JPWO2018073921A1 - Information processing apparatus, information processing system, information processing method, and computer program - Google Patents

Abstract

Prevent time tampering.
In response to receiving a document conversion request that can identify a text document transmitted from the terminal device 10 via the network N, the server device 20 acquires the current time as the creation time of the text document. Next, the server device 20 generates a time conversion character code string indicating the creation time of the text document by assigning a different time conversion character code to each of the numbers constituting the number string indicating the creation time of the text document. To do. Then, the server device 20 stores a time conversion character code string indicating the creation time of the text document in the storage device 30.

Description

  The present invention relates to an information processing device, an information processing system, an information processing method, and a computer program, and more particularly to an information processing device, an information processing system, an information processing method, and a computer program that can prevent time tampering.

  A system that can enhance the safety of a document to be transmitted (for example, see Patent Document 1) and a system that can safely manage a document (for example, see Patent Document 2) have already been developed. In addition, the specification of patent documents 1 and 2, a claim, and the whole drawing shall be taken in this specification for reference.

Japanese Patent No. 5865565 Japanese Patent No. 5956092

  In recent years, digital data is increasingly used as evidence, but by changing the personal computer time setting, the creation time on the digital data can be altered before the actual document creation time. Therefore, evidence capacity is often not recognized. For this reason, in a system for managing digital data of a document, it is strongly desired that the document creation time cannot be altered in addition to ensuring the safety of the document.

  SUMMARY An advantage of some aspects of the invention is that it provides an information processing apparatus, an information processing system, an information processing method, and a computer program that can prevent time tampering.

  In order to achieve the above object, the information processing apparatus (20) according to the first aspect of the present invention assigns a different character code to each of the numbers constituting the number string indicating the current time, and A time character code string generating means for generating a time character code string indicating the time of the time, and a character code string storage means for storing the time character code string generated by the time character code string generating means in a storage device (30) .

  The information processing device (20) obtains the current time as the creation time of the document in response to receiving the document transmitted from the terminal device (10) via the network (N). The time character code string generation means generates the time character code string indicating the creation time of the document, and the character code string storage means includes the time character code indicating the creation time of the document. The column may be stored in the storage device (30).

  The information processing device (20) includes a font generation unit that generates a font for displaying a number corresponding to the character code, and the font generated by the font generation unit via the network (N). Font transmission means for transmitting to the terminal device (10) may be further provided.

  In response to receiving the document transmitted from the terminal device (10) via the network (N) and the location information of the terminal information (10), the information processing device (20) A position information character for generating a position information character code string indicating the position information of the terminal information (10) by assigning a different character code to each of the numbers constituting the number string indicating the position information of the terminal information (10) The character code string storage means further includes the time character code string indicating the creation time of the document, and the position information character code string generated by the position information character code string generation means. You may make it memorize | store in the said memory | storage device (30).

  In the information processing apparatus (20), the time character code string generation unit rearranges numbers constituting a number string indicating the current time using the current time, and each of the rearranged numbers In accordance with a predetermined order, each different character code is assigned, and the position information character code string generating means uses the position information of the terminal information (10) to indicate a number indicating the position information of the terminal information (10). The numbers constituting the columns may be rearranged, and the different character codes may be assigned to the rearranged numbers in a predetermined order.

  In order to achieve the above object, an information processing system (1) according to a second aspect of the present invention includes a terminal device (10) including a display unit (14) and capable of creating a document, and an information processing device ( 20) and a storage device (30) via a network (N), the information processing system (1), wherein the information processing device (20) is connected to the network (N ) In response to receiving the document transmitted via (), time acquisition means for acquiring the current time as the creation time of the document, and each of the numbers constituting the number string indicating the creation time of the document Time character code string generating means for assigning different character codes to each other and generating a time character code string indicating the creation time of the document, and the time character code string generated by the time character code string generating means Character code string storage means stored in the storage device (30), font generation means for generating a font for displaying a number corresponding to the character code, and the font generated by the font generation means for the network (N Font transmission means for transmitting to the terminal device (10) via the terminal device (10), the terminal device (10) receiving the font transmitted by the font transmission means, and the font reception The creation time of the document indicated by the time character code string stored in the storage device (30) by transmitting the font received by the means to the storage device (30) via the network (N) Creation time display means for displaying on the display unit (14).

  In the information processing system (1), the storage device (30) responds to the reception of the font transmitted from the terminal device (10) via the network (N), and the font and From the time character code string, an image generation means for generating an image indicating the creation time of the document, and the image generated by the image generation means are transmitted to the terminal device (10) via the network (N). Image generation means for performing image generation, and the creation time display means includes image reception means for receiving the image transmitted by the image transmission means, and displays the image received by the image reception means in the display section (14). ), The creation time of the document indicated by the time character code string stored in the storage device (30) is displayed on the display unit (14). , It may be so.

  In order to achieve the above object, an information processing method according to the third aspect of the present invention assigns a different character code to each of the numbers constituting a number string indicating the current time, and calculates the current time. A time character code string generation step for generating a time character code string to be shown; and a character code string storage step for storing the time character code string generated by the time character code string generation means in a storage device (30). .

  In order to achieve the above object, a program according to the fourth aspect of the present invention assigns a different character code to each of the numbers constituting the number string indicating the current time to the computer (23). Time character code string generation procedure for generating a time character code string indicating the current time, and a character code string storage procedure for storing the time character code string generated by the time character code string generation means in a storage device (30) And execute.

  According to the information processing apparatus, the information processing system, the information processing method, and the computer program according to the present invention, it is possible to prevent the time from being falsified.

It is a figure showing an example of composition of an information processing system. It is a block diagram which shows the structural example of a terminal device. It is a block diagram which shows the structural example of a server apparatus. It is explanatory drawing which shows an example of the production | generation method of a conversion character code. It is a figure which shows the structural example of a conversion table. It is a figure which shows the structural example of a memory | storage device. It is a flowchart which shows an example of a document registration process. It is a flowchart which shows the continuation of a document registration process. It is a flowchart which shows the continuation of a document registration process. It is a flowchart which shows an example of a document authentication process.

  Hereinafter, modes for carrying out the present invention will be described.

  First, the configuration of the information processing system according to the present embodiment will be described with reference to the drawings.

  As shown in FIG. 1, the information processing system 1 includes a terminal device 10, a server device (information processing device) 20, and a storage device 30, which communicate with each other via a network N such as the Internet. Connected as possible.

  The terminal device 10 includes, for example, a general-purpose personal computer, a tablet computer, or a smartphone, and is operated by a user who creates a text document.

  FIG. 2 is a block diagram illustrating a configuration example of the terminal device.

  As shown in FIG. 2, the terminal device 10 includes an operation unit 11, a storage unit 12, a communication unit 13, a display unit 14, and a control unit (computer) 15, which are mutually connected via a bus. Is communicably connected.

  The operation unit 11 includes, for example, a keyboard and mouse, a touch panel, or the like. The user uses the operation unit 11 to create a text document and to set a document encryption key (“R28djaowis912jaas0slwodkqod3m010” in this embodiment) for encrypting the text document. In addition, the user instructs the conversion of the text document using the operation unit 11 or instructs the authentication of the text document. The document encryption key may be stored in the ROM or the storage unit 12 in advance, or may be generated using a predetermined random number each time a document is input through the operation unit 11.

  The storage unit 12 is composed of, for example, a hard disk drive or a flash memory. The storage unit 12 stores a standard character code table, which is a standard, such as a JIS standard character code table, and a standard font for displaying glyphs representing characters corresponding to each standard character code.

  Here, the standard character code is a byte representation assigned to each character in order to use the character on the computer. The JIS standard character code is a two-byte character code, and is commonly called “double-byte character”. For each character such as English letters, numbers, kanji, hiragana and katakana, “00000” to “ The number 65535 "(decimal) is assigned. The “character” in the present application includes all characters such as English letters, numbers, kanji, hiragana, katakana, and symbols.

  The standard character code table may be an ASCII (ASCII: American Standard Code for Information Interchange) code table. The ASCII code is a 1-byte character code, and is sometimes called a “half-width character”, and a number from “000” to “127” (decimal number) is assigned to each character such as an English letter or a number. ing.

  The communication unit 13 includes, for example, a GPS (Global Positioning System) receiver, a NIC (Network Interface Card), and the like, and obtains current position information of the terminal device 10 from a GPS satellite (not shown) via a GPS antenna (not shown). get. In the present embodiment, the current position information of the terminal device 10 acquired from a GPS satellite is represented by an 18-digit number string indicating GPS coordinates. For example, the GPS coordinates (35.666561, 139.770631) are represented by “035666561139770631”, and the GPS coordinates (−83.592081, 40.320575) are represented by “-83592081040320575”.

  The communication unit 13 transmits a document conversion request for requesting conversion of the text document to the server device 20 via the network N. Then, the communication unit 13 transmits a conversion character code string (hereinafter referred to as “document conversion character code string”) corresponding to a character string indicating a text document transmitted from the server device 20 via the network N, and each conversion. A conversion font for displaying a glyph representing a character corresponding to the character code is received.

  Further, the communication unit 13 transmits a document authentication request for requesting authentication of the text document to the storage device 30 via the network N. Then, the communication unit 13 receives the authentication image indicating the authentication information transmitted from the storage device 30 via the network N and including the creation date (creation time) and the creation location (position information of the terminal device 10) of the text document. To do.

  The display unit 14 is composed of, for example, a general-purpose liquid crystal display device or the like, and displays a text document or an authentication image.

  The control unit 15 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. The CPU uses the RAM as a work memory, and appropriately stores a program stored in the ROM. By executing, various operations of the terminal device 10 are controlled.

  Specifically, the control unit 15 creates a text document with the operation unit 11, sets the document encryption key, and then responds to the instruction to convert the text document, the GPS antenna from the GPS satellite. The current position information of the terminal device 10 is acquired by the communication unit 13.

  Next, the control unit 15 includes a standard character code string (hereinafter referred to as “document standard character code string”) corresponding to a character string indicating a text document, a document encryption key set by the operation unit 11, and a communication unit. The communication unit 13 sends a document conversion request capable of specifying a standard character code string (hereinafter referred to as “position information standard character code string”) corresponding to a numeric string indicating the current position information of the terminal device 10 acquired in 13. To the server device 20 via the network N.

  Subsequently, the control unit 15 receives the document conversion character code string and the conversion font transmitted from the server device 20 via the network N by the communication unit 13. And the control part 15 displays the glyph showing the character corresponding to each conversion character code which comprises a document conversion character code sequence on the display part 14 using the conversion font received by the communication part 13. FIG. As a result, the text document is displayed on the display unit 14 without being garbled. When a specified font is used instead of the converted font, the text document is displayed as garbled characters on the display unit 14.

  In response to the user instructing the user to authenticate the text document using the operation unit 11, the control unit 15 sends a document authentication request received by the communication unit 13 from the communication unit 13 via the network N. To the storage device 30. Then, the control unit 15 receives an authentication image transmitted from the storage device 30 via the network N and displays it on the display unit 14. As a result, the display unit 14 displays the authentication information including the creation date and the creation location of the text document to be authenticated.

  The server device 20 shown in FIG. 1 is composed of a general-purpose server computer, for example, and generates a document conversion character code string and the like.

  FIG. 3 is a block diagram illustrating a configuration example of the server apparatus.

  As illustrated in FIG. 3, the server device 20 includes a communication unit 21, a storage unit 22, and a control unit (computer) 23, which are connected to each other via a bus so as to communicate with each other.

  The communication unit 21 includes, for example, a NIC or the like, and receives a document conversion request transmitted from the terminal device 10 via the network N. The communication unit 21 acquires the current time via the network N from an NTP (Network Time Protocol) server (not shown). Then, the communication unit 21 transmits the document conversion character code string and the conversion font generated by the control unit 23 to the terminal device 10 via the network N.

In the present embodiment, the current time acquired from the NTP server (e.g. _Y 1 _Y 2 _Y 3 _{Y 4} years _M 1 _{M 2} January _D 1 _{D 2} days _H 1 _{H 2} o'clock _M 1 _{M 2} minute _S 1 _{S 2} sec ) is represented by 14-digit number string _{(Y 1 Y 2 Y 3 Y} 4 M 1 M 2 D 1 D 2 H 1 H 2 M 1 M 2 S 1 S 2). The current time may be a 19-digit number string obtained by adding a 5-digit number string (+0900) indicating Japan Standard Time (JST) to the above-described 14-digit number string.

  Further, the communication unit 21 transmits an authentication information registration request for requesting registration of authentication information including the creation date and time and the creation location of the text document to the storage device 30 via the network N.

  The storage unit 22 is composed of, for example, a hard disk drive or the like, and designates specification data used to generate a standard character code table, a document conversion character code string, and the like that are the same as the standard character code table stored in the storage unit 12. Remember.

  The designated data includes a standard character code area to be converted, one or more source parameters indicating the number of conversion character codes corresponding to one character, and a conversion character code (hereinafter referred to as “document”) used to indicate a text document. One or a plurality of document target parameters indicating an area of "converted character code"), and an area of a converted character code (hereinafter referred to as "time converted character code") used to indicate the creation date and time of the text document. One or a plurality of time target parameters indicating the position and one or a plurality of position information indicating a region of a conversion character code (hereinafter referred to as a “position information conversion character code”) used to indicate the creation location of the text document Target parameters, etc. are included.

  In the present embodiment, the designated data includes a plurality of source parameters (33, 47, 2), (48, 57, 8), (58, 126, 2), and the like. Here, the source parameter (33, 47, 2) designates “00033” to “00047” (decimal number) as the standard character code area to be converted, and the number of conversion character codes corresponding to one character. “2” is specified. In the source parameter (48, 57, 8), “00048” to “00057” (decimal number) are designated as the standard character code area to be converted, and the number of conversion character codes corresponding to one character is specified. Specify “8”. Furthermore, the source parameter (58, 126, 2) designates “00058” to “00126” (decimal number) as the standard character code area to be converted, and represents the number of conversion character codes corresponding to one character. Specify “2”.

  The designated data includes a plurality of document target parameters (64, 126), (192, 383), (461, 476), etc., and “00064”-“ A plurality of areas such as “00126”, “00192” to “00383”, and “00461” to “00476” are designated. Further, the designation data includes time target parameters (48, 63), and “00048” to “00063” are designated as time conversion character code areas.

  The control unit 23 includes, for example, a CPU, a ROM, a RAM, and the like, and the CPU uses the RAM as a work memory and appropriately executes programs stored in the ROM, thereby controlling various operations of the server device 20.

  Specifically, the control unit 23 responds to the fact that the communication unit 21 receives a document conversion request transmitted from the terminal device 10 via the network N, and the standard assigned to each character in the standard character code table. By applying a predetermined encryption process to the character code, an encrypted character string corresponding to each character is generated. In this embodiment, standard character codes “00033” to “00047”, “00048” to “00057”, “00058” to “00126”, and the like of the area specified by the source parameter, and conversion specified by the source parameter A numeric string generated according to the number of character codes is encrypted with the Rijndael encryption method using the document encryption key specified from the document conversion request, thereby corresponding to each character. Generate a cipher string.

  First, the control unit 23 generates a numeric string corresponding to the number of conversion character codes specified by the source parameter. In the present embodiment, since the number of conversion character codes is “2” in the range of standard character codes “00033” to “00047” (decimal number) and “00058” to “00126” (decimal number), the control unit 23 from the standard character codes “00033” to “00047” (= “0x0021” to “0x002f” (hexadecimal number)) and “00058” to “00126” (= “0x003a” to “0x007e” (hexadecimal number)). , “0x00210x0021”, “0x00220x0022”,..., “0x002f0x002f”, “0x003a0x003a”, “0x003b0x003b”,..., “0x007e0x007e” (hexadecimal) are generated. Thus, in the range of the standard character codes “00033” to “00047” (decimal number) and “00058” to “00126” (decimal number), two numeric strings including the standard character code are assigned to each character.

  In addition, in the range of the standard character code “00048” (decimal number) to “00057” (decimal number), the number of conversion character codes is “8”, so that the control unit 23 sets the standard character codes “00048” to “0”. From each of “00057” (= “0x0030” to “0x0039” (hexadecimal number)), seven numeric strings are generated. For example, the control unit 23 generates seven numerical sequences such as “0x00300x0030”, “0x00300x00300x0030”, “0x00300x00300x00300x0030”,... (Hexadecimal number) from the standard character code “00048” (= “0x0030” (hexadecimal number)). To do. Thereby, in the range of the standard character codes “00033” to “00047” (decimal number), eight numeric strings including the standard character code are assigned to each character.

  Next, the control unit 23 sets the standard character codes “00033” to “00047” (= “0x0021” to “0x002f” (hexadecimal number)), “00048” to “00057” (= “0x0030” to “0x0039” (hexadecimal number)), “00058” to “00126” (= “0x003a” to “0x007e” (hexadecimal number)), etc., and the number of conversion character codes specified by the source parameter Correspondingly generated numerical strings “0x00210x0021”, “0x00220x0022”,..., “0x007e0x007e”,..., “0x00300x00300x00300x0030”,. Used to encrypt with Rijndael encryption method.

  In the example shown in FIG. 4, the control unit 23 encrypts the standard character code “00033” (decimal number) (= “0x0021” (hexadecimal number)) using the document encryption key “R28djaowis912jaas0slwodkqod3m010”. Encrypt using the method to generate the encrypted character string “ans9ewjdses3aexa”. Further, the control unit 23 converts the encrypted character string “cmrfxqxqpasdkfq3rx” from the standard character code “00034” (decimal number) (= “0x0022” (hexadecimal number)) into the standard character code “00035” (decimal number) (= “0x0023”). "(Hexadecimal number)) is generated from the cipher character string" mxjqwjfxaajrfcjwwrex ",... And the numerical character string" 0x00300x00300x00300x0030 "(hexadecimal number) generated corresponding to the number of conversion character codes is generated.

  The encryption method is not limited to the line Dahl encryption method, and may be another encryption method. For example, asymmetric cryptography (public key cryptography) such as Elliptic Curve Cryptography (ECC), Rivest-Shamir-Adleman (RSA) cryptography, and El Gamal cryptography is preferably applicable to the present invention. Further, AES (Advanced Encryption Standard) encryption, DES (Data Encryption Standard) encryption, and the like are also applicable to the present invention. Alternatively, the standard character code may be converted according to a method other than encryption or a predetermined algorithm.

  Subsequently, the control unit 23 illustrated in FIG. 3 rearranges each character corresponding to the encrypted character string by rearranging the encrypted character string in alphabetical order.

  In the example illustrated in FIG. 4, the control unit 23 uses the encrypted character string “ans9ewjdses3aexa” generated from the standard character code “00033” (decimal number) (= “0x0021” (hexadecimal number)), the standard character code “00034” ( The encrypted character string “cmrfxqxqpasdkfq3rx” generated from (decimal number) (= “0x0022” (hexadecimal number)), the encrypted character string “eiu37sgcvjw4y8” generated from the standard character code “0x00300x00300x00300x0030” (hexadecimal number), and the standard character code “ The encrypted character string “mxjqwjfxaajrfcjwwrex” generated from “0” (decimal number) (= “0x0023” (hexadecimal number)) is rearranged.

  The order of the encrypted character strings can be arbitrarily changed, and may be determined in advance by a user or the like, or may be generated using a document encryption key according to a predetermined algorithm, for example. Good.

  Subsequently, the control unit 23 shown in FIG. 3 assigns “00064” to “00126” and “00192” to “00383” designated by the document target parameter to each character rearranged according to the alphabetical order of the encrypted character string. , And numbers “00461” to “00476” are reassigned in order, and this is used as a document conversion character code. Then, the control unit 23 registers the standard character code and the document conversion character code in association with each character, thereby generating the conversion table 221 shown in FIG. 5 and storing it in the RAM.

  Subsequently, the control unit 23 specifies the document conversion character code corresponding to each standard character code constituting the document standard character code string specified from the document conversion request, from the conversion table 221, and indicates the text document. A document conversion character code string corresponding to the string is generated.

  Also, the control unit 23 acquires the current time from the NTP server via the network N as the text document creation date and time by the communication unit 21. Next, the control unit 23 selects a document standard character code string specified from the document conversion request and a standard character code string (hereinafter referred to as a “time standard character code string” corresponding to a numeric string indicating the current time acquired from the NTP server. And the hash value is obtained by SHA (Secure Hash Algorithm) -256 and stored in the RAM as a time encryption key.

  The cryptographic hash function is not limited to SHA-256, but may be other SHA-2 such as SHA-384 and SHA-512, and other SHA-2 and SHA-3. It may be SHA or another cryptographic hash function such as MD5 (Message Digest Algorithm 5).

  Subsequently, similarly to the document standard character code string, the control unit 23 encrypts the time standard character code string with the line-dahl encryption method using the time encryption key, thereby encrypting the code corresponding to each number. Generate a string. And the control part 23 rearranges each number corresponding to an encryption character string by rearranging an encryption character string in alphabetical order. Subsequently, the control unit 23 reassigns the numbers “00048” to “00063” designated by the time target parameter in order to the numbers rearranged according to the alphabetical order of the encrypted character strings, and assigns them to the time. Conversion character code. And the control part 23 produces | generates the time conversion character code sequence corresponding to the number sequence which shows the creation date of a text document.

  Further, the control unit 23 concatenates the document standard character code string specified from the document conversion request and the position information standard character code string, obtains a hash value by SHA-256, and stores it in the RAM as a position information encryption key. To do.

  Next, the control unit 23 encrypts the position standard character code string using the position information encryption key by the line dahl encryption method, similarly to the document standard character code string and the time standard character code string. Then, an encrypted character string corresponding to each number is generated. Subsequently, the control unit 23 rearranges the numbers corresponding to the encrypted character strings by rearranging the encrypted character strings in alphabetical order. And the control part 23 reassigns the number designated with the target parameter for position information to each number rearranged according to the alphabetical order of the encryption character string, and makes this a conversion character code for position information. Subsequently, the control unit 23 generates a position information conversion character code string corresponding to the character string indicating the creation location of the text document.

  Then, the control unit 23 transmits an authentication information registration request capable of specifying the time conversion character code string and the position information conversion character code string to the storage device 30 via the network N.

  Further, the control unit 23 generates a conversion character code table including the conversion character code for documents, the conversion character code for time, and the conversion character code for position information. Next, the control part 23 produces | generates the conversion font for displaying the glyph showing the character corresponding to each conversion character code of a conversion character code table.

  Then, the control unit 23 transmits the document conversion character code string and the conversion font from the communication unit 21 to the terminal device 10 via the network N.

  Thereafter, the control unit 23 deletes the conversion table 221, the time encryption key, and the position information encryption key from the RAM.

  The storage device 30 shown in FIG. 1 is composed of, for example, a general-purpose server computer or the like, and registers the creation date and time of a text document.

  FIG. 6 is a block diagram illustrating a configuration example of the storage device.

  As illustrated in FIG. 6, the storage device 30 includes a communication unit 31, a storage unit 32, and a control unit (computer) 33, which are connected to each other via a bus so as to communicate with each other.

  The communication unit 31 includes, for example, a NIC and receives an authentication information registration request transmitted from the server device 20 via the network N.

  In addition, the communication unit 31 receives a document authentication request transmitted from the terminal device 10 via the network N. Then, the communication unit 31 transmits an authentication image indicating authentication information including the creation date and time and the creation location of the text document to the terminal device 10 via the network N.

  The storage unit 32 is composed of, for example, a hard disk drive or the like, and stores a time conversion character code string and a position information conversion character code string specified from the document authentication request received by the communication unit 31.

  The control unit 33 includes, for example, a CPU, a ROM, a RAM, and the like, and controls various operations of the storage device 30 when the CPU uses the RAM as a work memory and appropriately executes programs stored in the ROM.

  Specifically, the control unit 33 responds to the reception of the authentication information registration request transmitted from the server device 20 via the network N by the communication unit 31, and the time conversion character code specified from the authentication information registration request. The column and the position information conversion character code string are stored in the storage unit 32.

  Further, the control unit 33 responds to the reception of the document authentication request transmitted from the terminal device 10 via the network N by the communication unit 31, and uses the converted font specified from the document authentication request to store the storage unit An authentication image indicating authentication information including the date and time of creation of the text document and the creation location from the glyph representing the character corresponding to each conversion character code constituting the time conversion character code sequence and the position information conversion character code sequence stored in FIG. Is generated. Then, the control unit 33 transmits the authentication image from the communication unit 31 to the terminal device 10 via the network N.

  Next, the operation of the information processing system 1 having the above configuration will be described with reference to the drawings.

  The user creates a text document or sets a document encryption key with the operation unit 11 of the terminal device 10. Then, in response to the user instructing the conversion of the text document using the operation unit 11, the control unit 15 starts the document conversion process.

  7 to 9 are flowcharts showing an example of the document conversion process.

  In the document conversion process, first, the control unit 15 obtains the current position information of the terminal device 10 from the GPS satellite via the GPS antenna, as shown in FIG. 7 (step S1).

  Next, the control unit 15 displays the document standard character code string corresponding to the character string indicating the text document created by the user using the operation unit 11, the set document encryption key, and the current state of the terminal device 10 acquired in step S1. A document conversion request capable of specifying a position information standard character code string corresponding to a number string indicating the position information is transmitted from the communication unit 13 to the server device 20 via the network N (step S1).

  Subsequently, the control unit 23 of the server device 20 is designated by the source parameter in response to the communication unit 21 receiving a document conversion request transmitted from the terminal device 10 via the network N (step S1). By encrypting the standard character code of the area and the number string generated corresponding to the number of conversion character codes with the line-dahl encryption method using the document encryption key specified from the document conversion request, An encrypted character string corresponding to each character in the standard character code table is generated (step S2).

  And the control part 23 rearranges each character corresponding to an encryption character string by rearranging the encryption character string produced | generated by step S2 in alphabetical order (step S1).

  Subsequently, the control unit 23 reassigns the numbers designated by the document target parameter to the characters rearranged in step S1 in order, and sets this as the converted character code for the document (step S1).

  And the control part 23 produces | generates the conversion table 221 by matching and registering a standard character code and the conversion character code for documents to each character, and stores it in RAM (step S1).

  Subsequently, the control unit 23 specifies the document conversion character code corresponding to each standard character code constituting the document standard character code string specified from the document conversion request, from the conversion table 221, and indicates the text document. A document conversion character code string corresponding to the string is generated (step S1).

  Further, the control unit 23 acquires the current time from the NTP server via the network N as the text document creation date and time by the communication unit 21 (step S1).

  Next, as shown in FIG. 8, the control unit 23 includes a document standard character code string specified from the document conversion request, and a time standard character code string corresponding to the number string indicating the current time acquired in step S <b> 1. , And a hash value is obtained by SHA-256 and stored in the RAM as a time encryption key (step S1).

  Subsequently, the control unit 23 configures the current time by encrypting the time standard character code string acquired in step S1 using the time encryption key obtained in step S1 with the line-dahl encryption method. An encrypted character string corresponding to each number to be generated is generated (step S1).

  And the control part 23 rearranges each number corresponding to an encryption character string by rearranging the encryption character string produced | generated by step S1 in alphabetical order (step S1).

  Subsequently, the control unit 23 reassigns the numbers designated by the time target parameters in order to the numbers rearranged in step S1, and sets them as the time conversion character codes (step S1).

  And the control part 23 produces | generates the time conversion character code sequence corresponding to the number sequence which shows the creation date of a text document (step S1).

  Further, the control unit 23 concatenates the document standard character code string specified from the document conversion request and the position information standard character code string, obtains a hash value by SHA-256, and stores it in the RAM as a position information encryption key. (Step S1).

  Next, the control unit 23 encrypts the position standard character code string specified from the document conversion request by using the position information encryption key obtained in step S1 by the line-dahl encryption method. An encrypted character string corresponding to is generated (step S1).

  Subsequently, the control unit 23 rearranges the numbers corresponding to the encrypted character strings by rearranging the encrypted character strings generated in step S1 in alphabetical order (step S1).

  And the control part 23 reassigns the number designated with the target parameter for position information in order to each number rearranged by step S1, and makes this a conversion character code for position information (step S1).

  Subsequently, as shown in FIG. 9, the control unit 23 generates a position information conversion character code string corresponding to the character string indicating the creation location of the text document (step S1).

  Then, the control unit 23 sends an authentication information registration request capable of specifying the time conversion character code string generated in step S1 and the position information conversion character code string generated in step S1 to the storage device 30 via the network N. Transmit (step S1). Thereby, in the storage device 30, the time conversion character code string and the position information conversion character code string specified from the authentication information registration request transmitted in step S1 are stored in the storage unit 32.

  Further, the control unit 23 generates a conversion character code table including the conversion character code for documents, the conversion character code for time, and the conversion character code for position information (step S1).

  Next, the control part 23 produces | generates the conversion font for displaying the glyph showing the character corresponding to each conversion character code of a conversion character code table (step S1).

  And the control part 23 transmits the document conversion character code string produced | generated by step S1 and the conversion font produced | generated by step S1 to the terminal device 10 via the network N from the communication part 21 (step S1). Thereafter, the control unit 23 deletes the conversion table 221 generated in step S1, the time encryption key obtained in step S1, and the location information encryption key obtained in step S1 from the RAM.

  Subsequently, the control unit 15 of the terminal device 10 receives the document conversion character code string and the conversion font transmitted from the server device 20 via the network N by the communication unit 13 (step S1).

  And the control part 15 displays the glyph showing the character corresponding to each conversion character code which comprises a document conversion character code sequence on the display part 14 using the conversion font received by step S1 (step S1). Then, the document conversion process is terminated. As a result, the text document is displayed on the display unit 14 without being garbled.

  Further, the control unit 15 starts the document authentication process in response to the user instructing the authentication of the text document through the operation unit 11.

  FIG. 10 is a flowchart illustrating an example of the document authentication process.

  In the document authentication process shown in FIG. 10, the control unit 15 of the terminal device 10 transmits a document authentication request that can identify the converted font received in step S1 from the communication unit 13 to the storage device 30 via the network N (step S1). S31).

  Next, the control unit 33 of the storage device 30 is identified from the document authentication request in response to the communication unit 31 receiving the document authentication request transmitted from the terminal device 10 via the network N (step S1). The creation date and time and creation of the text document from the glyph representing the character corresponding to each conversion character code constituting the time conversion character code sequence and the position information conversion character code sequence stored in the storage unit 32 using the conversion font An authentication image indicating authentication information including a place is generated (step S2).

  Subsequently, the control unit 33 transmits the authentication image generated in step S2 from the communication unit 31 to the terminal device 10 via the network N (step S1).

  Then, the control unit 15 of the terminal device 10 receives the authentication image transmitted from the storage device 30 via the network N (step S1), displays the authentication image on the display unit 14 (step S2), and then performs document recognition processing. Exit. As a result, the display unit 14 displays the authentication information including the creation date and the creation location of the text document to be authenticated.

  As described above, the information processing system 1 according to the present embodiment includes the display unit 14, the terminal device 10 capable of creating a text document, the server device 20, and the storage device 30 via the network N. Connecting.

  The server device 20 responds to the reception of the document conversion request that can specify the text document transmitted from the terminal device 10 via the network N and the position information of the terminal device 10 (step S1). The current time of the terminal device 10 is acquired as the creation time (step S1).

  Next, the server device 20 assigns a different time conversion character code to each of the numbers constituting the number string indicating the creation time of the text document (step S1), and converts the time conversion character indicating the creation time of the text document. A code string is generated (step S1). Specifically, using the current time, the numbers constituting the number string indicating the current time are rearranged (step S1), and each of the rearranged numbers is converted to a different time according to a predetermined order. A character code is assigned (step S1).

  Further, the server device 20 assigns a different conversion character code for position information to each of the numbers constituting the number string indicating the position information of the terminal information 10 (step S1), and the position indicating the position information of the terminal information 10 An information character code string is generated (step S1). Specifically, the position information of the terminal information 10 is used to rearrange the numbers constituting the number string indicating the position information of the terminal information 10 (step S1), and each of the rearranged numbers is rearranged according to a predetermined order. Different conversion character codes for position information are assigned (step S1).

  And the server apparatus 20 memorize | stores the time conversion character code sequence which shows the preparation time of a text document, and the positional information conversion character code sequence which shows the positional information on the terminal device 10 in the memory | storage device 30 (step S1).

  Subsequently, the server device 20 generates a conversion font for displaying numbers corresponding to the conversion character code for time and the conversion character code for position information (step S1). Then, the server device 20 transmits the converted font to the terminal device 10 via the network N in step S1 (step S1).

  The terminal device 10 receives the converted font transmitted in step S1 (step S1). The terminal device 10 generates the text document indicated by the time-converted character code string stored in the storage device 30 by transmitting the converted font received in step S1 to the storage device 30 via the network N (step S31). The time and the position information of the terminal device 10 indicated by the position information conversion character code string are displayed on the display unit 14 (step S2).

  Specifically, the storage device 30 responds to the reception of the converted font transmitted from the terminal device 10 via the network N (step S1), from the converted font and the time converted character code string, An authentication image indicating authentication information including the creation time and the position information of the terminal device 10 is generated (step S2). Next, the storage device 30 transmits the authentication image generated in step S2 to the terminal device 10 via the network N (step S1).

  Subsequently, the terminal device 10 receives the authentication image transmitted in step S1 (step S1). Then, the terminal device 10 displays the authentication image received in step S1 on the display unit 14, whereby the text document creation time indicated by the time conversion character code string stored in the storage device 30 and the position information conversion character are displayed. The position information of the terminal device 10 indicated by the code string is displayed on the display unit 14 (step S2).

  As described above, according to the information processing system 1 in the present embodiment, whenever a text document is created and converted, the creation time and creation location of the text document are also converted and stored in the storage device 30. Since the converted text document, the creation time, and the creation location are indicated by the conversion character code instead of the standard character code, they can be displayed on the display unit 14 using the conversion font. In addition to correcting the text document, it is impossible to alter the creation time and creation location of the text document.

  Also, after the conversion of the text document, its creation time and creation location, the conversion table 221 used for the conversion, the time encryption key, and the location information encryption key are erased from the RAM. The text document cannot be corrected, and the creation time and creation location of the text document cannot be altered.

  This makes it impossible to falsify the text document, its creation time, and creation location, so that the authenticity of the content of the text document, its creation time, and creation location can be proved.

  In addition, this invention is not limited to the said embodiment, A various deformation | transformation and application are possible. Hereinafter, modifications of the above-described embodiment applicable to the present invention will be described.

  In the above embodiment, the control unit 23 has been described as erasing the conversion table 221 from the RAM after converting the text document, its creation time and creation location, but the present invention is not limited to this, and the text Even after conversion of the document, creation time, and creation location, the conversion table 221 need not be erased from the RAM. In this case, in response to the user instructing editing of the text document through the operation unit 11 of the terminal device 10, the control unit 15 can specify a document conversion character code string corresponding to the character string indicating the text document. The editing request is transmitted from the communication unit 13 to the server device 20 via the network N.

  The control unit 23 of the server device 20 responds to the reception of the document editing request transmitted from the terminal device 10 via the network N by the communication unit 21 and receives the document conversion character code string specified from the document editing request. A standard conversion character code corresponding to each document conversion character code constituting the document is specified from the conversion table 221, and a document standard character code string corresponding to the character string indicating the text document is returned. Then, the control unit 23 transmits the document standard character code string from the communication unit 21 to the terminal device 10 via the network N.

  The control unit 15 of the terminal device 10 receives the document standard character code string transmitted from the server device 20 via the network N, and uses the standard font to correspond to each conversion character code constituting the document standard character code string. A glyph representing the character to be displayed is displayed on the display unit 14. The user edits the text document using the operation unit 11. Then, in response to the user instructing the conversion of the text document after editing by the operation unit 11, the control unit 15 executes the document conversion process shown in FIGS. 7 to 9 again.

  In this way, the text document can be corrected, and the correction time and correction location can be stored in the storage device 30.

  In the above embodiment, the conversion character code is generated by encrypting the standard character code corresponding to each character to generate an encrypted character string, rearranging the encrypted character string in a predetermined order, and corresponding to the rearranged encrypted character string. It has been described that it is generated by assigning a numerical value to each character in order. However, the present invention is not limited to this, and, among the characters corresponding to the conversion character code, for example, the numbers “0” to “9” may all be the same symbol. In this way, since it becomes more difficult to guess the character corresponding to the converted character code, the information processing system 1 can more safely manage the customer's personal information.

  In the above embodiment, the server device 20 and the storage device 30 have been described as separate devices connected via the network N. However, the present invention is not limited to this and is configured as an integrated device. It may be.

  In the above embodiment, the programs executed by the CPUs of the control units 15, 23, and 33 are stored in advance in a ROM or the like. However, this invention is not limited to this, The terminal which concerns on the said embodiment by applying the program for performing the above-mentioned process to the existing general purpose computer, a tablet computer, a smart phone, a server computer, etc. You may make it function as the apparatus 10, the server apparatus 20, and the memory | storage device 30. FIG.

  A method for providing such a program is arbitrary. For example, the program may be stored and distributed on a computer-readable recording medium (flexible disk, CD (Compact Disc) -ROM, DVD (Digital Versatile Disc) -ROM, etc.). Alternatively, the program may be stored in a storage on a network such as the Internet and provided by downloading it.

  Further, when the above processing is executed by sharing an OS (Operating System) and an application program, or by cooperation between the OS and the application program, only the application program may be stored in a recording medium or storage. It is also possible to superimpose a program on a carrier wave and distribute it via a network. For example, the program may be posted on a bulletin board (BBS: Bulletin Board System) on the network, and the program may be distributed via the network. Then, this program may be activated and executed in the same manner as other application programs under the control of the OS, so that the above processing can be executed.

  It should be noted that the present invention can be variously modified and modified without departing from the broad spirit and scope of the present invention. The above-described embodiment is for explaining an example of the present invention and does not limit the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Information processing system 10 Terminal device 11 Operation part 12 Storage part 13 Communication part 14 Display part 15 Control part 20 Server apparatus 21 Communication part 22 Storage part 23 Control part 30 Storage device 31 Communication part 32 Storage part 33 Control part

In the information processing system (1), the storage device (30) responds to the reception of the font transmitted from the terminal device (10) via the network (N), and the font and From the time character code string, an image generation means for generating an image indicating the creation time of the document, and the image generated by the image generation means are transmitted to the terminal device (10) via the network (N). Image generation means for performing image generation, and the creation time display means includes image reception means for receiving the image transmitted by the image transmission means, and displays the image received by the image reception means in the display section (14). ), The creation time of the document indicated by the time character code string stored in the storage device (30) is displayed on the display unit (14). , It may be so.
In the information processing system (1), the information processing device (20) receives the document transmitted from the terminal device (10) via the network (N) and the position information of the terminal information (10). In response to receiving, position information indicating the position information of the terminal information (10) by assigning a different character code to each of the numbers constituting the number string indicating the position information of the terminal information (10) It further comprises position information character code string generation means for generating a character code string, and the character code string storage means is generated by the time character code string indicating the creation time of the document and the position information character code string generation means The position information character code string may be stored in the storage device (30).
In the information processing system (1), the time character code string generation means rearranges numbers constituting a number string indicating the current time using the current time, and each of the rearranged numbers In accordance with a predetermined order, each different character code is assigned, and the position information character code string generating means uses the position information of the terminal information (10) to indicate a number indicating the position information of the terminal information (10). The numbers constituting the columns may be rearranged, and the different character codes may be assigned to the rearranged numbers in a predetermined order.

In order to achieve the above object, an information processing method according to a third aspect of the present invention includes a terminal device (10) including a display unit (14) and capable of creating a document, and an information processing device (20). An information processing method executed by an information processing system (1) that connects a storage device (30) via a network (N), wherein the information processing device (20) is connected to the terminal device (10). In response to receiving the document transmitted via the network (N), a time acquisition step of acquiring a current time as a creation time of the document, and the information processing device (20) each digit constituting the numeric string that indicates the creation time by assigning respective different character codes, and the time the character code string generation step of generating a time character code string indicating the creation time of the document, the information processing apparatus (20 But the time character code string generated by the time the character code string generation step, a character code string storage step of storing in said storage device (30), the information processing apparatus (20), corresponding to the character code A font generation step for generating a font for displaying numbers, and the information processing device (20) transmits the font generated by the font generation step to the terminal device (10) via the network (N). A font transmitting step, the terminal device (10) receiving the font transmitted by the font transmitting step, and the terminal device (10) receiving the font received by the font receiving step. Send to the storage device (30) via the network (N) Comprises a result, the creation time display step that displays the creation times of the document indicated by the time the character code string stored in the storage device (30) on said display unit (14), the.

Claims (9)

A time character code string generating means for assigning a different character code to each of the numbers constituting the number string indicating the current time and generating a time character code string indicating the current time;
A character code string storage means for storing the time character code string generated by the time character code string generation means in a storage device (30);
An information processing apparatus (20) comprising: In response to receiving a document transmitted from the terminal device (10) via the network (N), further comprising time acquisition means for acquiring the current time as the creation time of the document,
The time character code string generation means generates the time character code string indicating the creation time of the document,
The character code string storage means stores the time character code string indicating the creation time of the document in the storage device (30).
The information processing apparatus (20) according to claim 1. Font generation means for generating a font for displaying a number corresponding to the character code;
Font transmitting means for transmitting the font generated by the font generating means to the terminal device (10) via the network (N);
The information processing apparatus (20) according to claim 2, further comprising: In response to receiving the document transmitted from the terminal device (10) via the network (N) and the position information of the terminal information (10), the position information of the terminal information (10) is indicated. A position information character code string generating means for generating a position information character code string indicating the position information of the terminal information (10) by assigning a different character code to each of the numbers constituting the number string;
The character code string storage means stores the time character code string indicating the creation time of the document and the position information character code string generated by the position information character code string generation means in the storage device (30). To
The information processing apparatus (20) according to claim 2. The time character code string generation means rearranges numbers constituting a number string indicating the current time using the current time, and each of the rearranged numbers is different according to a predetermined order. Assign a character code,
The position information character code string generation means rearranges numbers constituting a number string indicating the position information of the terminal information (10) using the position information of the terminal information (10), and Assign each different character code to each according to a predetermined order;
The information processing apparatus (20) according to claim 4. An information processing system (10) including a display unit (14) and capable of creating a document, connecting an information processing device (20) and a storage device (30) via a network (N). 1)
The information processing apparatus (20)
In response to receiving the document transmitted from the terminal device (10) via the network (N), time acquisition means for acquiring the current time as the creation time of the document;
A time character code string generation means for generating a time character code string indicating the creation time of the document by assigning a different character code to each of the numbers constituting the number string indicating the creation time of the document;
Character code string storage means for storing the time character code string generated by the time character code string generation means in the storage device (30);
Font generation means for generating a font for displaying a number corresponding to the character code;
Font transmitting means for transmitting the font generated by the font generating means to the terminal device (10) via the network (N);
With
The terminal device (10)
Font receiving means for receiving the font transmitted by the font transmitting means;
The document indicated by the time character code string stored in the storage device (30) by transmitting the font received by the font receiving means to the storage device (30) via the network (N). Creation time display means for displaying the creation time on the display unit (14);
An information processing system (1) comprising: The storage device (30)
In response to receiving the font transmitted from the terminal device (10) via the network (N), an image indicating the creation time of the document is generated from the font and the time character code string. Image generating means for
Image transmitting means for transmitting the image generated by the image generating means to the terminal device (10) via the network (N);
With
The creation time display means
Image receiving means for receiving the image transmitted by the image transmitting means,
By displaying the image received by the image receiving unit on the display unit (14), the creation time of the document indicated by the time character code string stored in the storage device (30) is displayed on the display unit (30). 14)
The information processing system (1) according to claim 6. A time character code string generation step for generating a time character code string indicating the current time by assigning a different character code to each of the numbers constituting the number string indicating the current time;
A character code string storage step for storing the time character code string generated by the time character code string generation means in a storage device (30);
An information processing method comprising: In the computer (23)
A time character code string generation procedure for generating a time character code string indicating the current time by assigning a different character code to each of the numbers constituting the number string indicating the current time;
A character code string storage procedure for storing the time character code string generated by the time character code string generation means in a storage device (30);
A program for running

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