JP4053350B2 - Content distribution system and method, and content distribution program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a content distribution system, and more particularly to a content distribution system that distributes content related to performances such as plays and concerts to users via a network. The present invention also relates to a content distribution method and a content distribution program.
[0002]
[Prior art]
Conventionally, content distributed to users from a predetermined website is mainly text data and image data. However, with recent advances in network technology, in particular, with an increase in communication capacity, the data capacity is large. Content such as music data and video data can also be distributed.
[0003]
And using these technologies, video, sound, etc. of music concerts and musicals that are actually being performed are converted into data, which are then distributed to user terminals from a distribution server.
[0004]
For example, taking a music concert as an example, first, video and music are recorded and recorded (recorded) at a concert venue, respectively, and this is converted into data that can be distributed. The distribution server transmits the data content to the user terminal in response to a request from the user. The user who has received this can process the content at his / her terminal, display the video on the display, and output the music from the speaker to view the video and music. At this time, by distributing the content in real time, that is, at almost the same time as the actual concert, the user can feel a sense of unity with the audience at the concert venue, and the concert is converted into a video. You can experience the concert as soon as possible.
[0005]
With such a content distribution system in the conventional example, the user can enjoy the concert in real time even when the concert venue is remote and the ticket cannot be obtained even if the concert venue is remote. be able to. In addition, even for businesses that provide such systems, the number of people at the concert venue is limited, so revenue from tickets is limited, but by collecting viewing fees from users distributed over the network, Earn money. Furthermore, even for performers such as concert singers, more users can view the concert and the like.
[0006]
[Problems to be solved by the invention]
However, the conventional example has the following disadvantages. In other words, since video, music, etc. are converted into data, it becomes easy to copy such data, and a situation occurs in which a distributed user copies and leaks, or illegally acquires data flowing on the network, There is an inconvenience that even users who do not have the right to view legitimately can view the content easily. In such a case, copyright infringement often accompanies, and there arises a problem that the lyrics of music, composers, performers, and even content distributors cannot be protected. And it is not appropriate for a user who pays a fee and views it.
[0007]
Further, in order to solve the above problems, a method of encrypting and distributing contents such as video and music has been adopted. In this case, the user decrypts the received content with his / her computer using a decryption program and reproduces it. In this way, even if another person obtains the content being transmitted on the network, it cannot be played back without obtaining the decryption program, so that the above problem can be solved. Seem.
[0008]
However, even if the content is encrypted as described above, if the decryption program is generally available, the user having the program can decrypt the content by acquiring the content data. There arises a problem that a user who does not have a legitimate title can view the content.
[0009]
OBJECT OF THE INVENTION
The present invention improves the inconveniences of the above-described conventional examples, and in particular, prevents viewing by unauthorized users of content distributed via a network, and secures the copyright of a performer and the content distributor. The purpose is to provide a content distribution system capable of
[0010]
[Means for Solving the Problems]
  Therefore, in the present invention, a distribution server connected to the user terminal via the network and having a content distribution function for distributing content to the user terminal is distributed from the distribution server. Demonstration data acquisition means for converting into data as the content to be acquired is connected to the distribution server, and content reproduction means for receiving and reproducing the content distributed from the distribution server via the user terminal is provided. The content acquired by the demonstration data acquiring unit is encrypted in a predetermined format and is scrambled to be distributed by the distribution server. The scramble unit is connected to the distribution server. A decryption function to release the encrypted contenting. The demonstration data acquisition means is a dummy head microphone and has a content generation function for acquiring sound information acquired by the dummy head microphone by binaural recording and generating content having localization information, and content reproduction means Is a headphone and has a localization information reproduction function that reproduces and reproduces localization information when playing content.(Claim 1).
[0011]
  By adopting such a configuration, first, the contents of the demonstration such as music are converted into data by the demonstration data acquisition means and encrypted by the scramble means. The encrypted content is transmitted from the distribution server to the user terminal and sent to the content reproduction means. In the content reproduction means, the content encrypted by the decryption function is decrypted and reproduced. Thereby, the user can view the content. Therefore, since the user can view the content by interposing the content reproduction means, only the user having the device as the content reproduction means can view it, and other users who do not have the device can access the network. Even if the content to be transmitted is acquired, it cannot be viewed. As a result, it is possible to secure the profits of the performer and the distribution company. Further, since the content is distributed via the network, the user can acquire the content on demand by the distribution server accumulating the content.Moreover, the demonstrated sound information is binaurally recorded by a dummy head microphone, and is taken in as content having localization information. When the content is played back with the headphones, the localization information is also reproduced, so that the user can listen to realistic sound information. At this time, as described above, when content is decoded in the headphones, since only the user who owns the headphones can enjoy the content, it is prevented from being listened to by an unauthorized user. can do.
[0012]
In addition, the content reproduction means includes a storage unit having a predetermined storage capacity, and stores unique identification data for each content reproduction unit in the storage unit. Then, the distribution server stores in advance correspondence data corresponding to the identification data stored in the content reproduction means possessed by the legitimate user, and the identification data stored in the content reproduction means transmitted via the user terminal. The content distribution function provided in the distribution server is provided with a verification function for receiving and verifying the corresponding data, and the encrypted content is distributed to the user terminal of the user who is determined to be a valid user by the verification function. This is desirable (claim 2).
[0013]
Accordingly, the distribution server authenticates the user who distributes the content in advance, and distributes the content only to the legitimate user. At this time, since identification data stored in advance in the content reproduction means is used as an authentication key, only those having the device can receive distribution of the content. Therefore, it is possible to further suppress the content being viewed by an unauthorized user.
[0014]
  The present invention also employs the following configuration. That is, a distribution server connected to the user terminal via the network and having a content distribution function for distributing content to the user terminal is provided as content to be distributed from the distribution server. A content distribution system comprising: a demonstration data acquisition unit connected to a distribution server, and a content reproduction unit that receives and reproduces content distributed from the distribution server via a user terminal. A scramble unit that encrypts the content acquired by the data acquisition unit into a predetermined format and distributes the content to be distributed by the distribution server is connected to the distribution server, and the distribution server stores the encrypted content A decryption program to be decrypted is stored, and this decryption program is A decryption program delivery function for transmitting to the user terminal in response to a request from the terminal, the content playback means receiving the decryption program via the user terminal, and the control provided in the content playback means itself Decryption program built-in function for incorporating a decryption program into the uniting. The demonstration data acquisition means is a dummy head microphone and has a content generation function for acquiring sound information acquired by the dummy head microphone by binaural recording and generating content having localization information, and content reproduction means Is a headphone and has a localization information reproduction function that reproduces and reproduces localization information when playing content.(Claim 3).
[0015]
  With this configuration, not only the content but also a program for decrypting the content for viewing and the like is distributed from the distribution server to the user terminal. Such a program functions by being incorporated in the control unit of the content reproduction means. Therefore, only a user who has acquired a decryption program and has a dedicated content reproduction means can view the content, etc., so that a person who has illegally obtained the content from the network can easily decrypt it. I can't. For this reason, viewing of an unauthorized user can be suppressed.Moreover, the demonstrated sound information is binaurally recorded by a dummy head microphone, and is taken in as content having localization information. When the content is played back with the headphones, the localization information is also reproduced, so that the user can listen to realistic sound information. At this time, as described above, when content is decoded in the headphones, since only the user who owns the headphones can enjoy the content, it is prevented from being listened to by an unauthorized user. can do.
[0016]
At this time, it is more desirable that the decryption program is a program set to operate only within a predetermined operation period (claim 4). As a result, even if the decryption program is acquired by an unauthorized user, it cannot be used after a certain period of time, so that it is possible to suppress viewing of content by further unauthorized users.
[0017]
Furthermore, the present invention also provides the following system. That is, a distribution server connected to the user terminal via the network and having a content distribution function for distributing content to the user terminal is provided as content to be distributed from the distribution server. A content distribution system comprising: a demonstration data acquisition unit connected to a distribution server, and a content reproduction unit that receives and reproduces content distributed from the distribution server via a user terminal. The scramble means that encrypts the content acquired by the data acquisition means into a predetermined format and is distributed to the distribution server is connected to the distribution server, and the distribution server includes the encrypted content. The decryption program base that is the original data of the decryption program for decrypting The decryption program modification function for modifying the decryption program base data into a program for decrypting only the encrypted content, and in response to a request from the user terminal. A decryption program distribution function for transmitting to the user terminal, and the content reproduction means for decrypting the content decrypted on the user terminal or on the content reproduction means using the decryption program transmitted to the user terminal. The structure of reproducing | regenerating is taken (Claim 5).
[0018]
With such a configuration, first, the distribution server uses the information obtained from the scramble means or information stored in advance in the distribution server itself, regarding the encryption of the content to be distributed. A dedicated decryption program for decrypting the content is generated by modifying the decryption program base data. Then, the distribution server distributes the modified program to the user terminal. Thereafter, the content to be viewed is distributed to the user terminal that has distributed this program. Then, since the user possesses a program for decrypting only the distributed content, the content can be decrypted using the program, and the content can be reproduced. At this time, since the decryption program cannot decrypt other content, even if the program leaks later, it is possible to prevent other content from being viewed illegally.
[0019]
At this time, the content reproduction means has a program incorporation function for incorporating the distributed decryption program into the control device of the content reproduction means, and cancels the encrypted state of the content distributed by the incorporated program. It is desirable that the data be decoded and reproduced (claim 6). As a result, the decryption program distributed from the distribution server is incorporated into the content reproduction means, so that the content is decrypted inside the content reproduction means. Therefore, since only the user who possesses the content reproduction means and the decryption program is distributed can view the content, it is possible to prevent viewing by a further unauthorized user.
[0020]
In addition, as described above, when the distribution server has a configuration having a decryption program distribution function, the content reproduction unit includes a storage unit having a predetermined storage capacity, and the storage unit is unique to each content reproduction unit. The identification data is stored, and the distribution server stores in advance the corresponding data corresponding to the identification data stored in the content reproduction means possessed by the legitimate user, and is stored in the content reproduction means transmitted via the user terminal. The content distribution function and the decryption program distribution function of the distribution server are provided to the user terminal of the user who has been determined to be a valid user by the verification function. The encrypted content and decryption program are transferred to the user terminal of the legitimate user. It is desirable when the be delivered (claim 7). As a result, the distribution server can recognize a user having a legitimate content reproduction means and distribute the content and a program for decrypting the content to the user. Content viewing can be suppressed.
[0021]
In the above configuration, the decryption program delivery function of the delivery server may be a function that delivers only during a predetermined period (claim 8). Thereby, by determining the distribution time of the decryption program for decrypting the content, particularly by distributing the program immediately before distributing the content, it is possible to effectively suppress the distribution of the program to others. be able to.
[0022]
  And aboveClaim 5 or 6In the configuration, the demonstration data acquisition means is a dummy head microphone and includes a content generation function for acquiring sound information acquired by the dummy head microphone by binaural recording and generating content having localization information. It is desirable that the reproduction means is a headphone and has a localization information reproduction function for reproducing localization information when reproducing content (claim 9).
[0023]
As a result, the sound information that has been demonstrated is binaurally recorded by the dummy head microphone and captured as content having localization information. When the content is played back with the headphones, the localization information is also reproduced, so that the user can listen to realistic sound information. At this time, as described above, when content is decoded in the headphones, since only the user who owns the headphones can enjoy the content, it is prevented from being listened to by an unauthorized user. can do.
[0024]
Further, the demonstration data acquisition means includes a dummy head microphone and a stereo camera attached to the dummy head, and the content generation function of the demonstration data acquisition means acquires stereoscopic information by acquiring video information with the stereo camera. This is a function to generate content, and the content playback means is a viewing unit in which a head mounted display is integrated with a headphone, and also reproduces stereoscopic information by reproducing stereoscopic information in the content and reproducing video information. It is good also as having a function (Claim 10).
[0025]
Thereby, like the sound information having the localization information described above, the video of the demonstration can be captured as a stereoscopic video by the stereo camera, and this is distributed to the user as content. The user who has acquired this can view through a head-mounted display attached with headphones, and can enjoy powerful stereoscopic images. Even in such a case, as described above, since the content is decrypted by the decryption function immediately before the user views the content, it is possible to prevent the content from being illegally viewed by another person.
[0026]
  In the present invention, the following content distribution method is also provided. That is, a distribution server connected to a user terminal via a network, a demonstration data acquisition unit connected to the distribution server, and a content reproduction unit connected to the user terminal, the demonstration data acquisition unit being a predetermined location Demonstration data acquisition step for converting the demonstration content demonstrated as data to be distributed from the distribution server, and a content distribution step in which the distribution server distributes this content to the content reproduction means via the user terminal, and this distribution A content reproduction method in which the content reproduction means reproduces the content that has been reproduced, and before the demonstration data acquisition step, the distribution server stores the encrypted content stored in advance in the distribution server. Decoding program for transmitting a decoding program for decoding to a user terminal Demonstration data acquisition including a distribution step and a decryption program incorporation step in which the content reproduction means receives the decryption program via the user terminal and incorporates the decryption program into a control unit provided in the content reproduction means itself Between the process and the content distribution process, the scramble means connected to the distribution server includes an encryption process in which the content is received from the demonstration data acquisition means and encrypted in a predetermined format. The built-in content playback means decrypts and plays back the content.The
[0027]
  A distribution server connected to the user terminal via the network; demonstration data acquisition means connected to the distribution server; and content reproduction means connected to the user terminal. Demonstration data acquisition step for converting the demonstration content demonstrated as data to be distributed from the distribution server, and a content distribution step in which the distribution server distributes this content to the content reproduction means via the user terminal, and this distribution A content reproduction method in which the content reproduction means reproduces the reproduced content, and the distribution server stores the decryption program base data stored in the distribution server in advance before the demonstration data acquisition step. Modified to decrypt only encrypted content A decryption program modification step for generating a ram, and a decryption program distribution step for the distribution server to transmit the generated decryption program to the user terminal, and between the demonstration data acquisition step and the content distribution step, The scramble means connected to the distribution server includes an encryption process in which the content is received from the demonstration data acquisition means and encrypted in a predetermined format, and the user is transmitted using the decryption program transmitted to the user terminal in the content reproduction process. It also provides a method of playing back the decrypted content on the terminal or content playback means (Claim 11).
[0028]
  Furthermore, in the present invention, there is provided a content distribution program for controlling the operation of a distribution server connected to a user terminal via a network, the data being encrypted and encrypted by a predetermined device connected to the distribution server. Content receiving process for receiving the content that is the demonstration content that was performed at the location, and the decryption program base data stored in the distribution server in advance is decrypted only by the encrypted content Decryption program modification processing for generating a decryption program by modifying the program to decrypt, decryption program distribution processing for transmitting the generated decryption program to the user terminal, and distribution of the decryption program for the encrypted content After that, it is transmitted to the content reproduction means through the user terminal that has distributed the program Also it provides a content distribution program for controlling the operation of the distribution server to execute content distribution processing, the (Claim 12).
[0029]
Even in such a configuration, the same effect as described above can be obtained because it operates as described above.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment>
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. 1 to 6. FIG. 1 is a block diagram illustrating an outline of a configuration according to the first embodiment. FIG. 2 is a functional block diagram showing the configuration in the same manner. FIG. 3 is an explanatory diagram showing an outline of the flow of content. 4 to 6 are sequence diagrams showing operations in the first embodiment.
[0031]
(overall structure)
As shown in FIG. 1, the content distribution system according to the present invention includes a distribution server 3 connected to a user terminal 1 via a network 2 and having a content distribution function for distributing content to the user terminal 1. And the demonstration data acquisition means 4 connected to this distribution server 3 and acquired as a content to be distributed from the distribution server 3 as the contents to be demonstrated at a predetermined location, and the demonstration data acquisition means 4 And a scramble unit 5 that encrypts the acquired content into a predetermined format and sets the content to be distributed by the distribution server 3. Furthermore, the content distribution system also includes content reproduction means 6 for receiving and reproducing the content distributed from the distribution server 3 via the user terminal 1.
[0032]
In such a configuration, for example, the content distributor B records music that is the content of a concert (demonstration) of a predetermined artist (singer) A1 performed in the concert hall A using the dummy head microphone 4. This is distributed to the user C by the distribution server 3. Then, the user C receiving this listens with the dedicated headphones 6 via the terminal 1. As a result, the user C can enjoy the concert outside the concert hall A, and the distributor B and the performer A1 can use the fee from the user listening to the concert outside the concert hall. It is a system that gains profits. This will be described in detail below.
[0033]
(User terminal)
The user terminal 1 is an information processing terminal including a control unit 1A having a predetermined information processing capability, such as a personal computer owned by a general user, and a storage unit 1B having a predetermined storage capacity. Further, the user terminal 1 includes a communication means (not shown) such as a modem and a terminal adapter (not shown) and a communication function, and can be connected to a distribution server 3 described later on the network 2. Yes. The user terminal 1 has a function of browsing a Web site such as a browser, and can access a content distribution site established by the distribution server 3 as will be described later. Incidentally, the user terminal 1 may be a mobile information terminal such as a mobile phone having the above function or a PDA. Even if the user terminal 1 is a mobile phone or the like, it is a matter of course that content reproducing means such as a headphone 6 to be described later can be connected.
[0034]
The user terminal 1 accesses the distribution server 1 by user operation and performs user registration in the distribution server 1. At this time, as will be described later, the identification data (headphone ID 66) stored in the content reproduction means 6 connected to the user terminal 1 is registered. When the registration is completed, a user ID 12 that is unique data for each user is issued and stored in the user terminal 1 (see FIG. 2). The user ID 12 and the headphone ID 66 stored in the content reproduction means 6 are used when the user terminal 1 accesses the distribution server 3 later.
[0035]
Further, the user terminal 1 is further provided with a distribution request function 11 for requesting the music data of the concert being performed in the concert hall A, that is, the content, to the distribution server 3.
[0036]
(Content playback means)
The user terminal 1 is connected to content reproduction means 6 for allowing the user to view content via a predetermined interface. In this embodiment, since the content is music data, the headphone 6 that can reproduce the music data and listen to the user is the content reproduction means 6. The interface is based on, for example, USB, Bluetooth, and IEEE 1394 standards.
[0037]
The headphone 6 is dedicated to the content distribution system according to the present invention, and has a control unit 6A, a storage unit 6B, and a main unit 6C as shown in FIG. 6, and stores music data having localization information by binaural recording. It can be output. As described above, since the headphone 6 is dedicated to the content distribution system, the headphone 6 is distributed by the content distributor B to users who use the content distribution system. The binaural recording and localization information will be described later.
[0038]
The headphone 6 is provided with a decryption function 61 that receives the content acquired from the distribution server 3 and releases the encrypted state of the content. That is, since the content is encrypted and distributed as will be described later, a decryption program 64 for decrypting the content is stored and can be decrypted thereby. The headphone is also provided with a decoding function 62 for converting the digital data, which is the decrypted content, into analog data. Along with this, a decoding program 65 for realizing such decoding processing is stored in the storage unit 6B.
[0039]
Thus, the decrypted and decoded content has localization information, and the localization information is reproduced and output from the output unit 6C. Accordingly, the control unit 6B of the headphone 6 is provided with a localization information reproduction function 63. As a result, the user can listen to music with a sense of presence as if listening to the concert hall A by listening to the content via the dedicated headphones 6. On the contrary, if the content distributor B does not listen to the content through the dedicated headphones 6 having the decryption function 61, the content distributor B cannot experience the realistic music data for distribution. Even if other users acquire the content to be transmitted over 2, it is impossible to listen to it because it cannot be decrypted. Therefore, it is possible to prevent the unauthorized user from infringing the copyright of the performer A1 or the like, or from harming the profit of the content distributor B.
[0040]
Further, as described above, the storage unit 6B of the headphone 6 stores the headphone ID 66 that is identification data unique to each headphone (content reproduction means). Such data is transmitted from the user terminal 1 to the distribution server 3 and used at the time of user registration with the distribution server 3 or at the time of content request. Such data is set in advance by the content distributor B and stored in the storage unit 6B of the headphones 6.
[0041]
(network)
The network 2 is the Internet that uses a dedicated line, a telephone line, a CATV cable, or the like and performs communication using a communication protocol such as a TCP / IP protocol. However, it may be an intranet that operates only within a specific company, or a specific network that communicates using a protocol other than TCP / IP.
[0042]
(Demonstration data acquisition means)
Here, content that the user C desires to view via the network 2 will be described. The content in the present embodiment is music information of a concert held in concert hall A. That is, music information that is sung and played by a singer A1 (demonstrator) or a group thereof. However, the content is not limited to music information, and may be sound information such as recitation by the performer A1, a lecture, and theater. Also, it may be video information. These will be described later in other embodiments.
[0043]
The concert hall A is provided with a dummy head microphone 4 as performance data acquisition means 4 for acquiring music played in the hall A as distribution content data (see FIG. 1). The dummy head microphones 4 are two omnidirectional microphones attached to both ears of a dummy head (mannequin head) as shown in FIG. 1, and are directed using reflection of sound on the face and earlobe. It is to acquire sex. And this dummy head microphone 4 records the music information in the concert hall A by binaural recording, and produces | generates the content which has localization information. That is, it has a content generation function.
[0044]
Localization information is added to the sound information recorded by this binaural recording, and when this is played back with headphones, the sound heard by the ears of the dummy head is exactly the same as the sound of the user without mixing the left and right sounds. Delivered to the ear. To explain further, since the user's head is replaced by a dummy head, the localization is not limited, and positional relationships such as “beside”, “overhead”, and “ear”, which are difficult even with multi-channel playback such as 5.1ch, are also simple. Can be realized. Therefore, the user can obtain a sense of presence as if the user himself / herself was present. In addition, since the technique regarding binaural recording is already well-known, the detailed description is abbreviate | omitted.
[0045]
As described above, as the content is binaurally recorded, the headphone 6 as the above-described content reproduction means 6 that reproduces the content has the localization information reproduction function 63 as described above, so that realistic music can be obtained. Information reproduction can be realized.
[0046]
(Scramble means)
Concert music information recorded by the dummy head microphone 4 is transmitted to the scramble means 5. Since the scramble means 5 is constituted by, for example, a computer (hall server 5), it naturally includes a control unit 5A and a storage unit 5B. However, the scramble means 6 is not limited to being configured by a computer, and may be configured by a dedicated device using an electronic circuit. That is, the music information may be encrypted in an analog signal state.
[0047]
The hall server 5 is first provided with an encoding function 51 for converting music information, which is analog data input from the dummy head microphone 4 to the hall server 5, into digital data. The encoding function 51 is realized by incorporating the encoding program 53 stored in the storage unit 5B into the control unit 5A. This is because the recorded music data can be distributed to the user terminal 1 via the Internet 2.
[0048]
The hall server 5 is also provided with an encryption function 52 that encrypts the encoded music information into a predetermined format. This function 52 is also realized by incorporating the encryption program 54 stored in the storage unit 5B into the control unit 5A. Thereby, the recorded music data can be protected. That is, a user who has illegally acquired content on the Internet 2 cannot decrypt the encrypted content, and thus cannot listen to the music information that is the content. Here, the encryption method in the hall server 5 corresponds to be able to be decrypted by the decryption function 61 provided in the headphone 6 described above. That is, the decryption program 64 is described in accordance with the content encryption method and is stored in the headphone 6 in advance. Incidentally, since encryption technology is generally used at present, its detailed description is omitted.
[0049]
The content encrypted in this way is transmitted to the distribution server 3 and later distributed to the user terminal 1. At this time, the content is composed of packetized data. When a predetermined amount of packet data is generated, the content is sequentially transmitted from the hall server 5 to the distribution server 3 and distributed from the distribution server 3 to the user terminal 1. Is done. Therefore, the user can receive and listen to the content almost in real time when the concert is being performed.
[0050]
(Distribution server)
The distribution server 3 is a computer that transmits content, which is sound information in the concert hall A described above, to a user terminal, and is a computer owned or managed by a distributor who distributes the content. The distribution server 3 is a computer having predetermined communication means and a communication function, and is connected to the network 2. The server 3 is, for example, a server computer including a control unit 3A having a predetermined processing capability and a storage unit 3B having a predetermined storage capacity. The server 3 establishes a content distribution site that is always accessible from other computers (such as user terminals) on the network 2. That is, it has a function of opening a Web site.
[0051]
In addition, the control unit 3A of the distribution server 3 includes a user registration function 31 for registering in advance a user who requests content distribution, a user authentication function 32 for authenticating whether or not the accessing user is a registered user, A content distribution function 33 for distributing content from the concert hall A to registered users is provided. Accordingly, user registration data 34, which is data related to the user who registered the user, is stored in the storage unit 3B, and distribution related data 35, which is information related to content distribution, such as a content distribution schedule, etc. Is remembered.
[0052]
Here, each said function is realizable when the program for each said function is integrated in the control part 3A. That is, each function is constructed in the control unit 3A by reading the program stored in the storage unit 3B or stored in a portable medium such as a CD-ROM to the control unit 3A. Details of each function will be described below.
[0053]
The user registration function 31 executes a user registration process in response to a user registration request from the user via the user terminal 1. At this time, the distribution server 3 requests information such as a name, an e-mail address, and a credit number from the user, and stores the contents as user registration data 34 in the storage unit 3B. The credit number is used to collect a fee as an information fee from the user who later distributed the content. Further, the distribution server 3 requests the headphone ID 66 stored in the headphone 6 connected to the user terminal 1 from the user terminal 1. Receiving this, the user terminal 1 reads out the headphone ID 66 from the headphones 6 and transmits it to the distribution server 6, and the distribution server 6 receiving this registers it in the user registration data 34 together with the name and the like. At this time, if the user has not purchased the dedicated headphones 6, the content distributor B allows the user to purchase the headphones 6 storing the unique headphone ID 66 and registers the headphone ID 66 in the user registration data 34. Keep it. In this way, the distribution server 3 stores in advance the correspondence data corresponding to the headphone ID 66 (identification data) stored in the headphone 6 (content reproduction means) possessed by a legitimate user. In the case of the present embodiment, the corresponding data is the headphone ID itself, but is not limited to this, and may be a pair of data that are different from each other.
[0054]
When the distribution server 3 acquires a series of information regarding the user, it issues a unique user ID for each user, stores it in the user registration data 34, and transmits it to the user terminal 1. The user terminal 1 stores it in the terminal 1 to be transmitted to the distribution server 3 at the next access (a user ID indicated by reference numeral 12 in FIG. 2) or keeps it as a memo.
[0055]
The user authentication function 32 accesses the distribution server 3, that is, the content distribution site, and determines whether or not the user who requests the content is a valid user who has registered as a user. Specifically, when the distribution server 3 first accesses the user terminal 1 or requests content distribution, the distribution server 3 is stored in the headphones 6 (content reproduction means) in the user terminal 1. The headphone ID 66 (identification data) is requested. In response to this request, the headphone ID 66 transmitted from the user terminal 1 is received, and it is verified whether or not it matches the headphone ID stored in the user registration data. That is, the stored data is collated with the corresponding data (collation function). Thus, if they match, it is determined that the user is a valid user, and the determination result is passed to the content distribution function 33.
[0056]
The content distribution function 33 distributes the requested content, that is, the encrypted content, to the user terminal 1 of the user who is determined to be a valid user by the collation function. At this time, the content is sequentially distributed to the user terminal 1 every time data is acquired as a packet from the concert hall A via the hall server 5. Prior to this, the user terminal 1 may be notified of what content can be distributed. Specifically, a distributable content (concert) list is presented, and information such as the distribution time and price of the content is presented. Such information is stored in advance as distribution-related data.
[0057]
(Operation)
Next, the operation in the first embodiment will be described with reference to FIGS. FIG. 3 is an explanatory diagram showing an outline of the flow of content, and will be described together with the operation shown in FIG. 4 to 6 are diagrams showing the operation of the system itself, and FIG. 4 is a sequence diagram showing the operation at the time of prior user registration. FIG. 5 is a sequence diagram showing an operation at the time of content distribution request, and FIG. 6 is a sequence diagram showing an operation at the time of content distribution.
[0058]
First, with reference to FIG. 4, the operation when the user registers as a user on the content distribution site will be described. This is pre-registration for the user to receive distribution of content that is sound information of a concert.
[0059]
The user connects to the network 2 via the user terminal 1 and accesses a content distribution site established by the distribution server 3 on the network 2. At this time, the user terminal 1 displays site information including text data and image data distributed by the content distribution site via browser software or the like on its own display. In response to the display, when the user clicks a button for user registration, a user registration request is transmitted to the content distribution site (distribution server 3) (step S1). Receiving this, the distribution server 3 transmits registration form data displayed in a format for inputting data necessary for user registration to the user terminal 1 (step S2). The user terminal 1 displays a registration form on its own terminal and inputs necessary information (name, e-mail address, credit number, etc.). The input information is transmitted to the distribution server 3 when the user clicks a transmission button on the registration form (step S3).
[0060]
Subsequently, the distribution server 3 receives user information from the user terminal 1 and stores it in the storage unit 3B as user registration data 34 (step S4). At this time, as a matter of course, various information regarding one user is stored in association with each other. And the delivery server 3 transmits the signal which requests | requires headphone ID with respect to the user terminal 1 which is performing user registration (step S5). Receiving this, the user terminal 1 requests the headphone 6 connected to the terminal 1 by a USB interface or the like to transmit the headphone ID 66.
[0061]
Subsequently, in the headphone 6 that has received the request for the headphone ID, the control unit 6A reads out the headphone ID 66 stored in the storage unit 6B and transmits it to the user terminal 1 (step S7). And the user terminal 1 which received this transmits to the delivery server 3 (step S8). The distribution server 3 receiving the headphone ID from the user terminal 1 registers the user registration data corresponding to the user including the headphone ID (step S9).
[0062]
At this time, if the user does not have the dedicated headphone 6 that is a part of the system of the invention, the user does not have the headphone ID request from the distribution server 3 (step S5). Reply information. At the same time, information for purchasing the headphones 6 may be transmitted to the distribution server 3. In such a case, delivery of the headphones 6 is arranged by the operator of the content distributor B based on the information sent to the distribution server 3. At this time, the headphone ID may be registered in advance in the user registration data of the user by the operator before delivery, and after the product arrives at the user, the user performs the above-described operation again to register the headphone ID. May be.
[0063]
Thereafter, the distribution server 3 issues a user ID unique to the registered user (step S10). The issued user ID is registered in the distribution server 3 itself, that is, in the user registration data 34 and transmitted to the user terminal 1 (step S11). The transmitted user ID is stored in the storage unit 1B at the user terminal 1 or recorded in a memo by the user.
[0064]
In this way, by performing user registration in advance, as will be described later, when there is a content request from the user later, the user ID or headphone ID transmitted from the user and the user registration data are stored. The user can be referred to by reference, and the content can be distributed only to the legitimate user, so that data can be prevented from being unnecessarily leaked. Along with this, it is possible to protect the copyright of the performer and the profit of the distributor.
[0065]
Next, with reference to FIG. 5, an operation when the user requests distribution of the sound information in the concert hall, that is, the sound information such as live held in the concert hall as content will be described. First, the user accesses the distribution server 3, that is, the content distribution site via the terminal 1. Then, by clicking the distribution request button displayed on the site, a message that the user requests content distribution is transmitted to the distribution server 3 (step S12).
[0066]
Receiving this, the distribution server 3 requests information related to the user such as the user ID and the headphone ID from the user terminal 1 (step S13). Then, the user terminal 1 requests a headphone ID from the headphone 6 (step S14). On the other hand, the control unit 6A of the headphone 6 reads the headphone ID 66 from the storage unit 6B and transmits it to the user terminal 1 (step S15).
[0067]
Subsequently, the user terminal 1 transmits user information including the user ID 12 stored in the storage unit 1B of the terminal 1 and the headphone ID 66 acquired from the headphones 6 to the distribution server 3 (step S16). Receiving this, the distribution server 3 checks whether or not the received user ID or headphone ID matches the registered user registration data 34, and performs user authentication (step S17). At this time, it may be verified that either one of the user ID or the headphone ID matches, but the two users are used for verification, and it is determined that the user is a valid user only when they match each other. As a result, the reliability of the accessing user can be improved.
[0068]
Subsequently, when the distribution server 3 recognizes that the user is a valid user, the distribution server 3 transmits a list of contents (concert etc.) distributed to the user to the user terminal 1 for presentation (step S18). Specifically, the distribution server 3 stores various information such as an outline of contents that can be distributed in advance, a start time, a distribution fee, and the like as distribution-related data 35, and is read from the data 35 to be a user terminal. 1 is distributed. The distribution related data 35 also stores data related to content distribution control, as will be described later.
[0069]
Subsequently, a content list is displayed on the user terminal 1, and information indicating the selected content is transmitted to the distribution server 3 by selecting, for example, a content that the user wants to distribute from among the content list. (Step S19). Upon receiving this, the distribution server 3 prepares to distribute the content (step S20), and when the preparation is completed, transmits a notification to that effect to the user terminal 1 (step S21). At this time, data describing matters relating to content distribution is also transmitted to the user terminal 1. This item is, for example, information such as “start distribution of content one hour before the start of the concert”. Thereafter, the user waits until the date and time when the concert is held.
[0070]
Next, with reference to FIG. 6, the operation when the user receives content distribution will be described. Before the start of the concert, the user requests the distribution server 3 to distribute the content via the terminal 1 (step S22). Also in this case, as described above, the content distribution site is accessed, user authentication is performed, and a distribution start request button is clicked to notify the distribution server 3 of that fact. At this time, when the content distribution request is received immediately after processing of the content distribution request as shown in FIG. 5, the user is not authenticated again because the user is logged in to the distribution server 3. Incidentally, the user wears the dedicated headphones 6 and waits for the content to be distributed.
[0071]
Here, in the concert hall A, for example, recording starts one hour before the start of the concert, but when the recording starts, the constantly recorded content is transmitted to the distribution server 3 via the hall server 5. Therefore, as described above, when the distribution server 3 receives a distribution start request from the user terminal 1, the currently transmitted content is distributed to the user terminal 1 as needed. Hereinafter, this operation will be described in detail. At this time, FIG. 3 is also referred to in order to explain the state of the content.
[0072]
First, in the concert hall A, the sound in the hall A is recorded by the dummy head microphone 4 installed in the concert hall A (step S23). At this time, since the sound information is recorded by binaural recording, content that is analog data having localization information is generated. The recorded sound information is sequentially transmitted to the hall server 5 as content (step S24). Subsequently, in the hall server 5, the content that is an analog signal is sequentially encoded into a digital signal (step S25). At this time, the content is encoded as a set for each predetermined capacity. For example, it is a packet unit that can be transmitted on the network. Then, the digitized content is encrypted by the hall server 5 (step S26). In this encrypted state, the content is transmitted to the distribution server 3 (step S27).
[0073]
Subsequently, the distribution server 3 that has received the content from the hall server 5 distributes the content to the user terminal 1 that has received the content distribution request in step S22 (step S28). At this time, the contents are sequentially delivered for each packet, but the delivery is controlled so as not to cause a delay. Further, since the number of packets to be distributed, the distribution timing, and the like are stored as distribution-related data 35 in the storage unit 3B of the distribution server 3, the control unit 3A reads out and refers to the data 35 to the user terminal 1. The content distribution process is executed.
[0074]
Subsequently, the user terminal 1 that has received the content distribution transmits the content to the headphones 6 (step S29). In the headphone 6 that has received the content, first, the encrypted content is decrypted (step S30). Since the decrypted content is digital data, the decoding process is also executed (step S31), and the content becomes analog data that can be reproduced by the headphones 6. Thereafter, a process for reproducing the localization information by binaural recording included in the content is executed (step S32), and the content, that is, the sound information is reproduced from the headphones 6 in a state where the localization information is reproduced (step S32). S33). The above processing is repeatedly executed for each packet data until the performance or the like is finished in the concert hall A.
[0075]
By doing so, the user can listen to the music performed in the concert hall A and the cheers of the hall A in real time with sound information having localization information. You can listen to realistic sound information. In particular, by starting the distribution of content before the start of the concert, the user can feel the situation when the audience enters, and not only the music information from the performance but also the unique atmosphere in the venue. Can do. Therefore, the user satisfaction can be improved.
[0076]
At this time, the sound information heard by the user is encrypted immediately after being recorded in the concert hall A, and is decrypted immediately before being reproduced by the headphones 6. Therefore, it becomes difficult for another person to extract the decoded sound information that is in a state where it can be heard. In other words, even when the content is transmitted to the user terminal 1 or by another user (no legitimate authority) on the distribution server or on the network, the content is encrypted, and The decryption cannot be converted into a state where it can be listened to by the decryption function 61 in the headphones 6. Accordingly, unauthorized listening by unauthorized users can be prevented, and copyrights and the like can be effectively protected. Further, by preventing unauthorized listening, it is possible to secure the profits of performers (such as singers) and content distributors.
[0077]
Here, in the said embodiment, although the user who distributes a content illustrated the user who has performed user registration previously, it is not necessarily limited to this. The user only needs to own a dedicated headphone 6 that can decrypt the content. Therefore, the headphone ID 66 may not be stored in the headphone 6 in advance. In this way, even if the distribution server 3 distributes the content in response to an access from a user who does not register and does not know whether the user is a legitimate user, the content can be decrypted without using the dedicated headphones 6. Therefore, it is possible to suppress unauthorized listening by an unauthorized user.
[0078]
In the above embodiment, the case where content encryption / decryption is executed by digital signal processing is illustrated, but the present invention is not necessarily limited thereto. Content encryption / decryption may be performed in an analog signal state. In order to realize this, the following configuration may be adopted.
[0079]
First, the configuration is basically the same as that of the above embodiment, but the configurations of the hall server 5 and the headphones 6 are slightly different. The hall server 5 is provided with an encryption device composed of a predetermined electronic circuit, and the sound information recorded by the dummy head microphone 4 is encrypted by passing through the device. Thereafter, it is digitized by the encoding function in the hall server 5. Then, it is distributed from the distribution server 3 to the user terminal 1 via the network 2. Further, the user terminal 1 has a function of decoding the digitized content, and the content is converted from a digital signal to an analog signal. Thus, the analogized content is transmitted to the headphones 6. At this time, the content, which is an analog signal, is still in an encrypted state and cannot be listened to illegally by another person.
[0080]
The headphone 6 includes a decryption device that decrypts the sound information that is the encrypted analog signal. This decryption device is constituted by a predetermined electronic circuit, and makes a pair with the decryption device provided in the hall server 5. As a result, the sound information becomes a reproducible signal, and thereafter the localization information is reproduced and output by the localization information reproduction function 63 described above.
[0081]
By doing so, since the decryption process of the encrypted sound information is performed by the headphones 6 immediately before entering the ear of the user C, the copyright can be protected as described above, and the decoding can be performed. Since the user terminal 1 can perform the process, it is possible to reduce the processing load on the device (the function in the decoding device and the control unit 6A) in the headphones 6.
[0082]
<Second Embodiment>
Next, a second embodiment of the present invention will be described with reference to FIGS. FIG. 7 is a functional block diagram showing the configuration of the second embodiment. FIG. 8 is a sequence diagram showing operations in the entire system. FIG. 9 is a flowchart showing the operation of the distribution server.
[0083]
(Constitution)
Similar to the first embodiment described above, the content distribution system in this embodiment includes a dummy head microphone 4 as a demonstration data acquisition unit installed in the concert hall A, a hall server 5 as a scramble unit, and a user terminal 1 is provided with a distribution server 3 connected to 1 through a network 2 and headphones 6 (content reproduction means) connected to the user terminal 1. Of these, the distribution server 3 and the headphones 6 are different in configuration from the above embodiment. This will be described in detail.
[0084]
(Distribution server)
FIG. 7A shows the configuration of the distribution server 130 in this embodiment. The distribution server 130 is a server computer having a control unit 130A and a storage unit 130B, as in the first embodiment described above, and is accessible from the user terminal 1 via the network. The storage unit 130B stores user registration data 135 and distribution related data 136 in the same manner as described above. The storage unit 130B stores decryption program base data 137 that is original data of a decryption program for decrypting the encrypted content. As will be described later, the decryption program base data 137 is a program that can be easily modified according to the content so that the content can be decrypted. Therefore, although such a program is almost completed, for example, it is a program list that is completed by describing and compiling predetermined data (key) corresponding to content. In other words, in this example, a part of the description is missing, the content-specific data is described in such a place, and the program is completed by being compiled. A specific example of the key is a file name of content to be decrypted. Thus, by describing the data that is the file name of the content, this program operates to read and decode only the content that consists of the file name. And after compilation, the program cannot be easily modified. However, the modification method, that is, the method of modifying the decryption program to be unique to one content is not limited to the above method.
[0085]
In association with the storage of the decryption program base data 137 described above, the control unit 130A of the distribution server 130 is provided with a decryption program modification function 132. This function 132 is a function for modifying the decryption program base data 137 into a program for decrypting only the encrypted content in accordance with the encrypted content by the method exemplified above. . More specifically, for example, when encrypted content is transmitted from the hall server 5, the event is identified in advance from the distribution time and distribution related data 136, and distributed in advance. The key (for example, a file name) which is data stored in the related data 136 is read, or a key transmitted from the hall server 5 is received. Then, the key which is such data is described in the decryption program base data 137 and compiled. As a result, a unique decryption program specialized for the content transmitted from the hall server 5 is generated.
[0086]
In addition, to the control unit 130A of the distribution server 130, a user registration function (not shown) that operates in the same manner as described above, a user authentication function 131, and content encrypted by a request from the user terminal 1 are distributed. A content distribution function 134 is provided. Further, a decryption program distribution function 133 for transmitting the modified decryption program to the user terminal 1 in response to a request from the user terminal 1 is provided. However, the distribution server 130 does not necessarily have the above functions.
[0087]
Here, the distribution server 130 decrypts the content encrypted by the content distribution function 134 to the user terminal 1 of the user who is determined to be a valid user by the user authentication function 131 (collation function). In 133, the modified decryption program is distributed.
[0088]
(Headphones)
Further, the headphone 160 as the content reproduction means includes a control unit 160A and a storage unit 160B as described above. The control unit 160A includes a decryption program incorporation function 161 that incorporates the decryption program distributed from the distribution server 130 and transmitted from the user terminal 110 into the control unit 160A. That is, the decryption function 162 is constructed in the control unit 160A by incorporating in the control unit 160A a decryption program for decrypting content to be distributed to the headphones 160 later. For example, the distributed decoding program may be transmitted to the headphones 160 at the user terminal 1 and an installation operation may be executed from the user terminal 1, whereby the installation process may be executed by the headphones 160. When the device itself recognizes that the decryption program has been distributed, it may have a function of automatically starting the installation process.
[0089]
In addition, since the decryption function 162 is specific to the content to be distributed, only the distributed person can decrypt the content. This is because the decryption program before being incorporated is modified to be unique to the content.
[0090]
(Operation)
Next, the operation in the above configuration will be described with reference to FIGS. Here, also in this embodiment, the user registration process (see FIG. 4) described in the first embodiment and the content distribution request process (see FIG. 5) by the user terminal 110 are performed. The description is omitted.
[0091]
First, the user C who has been registered accesses the distribution server 130 to request distribution of contents via the distribution request function 111 of the user terminal 1 (step S101). At this time, the user transmits the user ID 112 and the headphone ID 166 to the distribution server 130 in order to claim that the user is a valid user. Then, the distribution server 3 collates with the user registration data 135 and performs user authentication (step S102). And for a legitimate user, the content list is read from the distribution related data 136 and transmitted to the user terminal 110, and the user who receives this transmits the information for selecting the requested content to the distribution server 130 (step). S104).
[0092]
Subsequently, the distribution server 130 receiving this (step A1 in FIG. 9) first reads the decryption program base data 137 from the storage unit 130B (step S105, step A2 in FIG. 9). Then, a decryption program that can decrypt only the content for which the distribution request has been received is generated by modifying the decryption program base data 137 (decryption program modification step), and the generated program is generated by the user terminal 110. (Step S106, decryption program distribution step).
[0093]
Specifically, as shown in FIG. 9, first, key data corresponding to the requested content is read from the distribution related data 136 (step A3). At this time, if the key data is not stored in the distribution-related data 137 and cannot be read, the key data is requested to the hall server 5 that transmits the encrypted content (step A4). Then, the key data is transmitted from the hall server 5. Such key data is, for example, a key used when decrypting the encryption state.
[0094]
Then, the distribution server 130 describes the acquired key data in the decryption program base data 137 (step A5), and compiles the described program (step A6). As a result, a decryption program capable of decrypting only the content that has received the distribution request at the user terminal 1, that is, the content to be distributed is generated. Thereafter, the program is distributed to the user terminal 110 (step A7).
[0095]
Subsequently, the user terminal 110 that has received the decryption program distributes the program to the headphones 160 and issues a command to incorporate the decryption program into the control unit 160A of the headphones 160 (step S107). In response to this command, decryption program incorporation processing is executed in the control unit 160A of the headphone 160, and a decryption function 162 is constructed in the control unit 160A (step S108, encryption program incorporation step).
[0096]
Subsequently, the distribution server 130 that has distributed the decryption program to the user terminal 110 transmits the content transmitted from the concert hall A through the hall server 5, that is, the encrypted content to the user terminal 110 in the same manner as described above. (Step S109 (demonstration data acquisition process), S110 (encryption process), S111, S112 (content distribution process)).
[0097]
Then, the user terminal 110 that has received the content distribution transmits it to the headphones 160 (step S113). Thereby, in the headphone 160, the decryption function 162 constructed in step S108 executes the content decryption process, and the decrypted data is decoded by the decode 163 function to become an analog signal (step S114). Thereafter, the localization information included in the content is reproduced and reproduced (step S115, content reproduction step).
[0098]
By doing so, a content-specific decryption program to be distributed is generated and incorporated in the headphones 160, so that only the user who receives the distribution of the program can listen to the content. Therefore, even if an unauthorized user obtains a decryption program that was previously generated for other content, it only decrypts content that was distributed in the past. It will be useless at all. For this reason, since only a legitimate user can reproduce the content, the profits of the performer and the content distributor can be further secured.
[0099]
Here, the case where the decryption program is incorporated in the headphone 160 and the content encrypted by the headphone 160 is decrypted is described above, but the present invention is not limited to this. For example, the decryption program distributed from the distribution server 130 is incorporated in the user terminal 110, a decryption function is generated in the user terminal 110, and the content encrypted in the user terminal 110 is decrypted. Such a configuration may be used. That is, the decryption program may be a program operable on an operating system such as that used for the user terminal 110. Accordingly, the user terminal 110 may also execute a decoding process for converting content from a digital signal to an analog signal. That is, the user terminal 110 may be provided with a decoding function.
[0100]
Even in this case, since a decryption program is generated for each content, it is assumed that the decryption of the content is executed on the user terminal 110 instead of the headphones 160, that is, not just before entering the user's ear. However, since it cannot be used for other contents, it is possible to prevent the decryption program from being used by an unauthorized user.
[0101]
<Third Embodiment>
Next, a third embodiment of the present invention will be described with reference to FIG. FIG. 10 is a flowchart showing the operation of the distribution server 130 in this embodiment.
[0102]
(Constitution)
The configuration in the present embodiment is substantially the same as that of the second embodiment described above, but differs particularly in the following points. First, the decryption program delivery function 133 constructed in the control unit 160A of the delivery server 160 is a function for delivering the decryption program only during a predetermined period. This predetermined period is, for example, a time set according to the concert start time of the content requested by the user. Furthermore, as a specific example, the delivery time is limited such that delivery is performed only from one hour before the start of the concert (starting time) to the start of the concert. Alternatively, it is set to be distributed at any time from one hour before the start of the concert (but until the end of the concert).
[0103]
The program distribution period as described above is set by reading information stored in the distribution related data 136 stored in the storage unit 130B of the distribution server 130. For example, the distribution-related data 136 includes various data such as a start time, a start time, and an end time of a concert that is a content that can be distributed. In addition, information indicating how many hours before the performance time is distributed is stored in advance. Furthermore, information for determining when to set the period for distributing the decryption program for each content is stored.
[0104]
Accordingly, the distribution server 130 reads information for setting the distribution period of the decryption program for the content requested by the user, and sets the distribution period of the decryption program with reference to the start time of the concert from the information. At this time, information related to the distribution available period is transmitted to the user terminal 110 to notify the user.
[0105]
(Operation)
Next, the operation in the third embodiment will be described with reference to FIG. This figure is a flowchart showing the operation of the distribution server 130 after receiving the content selection information from the user terminal 110 as shown in step S104 of FIG. 8 in the second embodiment.
[0106]
The distribution server 3 that has received the content selection information from the user terminal 110 generates a decryption program specialized for the content as described above (step B1). Subsequently, the distribution server 130 reads information related to the decryption program distribution period of the selected content from the distribution related data 136 of the storage unit 130B (step B2), and based on the information, the decryption program distribution period Is set (step B3). Here, for example, it is assumed that the content is selected by the user three days before the concert as the selected content is performed. The set decryption program distribution period is from one hour before the start of the concert to one hour after the start of the concert. Then, the user is notified of information regarding the set distribution period.
[0107]
In accordance with this notification, the user makes a distribution request for the decryption program to the distribution server after 1 hour before the start of the concert (step B4). At this time, the distribution server 130 checks whether the request is within the set distribution period (step B5), and if it is within the period, distributes the decryption program to the user terminal 110 (step B6). Thereafter, in the user terminal 110, the received decryption program (not shown) is incorporated into the terminal 110 and the headphones 160, and preparations for listening to the content are made.
[0108]
When the concert is started (step B7), the content is transmitted to the distribution server 130 via the dummy head microphone 4 and the hall server 5 as described above, and distributed from the distribution server 130 to the user terminal 110 ( Step B8).
[0109]
By doing so, since the decryption program is distributed to the user terminal 110 for a limited period, particularly immediately before the content is distributed, the decryption program is prevented from being illegally distributed to other users. Can be achieved. In this case, even if other users have headphones, it takes time for such a program to flow out, and thus it is possible to suppress the use of users who listen to such content illegally.
[0110]
<Fourth Embodiment>
Next, a fourth embodiment of the present invention will be described with reference to FIG. FIG. 11 is a flowchart showing an outline of the operation of the entire system in the fourth embodiment.
[0111]
(Constitution)
The content distribution system according to the fourth embodiment has substantially the same configuration as that of the second embodiment described above. In the present embodiment, the distribution server 130 stores a decryption program (not shown) for decrypting the encrypted content, and the decryption program is received in response to a request from the user terminal 110. A decryption program distribution function (not shown) for transmission to the user terminal 110 is provided. In addition, the headphone 160 (content reproduction means) receives a decryption program via the user terminal 110, and a decryption program built-in function (see FIG. 5) for incorporating the decryption program into the control unit 160B provided in the headphone 160 itself. Not shown).
[0112]
The decryption program stored in the storage unit 130B of the distribution server 130 is a program that can decrypt all the content encrypted by the hall server 5. Accordingly, such a program is distributed from the distribution server 130 to the user terminal 110 and incorporated in the headphones 160, so that the user can listen to the content.
[0113]
Further, the decryption program in the present embodiment is a program set to operate only within a predetermined operation period. That is, the program is a program that stops operating after a certain time has elapsed after being distributed from the distribution server 130 or incorporated in the headphones 160 or the like. Therefore, in order to operate in this way, for example, after the program is incorporated in the headphone 160, the current time data is read from the clock function operating in the control unit 160A of the headphone 160, and the elapsed time is measured. To do. And it is designed so that the operation is stopped, that is, the content cannot be decrypted after a certain period of time. For example, if the decryption program is delivered from the delivery server 130 only one hour before the start of the concert, it cannot be used after 4 hours, which is sufficient for the concert to end after being incorporated into the headphones 160. The timer is set to be set in advance so that the timer starts when the time when the program was installed is read.
[0114]
(Operation)
Next, the operation of the entire system in this embodiment will be described. First, it is assumed that there is a content request from the user terminal 110 to the distribution server 130 (step C1). Then, the user who does not yet have the decryption program makes a decryption program distribution request to the distribution server 130 (step C2). Upon receiving the decryption program distribution request, the distribution server 130 distributes the program to the user terminal 110 (step C3, decryption program distribution step).
[0115]
Subsequently, the user terminal 110 that has received the decryption program transmits the program to the headphones 160 (step C4). Receiving this, the headphone 160 incorporates a decryption program into the control unit 160A (step C5, decryption program incorporation step), so that a decryption function is constructed in the control unit 160A.
[0116]
Thereafter, as described above, sound information in the concert hall A is recorded by the dummy head microphone 4 (demonstration data acquisition process), and the recorded content is encrypted by the hall server 5 (encryption process). ), Such content is distributed to the user terminal 110 (content distribution step). Then, the content is decrypted and reproduced by the control unit 160A of the headphone 160 (content reproduction step).
[0117]
In this way, not only the content but also a program for decrypting it for viewing and the like is distributed from the distribution server 130 to the user terminal 110. Such a program is incorporated into the control unit 160A of the headphones 160 and functions. Therefore, only a user who has acquired the decryption program and has the dedicated headphones 160 can view the content, etc., so that a person who has illegally obtained the content from the network can easily decrypt it. Can not. For this reason, viewing of an unauthorized user can be suppressed.
[0118]
And since the expiration date of the decryption program is set, even if the decryption program is acquired by an unauthorized user, it cannot be used after a certain period of time. Can be suppressed.
[0119]
<Fifth Embodiment>
Next, a fifth embodiment of the present invention will be described with reference to FIG. In the present embodiment, a camera 7 is provided as a demonstration data acquisition unit that records video as the demonstration data acquisition unit described above. However, the camera 7 is regarded as a human eye and is actually viewed by a human. The video is recorded while moving. Then, the video becomes content and is distributed to the user via the distribution server. This will be described in detail below.
[0120]
In the present embodiment, a camera 7 is installed at a concert A or the like as a performance data acquisition unit having a substantially human shape as shown in FIG. A camera that actually captures an image is provided with two left and right 7a and 7b at positions corresponding to human eyes. That is, stereo cameras 7a and 7b are formed. By recording video with a stereo camera in this way, it is possible to generate an image having parallax, that is, a video having stereoscopic information. This stereoscopic video is later distributed as content to the user. Since various techniques have already been disclosed regarding the technique for capturing a stereoscopic video and the technique for reproduction by means of content, which will be described later, detailed description thereof will be omitted.
[0121]
Here, the configuration of the demonstration data acquisition means (camera) 7 will be described in more detail. This demonstration data acquisition means 7 has a head 71 provided with stereo cameras 7a and 7b, a body 72 for fixing the head 71, a shaft 73 indicating the body itself, and a shaft 73. And a base 74 instructed in the state. At the lower end of the shaft portion 73, a vertically moving movable means 75 is provided that is fixed to a base 74 that operates the shaft portion 73 in the vertical direction (arrow Y1 direction). Further, a swinging means 76 for swinging the barrel portion 72 itself in the direction of arrow Y2 is provided at the intermediate portion of the shaft portion 73, and the barrel portion 72 is moved left and right (in the direction of arrow Y3) via the connecting shaft 78 at the upper end. The slide means 77 which operates is provided. Furthermore, the head 71 is coupled to the upper portion of the trunk 72, and is coupled via a neck 79 that rotates the head 71 in the horizontal direction.
[0122]
The mechanisms 75, 76, 77, 79 and the like that operate as described above are configured by various drive mechanisms such as a motor, and are electronically controlled by a control device (not shown). For example, the vertical movement drive means 75 is driven to move up and down by hydraulic pressure. As a result, the position of the head 71 provided with the stereo camera changes, so that the video captured as the content is not necessarily a video that captures a certain range, as if it is actually viewed by a moving person. It becomes a picture. The content that is the video information captured by the stereo camera in this way is captured as content having stereoscopic information by the content generation function provided in the demonstration data acquisition means 7, and such content is As in the embodiment, the data is encrypted and distributed to the user terminal 1. Incidentally, each part of the camera 7 may be drive-controlled based on a program previously installed in a control device (not shown), or may be drive-controlled by an operator's operation.
[0123]
Further, the content reproduction means 6 worn by the user in the present embodiment is formed by a head mounted display. Here, the head-mounted display is an eyeglass-shaped display that is mounted on the face and has a dedicated display for each eye. By using this, an image is projected in front of the user, so that a powerful image can be viewed without preparing a large screen display in the room.
[0124]
The head mounted display is provided with a decryption function for decrypting encrypted content. In addition, a 3D information reproduction function for reproducing and reproducing 3D information inherent in content is provided. As a result, since the stereoscopic video is projected on the head mounted display, the user can see a realistic and powerful video that he / she actually sees at the concert venue. Also in such a case, since the decryption of the content is executed immediately before being copied to the user, it is possible to suppress content from being illegally acquired by other users.
[0125]
Here, the dummy head microphone shown in the other embodiment described above is attached to the head 71 of the demonstration data acquisition means 7 having a substantially human shape as shown in FIG. It is also possible to record a video. That is, the left and right cameras 7a and 7b may be provided in the portion corresponding to the eyes of the head 71, and the left and right microphones (not shown) may be provided in the portion corresponding to the ears. In this manner, by recording a stereoscopic video from the cameras 7a and 7b and recording sound information including localization information by binaural recording from the microphone, these contents can be simultaneously delivered to the user. At this time, since the video and sound information are recorded in almost the same place, the user can view the video and sound whose positional relationship corresponds to each other, and can experience a further sense of reality. it can.
[0126]
Corresponding to the demonstration data acquisition means 7, the content reproduction means at this time is integrated with the headphone capable of reproducing the localization information and the head mounted display capable of reproducing the stereoscopic video as described above. It is a configured viewing unit. By configuring the content reproduction means with such a unit, the user can enjoy video and sound at the same time by wearing one apparatus, and the convenience of the user is improved. In addition, since the content is decrypted by the decryption function immediately before the user views the content, it is possible to prevent the content from being viewed illegally by another person.
[0127]
Here, in the configuration described above, the case where the content reproduction means is a head mounted display is exemplified, but the present invention is not necessarily limited thereto. For example, it may be a general television that is connected to the user terminal, or may be a projector that displays an image on a screen. At this time, when viewing the content as a stereoscopic video, specific glasses or the like may be attached. Further, the camera 7 as the demonstration data acquisition unit 7 described above is not limited to a stereo camera, and may be a monocular camera. That is, the video may be a flat video.
[0128]
In this way, even if the content is a video such as a theatrical video performed at a theater, for example, the content is encrypted by the method described above and distributed to the user terminal. The head-mounted display is provided with a decryption function for decrypting content that is encrypted video, so that the content encryption state is released immediately before the content is played back to the user. Therefore, similarly to the above, illegal acquisition of content by an unauthorized user can be effectively suppressed, and copyrights and the like can be protected. Furthermore, the profit of a performer (an actor, etc.) or a content distributor can be secured.
[0129]
<Sixth Embodiment>
Next, a sixth embodiment of the present invention will be described. In the embodiment described above, sound information and video are given as contents, and mainly music information is exemplified as sound information. Or other contents. Also, the video is not limited to a video such as a theater, and may be a video of a speaker who is not acting, for example. Furthermore, although the headphones and the head-mounted display are illustrated as the content playback means, the present invention is not limited to this. A speaker or projector for home theater may be used.
[0130]
Furthermore, as another example of content, video and audio of various sports such as baseball, soccer, and motor sports may be used. By distributing these video and audio contents to the user as described above, the user can listen to the audience's cheering as if they were actually in the venue (such as a baseball field), for example. You can experience realistic video and audio.
[0131]
【The invention's effect】
Since the present invention is configured and functions as described above, according to this, the contents of the demonstration such as music are converted into data by the demonstration data acquisition means and encrypted by the scramble means. Is sent from the distribution server to the content playback means via the user terminal, and is decrypted and played back by the content playback means, so that the content is encrypted immediately before viewing by the content playback means. Is released, content can be prevented from leaking to other users in the decrypted state, and as a result, copyright protection and profits for performers and distributors are ensured. It has an unprecedented excellent effect of being able to.
[0132]
At this time, when the demonstration data acquisition means is a dummy head microphone, the content is acquired by binaural recording to be sound information having localization information, and the content reproduction means is a headphone, the content is reproduced by the headphones. Since the localization information is also reproduced, the user can listen to realistic sound information, and the content is decoded in the headphones, so only the user who owns the headphones can And can be prevented from being listened to by unauthorized users.
[0133]
In addition, when the distribution server transmits the decryption program stored in its own storage unit to the user terminal and the content reproduction means incorporates the transmitted decryption program into the control unit provided in itself, Since not only the content but also a program for decrypting it for viewing and the like is distributed from the distribution server to the user terminal, the decryption program is acquired, and only the user having a dedicated content playback means can view the content. It is possible to suppress viewing by unauthorized users.
[0134]
Further, the distribution server generates a decryption program specialized for the content for decrypting only the predetermined content, and distributes it to the user terminal, so that the user can decrypt the content to be distributed. Therefore, the content can be played back, and even if the decryption program leaks, the decryption program cannot decrypt the other content, so that other content can be viewed illegally. Can be suppressed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an outline of a configuration in a first embodiment of the present invention.
FIG. 2 is a functional block diagram showing a configuration in the first embodiment of the present invention.
FIG. 3 is an explanatory diagram showing an outline of the flow of content in the first embodiment of the present invention.
FIG. 4 is a diagram showing an operation in the first embodiment of the present invention, and is a sequence diagram showing an operation at the time of prior user registration.
FIG. 5 is a diagram showing an operation in the first embodiment of the present invention, and is a sequence diagram showing an operation at the time of a content distribution request.
FIG. 6 is a diagram showing an operation in the first embodiment of the present invention, and is a sequence diagram showing an operation at the time of content distribution.
FIG. 7 is a functional block diagram showing a configuration in a second embodiment of the present invention. Fig.5 (a) is a figure which shows the structure of a delivery server, FIG.5 (b) is a figure which shows a structure in a user terminal and a headphone.
FIG. 8 is a sequence diagram showing an operation of the entire system disclosed in FIG. 7;
9 is a flowchart showing details of the operation of the distribution server disclosed in FIG. 7;
FIG. 10 is a flowchart showing an operation of a distribution server in the third embodiment.
FIG. 11 is a flowchart showing an outline of the operation of the entire system in the fourth embodiment.
FIG. 12 is a schematic diagram showing a configuration of demonstration data acquisition means in the fifth embodiment.
[Explanation of symbols]
1 User terminal
2 Network (Internet)
3 Distribution server
4 Demonstration data acquisition means (dummy head microphone)
5 Scramble means
6 Content playback means (headphones)
7 Demonstration data acquisition means (camera)
7a, 7b Stereo camera
A Concert Hall
A1 performer (singer)
B Content distributor
C user

Claims (12)

A distribution server connected to the user terminal via a network and having a content distribution function for distributing content to the user terminal, and data as content distributed from the distribution server for the demonstration content performed at a predetermined location A demonstration data acquisition means for acquiring and connecting to the distribution server;
A content distribution system comprising content reproduction means for receiving and reproducing content distributed from the distribution server via the user terminal,
The content acquired by the demonstration data acquisition means is scrambled by encrypting the content into a predetermined format and being distributed by the distribution server, and connected to the distribution server,
The content reproduction means comprises a decryption function for canceling the encrypted state of the distributed content ;
The demonstration data acquisition means is a dummy head microphone, and has a content generation function for acquiring sound information acquired by the dummy head microphone by binaural recording and generating content having localization information,
The content distribution system , wherein the content reproduction means is a headphone and has a localization information reproduction function for reproducing and reproducing localization information when reproducing the content. The content reproduction unit includes a storage unit having a predetermined storage capacity, and stores unique identification data for each content reproduction unit in the storage unit,
The distribution server stores in advance correspondence data corresponding to the identification data stored in the content reproduction unit possessed by a legitimate user and is stored in the content reproduction unit transmitted via the user terminal. A collation function for receiving the identification data and collating with the corresponding data;
The content distribution function of the distribution server is a function of distributing the encrypted content to a user terminal of the user who is determined to be a valid user by the verification function. Content distribution system. A distribution server connected to the user terminal via a network and having a content distribution function for distributing content to the user terminal, and data as content distributed from the distribution server for the demonstration content performed at a predetermined location A demonstration data acquisition means for acquiring and connecting to the distribution server;
A content distribution system comprising content reproduction means for receiving and reproducing content distributed from the distribution server via the user terminal,
A scramble unit that encrypts the content acquired by the demonstration data acquisition unit into a predetermined format and distributes the content to the distribution server is provided connected to the distribution server,
The distribution server stores a decryption program for decrypting the encrypted content, and has a decryption program distribution function for transmitting the decryption program to the user terminal in response to a request from the user terminal. ,
The content reproduction means has a decryption program built-in function for receiving the decryption program via the user terminal and incorporating the decryption program into a control unit provided in the content reproduction means itself ;
The demonstration data acquisition means is a dummy head microphone, and has a content generation function for acquiring sound information acquired by the dummy head microphone by binaural recording and generating content having localization information,
The content distribution system , wherein the content reproduction means is a headphone and has a localization information reproduction function for reproducing and reproducing localization information when reproducing the content.   4. The content distribution system according to claim 3, wherein the decryption program is a program set to operate only within a predetermined operation period. A distribution server connected to the user terminal via a network and having a content distribution function for distributing content to the user terminal, and data as content distributed from the distribution server for the demonstration content performed at a predetermined location A demonstration data acquisition means for acquiring and connecting to the distribution server;
A content distribution system comprising content reproduction means for receiving and reproducing content distributed from the distribution server via the user terminal,
The content acquired by the demonstration data acquisition means is scrambled by encrypting the content into a predetermined format and being distributed by the distribution server, and connected to the distribution server,
The distribution server stores decryption program base data, which is the original data of a decryption program for decrypting the encrypted content, and decrypts only the encrypted content from the decryption program base data A decryption program modification function for modifying the program to be a program to be transmitted, and a decryption program distribution function for transmitting the modified program to the user terminal in response to a request from the user terminal,
The content distribution system, wherein the content reproduction means reproduces content decrypted on the user terminal or content reproduction means using the decryption program transmitted to the user terminal. The content reproduction means has a program incorporation function for incorporating the distributed decryption program into the control device of the content reproduction means itself, and releases the encrypted state of the distributed content by the incorporated program 6. The content distribution system according to claim 5 , wherein the content distribution system is decoded and reproduced. The content reproduction unit includes a storage unit having a predetermined storage capacity, and stores unique identification data for each content reproduction unit in the storage unit,
The distribution server stores in advance correspondence data corresponding to the identification data stored in the content reproduction unit possessed by a legitimate user and is stored in the content reproduction unit transmitted via the user terminal. A collation function for receiving the identification data and collating with the corresponding data;
The content distribution function and the decryption program distribution function of the distribution server are configured to transfer the encrypted content and the decryption program to the user terminal of the user determined to be a valid user by the verification function. 7. The contents distribution system according to claim 3, 4, 5, or 6, wherein the contents are distributed to a user terminal of a legitimate user.   7. The content according to claim 3, 4, 5, or 6, wherein the decryption program distribution function of the distribution server is a function of distributing the decryption program to the user terminal only during a predetermined period. Distribution system. The demonstration data acquisition means is a dummy head microphone, and has a content generation function for acquiring sound information acquired by the dummy head microphone by binaural recording and generating content having localization information,
7. The content distribution system according to claim 5 , wherein the content reproduction means is a headphone and has a localization information reproduction function for reproducing localization information when reproducing the content. The demonstration data acquisition means includes the dummy head microphone and a stereo camera attached to the dummy head, and the content generation function of the demonstration data acquisition means acquires video information with the stereo camera and creates a stereoscopic image. It is a function to generate content with information,
The content reproduction means is a viewing unit in which a head mounted display is integrated with the headphones, and has a three-dimensional information reproduction function for reproducing three-dimensional information in the content and reproducing video information. 10. The content distribution system according to claim 1, 2, 3, 4 or 9 . A distribution server connected to the user terminal via a network, demonstration data acquisition means connected to the distribution server, and content reproduction means connected to the user terminal;
A demonstration data acquisition step in which the demonstration data acquisition means converts the demonstration content demonstrated at a predetermined location into data to be distributed from the distribution server as content to be acquired, and the distribution server acquires the content via the user terminal. A content distribution method comprising: a content distribution step for distributing to a content reproduction means; and a content reproduction step for reproducing the distributed content by the content reproduction means,
Before the demonstration data acquisition step, the distribution server generates a decryption program by modifying the decryption program base data stored in advance in the distribution server so as to decrypt only the encrypted content A program modification step, and a decryption program distribution step in which the distribution server transmits the generated decryption program to the user terminal;
Between the demonstration data acquisition step and the content distribution step, a scramble unit connected to the distribution server includes an encryption step of receiving the content from the demonstration data acquisition unit and encrypting it in a predetermined format,
A content distribution method, wherein, in the content reproduction step, the decrypted content is reproduced on the user terminal or content reproduction means using the decryption program transmitted to the user terminal. A content distribution program for controlling the operation of a distribution server connected to a user terminal via a network,
A content receiving process for receiving, from the predetermined device, content that is a demonstration content that has been data-encoded and encrypted at a predetermined device connected to the distribution server; A decryption program modification process for modifying the decryption program base data stored in advance in the distribution server so as to decrypt only the encrypted content and generating a decryption program, and the generated decryption program A decryption program distribution process to be transmitted to the user terminal, and a content distribution process to transmit the encrypted content to the content reproduction means via the user terminal which has distributed the program after the decryption program is distributed. A content distribution program for controlling the operation of the distribution server.

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