WO2013171858A1 - Synchronization program and synchronization method - Google Patents

Abstract

The objective of the present invention is to improve operability when synchronizing data among a plurality of computers. A computer, which has a sensor that reads an image, reads, using the sensor, a first device information image which includes first device information related to a first computer, and a second device information image which includes second device information related to a second computer, and on the basis of the results of reading the first and second device information images, transmits the first and second device information to a synchronization server which synchronizes predetermined data between the first computer and the second computer.

Description

Synchronization program and synchronization method

The present invention relates to a synchronization program and a synchronization method.

One user uses a plurality of computers, such as a desktop personal computer (PC), a laptop PC, and a portable terminal. In such an environment, it is convenient if the same data can be handled regardless of which computer is used. In recent years, with the widespread use of cloud computing, services that satisfy such requirements have been provided (for example, Patent Document 1).

Special table 2011-514603 gazette

In the above-described service, data synchronization is performed between the client device and the server, so that any client device can be used in the latest state. Consider the case where a user owns a first computer and a second computer. In this case, in order to make the data stored in the first computer available to the second computer in the same state, the data is synchronized in each of the first computer and the second computer. It is necessary to perform the operation. That is, the user needs to perform an operation for uploading target data to the server in the first computer. In addition, the user needs to perform an operation for downloading the target data from the server in the second computer.
As described above, although it is possible to synchronize data among a plurality of computers via a server, it is necessary to perform an operation for synchronizing data in each computer, and the user operation is complicated. .

Therefore, an object of the present invention is to improve operability when synchronizing data among a plurality of computers.

A synchronization program according to an aspect of the present invention provides a computer having a sensor for reading an image, a first device information image including first device information related to the first computer, and second device information related to the second computer. An image reading unit that reads a second device information image including a sensor using a sensor, and a predetermined value between the first computer and the second computer based on the reading results of the first and second device information images This is to cause a synchronization server that synchronizes data to function as an information transmission unit that transmits the first and second device information.

In addition, a synchronization program according to one aspect of the present invention provides a synchronization server that is communicably connected to the first computer, the second computer, and the third computer, the first apparatus information about the first computer, and Based on the first and second device information, the information receiving unit that receives the second device information about the second computer from the third computer, between the first computer and the second computer This is intended to function as a synchronization processing unit that transmits a synchronization instruction for synchronizing predetermined data to the first and second computers.

In the synchronization method according to one aspect of the present invention, a computer having a sensor for reading an image includes a first device information image including first device information related to the first computer and a second device related to the second computer. A second device information image including device information is read using a sensor, and predetermined data is transmitted between the first computer and the second computer based on the reading results of the first and second device information images. 1st and 2nd apparatus information is transmitted to the synchronous server which synchronizes.

In the synchronization method according to one aspect of the present invention, the first computer, the second computer, and the third server that are communicably connected to the third computer may include the first device information about the first computer, , Receiving second device information regarding the second computer from the third computer, and predetermined data between the first computer and the second computer based on the first and second device information. Is transmitted to the first and second computers.

In the present invention, the “unit” does not simply mean a physical means, but includes a case where the function of the “unit” is realized by software. Also, even if the functions of one “unit” or device are realized by two or more physical means or devices, the functions of two or more “units” or devices are realized by one physical means or device. May be.

According to the present invention, it is possible to improve operability when synchronizing data among a plurality of computers.

It is a figure which shows the structural example of the synchronous system which is one Embodiment of this invention. It is a block diagram which shows an example of the function part which comprises PC. It is a block diagram which shows the structural example of a synchronous process part. It is a figure which shows an example of the correspondence of a user file and a status file. It is a figure for demonstrating an example of the synchronization of the operation position between two PCs. It is a block diagram which shows an example of the function part which comprises a portable terminal. It is a block diagram which shows an example of the function part which comprises a synchronous server. It is a figure which shows an example of a structure of an authentication database. It is a figure which shows an example of the structure of the data storage part for a synchronization. It is a flowchart which shows an example of a synchronous process.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating a configuration example of a synchronization system according to an embodiment of the present invention. The synchronization system includes a personal computer 10 (10A, 10B), a portable terminal 12, and a synchronization server 14.

A personal computer (PC) 10 is an information processing apparatus used by a user. As shown in FIG. 1, the PC 10 can display a QR code (registered trademark) 20 (20A, 20B). The QR code 20 is an image (device information image) including device information that is information related to the PC 10. The device information includes, for example, the computer name of the PC 10. Instead of the PC 10 displaying the QR code 20, the QR code 20 including the device information of the PC 10 may be printed in advance. The printed QR code 20 may be attached to a display of the PC 10 or a casing of the PC 10, for example.

The PC 10 (for example, PC 10A) can synchronize data with another PC 10 (for example, PC 10B) by communicating with the synchronization server 14. As will be described in detail later, in the synchronization system shown in FIG. 1, by using the mobile terminal 12, data can be synchronized among a plurality of PCs 10 without performing an operation for synchronizing data on each PC 10. Although only two PCs 10A and 10B are shown in FIG. 1, the number of PCs 10 may be three or more.

The portable terminal 12 is a portable information processing apparatus possessed by a user using the PC 10, such as a smartphone or a tablet terminal. The mobile terminal 12 includes a camera 30 that is a sensor for reading the QR code 20. The portable terminal 12 can acquire the device information of the PC 10 by reading the QR code 20 with the camera 30 and analyzing it. The mobile terminal 12 stores authentication information for the user to use the PC 10. The authentication information is information such as a user ID, a password, and an e-mail address. The mobile terminal 12 can be connected to the Internet via, for example, a mobile phone base station (BS). Then, the mobile terminal 12 can transmit the device information obtained from the QR code 20 to the synchronization server 14 together with the authentication information.

The synchronization server 14 is an information processing apparatus that performs a synchronization process for synchronizing data among a plurality of PCs 10. As shown in FIG. 1, the synchronization server 14 is communicably connected to the PCs 10A and 10B and the portable terminal 12 via a network such as the Internet. The synchronization server 14 can execute synchronization processing based on device information and authentication information received from the mobile terminal 12. For example, when the synchronization server 14 receives the device information of the PC 10A, the device information of the PC 10B, and the authentication information from the portable terminal 12, the synchronization server 14 performs an authentication process based on the authentication information, and further, transmits data between the PC 10A and the PC 10B. A synchronization instruction for synchronization can be transmitted to the PC 10A and the PC 10B.

Note that, for example, when the PC 10 is in an in-house network or a home network, the IP (Internet Protocol) address of the PC 10 may be a private address. Therefore, in order for the synchronization server 14 to transmit a synchronization instruction to the PC 10, for example, a global address of a router to which the PC 10 is connected and a port number for accessing the PC 10 via the router may be required.

As one of the solutions, for example, there is a technique of establishing communication between the PC 10 and the synchronization server 14 in advance by a request from the PC 10. If communication is established between the PC 10 and the synchronization server 14, the synchronization server 14 recognizes the global address and port number used for transmitting the synchronization instruction to the PC 10.

As another solution, for example, there is a method of including the global address and port number necessary for transmitting the synchronization instruction to the PC 10 in the device information of the PC 10. In this case, even if communication is not established in advance between the PC 10 and the synchronization server 14, the synchronization server 14 may transmit a synchronization instruction to the PC 10 using the global address and port number included in the device information. it can.

Further, as another solution, there is a technique using a dynamic DNS (Domain Name System). In this case, for example, the PC 10 can register information for associating a global address and a port number necessary for accessing the PC 10 with the computer name of the PC 10 in the DNS server. The synchronization server 14 can transmit a synchronization instruction to the PC 10 by acquiring the computer name of the PC 10 from the device information of the PC 10 and acquiring a global address and port number corresponding to the computer name from the DNS server.

The PC 10 that has received the synchronization instruction from the synchronization server 14 can execute a synchronization process for synchronizing data between the PCs 10 in accordance with the synchronization instruction. For example, the PC 10A can upload the data held by the PC 10A to the synchronization server 14 in response to the synchronization instruction. Further, for example, the PC 10B can download data uploaded to the synchronization server 14 in response to the synchronization instruction. Below, each structure of the authentication system shown in FIG. 1 is demonstrated in detail.

FIG. 2 is a block diagram illustrating an example of functional units constituting the PC 10. As illustrated in FIG. 2, the PC 10 includes a device information storage unit 50, an authentication information storage unit 52, a device information image generation unit 54, a device information image display unit 56, and a synchronization processing unit 58. Each unit constituting the PC 10 is realized by using a storage area such as a memory or a storage device, a processor executing a program stored in the storage area, or using various devices for input / output and communication. be able to.

The device information storage unit 50 stores device information of the PC 10. The device information is information for identifying the PC 10 in the synchronization server 14, and may include a computer name, for example. Further, information necessary for transmitting a synchronization instruction from the synchronization server 14 to the PC 10 may be included in the device information. For example, the device information may include the IP address of the PC 10. When the IP address of the PC 10 is a private address, the device information may include a global address of a router to which the PC 10 is connected and a port number for accessing the PC 10 via the router. If the global address of the router is not fixed, the PC 10 can have a function of acquiring the global address of the router and storing it in the device information storage unit 50.

The authentication information storage unit 52 stores authentication information of a user who uses the PC 10. The authentication information includes, for example, a user ID and a password. The PC 10 can perform user authentication based on this authentication information.

The device information image generation unit 54 generates a QR code 20 (device information image) including device information based on the device information stored in the device information storage unit 50. Instead of generating the QR code 20 in the device information image generation unit 54, the QR code 20 generated outside the PC 10 may be stored in the PC 10. For example, the PC 10 may acquire the QR code 20 including the device information of the PC 10 from an external device such as the synchronization server 14.

The device information image display unit 56 displays the QR code 20 generated by the device information image generation unit 54 on the display of the PC 10. For example, the device information image display unit 56 can display the QR code 20 on a screen for logging in to the PC 10. Further, for example, the device information image display unit 56 may display the QR code 20 in a desktop area displayed after logging in to the PC 10. For example, the device information image display unit 56 may display the QR code 20 on the screen of an application executed on the PC 10.

The synchronization processing unit 58 can execute synchronization processing for synchronizing data with other PCs 10. The data to be synchronized includes, for example, a file being operated by the user and a file necessary for executing various applications. When synchronizing the file being operated, the operation position for the file can also be synchronized.

FIG. 3 is a block diagram illustrating a configuration example of the synchronization processing unit 58. As shown in FIG. 3, the synchronization processing unit 58 includes an application storage unit 70, a synchronization data storage unit 72, an application execution unit 74, an operation position acquisition unit 76, a synchronization communication unit 78, and an operation position synchronization unit 80. can do.

The application storage unit 70 stores an application file of an application executed on the PC 10. The application performs an operation on the user file, such as a document editing application or a spreadsheet application. The application file is a file including data necessary for executing an application for operating a user file. The application file includes, for example, an application execution file and various setting files. The user file is a file that is displayed and edited by an application such as a document editing application or a spreadsheet application.

In this embodiment, each application includes a function for outputting a status file indicating the operation position of the user file and a function for reproducing the operation position according to the contents of the status file. The operation position indicates, for example, a position where an operation is performed, such as a page number, a row number, a column number, a sheet number, a cell number, or an object number at a position on the user file. These functions can be incorporated in each application in advance by using, for example, a software development kit (SDK: Software Development Kit). These functions may be incorporated into each application afterwards by using an additional program such as an add-in or a plug-in.

The synchronization data storage unit 72 stores a user file synchronized between a plurality of PCs 10 and a status file corresponding to the user file. For example, the synchronization data storage unit 72 can store a user file and a status file in a folder predetermined for synchronization in association with each other. The association between the user file and the status file is performed by associating the file IDs of the user file and the status file, for example, by making the file name of the user file a part of the file name of the status file as shown in FIG. be able to. The status file may not be generated as a separate file from the user file, but the operation position information may be included in the user file.

The application execution unit 74 can execute an application by using an application file stored in the application storage unit 70. The application execution unit 74 can open the user file stored in the synchronous data storage unit 72 when executing the application. That is, the application execution unit 74 can perform various operations such as display and editing of user files in accordance with user operations.

The application execution unit 74 can output a status file including operation position information indicating the operation position of the user file. The type of operation position included in the status file can be different depending on the application. For example, in the case of a document editing application, the page number, row number, and column number can be used as the operation position. For example, in the case of a spreadsheet application, a sheet number or a cell number can be used as the operation position.

The application execution unit 74 can open the user file in a state where the operation position on the other PC 10 is reproduced in accordance with an instruction from the operation position synchronization unit 80. Specifically, when opening the user file, the application execution unit 74 can reproduce the operation position based on the contents of the status file corresponding to the user file. The application execution unit 74 can also execute an application in response to an instruction from the user, for example, when creating a new file.

The operation position acquisition unit 76 acquires operation position information indicating the user's operation position while an application is being executed by the application execution unit 74, that is, while an operation on a user file is being performed. In the present embodiment, the operation position acquisition unit 76 acquires a status file output from the application execution unit 74. For example, the operation position acquisition unit 76 may check whether the status file is updated by referring to the synchronization data storage unit 72 at a predetermined interval, and may acquire the status file when it is updated. Further, for example, the operation position acquisition unit 76 may acquire a status file when a notification that the operation position has been changed is received from the application execution unit 74. Further, for example, the operation position acquisition unit 76 may acquire the status file at the timing when the synchronization communication unit 78 receives the synchronization instruction from the synchronization server 14.

The synchronous communication unit 78 can transmit (upload) a corresponding user file to the synchronization server 14 together with the status file acquired by the operation position acquisition unit 76. In the present embodiment, the synchronization communication unit 78 can transmit the user file and the status file to the synchronization server 14 in response to the synchronization instruction from the synchronization server 14.

Further, the synchronous communication unit 78 may transmit (upload) the application file stored in the application storage unit 70 to the synchronization server 14 in response to the synchronization instruction.

Also, the synchronous communication unit 78 can access the synchronization server 14 and receive (download) a user file and a status file uploaded to the synchronization server 14 for the user of the PC 10. In the present embodiment, the synchronization communication unit 78 can receive a user file and a status file from the synchronization server 14 in response to a synchronization instruction from the synchronization server 14. Then, the synchronization communication unit 78 stores the user file and status file received from the synchronization server 14 in the synchronization data storage unit 72.

Further, the synchronization communication unit 78 receives (downloads) an application file uploaded to the synchronization server 14 for the user of the PC 10 in accordance with the synchronization instruction from the synchronization server 14 and stores it in the application storage unit 70. Also good.

Further, when communicating with the synchronization server 14, the synchronization communication unit 78 may transmit an authentication request to the synchronization server 14 using the authentication information stored in the authentication information storage unit 52. When the authentication information is included in the synchronization instruction received from the synchronization server 14, the synchronization communication unit 78 performs authentication processing by comparing the authentication information with the authentication information stored in the authentication information storage unit 52. It is good as well. Then, when the authentication result is normal, the synchronization communication unit 78 may transmit the synchronization target file to the synchronization server 14 or receive the file from the synchronization server 14.

Further, the synchronous communication unit 78 can transmit a communication establishment request to the synchronous server 14. When communication is established by this request, the synchronization server 14 can recognize a global address and a port number for transmitting information to the PC 10. Here, establishment of communication between the PC 10 and the synchronization server 14 can be performed at an arbitrary timing before the synchronization server 14 transmits a synchronization instruction to the PC 10.

Based on the user file and status file received by the synchronous communication unit 78, the operation position synchronization unit 80 sends an application to the application execution unit 74 so that the operation position becomes a position corresponding to the operation position information included in the status file. Is executed. When the application file corresponding to the user file is received by the synchronous communication unit 78, the operation position synchronization unit 80 can control the application execution unit 74 to execute the application using the application file. Further, the operation position synchronization unit 80 may determine an application according to the type of user file. For example, the operation position synchronization unit 80 may acquire the path of the execution file of the application associated with the extension of the user file using an API function.

FIG. 5 is a diagram for explaining an example of synchronization of operation positions between two PCs. For example, assume that the user file “F001.txt” is edited in the PC 10A. In FIG. 5, the operation position on the PC 10A is, for example, the position of the cursor 85A, which is the eighth page, third row, and sixth column of the file. The application execution unit 74 outputs operation position information indicating the operation position to the status file “F001.txt.sts”. The operation position acquisition unit 76 acquires this status file. Then, the synchronization communication unit 78 transmits the user file and the status file to the synchronization server 14.

In the user terminal 10B, the synchronous communication unit 78 receives the user file “F001.txt” and the status file “F001.txt.sts” from the synchronous server 14. The operation position synchronization unit 80 controls the application execution unit 74 to cause the application corresponding to the user file to open the user file so that the operation position becomes a position corresponding to the operation position information included in the status file. Thereby, as shown in FIG. 5, also in the PC 10B, the position of the cursor 85B can be set to the eighth page, the third row, and the sixth column of the file.

Note that the application executed on the PC 10A and the application executed on the PC 10B may be different applications as long as they can handle user files of the same file format. Further, the application file may be transmitted from the PC 10A to the PC 10B via the synchronization server 14.

FIG. 6 is a block diagram illustrating an example of functional units constituting the mobile terminal 12. As shown in FIG. 6, the mobile terminal 12 includes an authentication information storage unit 90, an image reading unit 92, a device information image storage unit 94, a device information image analysis unit 96, and an information transmission unit 98. Each unit constituting the mobile terminal 12 uses a storage area such as a memory or a storage device, a processor executes a program stored in the storage area, or uses various devices for input / output and communication Can be realized.

The authentication information storage unit 90 stores authentication information of a user who uses the PC 10. The authentication information includes, for example, a user ID and a password. The authentication information may be stored in advance in the authentication information storage unit 90 or may be input from the user at the mobile terminal 12 when the synchronization process using the mobile terminal 12 is executed.

The image reading unit 92 reads the QR code 20 using the camera 30 and stores it in the device information image storage unit 94. In the present embodiment, the image reading unit 92 can sequentially read the QR codes 20 of a plurality of PCs. For example, as shown in FIG. 1, the image reading unit 92 can read the QR code 20A of the PC 10A, and then read the QR code 20B of the PC 10B. The image reading unit 92 may continuously read three or more QR codes 20. For example, the image reading unit 92 can store a plurality of QR codes 20 in the device information image storage unit 94 so that the reading order can be identified.

The device information image analysis unit 96 analyzes the QR code 20 stored in the device information image storage unit 94 and extracts device information included in the QR code 20. The device information image analysis unit 96 can sequentially analyze a plurality of QR codes 20 stored in the device information image storage unit 94 and output device information, for example. In addition, the device information image analysis unit 96 may analyze the QR code and output device information each time the QR code 20 is stored in the device information image storage unit 94. In any case, the device information image analysis unit 96 can output device information according to the order in which the QR code 20 is read.

The information transmission unit 98 transmits the authentication information stored in the authentication information storage unit 90 to the synchronization server 14 together with the device information extracted by the device information image analysis unit 96. The information transmitting unit 98 can transmit the device information to the synchronization server 14 so that the order in which the QR code 20 is read can be identified. For example, in the configuration shown in FIG. 1, when the QR code 20B of the PC 10A is read after the QR code 20A of the PC 10A is read, the information transmitting unit 98 can identify the order of the device information of the PCs 10A and 10B. Can be transmitted to the synchronization server 14. For example, the information transmission unit 98 uses the device information of the PCs 10A and 10B as the device that uploads the synchronization target data (the synchronization source PC) as the PC 10A and the device that downloads the synchronization target data as the PC 10B (the synchronization destination PC). It may be transmitted to the synchronization server 14.

Further, the information transmission unit 98 can receive the authentication result based on the authentication information from the synchronization server 14 after transmitting the authentication information to the synchronization server 14. Note that the authentication result may be transmitted from the synchronization server 14 only when the authentication fails. When the information transmission unit 98 receives the authentication result from the synchronization server 14, the information transmission unit 98 may display the authentication result on the display. When the authentication result received from the synchronization server 14 indicates that the authentication has failed, the information transmission unit 98 may output a message that prompts the user to re-enter authentication information.

FIG. 7 is a block diagram illustrating an example of functional units constituting the synchronization server 14. As illustrated in FIG. 7, the synchronization server 14 includes an authentication database 100, an information reception unit 102, a synchronization data storage unit 104, and a synchronization processing unit 106. Each unit constituting the synchronization server 14 uses a storage area such as a memory or a storage device, a processor executes a program stored in the storage area, or uses various devices for input / output and communication. Can be realized.

The authentication database 100 stores information necessary for executing the authentication process based on the device information and the authentication information received from the mobile terminal 12. FIG. 8 is a diagram illustrating an example of the configuration of the authentication database. As shown in FIG. 8, for example, the authentication database can store device information and authentication information in association with each other.

Note that the device information and authentication information received from the mobile terminal 12 need not be completely the same as the device information and authentication information stored in the authentication database. For example, the device information stored in the authentication database 100 may include information that is not included in the device information received from the mobile terminal 12. Further, for example, the device information received from the mobile terminal 12 may include information that is not included in the device information stored in the authentication database 100. Specifically, for example, when the device information received from the mobile terminal 12 includes a global address or port number for accessing the PC 10 in addition to the computer name of the PC 10, the device stored in the authentication database 100 The information may not include a global address or a port number.

Returning to FIG. 7, the information receiving unit 102 can receive, from the mobile terminal 12, device information of a plurality of PCs 10 on which synchronization processing is performed and authentication information for using the synchronization server 14. Note that the information receiving unit 102 can receive device information of a plurality of PCs 10 in a state where it is possible to identify which PC 10 uploads synchronization target data and which PC 10 downloads synchronization target data.

The synchronization data storage unit 104 stores synchronization data that is synchronization target data. FIG. 9 shows an example of the structure of the synchronization data storage unit 104. In the example shown in FIG. 9, the synchronization data storage unit 104 includes a synchronization table and a data storage. The synchronization table stores a user ID, a user file ID, a status file ID, an application file ID, and an update date / time. The data storage stores user file, status file, or application file data in association with file IDs.

Returning to FIG. 7, the synchronization processing unit 106 can execute a synchronization process for synchronizing data among the plurality of PCs 10 based on the device information and the authentication information received from the mobile terminal 12. For example, the synchronization processing unit 106 can transmit a synchronization instruction for uploading the data to the PC 10 designated as a device for uploading data to be synchronized, to the PC 10. Further, for example, the synchronization processing unit 106 can transmit a synchronization instruction for downloading the data to the PC 10 designated as a device for downloading the data to be synchronized, to the PC 10. Note that after the synchronization target data is uploaded, the synchronization processing unit 106 can transmit a synchronization instruction for downloading the data.

Note that the synchronization processing unit 106 may transmit a synchronization instruction to the PC 10 without specifying an upload or download type. For example, the synchronization processing unit 106 can transmit the update date and time of each data for the user of the PC 10 stored in the synchronization data storage unit 104 to the PC 10 by including it in the synchronization instruction. In this case, the synchronous communication unit 78 of the PC 10 can execute the synchronization process by comparing the update date and time of the data in the PC 10 with the update date and time received from the synchronization server 14. That is, when the data in the PC 10 is newer, the synchronous communication unit 78 of the PC 10 can upload the data to the synchronous server 14. On the other hand, when the data in the synchronization server 14 is newer, the synchronization communication unit 78 of the PC 10 can download the data from the synchronization server 14.

In addition, the synchronization processing unit 106 can establish communication with the PC 10 in response to a request from the synchronous communication unit 78 of the PC 10. The synchronization processing unit 106 can recognize a global address and a port number for transmitting information to the PC 10 by a request from the synchronous communication unit 78 of the PC 10. Communication establishment with the PC 10 can be performed at an arbitrary timing before the synchronization server 14 transmits a synchronization instruction to the PC 10.

Further, the synchronization processing unit 106 can execute the authentication process based on the device information and the authentication information received from the mobile terminal 12 with reference to the authentication database 100. Specifically, the synchronization processing unit 106 can perform user authentication depending on whether or not the combination of the received device information and authentication information matches the content registered in the authentication database 100. The synchronization processing unit 106 can transmit a synchronization instruction to the PC 10 when the user authentication is successful. In addition, when the user authentication fails, the synchronization processing unit 106 can transmit an authentication result indicating that the user authentication has failed to the mobile terminal 12. Further, the synchronization processing unit 106 may transmit the authentication information received from the mobile terminal 12 to the PC 10 and cause the PC 10 to execute the authentication process.

Note that the synchronization processing unit 106 may perform user authentication only for the PC 10 (for example, the PC 10A) serving as the synchronization source. The same applies to the case where authentication information is transmitted to the PC 10 to execute authentication processing. This is effective, for example, when the synchronization target PC 10 (for example, PC 10B) is a PC that is not specified in advance, such as a PC installed in a customer's conference room.

FIG. 10 is a flowchart showing an example of the synchronization process. The synchronous communication unit 78 of the PC 10A and PC 10B establishes communication with the synchronous server 14 by transmitting a request to the synchronous server 14 at an arbitrary timing (S1001-S1003). The device information image generation unit 54 of the PC 10A generates a QR code 20A (device information image) based on the device information stored in the device information storage unit 50 (S1004). The device information image display unit 56 of the PC 10A displays the generated QR code 20A on the display (S1005). Similarly, in the PC 10B, the device information image generation unit 54 generates a QR code 20B (S1006), and the device information image display unit 56 displays the generated QR code 20B on a display (S1007).

In the portable terminal 12, the image reading unit 92 uses the camera 30 to sequentially read the QR code 20A of the PC 10A and the QR code 20B of the PC 10B and store them in the device information image storage unit 94 (S1008, S1009). In addition, the interval which reads QR code 10A, 10B in order is arbitrary. For example, if the PCs 10A and 10B are installed nearby, the QR code 10B may be read immediately after the QR code 10A is read. Also, for example, if the PCs 10A and 10B are installed at a remote location, such as when the PC 10A is installed at a company seat and the PC 10B is installed in a conference room, after the QR code 10A is read, The QR code 10B may be read after the user moves to the place where the PC 10B is installed.

The device information image analysis unit 96 analyzes the QR codes 20A and 20B and extracts device information (S1010). The information transmission unit 98 transmits the authentication information stored in the authentication information storage unit 90 together with the extracted device information to the synchronization server 14 (S1011). The information transmitting unit 98 can transmit the device information to the synchronization server 14 so that the order in which the QR codes 20A and 20B are read can be identified.

In the synchronization server 14, the information receiving unit 102 receives device information and authentication information from the mobile terminal 12 (S1012). The synchronization processing unit 106 refers to the authentication database 100 and executes an authentication process based on the received device information and authentication information (S1013).

When the authentication in the synchronization server 14 fails (S1014: N), the synchronization processing unit 106 transmits an authentication result indicating that the authentication has failed to the mobile terminal 12 (S1015). The information transmitting unit 98 of the mobile terminal 12 receives the authentication result from the synchronization server 14 (S1016), and displays the authentication result on the display (S1017).

When the authentication in the synchronization server 14 is successful (S1014: Y), the synchronization processing unit 106 transmits a synchronization instruction for executing the synchronization process to the PC 10A (S1018). The synchronization communication unit 78 of the PC 10A receives the synchronization instruction from the synchronization server 14 (S1019). And the synchronous communication part 78 of PC10A performs a synchronous process according to the received synchronous instruction | indication (S1020). The synchronization processing is also executed in the synchronization processing unit 106 of the synchronization server 14 (S1021). Specifically, the synchronous communication unit 78 of the PC 10A uploads data to be synchronized to the synchronization server 14, for example. Then, the synchronization processing unit 106 of the synchronization server 14 stores the data received from the PC 10 </ b> A in the synchronization data storage unit 104.

Subsequently, the synchronization processing unit 106 of the synchronization server 14 transmits a synchronization instruction for executing the synchronization processing to the PC 10B (S1022). The synchronization communication unit 78 of the PC 10B receives the synchronization instruction from the synchronization server 14 (S1023). And the synchronous communication part 78 of PC10B performs a synchronous process according to the received synchronous instruction | indication (S1024). The synchronization processing is also executed in the synchronization processing unit 106 of the synchronization server 14 (S1025). Specifically, the synchronization communication unit 78 of the PC 10B downloads data to be synchronized from the synchronization server 14, for example.

As described above, according to the present embodiment, by using the mobile terminal 14, data can be synchronized among a plurality of PCs 10 without performing an operation for synchronizing data in each PC 10. In the present embodiment, the data to be synchronized also includes operation position information indicating the operation position of the file. Therefore, it is possible to synchronize the operation position for the file among the plurality of PCs 10. Thus, according to the present embodiment, it is possible to improve the operability when synchronizing data among a plurality of PCs 10.

In addition, this embodiment is for making an understanding of this invention easy, and is not for limiting and interpreting this invention. The present invention can be changed / improved without departing from the spirit thereof, and the present invention includes equivalents thereof.

For example, in the present embodiment, data synchronization is performed between a plurality of PCs 10, but data synchronization can be performed not only between PCs but also between arbitrary computers.

Further, for example, in the processing shown in FIG. 10, the QR code 20A and 20B are analyzed after sequentially reading the QR code 20A of the PC 10A and the QR code 20B of the PC 10B, but the timing of analyzing the QR codes 20A and 20B is analyzed. Is not limited to this. Specifically, for example, the device information image analysis unit 96 analyzes the QR code 20A when the QR code 20A is read, extracts the device information of the PC 10A, and the PC 10A is the synchronization source PC. The device information of the PC 10A may be stored in the device information storage unit so that the device information can be identified. Further, the device information image analysis unit 96 may analyze the QR code 20B when the QR code 20B is subsequently read, and extract the device information of the PC 10B as information for specifying the synchronization destination PC. . Then, the information transmission unit 98 may transmit the device information of the PCs 10A and 10B extracted at different timings to the synchronization server 14 in order to synchronize data between the PCs 10A and 10B.

Also, for example, in this embodiment, the mobile terminal 12 transmits the authentication information to the synchronization server 14 together with the device information. However, if the authentication information is unnecessary in the synchronization process, the authentication information may not be transmitted. Good.

Further, for example, in the present embodiment, an example in which data synchronization is performed between the two PCs 10A and 10B has been described. However, the number of PCs 10 in which data synchronization is performed is not limited to two, and a plurality of three or more PCs. Data synchronization may be performed between the PCs 10. For example, after data synchronization is performed with the PC 10A as the synchronization source and the PC 10B as the synchronization destination, by reading the QR code 20 of the other PC, the PC 10A as the synchronization source and the other PC as the synchronization destination, Synchronization may be performed. In this case, the QR code 20A of the PC 10A serving as the synchronization source can be read only once, for example. When changing the synchronization source PC 10, the image reading unit 92 of the mobile terminal 12 may read the QR code 20 of the PC 10 using the PC 10 as the synchronization source.

Further, for example, in the present embodiment, the mobile terminal 12 collectively transmits the device information of a plurality of PCs 10 to the synchronization server 14, but the mobile terminal 12 individually transmits the device information of each PC 10 to the synchronization server 14. You may send it. For example, the mobile terminal 12 may transmit the device information obtained from the QR code 20 to the synchronization server 14 at the timing when each QR code 20 is read.

Further, for example, in this embodiment, the device information of a plurality of PCs 10 to be synchronized is acquired from the QR code 20 respectively, but the device information of some PCs 10 is acquired from the QR code 20. Instead, it may be registered in advance by user input. For example, if the PC 10 serving as the synchronization source or the synchronization destination is specified in advance, the device information of the PC 10 may be registered in the mobile terminal 12 or the synchronization server 14 in advance.

10 PC
DESCRIPTION OF SYMBOLS 12 Mobile terminal 14 Synchronization server 20 QR code 30 Camera 50 Device information storage unit 52 Authentication information storage unit 54 Device information image generation unit 56 Device information image display unit 58 Synchronization processing unit 70 Application storage unit 72 Synchronization data storage unit 74 Application execution unit 76 Operation position acquisition unit 78 Synchronization communication unit 80 Operation position synchronization unit 90 Authentication information storage unit 92 Image reading unit 94 Device information image storage unit 96 Device information image analysis unit 98 Information transmission unit 100 Authentication database 102 Information reception unit 104 Data for synchronization Storage unit 106 Synchronization processing unit

Claims (6)

1. A computer having a sensor for reading an image;
   An image reading unit that reads, using the sensor, a first device information image that includes first device information related to the first computer and a second device information image that includes second device information related to the second computer;
   The first and second devices are connected to a synchronization server that synchronizes predetermined data between the first computer and the second computer based on the reading result of the first and second device information images. An information transmitter for transmitting information,
   Program to function as.
2. The program according to claim 1,
   The computer further functions as an authentication information storage unit that stores authentication information for using the synchronization server,
   The information transmission unit transmits the authentication information to the synchronization server in addition to the first and second device information.
   program.
3. A synchronization server connected to be communicable with the first computer, the second computer, and the third computer;
   An information receiving unit for receiving, from the third computer, first device information relating to the first computer and second device information relating to the second computer;
   Based on the first and second device information, a synchronization instruction for synchronizing predetermined data between the first computer and the second computer is transmitted to the first and second computers. Synchronization processor,
   Program to function as.
4. The program according to claim 3,
   The information receiving unit further receives authentication information for using the synchronization server from the third computer,
   The synchronization processing unit executes an authentication process based on the authentication information, and transmits the synchronization instruction to the first and second computers when a result of the authentication process is normal;
   program.
5. A computer having a sensor for reading an image
   Reading a first device information image including first device information relating to the first computer and a second device information image including second device information relating to the second computer using the sensor,
   The first and second devices are connected to a synchronization server that synchronizes predetermined data between the first computer and the second computer based on the reading result of the first and second device information images. Send information,
   Synchronization method.
6. A synchronization server connected to be communicable with the first computer, the second computer, and the third computer,
   Receiving first device information about the first computer and second device information about the second computer from the third computer;
   Based on the first and second device information, a synchronization instruction for synchronizing predetermined data between the first computer and the second computer is transmitted to the first and second computers. ,
   Synchronization method.

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