JP2001053740A - Open time designation-type communication mode and open time designation-type communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To permit a transmitter to inexpensively transmit data whose content is desired to be secret to a receiver by the prescribed time by decoding ciphered data through the use of a common key transferred through a synchronous transmission network and opening the content of data to a receiver at time for which the transmitter schedules. SOLUTION: Data inputted from a data output device 101 to the open time controller 102 of a transmission side are ciphered by using a common key and an identification number is added to it. Data to which the identification number is added are transferred to an asynchronous transmission network connection device 103, are assembled into a packet and transferred to an asynchronous transmission network connection device 105 through an asynchronous transmission network 104. The packet transferred to the asynchronous transmission network connection device 105 is separated into a header and data with identification number. Separated data with identification number are inputted to the open time controller 106 of a reception side and separated into the identification number and ciphered data. Separated ciphered data are decoded by using the common key and inputted to a data input device 107.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disclosure-time-designated communication system and a disclosure-time-designation communication system in which a sender transfers data to a receiver to keep data contents secret until a specific time. It is.

[0002]

2. Description of the Related Art For example, announcements of government offices that have a significant effect on economic activities, announcements of central banks, announcements of private companies, etc. are desirably announced at a specified time. In such a case, it is convenient if there is a disclosure time designation type communication system in which the secrecy is maintained until the specified time and the content automatically becomes a disclosure state after the specified time.

[0003] A conventional communication system will be described below. FIG. 4 shows a conceptual diagram of a communication system using a conventional asynchronous transmission network. When data is transmitted using the asynchronous transmission network, the data transmitted from the data output device 401 is added with a header indicating the address of the receiver at the asynchronous transmission network connection device 402, Assembled into packets. The packet is transferred from the asynchronous transmission network connection device 402 to the asynchronous transmission network connection device 404 via the asynchronous transmission network 403 in which the transmission delay time of the network is uncertain. The packet transferred in the asynchronous transmission network connection device 404 is separated into a header and data,
The separated data is transferred to the data input device 405. Here, the asynchronous transmission network 403 includes Ethernet (registered trademark), the Internet, and the like.

FIG. 5 shows a conceptual diagram of a communication system using a conventional synchronous transmission network. When data is transmitted using the synchronous transmission network, the data transferred from the data output device 501 is assembled into a synchronous transmission network transfer frame in the synchronous transmission network connection device 502. The frame is transmitted from the synchronous transmission network connection device 502 to the synchronous transmission network connection device 504 via the synchronous transmission network 503 having a constant network transmission delay time.
Is forwarded to The frame transferred in the synchronous transmission network connection device 504 is converted back to data, and the data input device 50
5 is transferred.

[0005] Here, the synchronous transmission network 503 is a dedicated line, AT
M-CBR, fixed digital telephone line (ISDN), T
V-broadcast terrestrial broadcasting, PHS, GPS, and the like. FIG. 6 shows a conceptual diagram of a communication system provided for transferring continuous data that requires real-time performance, using both a conventional synchronous transmission network and an asynchronous transmission network. 6, reference numeral 601 denotes a continuous data output device, and 602 and 604
Is an asynchronous transmission network connection device, 603 is an asynchronous transmission network, 60
5 is a continuous data synchronizer, 606 and 611 are synchronous signal generators, 607 and 610 are reference clock extractors, 608 is a synchronous transmission network, 609 is a reference clock generator, 612 and 613 are reference clocks, and 614 and 615 are synchronous. Signal 616 is a continuous data input device.

[0006] The continuous data output from the continuous data output device 601 is transferred from the asynchronous transmission network connection device 602 to the continuous data input device 616 via the asynchronous transmission network 603, the asynchronous transmission network connection device 604, and the continuous data synchronization device 605. Is done. On the other hand, reference clock extracting devices 607 and 6
Reference numeral 10 extracts the reference clocks 612 and 613 from the signal from the reference clock generation source 609 installed in the synchronous transmission network 608, and outputs the synchronization signal generators 606 and 61.
1, the synchronization signals 614 and 615 are generated, and the synchronization signal 614 is output from the continuous data output device 601 and the synchronization signal 6.
15 is distributed to the continuous data synchronization device 605, and network synchronization between the continuous data output from the continuous data output device 601 and the continuous data input to the continuous data input device 616 is maintained.

For transmission and processing while maintaining the quality of continuous data such as video and audio, it becomes a reference for synchronizing the frequency and phase in order to reproduce the same video as the transmitting side in a plurality of video systems. Synchronization with an accurate reference clock is required. Here, an asynchronous transfer network is used for the transfer of continuous data, a synchronization signal is generated from a signal from a reference clock generation source of the synchronous transmission network, and transmitted to the data output device on the transmission side and the continuous data synchronization device 605 on the reception side. By providing a synchronization signal, continuous data can be transmitted using an asynchronous transmission network.

The synchronous transmission network 608 used here is a dedicated line, ATM-CBR, fixed digital telephone line (ISD
N), terrestrial waves for TV broadcasting, satellite waves for TV broadcasting, PHS,
GPS and the like. In addition, continuous data that requires real-time performance refers to, for example, digitized video data, digitized music data, and the like.

[0009] The synchronizing signal refers to a signal serving as a reference for synchronizing the frequency and phase in order to reproduce exactly the same image as that on the transmitting side in a plurality of video systems. FIG.
1 shows a conceptual diagram of a cryptographic communication system using a conventional asynchronous transmission network. In FIG. 7, reference numeral 701 denotes a data output device;
702 is an encryption device, 703 and 705 are asynchronous transmission network connection devices, 704 is an asynchronous transmission network, 706 is a decryption device,
707 is a data input device, and 708 is a common key output device.

[0010] When data is transmitted securely using the asynchronous transmission network 704, data transferred from the data output device 701 is encrypted in the encryption device 702 using a shared key previously shared between the transmission side and the reception side. Is done. Note that the common key is output from the common key output device 708. Encryption device 70
In the asynchronous transmission network connection device 703, the data encrypted in 2 is added with a header indicating the address of the receiving side, and is assembled into a packet for transfer in the asynchronous transmission network.

The packet is transferred from the asynchronous transmission network connection device 703 to the asynchronous transmission network connection device 705 via the asynchronous transmission network 704. The packet transferred in the synchronous transmission network connection device 705 is separated into a header and data, and the separated data is transferred to the decoding device 706. The separated data is output to a common key output device 70 for outputting a shared key previously shared between the transmission side and the reception side in the decryption device 706.
8 is decrypted by using the common key output from 8 and transferred to the data input device 707.

The encryption and decryption algorithms used here are DES, FEAL, RC2, RC4, ID
One using an algorithm such as EA or stream cipher is used.

[0013]

However, when data is communicated using the conventional communication system as described above,
The following problems occur. (1) When a sender transmits data whose contents are to be kept secret to a receiver until a certain time using a conventional communication system using an asynchronous transmission network, the effect of delay fluctuations occurring in the asynchronous transfer network. Therefore, since the sender cannot precisely control the input time of the data transferred to the data input device 405, the time at which the content of the data is disclosed to the receiver may not match the time intended by the sender. There was a problem that there is.

(2) When a sender wants to keep data contents confidential to a receiver until a certain time using a communication system using a conventional synchronous transmission network, a line usage fee is high. Therefore, there is a problem that a user's economic burden is large. (3) When a sender transmits data whose content is to be kept confidential to a receiver until a specific time using a conventional communication system that uses both a synchronous transmission network and an asynchronous transmission network, the data is transmitted over an asynchronous transmission network. And a synchronization signal indicating the output time of the data content is delivered to the receiver via the synchronous transmission network at the time intended by the sender, but the synchronization signal is intended for the receiver by the sender. Just tell the time,
It is used by the recipient in good faith and is not mandatory at the time of data disclosure. Therefore, the receiver can know the contents of the data before the time scheduled by the sender. Therefore, there is a problem that the time at which the content of the data is disclosed to the receiver may not match the time intended by the sender.

(4) When a sender wants to keep data contents confidential to a receiver until a specific time using a conventional cryptographic communication system using an asynchronous transmission network,
Since the common key is shared in advance between the transmission side and the reception side, the receiver can decrypt the encrypted data at the same time as the data is transferred, and can know the contents of the data.
Therefore, there is a problem that the time when the content of the data is disclosed to the receiver may not match the time intended by the sender.

SUMMARY OF THE INVENTION In view of these problems, it is an object of the present invention to be able to inexpensively transmit data whose contents are to be confidential to a receiver until a certain time, and certainly specify a disclosure time. It is an object of the present invention to provide a disclosure-time-designated communication system capable of performing the communication and a disclosure-time-designation communication system using the communication system.

[0017]

According to the first aspect of the present invention, the encrypted data is transmitted via the asynchronous transmission network and the common key required for decryption is specified by the sender. At the time, the data is transmitted through the synchronous transmission network so as to arrive at the receiving side, the encrypted data is decrypted using the common key transmitted through the synchronous transmission network, and the sender is scheduled. We propose a disclosure time specification type communication method that discloses the contents of data to a receiver at a time.

According to a second aspect of the present invention, data to be kept secret until a specific time is input, the input data is encrypted, and the encrypted data is transferred to an asynchronous transmission network. And a disclosure time control means provided on the transmission side for transferring a common key required for decrypting the encrypted data to the synchronous transmission network, and encrypting the data via the asynchronous transmission network. And the common key required to decrypt the data that is encrypted and transferred via the synchronous transmission network is input, and the encrypted data is transmitted using the common key. And a disclosure time control unit provided on the receiving side for decoding and outputting the decrypted data.

According to a third aspect of the present invention, in the disclosure time specification type communication system according to the second aspect, the disclosure time control means on the transmission side includes: A, a common key generation means for generating a common key; An identification number generating means for generating an identification number used for identification; C, an identification number adding means for outputting data obtained by inputting the identification number and the common key and adding the identification number to the common key; And data for which the contents are to be kept secret until a certain time is input, this data is encrypted using a common key, and encryption means for outputting the encrypted data; And an identification number adding means for outputting data obtained by adding an identification number to encrypted data, and F. Inputting data obtained by adding an identification number to a common key, and identifying the common key at a specific time. Number To proposed a control information output means for outputting the data, the start time specified communication system comprising a.

According to a fourth aspect of the present invention, in the disclosure time specification type communication system according to the second aspect, the disclosure time control means on the receiving side receives: A, data obtained by adding an identification number to a common key; An identification number separating means for separating and outputting a common key; B. storing data in which an identification number is added to encrypted data and storing data in which the identification number is added to the encrypted data; When the identification number is input, the encrypted data indicating the same identification number is searched for and output. C, a common key and the encrypted data are input, and the encrypted data is input. And a decryption means for decrypting the data using a common key, and outputting the decrypted data.

[0021]

According to the disclosed time-designated communication system and the communication system using this system, the encrypted data is transferred through an asynchronous transmission network, and the common key required when decrypting the encrypted data. Are transmitted to the receiver side through the synchronous transmission network with the specified time.

Therefore, according to the present invention, even if the receiver receives the encrypted data before the time intended by the sender, the common key cannot be obtained until the time specified by the sender. Can be secret.
Further, according to the present invention, data having a large data amount is transmitted through an asynchronous transmission network having a low transmission cost, and a synchronous transmission network having a high transmission cost is used to transmit a common key having a small data amount. The advantage that the transmission cost can be reduced is obtained.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In this embodiment, a synchronous transmission network and an asynchronous transmission network are used together, and a case where a sender wants a receiver to transfer data whose data contents are to be kept secret until a specific time is described in detail. explain. FIG. 1 shows an example of a configuration of a disclosure time designation type communication system according to a second aspect of the present invention.

FIG. 1 shows an example of the overall configuration of a disclosed time designation type communication system according to the present invention. 2 shows an embodiment of a disclosure time control device on the transmission side used in the communication system shown in FIG. 1, and FIG. 3 shows an embodiment of a disclosure time control device on the reception side used in the communication system shown in FIG. Show. The communication system for specifying a disclosure time according to the present invention includes a data output device 101.
A transmitting-side disclosure time control device 102, an asynchronous transmission network connection device 103, an asynchronous transmission network 104, an asynchronous transmission network connection device 105, and a reception-side disclosure time control device 106
, Data input device 107 and synchronous transmission network connection device 10
8, synchronous transmission network 109, synchronous transmission network connection device 110
It is constituted by and.

As shown in FIG. 2, the disclosure time control device 102 on the transmission side includes an input detection device 201 and an encryption device 202.
, Identification number adding device 203, identification number generating device 20
4, the common key generation device 205, and the identification number adding device 20
6 and a control information output device 207.
The disclosure time control device 106 on the receiving side, as shown in FIG.
An identification number separation device 301, a data management device 302,
A decoding device 303 is provided.

The operation of the disclosed time specification communication system according to the present invention will be described below with reference to FIGS. The data output from the data output device 101 is transmitted to the disclosure time control device 102 on the transmitting side when the sender wants to keep the content of the data confidential to the receiver until a specific time.

The data input to the disclosure time control device 102 on the transmission side is transferred to the encryption device 202 via the input detection device 201 shown in FIG. 2 and is encrypted by the encryption device 202 using the common key 209. You. The encrypted data (hereinafter, “encrypted data”) is transmitted to the identification number adding device 203.
The encrypted data is input to the identification number generation device 20.
4 is added with the identification number 208 inputted.

The data to which the identification number 208 has been added (hereinafter, data with an identification number) is transferred to the asynchronous transmission network connection device 103 on the transmission side, and indicates the address on the reception side to be transferred using the asynchronous transmission network 104. Add a header,
Assembled into a transfer packet of the asynchronous transmission network 104. The packet is transferred to the asynchronous transmission network 104. The packet transferred to the asynchronous transmission network 104 is transferred to the asynchronous transmission network connection device 105 on the receiving side.

The packet transferred to the asynchronous transmission network connection device 105 on the receiving side is separated into a header and data with an identification number, and the separated data with the identification number is input to the disclosure time control device 106 on the receiving side. The data with the identification number input to the disclosure time control device 106 on the receiving side is stored in the data management device 302 shown in FIG. 3 in the disclosure time control device 106 on the receiving side. When the identification number separated from the common key by the identification number separation device 301 is input, the data management device 302 searches for data with the identification number to which the same identification number is added, and compares the identification number with the encrypted data. The separated encrypted data is input to the decryption device 303.

The encrypted data transferred to the decryption device 303 is decrypted using the common key 209 input to the decryption device 303 and is input to the data input device 107. on the other hand,
The input detection device 201 detects that data has been input to the disclosure time control device 102 on the transmission side, and notifies the identification number generation device 204 and the common key generation device 205 that data has been input. The identification number generation device 204 notified of the data input generates the identification number 208 and outputs the identification number 2
08 is the identification number adding device 203 and the identification number adding device 20
Input to 6. Also, the common key generation device 205 to which the data input is notified generates the common key 209 and
9 is input to the encryption device 202 and the identification number adding device 206.

The identification number 208 input from the identification number generation unit 204 to the identification number addition unit 206 is added to the common key 209 input from the common key generation unit 205 to the identification number addition unit 206, and is used as control information 210. You. The control information 210 is input to the control information output device 207. Control information 21 transferred to control information output device 207
In the case of 0, the transmission delay time from the time at which the contents of the data scheduled by the sender is disclosed to the receiving terminal of the data receiver in the synchronous transmission network 109 provided by the operator managing the synchronous transmission network 109 is subtracted. At the time, it is transferred to the synchronous transmission network connection device 108 on the transmission side.

This is because, when data is transferred via the synchronous transmission network 109, there is a difference between the transmission time on the transmission side and the reception time on the reception side, which is the propagation delay time of the synchronous transmission network 109. . The control information 210 transferred to the synchronous transmission network connection device 108 on the transmission side is framed for transmission using the synchronous transmission network. The framed control information 210 is transferred to the synchronous transmission network 109.

The framed control information transferred to the synchronous transmission network 109 is transmitted to the synchronous transmission network connection device 110 on the receiving side.
Transferred to The control information to be framed and transferred to the synchronous transmission network connection device 110 on the receiving side is the control information 210
And is input to the disclosure time control device 106 on the receiving side. The control information 210 input to the disclosure time control device 106 on the receiving side is stored in the disclosure time control device 106 on the reception side as shown in FIG.
Is input to the identification number separating device 301 shown in FIG.

The control information 210 input to the identification number separation device 301 is separated into an identification number 208 and a common key 209. The identification number 208 separated from the common key is input to the data management device 302. The data management device 302 searches for the data with the identification number to which the same identification number as the input identification number is added from the stored data with the identification number, and if there is such data with the identification number, The encrypted data obtained by separating the identification number from the data with the identification number is input to the decryption device 303. The common key 209 separated by the identification number separation device 301 is input to the decryption device 303. The decryption device 303 to which both the encrypted data and the common key have been input starts decryption. The decrypted data is input to the data input device 107 and disclosed to the recipient.

Therefore, even if the encrypted data is stored in the data management device 302 in advance, unless the control information arrives and the common key 209 is input, the decryption device 30
No. 3 cannot perform a decryption operation, so that data confidentiality is secured until the time scheduled by the sender. The encryption and decryption algorithms used here are DES, FE
Examples include algorithms using algorithms such as AL, RC2, RC4, IDEA, and stream cipher.

The synchronous transmission network used is a dedicated line, fixed digital telephone line (ISDN), terrestrial TV broadcasting,
V broadcast satellite waves, PHS, GPS, and the like.

[0037]

As described above, according to the disclosed time designation communication method and the communication system using this communication method according to the present invention, unless the common key arrives at the receiver at the time intended by the sender, The encrypted data can be kept stored in the data management device 302 without being decrypted, and the secret can be kept.

Further, since the common key is reliably delivered to the receiver at the correct time via the synchronous transmission network 109, the data can be disclosed and transmitted to the receiver at the time intended by the sender. Therefore, the present invention is suitable for use in, for example, announcing a communication item or the like from a government office at a designated time. Another advantage is that large amounts of data are transferred using an asynchronous transmission network with a low line charge, and a common key with a small amount of data is transferred to a synchronous transmission network with a high line charge. As a result, there is an advantage that the communication cost can be kept low.

Further, when the line usage fee per unit time of the asynchronous transmission network differs depending on the time, and the time at which the sender wants to disclose the data content to the receiver is the time at which the line usage fee of the asynchronous transmission network is expensive. The encrypted data is transferred at a time when the line charge of the asynchronous transmission network is inexpensive, and the data including the common key is transmitted using the synchronous transmission network at the time when the sender wants to disclose the contents of the data to the receiver. It is also possible to obtain the advantage that the data that the sender wants to keep the content of the data confidential to the receiver until a certain time can be transmitted at low cost by using both the synchronous transmission network and the asynchronous transmission network.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram for explaining an entire disclosure time designation communication system according to the present invention.

FIG. 2 is a conceptual diagram of a disclosure time control device on the transmission side used in a disclosure time designation communication system according to the present invention.

FIG. 3 is a conceptual diagram of a disclosure time control device on the reception side used in the disclosure time designation type communication system of the present invention.

FIG. 4 is a conceptual diagram for explaining a data communication system using a conventional asynchronous transmission network.

FIG. 5 is a conceptual diagram illustrating a data communication system using a conventional synchronous transmission network.

FIG. 6 is a conceptual diagram illustrating a conventional data communication system using both a synchronous transmission network and an asynchronous transmission network.

FIG. 7 is a conceptual diagram illustrating a conventional cryptographic communication system using an asynchronous transmission network.

[Explanation of symbols]

101, 401, 501, 701 Data output device 601 Continuous data output device 102 Disclosure time control device on the transmitting side 103, 105, 402 Asynchronous transmission network connection device 404, 703, 705 Asynchronous transmission network connection device 104, 403, 603, 704 Asynchronous transmission network 106 Receiving-side disclosure time control device 107, 405, 505, 707 Data input device 605 Continuous data synchronization device 108, 110, 502, 504 Synchronous transmission network connection device 109, 503, 608 Synchronous transmission network 201 Input detection device 202, 702 Encryption device 203, 206 Identification number adding device 204 Identification number generation device 205 Common key generation device 207 Control information output device 208 Identification number 209 Common key 210 Control information 301 Identification number separation device 302 Data management device 303 706 decoder 602, 604 asynchronous transmission network connecting device 606, 611 sync signal generator 607, 610 reference clock extracting device 609 a reference clock generation source 612, 613 reference clock 614, 615 synchronizing signal 616 continuous data input device 708 common key output device

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Satoshi Ono 2-3-1, Otemachi, Chiyoda-ku, Tokyo F-term in Nippon Telegraph and Telephone Corporation (reference) 5J104 AA01 AA03 AA16 EA16 EA20 EA26 JA03 JA14 NA02 NA05 NA27 NA36 PA07 5K030 GA15 HA10 KA21 LD18 LD19

Claims (4)

[Claims] An encrypted data is transmitted via an asynchronous transmission network and a common key required for decryption is transmitted to a receiver at a specific time scheduled by a sender. Transmitted over the synchronous transmission network, and decrypts the encrypted data using the common key transferred over the synchronous transmission network,
A disclosure time designation type communication method characterized in that the contents of data are disclosed to a receiver at a time scheduled by a sender. 2. A, data to be kept secret until a specific time is input, the input data is encrypted, the encrypted data is transferred to an asynchronous transmission network, and the input data is encrypted. And transmitting time disclosure means for transmitting a common key required for decrypting the encrypted data to the synchronous transmission network; and B, encrypted and transmitted via the asynchronous transmission network. Data and a common key required to decrypt the data that is encrypted and transferred via the synchronous transmission network are input, and the encrypted data is decrypted using the common key. And a disclosure time control unit on the receiving side that outputs the generated data. 3. The disclosure time specification communication system according to claim 2, wherein the disclosure time control means on the transmitting side is used for A, a common key generation means for generating a common key, and B, for specifying a common key. An identification number generating means for generating an identification number; C, an identification number adding means for outputting data obtained by inputting the identification number and the common key and adding the identification number to the common key; and D, a common key. The data to be kept secret until a specific time is input, the data is encrypted using a common key, and the encryption means for outputting the encrypted data; and E, the identification number and the encrypted data An identification number adding means for inputting and outputting data obtained by adding an identification number to encrypted data; and F, inputting data obtained by adding an identification number to a common key, and adding an identification number to the common key at a specific time. Output data And a control information output unit. 4. The disclosure time designation communication system according to claim 2, wherein the disclosure time control means on the receiving side receives A, data obtained by adding an identification number to the common key, and separates the identification number from the common key. An identification number separating means for outputting the data; B, storing data in which the identification number is added to the encrypted data, storing the data in which the identification number is added to the encrypted data, and inputting the identification number Then, data management means for searching for and outputting encrypted data indicating the same identification number, C, a common key and encrypted data are input, and the encrypted data is converted to a common key using the common key. And a decoding means for decoding the data and outputting the decoded data.