiments, the receiving terminal 10A and the transmitting terminal 10B have been described as the same terminal 10, but the receiving terminal 10A and the transmitting terminal 10B are any terminals or devices in which the data transmission / reception application 12b is installed (installed). May be different terminals. For example, the receiving terminal 10A may be a portable terminal such as a smartphone like the terminal 10, and the transmitting terminal 10B may be a tablet terminal. In the above embodiments, Android (registered trademark) is exemplified as the OS 12a installed in the terminal 10, but other OSs can also be used.

  In each of the above embodiments, the CPU 11 is configured to execute each process described in FIG. 2 and FIGS. 4 to 8 according to one application, that is, the data transmission / reception application 12b. The CPU 11 may be configured to execute each process described in FIGS. 2 and 4 to 8 according to the application program.

  In each of the above embodiments, when the partner version is newer than the self version, the data transmission / reception application 12b having the same version as the partner version is downloaded for update from the download server 100. For example, the latest version of the data transmission / reception application 12b may be downloaded and updated.

  In each of the above embodiments, the CPU 11 of the receiving terminal 10A is configured to store the received NDEF information in the information storage area 12c after processing the data corrected in S232, but the NDEF to be stored in the information storage area 12c. The information is not limited to all the data selected as the transmission information, but may include at least data that has not been processed in S232. Moreover, it is good also as a structure which preserve | saves the data selected as transmission information in the transmission terminal 10B contained in the said NDEF information instead of as NDEF information in the information storage area | region 12c.

  In each of the embodiments described above, the CPU 11 of the receiving terminal 10A is configured to perform processing on all the data included in the NDEF information stored in the information storage area 12c, that is, the data selected as transmission information in S245. However, the data to be processed may be at least data that is selected as transmission information and included in the NDEF information and that has not been processed in S232. When processing is performed on data that has not been processed in S232, the processed data is added to the data that has been processed in S232, and processing is performed on all the data selected as transmission information. You may make it become the same result as the case where is given.

  In each of the above embodiments, the CPU 11 of the receiving terminal 10A sets the update flag 13a to ON after processing the data corrected in S232. That is, after the processing for the corrected data is completed, it is determined whether or not connection to the download server 100 is possible in S242. Alternatively, the update flag 13a may be set to ON on the condition that the process for the data corrected in S232 is started. In other words, when processing for the corrected data is started, it may be determined whether or not connection to the download server 100 is possible without waiting for completion of the processing. If there is no data that can be processed by the self version as a result of the correction in S231, the update flag 13a is set to ON without processing the data in S232, thereby connecting to the download server 100 in S242. It is good also as a structure which judges whether it is possible.

  In the first, second, fourth, and fifth embodiments, in the update process, the receiving terminal 10A is configured to process the NDEF information stored in the information storage area 12c after the data transmission / reception application 12b is updated. Instead, after the update of the data transmission / reception application 12b, the receiving terminal 10A brings a message prompting preparation for performing short-range communication with the transmission terminal 10B, for example, the short-range communication unit 22 of each terminal 10A, 10B. A message may be displayed on the LCD 16 to inform the effect, and NDEF information including transmission information may be received again from the transmission terminal 10B by short-range communication.

  In the receiving terminal processing of each of the embodiments described above, the version of the other party is newer than the own version and can be connected to the download server 100. If the data transmission / reception application 12b is not stored, the CPU 11 of the receiving terminal 10A may be configured to shift the process to S231.

  In S621 of the receiving terminal process of the third embodiment, when NDEF information cannot be uploaded to the cloud server 200, the NDEF information may be stored in the information storage area 12c. When the NDEF information is stored in the information storage area 12c, the NDEF information stored in the information storage area 12c is read instead of downloading the NDEF information from the cloud server 200 in S641 of the update process.

  In the fifth embodiment, the receiving terminal 10A is configured to acquire the mail address of the transmitting terminal 10B from the NDEF information, but may be configured to directly receive the mail address. Further, the timing at which the receiving terminal 10A acquires a mail address is not limited to S221, and various timings can be employed. For example, the reception terminal 10A may receive NDEF information including a mail address or a mail address from the transmission terminal 10B as a response when the processed data is transmitted in S822. Alternatively, a table in which the mail address of the transmission terminal 10B is associated with specific information such as a terminal ID that can identify the transmission terminal 10B is stored in the reception terminal 10A, and the reception terminal 10A receives the information from the transmission terminal 10B. Based on the received specific information, the mail address may be acquired by referring to the table.

  In each of the above embodiments, the short-range communication performed by the short-range communication unit 22 is non-contact communication according to the NFC standard. Instead, the short-range communication performed by the short-range communication unit 22 is TransferJet (registered trademark). ) And other non-contact communication according to other standards. In addition, the transmission / reception of data by the data transmission / reception application 12b is not limited to the configuration of performing short-range communication performed by the short-range communication unit 22, but may be configured to perform various wireless communication such as infrared communication and communication using Bluetooth (registered trademark). Good. The data transmission / reception application 12b may perform data transmission / reception by connecting the reception terminal 10A and the transmission terminal 10B with a cable and performing wired communication via the cable.

  In each of the above embodiments, the transmission information and the version information are included in the NDEF information. However, the transmission information and the version information may be transmitted and received as independent units of information.

  In each of the above embodiments, the “version” of the data transmission / reception application 12b has been described as the version (number of revisions) of the data configuration that can be processed by the data transmission / reception application 12b. It may be a version including other revisions as well. However, the “version” is the version of the data configuration that can be processed by the data transmission / reception application 12b as in the above embodiments, that is, the version corresponding to the data, and the version of the partner and the version of the own device. By performing the comparison, even if the data transmission / reception application 12b is revised in a portion not related to the data configuration, useless processing such as updating the data transmission / reception application 12b can be suppressed.

  In each of the embodiments described above, the CPU 11 has been described as a configuration for executing the processes illustrated in FIGS. 2 and 4 to 8. However, a plurality of CPUs cooperate with each process illustrated in FIGS. 4 to 8. It may be configured to execute automatically. Further, an IC such as an ASIC may be configured to execute each process described in FIGS. Further, the CPU 11 and an IC such as an ASIC may cooperate to execute each process described in FIGS.

  The information processing apparatus according to the present invention may be a combination of the configurations exemplified as the first to fifth embodiments and the contents of the modifications described above as appropriate. For example, the transmission terminal process (FIG. 4) of the second embodiment may be applied as the transmission terminal process of the third to fifth embodiments.

10 terminal 10A receiving terminal 10B transmitting terminal 12b data transmission / reception application

Claims (8)

An information processing program that can be executed by a control unit of an information processing apparatus that can communicate with an external device and a server on a network,
Data receiving means for receiving processing information including data that can be processed by the program and the version of the program corresponding to the data from the external device;
Version determination means for determining whether the version included in the processing information is newer than the current version of the program installed in the apparatus when the processing information is received by the data receiving means;
Data that can be processed by the current version of the program among the data included in the processing information when the version determination means determines that the version included in the processing information is newer than the current version. First processing control means for processing
When the version determination means determines that the version included in the processing information is newer than the current version, the version included in the processing information or a version of the program that is newer than the version is transferred to the server on the network. As an update means for downloading from the current version of the program to the downloaded version,
An information processing program for causing the control unit to function. As a second process control means for processing at least data not processed by the first process control means among the data included in the process information on condition that the program is updated by the update means,
The information processing program according to claim 1, wherein the control unit is caused to function. Of the processing information received by the data receiving means, at least data that has not been processed by the first processing control means is a storage unit capable of storing processing information, and the update has been performed by the updating means As a storage control means for storing in the storage unit in which the stored content does not disappear,
Make the control function,
The second processing control means processes at least data not processed by the first processing control means stored in the storage unit on the condition that the program is updated by the updating means,
Deletion means for deleting the processing information stored in the storage unit on condition that the data has been processed by the second processing control means,
The information processing program according to claim 2, wherein the control unit is caused to function. The server on the network includes a cloud server capable of storing various data, and a download server capable of downloading the program,
Storage control means for storing the processing information received by the data receiving means in a storage unit capable of storing the processing information;
On the condition that the data is processed by the first processing control means, at least data that is not processed by the first processing control means among the data included in the processing information is transmitted to the cloud server. Data transmission means;
Deletion means for deleting the processing information stored in the storage unit on condition that the data is transmitted to the cloud server by the data transmission means;
Data acquisition means for acquiring the data transmitted by the data transmission means from the cloud server on the condition that the program is downloaded from the download server and updated by the update means ;
Among the data acquired by the previous SL data acquisition means, as the second processing control means for processing data that has not been treated with at least the first processing control unit,
The information processing program according to claim 1, wherein the control unit is caused to function. The server on the network includes a cloud server capable of storing various data,
On condition that the data has been processed by the first processing control means, the data processed by the first processing control means and location information indicating a predetermined storage location in the cloud server are sent to the external device. First data transmitting means for transmitting;
On the condition that the data has been processed by the second processing control means, the data that has been processed by the second processing control means is stored in the cloud server so as to be stored in the storage location indicated by the position information. As the second data transmitting means for transmitting,
The information processing program according to claim 2 or 3, wherein the control unit is caused to function. An address acquisition means for acquiring the mail address of the external device;
First data transmitting means for transmitting the data processed by the first processing control means to the external device on condition that the data is processed by the first processing control means;
A second process of transmitting the data processed by the second processing control unit to the external device based on the mail address acquired by the address acquisition unit on condition that the data is processed by the second processing control unit. As a data transmission means,
The information processing program according to claim 2, wherein the control unit is caused to function.   The said data receiving means receives the said process information from the said external device using the communication system different from communication with the said server via the said network, The Claim 1 characterized by the above-mentioned. Information processing program. An information processing apparatus capable of installing an information processing program capable of executing a predetermined process on predetermined data,
A communication unit capable of communicating with an external device and a server on the network, and
With a control unit,
The controller is
Data receiving means for receiving processing information including data that can be processed by the program installed in the device and the version of the program corresponding to the data from the external device;
Version determination means for determining whether the version included in the processing information is newer than the current version of the program installed in the apparatus when the processing information is received by the data receiving means;
Data that can be processed by the program of the current version among the data included in the processing information when the version determination means determines that the version included in the processing information is newer than the current version First processing control means for processing
When the version determination means determines that the version included in the processing information is newer than the current version, the version included in the processing information or the program of a version newer than the version is transferred to the server on the network. Updating means for downloading from the current version of the program to the downloaded version;
An information processing apparatus comprising:

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