JP2016208347A - Literary work protection support apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a literary work protection support apparatus capable of easily performing time authentication for desired literary work at low cost.SOLUTION: The literary work protection support apparatus includes: a communication section; an acquiring section for acquiring literary work attached with information of requesting time authentication using the communication section; and a processing section for controlling the communication section so that the information based on the literary work attached with information of requesting time authentication acquired by the acquiring section is transmitted to a distribution type network in which transmitted/received information is held together with time information.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a copyrighted work protection support apparatus.

  In recent years, content creation activities for general users have been actively performed in consumer generated media (CGM) such as video sharing sites and illustration posting SNS (Social Networking Service).

  The content posted to the CGM is electronic data and can be easily edited by other users, so copyright infringements such as unauthorized reprints and alterations frequently occur. If a copyright infringement is discovered, you must claim your copyright, but you must maintain proof of attribution and preserve evidence of the infringement. Conventionally, a copyright registration system, a time stamp service of a third party organization, or the like is used as a means for such certification.

Satoshi Nakamoto, “Bitcoin: A Peer-to-Peer Electronic Cash System”, (2008). Masataka Goto, “Hatsune Miku, Nico Nico Douga, CGM Phenomenon Piapro”, Vol.53, No.5, pp.466-471, (2012). Yuko Noguchi, “Legal Issues Related to Commons”, Journal of Information Knowledge Society, Vol. 21, No.1, pp.94-102, (2011) Christian Decker, “Information propagation in the Bitcoin network”, IEEE Thirteenth. International Conference on Peer-to-Peer Computing, pp.1-10, (2013)

  However, in the conventional technology, the procedure for performing time authentication is complicated, and the cost tends to be high, so that it has been difficult to apply to CGM contents used by many general users. As a result, time authentication may not be performed for copyrighted works such as content.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a copyrighted work protection support apparatus that can easily and inexpensively authenticate a desired copyrighted work. I will.

  One aspect of the present invention includes a communication unit, an acquisition unit that acquires a copyrighted work with information that requests time authentication using the communication unit, and the time authentication acquired by the acquisition unit. A processing unit that controls the communication unit so as to transmit information based on a copyrighted work with information requesting to a distributed network in which the transmitted and received information is held together with time information. It is a copyright protection support device.

  In addition, another aspect of the present invention provides a communication unit and information based on a copyrighted work with information indicating that time authentication is requested, for a distributed network in which transmitted / received information is held together with time information. A copyrighted work protection support device comprising: a processing unit that controls the communication unit to transmit.

  ADVANTAGE OF THE INVENTION According to this invention, the copyrighted work protection assistance apparatus which can perform time authentication with respect to a desired copyrighted work simply and cheaply can be provided.

It is a block diagram which shows an example of the distributed network system 1 containing the copyrighted work protection assistance apparatus 100 in one Embodiment. It is a figure which shows an example of a structure of the copyrighted work protection assistance apparatus 100 in one Embodiment. It is a sequence diagram which shows an example of the flow of a process of the distributed network system 1 containing the copyrighted work protection assistance apparatus 100 in one Embodiment. It is a figure which shows one schematic example of the web page which receives the contribution of a copyrighted work. It is a figure which shows an example of the CC code with respect to the classification of each CC license. It is a figure which shows an example of the kind of literary work data which can be converted into the hash Hv for verification. It is a figure which shows the mode of the hash process performed by the hash process part 126 of the anti-distribution network process part 120. FIG. It is a figure which shows an example of the data embedded in a predetermined field. It is a figure which shows an example of the literary work data used as the object of time authentication. It is a figure which shows an example of the data embedded in a transaction. It is a figure which shows a mode that the transaction TX with which copyrighted work data is embedded is broadcasted. It is a figure which shows an example of the result of having derived | led-out the time required when hashing the data which show the content of a copyrighted work for every data amount. It is a figure which shows an example of the change of the delay time according to the commission paid to a distributed network. It is a figure which shows an example of the fee used in order to obtain the experimental result shown in FIG. It is a figure which shows roughly the scene of the time certification | authentication performed when copyrighted material data is changed after storing copyrighted material data in a block chain. It is a figure for demonstrating the proof of an infringing act, when the copyright of the copyrighted work which performed the time authentication using the block chain is infringed. It is a flowchart which shows an example of the flow of a process of the copyrighted work protection assistance apparatus 100 in one Embodiment. It is a figure which shows a mode that the transaction TX with which copyrighted material data was embedded by the terminal device 10 is broadcast.

Hereinafter, an embodiment of a copyrighted work protection support apparatus of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration diagram illustrating an example of a distributed network system 1 including a copyrighted work protection support apparatus 100 according to an embodiment. In the distributed network system 1, the copyrighted work protection support apparatus 100 is connected to the terminal apparatuses 10-1 to 10-n and the terminal apparatuses 20-1 to 20-k via the network NW. The network NW is a LAN (Local Area Network), a WAN (Wide Area Network), or the like. Among the devices described above, the terminal devices 10-1 to 10-n are terminal devices that can access the website provided by the copyrighted work protection support device 100.

  The copyrighted work protection support apparatus 100 and the terminal apparatuses 20-1 to 20-k construct a distributed network such as P2P (Peer to Peer). Part or all of the terminal devices 10-1 to 10-n may be terminals that construct a distributed network, or may be a part of the terminal devices 20-1 to 20-k or All may be terminal devices that can access the website provided by the copyrighted work protection support apparatus 100.

  In the present embodiment, it is assumed that an application program for participating in a “bitcoin” cryptocurrency payment network is installed in an apparatus for constructing a distributed network. Crypto currency is a virtual currency based on encryption technology. When participating in a cryptocurrency payment network of “Bitcoin”, such a device executes an application program for Bitcoin and uses a part of its own computer resources, and is common to all participating devices. Hold the blockchain.

  The block chain is a public ledger in which the entire transaction history of bit coins is recorded. Data written to the Bitcoin blockchain has characteristics that are difficult to forge, tamper, or delete, and that can be publicly verified that it has not been forged, tampered, or deleted. Have. In addition, the blocks constituting the block chain (consisting of a plurality of transactions), that is, each block of the public ledger, can be set at a certain time interval T () by any of the devices participating in the Bitcoin cryptocurrency payment network. For example, every 10 minutes). For example, the latest block is added to the end of a chain in which blocks generated in the past are arranged in time series. That is, the latest block is added after the block with the most recent generation time among the blocks generated in the past.

  The block includes, for example, an area in which an identifier of the block is stored, an area in which the number of transactions (number of transactions) of bit coins generated during the block generation interval T is stored, an area in which the generation time of the block is stored, An area for storing the hash value of the block, an area for storing the hash value of the previously generated block, an area for storing the block size, an area for storing the transaction itself, and the like are included. The block identifier described above is a serial number that is incremented by one each time a new block is added to the block chain. Therefore, by referring to the identifier in the block, it is possible to obtain information such as “when the block was generated” and “how much transaction was performed”. Further, by referring to the hash value of the latest block in the block chain, it can be publicly verified whether the block chain is “tampered”. Therefore, the existence (existence) and integrity (integrity) of the data stored in the blockchain are protected.

  The terminal devices 10-1 to 10-n and the terminal devices 20-1 to 20-k are terminals operated by the user, and are, for example, smartphones, tablet terminals, personal computers, business computers, and the like. Hereinafter, when the terminal devices 10-1 to 10-n are not particularly distinguished, they are simply described as “terminal device 10”, and when the terminal devices 20-1 to 20-k are not particularly distinguished, they are simply described as “terminal device 20”. To do.

  The copyrighted work protection support apparatus 100 authenticates the time of a copyrighted work (digital content) posted on a CGM (Consumer Generated Media) website using a Bitcoin distribution infrastructure including a block chain. The CGM website is a website for the purpose of information sharing such as a video sharing site and an illustration posting SNS (Social Networking Service).

  The copyrighted work protection support apparatus 100 includes a communication interface 102, a website providing unit 110, and a distributed network processing unit 120. The communication interface 102 is a communication interface for connecting to the network NW, and includes, for example, a network card. The website providing unit 110 provides a predetermined CGM website to the terminal device 10 connected to the centralized network. Further, the anti-distribution network processing unit 120 is used when generating the latest block to be added to the above-described block chain in order to perform time authentication on the copyrighted work of the content posted on the CGM website. Store in a transaction.

Hereinafter, a specific configuration of the copyrighted work protection support apparatus 100 will be described.
FIG. 2 is a diagram illustrating an example of the configuration of the copyrighted work protection support apparatus 100 according to an embodiment. The copyrighted work protection support apparatus 100 includes the communication interface 102, the website providing unit 110, the anti-distributed network processing unit 120, and the storage unit 140 described above. The distributed network processing unit 120 includes a communication control unit 122, an encoding processing unit 124, a hashing processing unit 126, and a storage processing unit 128. The communication interface 102 is an example of a “communication unit”, and the communication interface 102 and the communication control unit 122 are examples of an “acquisition unit”. The distributed network processing unit 120 is an example of a “processing unit”.

  The website providing unit 110 and the distributed network processing unit 120 are software function units that function when a processor such as a CPU (Central Processing Unit) executes a program stored in the storage unit 140, for example. Further, some or all of the website providing unit 110 and the distributed network processing unit 120 may include hardware such as LSI (Large Scale Integration) and ASIC (Application Specific Integrated Circuit).

  The storage unit 140 includes, for example, a nonvolatile storage medium such as a ROM (Read Only Memory), a flash memory, and an HDD (Hard Disk Drive), and a volatile storage medium such as a RAM (Random Access Memory) and a register. . The information stored in the storage unit 140 includes a program executed by the processor, a bitcoin application program (to be described later), a text document (including image, sound, video data, etc.) for displaying a CGM website, and various radio buttons. Includes information such as status information, CC code and CC license, account ID, copyrighted work title, copyrighted work data, verification hash Hv, search hash Hs, block chain (consisting of multiple transactions), etc. .

  Hereinafter, functional units in the copyrighted work protection support apparatus 100 will be described with reference to the sequence diagram shown in FIG. FIG. 3 is a sequence diagram illustrating an example of a processing flow of the distributed network system 1 including the copyrighted work protection support apparatus 100 according to an embodiment.

  The communication control unit 122 of the copyrighted work protection support apparatus 100 executes the application program for bit coins stored in the storage unit 140 in advance, and controls the communication interface so as to synchronize with the terminal device 20 in the distributed network. (Step S100). The communication control unit 122 controls the communication interface so as to acquire a block chain from a storage unit (not shown) in the synchronized terminal device 20 (step S102). Next, the communication control unit 122 stores the block chain acquired by the communication interface in the storage unit 140 (step S104). Note that the communication control unit 122 stores the block chain stored in the terminal device 20 and the storage unit 140 when the block chain is already stored in the storage unit 140 at the stage before synchronization with the terminal device 20. A block indicating a difference from the block chain may be derived, and only the derived block may be updated. By performing the above-described processing, the copyrighted work protection support apparatus 100 shifts to a state in which a block chain, which is one of the components of the Bitcoin distribution infrastructure, can be used.

  On the other hand, a user who operates the terminal device 10 may want to post a work created by himself / herself on the CGM website provided by the work protection support apparatus 100 and share it with an unspecified number of people. . A copyrighted work is a document such as a novel (text data), image data such as a photograph, audio data such as music, or video data such as a movie. In such a case, the user who created the copyrighted work operates the terminal device 10 to access the CGM website provided by the copyrighted work protection support apparatus 100. More specifically, the user starts up a predetermined web browser in the terminal device 10 and inputs the URL (Uniform Resource Locator) of the above-described CGM website address using a user interface such as a mouse or a keyboard. The terminal device 10 to which the URL is input on the web browser transmits an access request to the web server (the copyrighted work protection support apparatus 100 in the present embodiment) indicated by the URL (step S106).

  When the access request is transmitted from the terminal device 10, the website providing unit 110 acquires the terminal ID of the terminal device 10 that is the transmission source, and stores the acquired terminal ID in the storage unit 140 (step S108). The website providing unit 110 transmits, to the terminal device 10 indicated by the terminal ID stored in the storage unit 140, a text document or the like for displaying on the web browser a web page that accepts posting of a copyrighted work ( Step S110). The text document is a document described in a markup language such as HTML (HyperText Markup Language).

  The terminal device 10 receives the text document or the like transmitted from the website providing unit 110, and displays a web page that accepts posting of a copyrighted work on the web browser based on the received text document (step S112).

  FIG. 4 is a diagram illustrating a schematic example of a web page that accepts contributions of copyrighted works. In the web page, a posting button B1 for selecting posting of the copyrighted work, a radio button B2 for selecting whether or not to agree to the terms of use for posting, and whether or not to perform time authentication on the posted copyrighted work A radio button B3 for selecting or a radio button group B4 for selecting one use condition of the posted work is displayed. The use condition is a condition for setting a restriction when the posted work is used by others. The usage conditions are represented by, for example, a CC (Creative Commons) license.

  The CC licenses in this embodiment are classified into, for example, six types: BY, BY-SA, BY-ND, BY-NC, BY-NC-SA, and BY-NC-ND. BY is a condition that requires the copyright holder's display. BY-SA requests the copyright holder's display, and works created by modifying, transforming, or processing the posted work, This is a condition for allowing distribution after inheriting the copyright of the original work. Moreover, BY-ND is a condition that requests the copyright holder's display and prohibits any alterations in the reproduction, distribution, display, and demonstration of the posted work. BY-NC This is a condition that requires display and restricts reproduction, distribution, exhibition, and demonstration of the submitted work to non-commercial use. BY-NC-SA requests the copyright holder's display, and copies, distributes, exhibits, and demonstrations of the submitted work are limited to non-commercial use, and inherits the copyright of the original work. In addition, it is a condition for allowing distribution. BY-NC-ND requests the copyright holder's display, and copies, distributes, exhibits, and demonstrations of posted works are limited to non-commercial use, and copies, distributes, displays, It is a condition that prohibits any modification in the performance.

  In the web page as shown in FIG. 4, the initial state of the radio button B2 is set to indicate that the user agreement is not agreed with the posting, and the initial state of the radio button B3 is the work to be posted. It is set in a state indicating that time authentication is not performed on an object. In addition, the initial state of the radio button group B4 is set to a state in which any use condition is not selected.

  When posting the copyrighted work on the CGM website, the user operates the terminal device 10 and presses the posting button B1 on the web browser. As a result, the terminal device 10 starts up an OS (Operating System) file system, for example, and electronic data (hereinafter referred to as “literature data”) of the copyrighted work stored in a storage unit (not shown) in the device itself. The user selects data to be posted. The terminal device 10 is in a state where the copyrighted work data to be posted is selected, and when the radio button B2 is selected to indicate that it agrees to the terms of use, that is, when the user's confirmation operation is performed, The copyrighted material data is transmitted to the copyrighted material protection support apparatus 100 (step S114). As a result, the terminal device 10 uploads literary work data.

  The copyrighted work data includes data obtained by digitizing the contents of the copyrighted work (binary conversion), the title of the copyrighted work, information indicating the state of various radio buttons, and the account ID of the user who uses the CGM website. It is. At the stage where the copyrighted work data is transmitted, the state of the radio button B3 may be a state indicating that time authentication is performed, or may be a state indicating that time authentication is not performed (initial state). To do. Further, the state of the radio button group B4 may be an initial state, or may be a state in which any one of six types of conditions is selected. The terminal device 10 transmits request information based on the state of these various radio buttons and information indicating the user's account ID to the copyrighted work protection support apparatus 100 together with copyrighted material data.

  The website providing unit 110 stores the literary work data transmitted from the terminal device 10 in the storage unit 140, and generates a text document or the like for displaying a web page in which the literary work data is embedded (step S116). As a result, the copyrighted work protection support apparatus 100 can display an unspecified number of terminal devices 10 with a web page in which the uploaded copyrighted work data is embedded via the network NW. As a result, the copyrighted work posted by the user is shared on the website managed by the copyrighted work protection support apparatus 100.

  When the copyrighted work data is uploaded from the terminal device 10, the anti-distribution network processing unit 120 determines whether request information for requesting time authentication is transmitted at the same time (step S118). When the request information for requesting time authentication is transmitted, the anti-distribution network processing unit 120 performs time authentication processing on the uploaded electronic data.

Hereinafter, time authentication processing by the distributed network processing unit 120 will be described.
The encoding processing unit 124 extracts the CC license selected by the user based on the received request information, and converts (encodes) the extracted CC license into a binary code. Hereinafter, the CC license encoded is referred to as “CC code”. Note that the encoding protocol (procedure) that is referred to when the CC license is converted into the CC code in the encoding processing unit 124 may be appropriately changed depending on the embodiment. Therefore, in this embodiment, in order to distinguish between the encoding protocol referred to in the past and the encoding protocol currently referred to, the encoding protocol includes a version number ( Binary) is given.

  FIG. 5 is a diagram illustrating an example of a CC code for each CC license type. For example, after extracting the CC license from the state of the radio button group B4, the encoding processing unit 124 performs encoding with reference to the correspondence table between the CC license and the CC code shown in FIG.

  The hashing processing unit 126 generates a fixed-length hash value by using a hash function as an irreversible one-way function for data indicating the content of the copyrighted work included in the copyrighted work data. The hash processing unit 126 converts the content data of the copyrighted work into a hash value using, for example, RIPEMD-160, which is one of cryptographic hash functions. Hereinafter, the content data of the copyrighted work converted into the hash value is referred to as “verification hash Hv”. Note that the hash processing unit 126 may convert the data into a hash value using an algorithm such as SHA-256 instead of RIPEMD-160.

  FIG. 6 is a diagram illustrating an example of types of copyrighted work data that can be converted into the verification hash Hv. As illustrated in FIG. 6, the hashing processing unit 126 can convert, for example, text data having extensions “txt, doc, ppt, xls, pdf” into the verification hash Hv. Similarly, the hashing processing unit 126 includes image data with an extension “bmp, png, jpg, gif”, audio data with an extension “mp3, wma, wav”, and an extension “avi”. , Mp4 "and the like can be converted into a verification hash Hv.

  The hashing processing unit 126 also includes the title of the copyrighted work included in the copyrighted work data, the ID of the CGM website provided by the website providing unit 110 to the terminal device 10, and the user who uses the CGM website. And the combined information is converted into a hash value using RIPEMD-160. Hereinafter, the information obtained by converting the combination of the title of the copyrighted work, the ID of the CGM website, and the account ID into a hash value is referred to as a “search hash Hs”.

  FIG. 7 is a diagram illustrating a state of the hashing process performed by the hashing processing unit 126 of the anti-distributed network processing unit 120. In the example of FIG. 7, the hashing processing unit 126 generates a search hash Hs and a verification hash Hv using RIPEMD-160.

  The storage processing unit 128 stores the literary work data in the above-described transaction in order to perform time authentication on the literary work data (step S120). Specifically, the storage processing unit 128 converts the CC code encoded by the encoding processing unit 124, the version number of the encoding protocol referenced by the encoding processing unit 124, and the hashing processing unit 126. The verification hash Hv, the search hash Hs converted by the hashing processing unit 126, and the identifier are embedded in a predetermined field in the transaction. An identifier is information added to the beginning of all data stored in a transaction. For example, the storage processing unit 128 embeds an identifier in a predetermined field so that the copyrighted work data stored in the block chain can be easily searched. Thereby, the copyrighted work protection support apparatus 100 can easily extract a transaction in which the copyrighted work data is embedded from the block extracted from the block chain. Further, the predetermined field is a place (for example, “scriptPubKey”) in which a withdrawal amount of a bit coin, a hash value of a public key of a remittance destination necessary for transmitting a bit coin to a remittance destination, and the like are embedded.

  Note that the storage processing unit 128 may embed a part of the data in the verification hash Hv and the search hash Hs when the amount of data embedded in a predetermined field is limited. For example, when the amount of data to be embedded in a predetermined field is limited to 40 bytes, the storage processing unit 128 includes 20 bytes of data from the beginning of the verification hash Hv, and 10 bytes of data from the beginning of the search hash Hs. Is preferably embedded.

  FIG. 8 is a diagram illustrating an example of data embedded in a predetermined field. In the example of FIG. 8, a predetermined field has a capacity limit of 40 bytes. Therefore, the copyright protection support apparatus 100, for example, has 5 bytes for the identifier, 1 byte for the version number, 1 byte for the CC code, 10 bytes for the hash Hs for search, and verification so that the amount of data to be embedded is within 40 bytes. The hash Hv for use is 20 bytes. Note that the copyrighted work protection support apparatus 100 may provide an area such as an extension bit (3 bytes) shown in FIG.

  FIG. 9 is a diagram illustrating an example of copyrighted work data that is subject to time authentication. The copyrighted work data shown in FIG. 9 is text data. The text data is provided with information indicating the BY-NC-ND CC license. FIG. 10 is a diagram illustrating an example of data embedded in a transaction. The data shown in FIG. 10 is data generated based on the copyrighted work data shown in FIG. As shown in FIG. 10, 40 bytes of data composed of decimal numbers or alphabets are embedded in the transaction.

  When the converted literary work data is embedded in the predetermined field in the transaction by the storage processing unit 128, the communication control unit 122 transmits the transaction in which the literary work data is embedded to all the devices of the terminal device 20. Send to. That is, the communication control unit 122 broadcasts a transaction in which copyrighted material data is embedded (step S122).

  FIG. 11 is a diagram illustrating a state in which a transaction TX in which literary work data is embedded is broadcast. As shown in FIG. 11, after the transaction TX is broadcast in the distributed network, any one of the terminal devices 20 in the distributed network starts from the most recent block generation time to the current block generation start time. Transaction TX accumulated during the period is collectively generated into one block. As a result, the block chain stored in the terminal device 20 in the distributed network is updated. Since it takes time to generate a block from the transaction TX, there is a certain delay (for example, about 10 minutes) in updating the block chain. In other words, the copyrighted work protection support apparatus 100 requires a delay time from the time request received from the user until the time authentication is completed.

  Therefore, the applicant of the present application conducted the following experiment and derived the time required for updating the block chain. In the experiment, an OS of Ubuntu 14.04LTS was used, and Node. Experiments were performed using a platform called js and a Bitcoin client (Bitcoin; Corev 0.9.3.0). Javascript (registered trademark) was used as the server-side language, and Jade was used as the front-end language.

  FIG. 12 is a diagram illustrating an example of a result of deriving the time required for hashing data indicating the content of a copyrighted work for each data amount. In the example of FIG. 12, the time until hashing of each video data is completed using video data of 11 different sizes is shown. All data has been hashed within one minute.

  FIG. 13 is a diagram illustrating an example of a change in delay time according to a fee paid to the distributed network. FIG. 14 is a diagram showing an example of a fee used for obtaining the experimental result shown in FIG. Bitcoin blockchain update timing is determined according to a fee paid to the distributed network by executing a Bitcoin application program. For example, when the fee is large, the terminal device 20 can quickly execute the process of blocking the transaction. That is, the delay time generated when updating the block chain is shortened.

  In the example of FIG. 13, the influence of the delay time on the fee amount is small, and even with the minimum fee of 0.00001 BTC (equivalent to 0.38 yen) determined by the Bitcoin protocol, the average delay is about 12 minutes. Met. Therefore, in the current copyright registration system, the registration cost is more than 3000 yen per case, and the required time is usually 6 months, so time verification using bitcoin blockchain will be performed from this experiment. It is suggested that this leads to improvement in social efficiency and cost reduction.

  FIG. 15 is a diagram schematically showing a scene of time authentication performed when the work data is changed after the work data is stored in the block chain. In the case of the example of FIG. 15, when a user creates a content (authorized work) at time A by operating the terminal device 10 at time B and posts it to the CGM website, and selects a CC license, The protection support apparatus 100 embeds the content (authorized work) posted at time B in the transaction and stores it on the block chain. As a result, time information is given to the content (authorized work) stored on the block chain.

  For example, when the user changes the CC license of the content (authorized work) stored on the block chain at time C, the copyrighted work protection support apparatus 100 indicates that the CC license has been changed. The data whose CC license has been changed is newly embedded in the transaction as data different from the data embedded in the transaction at time B, and the terminal device 20 is made to generate a new block. Thereby, the copyrighted work protection support apparatus 100 stores on the block chain the copyrighted work data requested for time authentication at time B and the copyrighted work data requested for time authentication at time C. Can do. Thus, the user can perform time authentication on the copyrighted work before and after the change of the CC license.

FIG. 16 is a diagram for explaining proof of infringement in the case where the copyright of a work that has been time-authenticated using a block chain is infringed. In the example of FIG. 16, at time T <b> 1, the user A posts the created work C ₀ to the CGM website provided from the work protection support apparatus 100. At this time, the user A selects a CC license indicating that copying is not permitted (All rights reserved). At time T2, user B posts a work C ′ modified based on work C ₀ posted by user A to the CGM website.

At time T3, the user A, the work C ₁ obtained by modifying the work C ₀ posted at time T1, delete posts work C ₀ to together to post BY-NC license configuration. At time T4, the user A finds the infringing action of the user B and posts a text document (HTML data) of the web page on which the infringing action is being performed to the CGM website. The copyrighted work protection support apparatus 100 performs hashing on the text document data of the web page on which the infringing action is performed, and embeds it in the transaction. The copyrighted work protection support apparatus 100 broadcasts a transaction in which text document data of a web page on which an infringement is being performed is embedded. As a result, the text document data of the web page on which the infringing action is performed is stored in the block chain on the distributed network. That is, the copyrighted work protection support apparatus 100 performs time authentication on the text document data of the web page on which the infringing action is performed.

  Thereafter, the user A requests the user B to stop the infringing action. On the other hand, user B rejects user A's request. Therefore, user A brings user B into a lawsuit for damages. In such a case, the user B may delete the posting of the copyrighted work C ′ and deny the infringement. Therefore, user A submits evidence of time authentication, that is, text document data of a web page stored on the block chain, to the court, and accuses user B of infringing at time T4.

In such a case, the user B attaches to the fact that the post of the work C ₀ that the user A originally posted is deleted, and excuses that the posted work C ′ is an original work created by the user B. there is a possibility. However, post destination work C ₀ proves that since it is CGM website providing the digital work protection support apparatus 100, the user A to easily work C ₀ was present certainly time T1 be able to. In this case, further user B, exploit that work C ₁ extant are BY-NC license, claimed to be the same CC licenses work C _0, allowed modification of the work C ₀ There is a possibility that it is excused.

However, the user A can easily prove that the copyrighted work C ₀ is certainly set to “All rights reserved” in the period from the time T1 to the time T3 by using the block chain. . Even in such a case, the user B may further understand that the copyrighted work C ′ is produced after the time T3. However, since the copyrighted work C ′ is posted on the CGM website provided by the copyrighted work protection support apparatus 100 and time authentication is performed on the copyrighted work C ′, the user A can easily find the copyrighted work C ′. It can be proved that it existed at time T2. As a result, the user B has no room for excuse, and the user A can cause the user B to accept the infringement stop request.

  FIG. 17 is a flowchart illustrating an example of a process flow of the copyrighted work protection support apparatus 100 according to an embodiment. The copyrighted work protection support apparatus 100 executes the processing of this flowchart at a predetermined cycle, for example.

  First, the communication control unit 122 executes an application program for bit coins stored in the storage unit 140 in advance (step S200). Next, the communication control unit 122 controls the communication interface so as to synchronize with the terminal device 20 in the distributed network (step S202). Next, the website provision part 110 determines whether the access request was received from the terminal device 10 (step S204). Next, the copyrighted work protection support apparatus 100 returns to the process of step S200, when the access request is not received from the terminal device 10 (step S204; No).

  When receiving an access request from the terminal device 10 (step S204; Yes), the website providing unit 110 acquires a terminal ID from the terminal device 10 (step S206), and stores the acquired terminal ID in the storage unit 140. Next, the website providing unit 110 displays a text document or the like for causing the terminal device 10 indicated by the terminal ID stored in the storage unit 140 to display a web page for accepting posting of a copyrighted work on the web browser. Transmit (step S208).

  Next, the copyrighted work protection support apparatus 100 determines whether or not copyrighted work data has been received from the terminal apparatus 10 on which the user's confirmation operation has been performed (step S210). When the copyrighted work protection support apparatus 100 does not receive copyrighted work data from the terminal device 10 (step S210; No), the process of this flowchart is terminated. When the website providing unit 110 receives the copyrighted material data from the terminal device 10 (step S210; Yes), the website providing unit 110 stores the copyrighted material data in the storage unit 140 and various types of data transmitted from the terminal device 10 together with the copyrighted material data. Request information based on the state of the radio button and information indicating the user's account ID are stored in the storage unit 140 (step S212).

  Next, the copyrighted work protection support apparatus 100 generates a text document or the like for displaying a web page in which the copyrighted work data stored in the storage unit 140 is embedded (step S214). Next, when the copyrighted work data is uploaded from the terminal device 10, the anti-distribution network processing unit 120 determines whether request information for requesting time authentication has been received at the same time (step S216). If the copyright protection support apparatus 100 has not received request information for time authentication from the terminal apparatus 10 (step S216; No), the process of this flowchart ends.

  When the request information for requesting time authentication is received from the terminal device 10 (step S216; Yes), the encoding processing unit 124 extracts the CC license selected by the user based on the received request information, and extracts the extracted CC The license is converted into a CC code (step S218). Next, the hashing processing unit 126 performs hashing on the content data of the literary work included in the literary work data, and generates a verification hash Hv (step S220).

  Next, the hashing processing unit 126 combines the title of the copyrighted work, the ID of the CGM website, and the account ID of the user, performs hashing on the combined information, and generates a hash Hs for search ( Step S222). Next, the storage processing unit 128 converts the CC code encoded by the encoding processing unit 124, the version number of the encoding protocol referred to by the encoding processing unit 124, and the hash processing unit 126. The verification hash Hv, the search hash Hs converted by the hashing processing unit 126, and the identifier are embedded in a predetermined field in the transaction (step S224).

  Next, the communication control unit 122 broadcasts the transaction in which the copyrighted work data is embedded (step S226). Thereby, the processing of this flowchart is completed.

  As described above, according to the copyrighted work protection support apparatus 100 according to the embodiment, using the communication interface, the copyrighted work data to which the time authentication request information is attached is acquired, and the copyrighted work data to which the time authentication request information is attached is acquired. By controlling the communication interface so that the information based on is transmitted to the distributed network sharing the block tune, the time authentication can be performed easily and inexpensively on the desired work.

  In addition, according to the copyright protection support apparatus 100 according to the embodiment, by acquiring copyrighted work data to which CC license request information is attached, proof of copyright attribution of a user who uses the CGM website and infringement are obtained. Evidence preservation and further improvement of CC license evidence capacity can be performed.

  Note that the terminal device 10 or the terminal device 20 described above may have a function corresponding to the anti-distributed network processing unit 120 of the copyrighted work protection support apparatus 100. FIG. 18 is a diagram illustrating a state in which the transaction TX in which the copyrighted work data is embedded is broadcast by the terminal device 10. For example, the terminal device 10 or the terminal device 20 performs hashing and encoding paired distributed network processing on the copyrighted work data in order to store the copyrighted work data stored therein in the block chain format. The data subjected to the distributed network processing is embedded in the transaction TX, and the transaction TX is transmitted to the distributed network. Accordingly, for example, when the user wants to perform time authentication on the copyrighted work data in advance before posting the copyrighted work on the CGM website, the terminal device 10 or the terminal device 20 uses the copyrighted material data. The information indicating the copyrighted work is stored on the block chain by embedding the information based on the transaction TX. As a result, the terminal device 10 or the terminal device 20 can perform time authentication on the copyrighted work.

  As mentioned above, although the form for implementing this invention was demonstrated using embodiment, this invention is not limited to such embodiment at all, In the range which does not deviate from the summary of this invention, various deformation | transformation and substitution Can be added.

DESCRIPTION OF SYMBOLS 1 ... Distributed network system 10, 20 ... Terminal device, 100 ... Copyright protection support apparatus, 102 ... Communication interface, 110 ... Website provision part, 120 ... Anti-distribution network processing part

Claims (7)

A communication department;
Using the communication unit, an acquisition unit that acquires a copyrighted work with information that requests time authentication;
The information based on the copyrighted work with the information to request time authentication acquired by the acquisition unit is transmitted to the distributed network in which the transmitted and received information is held together with the time information. A processing unit for controlling the communication unit;
A copyright protection support apparatus. Provided on the user's terminal device with a provider that provides a website that accepts submissions of copyrighted works,
The acquisition unit acquires the posted work, to which information indicating that the time authentication is requested based on an operation of the user with respect to the website is given,
The copyrighted work protection support apparatus according to claim 1. The distributed network is a network for transmitting and receiving information having a predetermined format,
The processing unit converts a copyrighted work with information indicating that the time authentication is requested, acquired by the acquiring unit, into a format that matches the predetermined format, and includes information including the converted information. Controlling the communication unit to transmit to the distributed network;
The copyrighted work protection support apparatus according to claim 1 or 2. The distributed network is a cryptocurrency payment network,
The processing unit embeds information obtained by converting a copyrighted work with information requesting the time authentication into pseudo transaction data, and transmits the communication unit to the distributed network. Control,
The copyrighted work protection support apparatus according to claim 3. The processing unit conforms to the predetermined format by a conversion process including an irreversible encoding process for at least the copyrighted work to which the time authentication is requested, or the copyrighted work and related information. Convert to
The copyrighted work protection support apparatus according to claim 3 or 4. The processing unit includes at least identification information of a source of the copyrighted work with information indicating that the time authentication is required, or information including identification information of the source of the copyrighted work and related information. And converting the converted information into a format that matches the predetermined format, and transmitting the converted information to the distributed network together with information based on a copyrighted work with information indicating that the time authentication is required. To control the communication unit,
The copyrighted work protection support apparatus according to any one of claims 3 to 5. A communication department;
A processing unit that controls the communication unit so that information based on a copyrighted work to which time authentication is requested is transmitted to a distributed network in which transmitted and received information is held together with time information; ,
A copyright protection support apparatus.

Images