JP4023602B2 - Transmitter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission device, and in particular, for example, when distributing data to a large number of databases in a distributed database, or when distributing data by IP (Internet Protocol) multicast, distributing other data to an unspecified number The present invention relates to a transmission apparatus suitable for use in the case where
[0002]
[Prior art]
Various methods have been proposed as a data distribution method. For example, the current Internet is based on TCP / IP (Transmission Control Protocol / Internet Protocol) such as HTTP (Hyper Text Transfer Protocol). Protocol is adopted. In TCP / IP, a call is made from a receiving side receiving data distribution to a data transmitting side, and a connection is established between the transmitting side and the receiving side every time data is transmitted / received. Since it is established, highly reliable data distribution can be performed. However, on the other hand, the load on the transmission side and the network increases, and it may be difficult to perform efficient data distribution.
[0003]
In other words, if the number of terminals that receive data increases and access to the server that provides data is concentrated, a large load is placed on the server and the network. It sometimes took time.
[0004]
Therefore, a method has been proposed in which data is distributed using, for example, a satellite line or a CATV network capable of simultaneous broadcasting over a wide area. In this case, the load on the server and the network is not affected by the increase in the number of terminals.
[0005]
[Problems to be solved by the invention]
By the way, when data is distributed using a satellite line or the like, on the receiving side, the desired data is broadcast on which channel (in the case of a satellite line, which transponder, which frequency band), and when it is broadcast. Since it is not known whether it will be received or not, it is necessary to constantly monitor all channels, which increases the burden on the receiving side.
[0006]
The present invention has been made in view of such a situation, and makes it possible to perform efficient data distribution while suppressing an increase in burden on the receiving side.
[0007]
[Means for Solving the Problems]
The transmission device according to the present invention is update data for performing update when content registered in the database is updated, and identification information for identifying the content updated by the update data is added. Update data generating means for generating data, and acquisition data for acquiring the update data, to which the identification information of the content updated by the update data acquired based on the acquisition data is added Acquisition data generation means, allocation means for allocating resources for transmitting update data and acquisition data via the first transmission path, and update data and acquisition data according to resource allocation by the allocation means, First transmitting means for transmitting via the first transmission path In the case where the first transmission means transmits the update data via a one-way broadcast network capable of simultaneous broadcast, the acquired data generation means is configured to broadcast the update data based on the resource allocation by the allocation means. Include necessary information necessary for receiving update data transmitted via the network in the acquired data to which the same identification information as that added to the update data is added It is characterized by that.
Transmitter Is provided with a second transmission means for transmitting update data via the second transmission path, and the second transmission means is transmitted via a bidirectional network capable of bidirectional communication. In response to the request for data, when the update data is transmitted via the bidirectional network, the acquired data generation means obtains required information necessary for requesting the update data via the bidirectional network, The same identification information added to the update data can be included in the acquired data.
Update data In response to a request for update data transmitted via a bidirectional network capable of bidirectional communication, the information processing apparatus transmits the update data via the bidirectional network. In the case where it exists, the acquisition data generation means uses the same information as the identification information added to the update data, which is necessary for requesting the update data to the information processing apparatus via the bidirectional network. Can be included in the acquired data.
In the case where one or more information processing apparatuses exist in the transmission apparatus, in response to a request for update data transmitted via a bidirectional network capable of bidirectional communication, the update data is transmitted Second transmission means for transmitting via a network is further provided, and the acquired data generation means requests update data via one-way network from one or more information processing apparatuses or second transmission means. Necessary required information can be included in acquired data to which the same identification information added to the update data is added.
In the case where there are a plurality of receiving devices that receive update data and request update data to one or more information processing devices or second transmission units based on the acquired data, Each of the receiving apparatuses also obtains request destination information regarding which of one or more information processing apparatuses or second transmission means should request update data, or request timing information regarding when update data should be requested Can be included in the data.
Update data Can include information for reflecting changes to the updated content in the updated content or the content before the update.
According to the transmission method of the present invention, when content registered in the database is updated, update data for performing the update is added, and identification information for identifying the content updated by the update data is added. Generation data for acquiring update data, which is added with identification information of content updated by the update data acquired based on the acquisition data, and the update data And get the data , A one-way broadcasting network that allows simultaneous broadcasting Allocate resources for transmission via Based on the resource allocation, the necessary information necessary for receiving the update data transmitted via the broadcast network is changed to the acquired data to which the same identification information added to the update data is added. Including Update data and acquisition data according to resource allocation Broadcast network It is characterized by transmitting via.
The receiving device of the present invention is acquisition data for acquiring update data for performing update when content registered in a database is updated, and the update data is transmitted via a predetermined transmission path. Receiving information including necessary information necessary for receiving update data generated based on allocation of resources for transmission, with identification information for identifying content updated by the update data added Content corresponding to the identification information added to the reception means, the acquisition means for acquiring the update data to which the same identification information added to the reception data is added, and the update data based on the acquisition data Update means for updating Update data is transmitted over a one-way broadcast network capable of simultaneous broadcasts, and acquired data is generated based on the allocation of resources for transmitting update data over the broadcast network The acquisition means acquires update data transmitted via the broadcast network based on the reception necessary information. It is characterized by that.
Acquisition means Has reception means for receiving update data transmitted via the broadcast network, and when the reception required information includes a transmission time at which the update data is transmitted, the reception means In addition, the receiving means can be put into an operable state when not in an operable state.
In response to the request for update data, the update data is transmitted via a bidirectional network capable of bidirectional communication, and the acquired data is requested for update data via the bidirectional network. In the case of including necessary required information as well, the acquisition means requests update data via the bidirectional network based on the required information and is transmitted via the bidirectional network in response to the request. Update data coming can be acquired.
In response to a request for update data from the acquisition unit, when there is one or more information processing apparatuses that transmit the update data, the acquisition data is sent to any of the one or more information processing apparatuses. It also includes request destination information regarding whether to request, or request timing information regarding when request data should be requested, and the acquisition means corresponds to the request destination information among one or more information processing devices, Alternatively, update data can be requested at a timing corresponding to the request timing information.
The acquisition unit requests update data via a bidirectional network from a transmission device that transmits the acquisition data and update data, or an information processing device that receives and stores update data transmitted from the transmission device. be able to.
Update data Broadcast In addition to being sent over the network, in response to a request for update data, it is sent over a bidirectional network capable of bidirectional communication, and the acquired data is sent over the broadcast network. In the case where the necessary information necessary for requesting the update data is included via the bidirectional network, the acquisition means includes the necessary information for reception. To obtain update data sent via the broadcast network, or to request update data via the bi-directional network based on the required information, and in response to the request, both sides Update data transmitted via the destination network can be acquired.
The acquisition means determines whether the update data transmitted via the broadcast network or the bidirectional network is acquired, the size of the update data, or the update data Broadcast The selection can be based on the frequency of transmission over the network.
The receiving device further includes an operation unit that is operated when a predetermined input is given, and the acquisition unit determines whether the update data transmitted via the broadcast network or the bidirectional network is acquired. The selection can be made based on the operation of the operation means.
The update data can include information for reflecting changes to the updated content in the updated content or the content before the update.
In the case where the update data includes information for reflecting changes to the updated content in the content before the update, the update means adds the content before the update to the content before the update based on the information included in the update data. It is characterized by reflecting changes to the updated content.
The receiving method of the present invention includes: In the data receiving method for receiving provision of content registered in the database, when the content registered in the database is updated, it is acquired data for acquiring update data for performing the update, In order to identify the content to be updated by the update data, including the necessary reception information necessary for receiving the update data generated based on the allocation of resources for transmitting the update data via a predetermined transmission path Received the identification information of Update data is sent over a one-way broadcast network capable of simultaneous broadcasts, and acquired data is generated based on resource allocation for sending update data over the broadcast network Information that needs to be received when necessary information is received On the basis of the, Acquired data including the necessary information The same identification information is added to Sent via the broadcast network The update data is acquired, and the content corresponding to the identification information added to the update data can be updated.
In the transmission / reception system of the present invention, when the content registered in the database is updated, the transmission device is update data for performing update, and identification for identifying the content to be updated by the update data Update data generating means for generating the information added, and acquisition data for acquiring the update data, and content identification information updated by the update data acquired based on the acquisition data is added Data acquisition means for generating data, allocation means for allocating resources for transmitting update data and acquisition data via a predetermined transmission path, and update data and acquisition according to resource allocation by the allocation means Transmission means for transmitting data via a predetermined transmission path, In the case where the transmission means transmits update data via a one-way broadcast network capable of simultaneous broadcast, the acquisition data generation means transmits the update data via the broadcast network based on the resource allocation by the allocation means. The necessary information necessary for receiving the update data to be transmitted is included in the acquisition data to which the same identification information added to the update data is added, The receiving device includes a receiving unit that receives the acquisition data, an acquisition unit that acquires update data to which the same identification information is added based on the acquisition data, and an update data that is added to the reception unit. Update means for updating the content corresponding to the identification information. However, when the update data is transmitted via the broadcast network and the acquired data includes the reception necessary information, the acquisition means is transmitted via the broadcast network based on the reception necessary information. Get update data It is characterized by that.
In the transmission / reception method of the present invention, when the content registered in the database is updated in the transmission device, the update data for updating the content is identified for identifying the content to be updated by the update data. Generates information with added information, and obtains update data to obtain update data with content identification information updated by the update data acquired based on the acquired data Update data and acquisition data , A one-way broadcasting network that allows simultaneous broadcasting Allocate resources for transmission via Based on the resource allocation, the necessary information necessary for receiving the update data transmitted via the broadcast network is changed to the acquired data to which the same identification information added to the update data is added. Including Update data and acquisition data according to resource allocation Broadcast network And the receiving device receives the acquired data, Information required for reception included in the acquired data On the basis of the, Acquired data including the necessary information The same identification information is added to Sent via the broadcast network The update data is acquired, and the content corresponding to the identification information added thereto is updated by the update data.
[0008]
In the transmission device and the transmission method of the present invention, when content registered in the database is updated, the update data for performing the update, the identification for identifying the content updated by the update data Data with information added is generated, and acquisition data for acquiring update data is generated with content identification information updated by update data acquired based on the acquired data. The And update data and acquisition data , A one-way broadcasting network that allows simultaneous broadcasting Allocation of resources for transmission via Based on the resource allocation, the necessary information necessary to receive the update data transmitted via the broadcast network is acquired data to which the same identification information added to the update data is added. Included, According to the resource allocation, the update data and acquired data are Broadcast network Sent through.
In the receiving apparatus and the receiving method of the present invention, when content registered in a database is updated, it is acquisition data for acquiring update data for performing the update, and the update data is transmitted in a predetermined manner. Includes necessary information for receiving update data generated based on allocation of resources for transmission via a route, and identification information for identifying content updated by the update data is added Things are received, Update data is sent over a one-way broadcast network capable of simultaneous broadcasts, and acquired data is generated based on resource allocation for sending update data over the broadcast network Information that needs to be received when necessary information is received On the basis of the, Acquired data including the necessary information The same identification information is added to Sent via the broadcast network Update data is acquired, and the content corresponding to the identification information added thereto is updated by the update data.
The transmission / reception system and the transmission / reception method according to the present invention are update data for performing update when content registered in a database is updated, and identification information for identifying content updated by the update data Is generated, and the acquisition data for acquiring the update data is added with the content identification information updated by the update data acquired based on the acquisition data Is done. And update data and acquisition data , A one-way broadcasting network that allows simultaneous broadcasting Allocation of resources for transmission via Based on the resource allocation, the necessary information necessary to receive the update data transmitted via the broadcast network is acquired data to which the same identification information added to the update data is added. Included, According to the resource allocation, the update data and acquired data are Broadcast network Sent through. Also, acquired data is received, Information required for reception included in the acquired data On the basis of the, Acquired data including the necessary information Appended to Sent via the broadcast network Update data is acquired, and the content corresponding to the identification information added to the update data is updated.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a data distribution system to which the present invention is applied (in this specification, a system means a logical collection of a plurality of devices, and whether or not the devices of each configuration are in the same casing. The example of a structure of one Embodiment is shown.
[0010]
The information providers A to C have databases 1a to 1c in which various data are stored. The databases 1a to 1c include, for example, traffic information, weather information, stock price information, and other data that changes in real time, data that does not change in real time, text data, image data, audio data, computers, etc. Everything such as a program (including data in a format provided by a point cast and data constituting a home page provided by the WWW (World Wide Web)) can be stored. Here, for example, a piece of information (for example, one file) such as traffic information and weather information is hereinafter referred to as contents or an object as appropriate.
[0011]
When an object (content) stored in the databases 1a to 1c is updated, that is, an object stored in the databases 1a to 1c is changed, an object is newly registered there, or there When the stored object is deleted, update object information for updating the object is transmitted to the server 2 constituting the broadcasting station, and the server 3 updates the database 3 based on the update object information. The
[0012]
Here, as updated object information, when an object is changed, for example, when the object after the change is registered, or when a new object is registered, for example, when the new object is deleted For example, a deletion command for the object is transmitted from the databases 1a to 1c to the server 2, respectively. In this case, the updated object information is equal to the changed object when the object is changed, and is equal to the new object when a new object is registered.
[0013]
When the server 2 updates the registered contents of the database 3 based on the updated object information, the updated object information is transmitted to at least two-way communication such as an analog public network, ISDN (Integrated Services Digital Network), the Internet, or the like. The data is transmitted to the mirror server 7 via a communication network 6 or a dedicated line which is a possible network. The mirror server 7 receives the update object information from the server 2 and updates the database 8 based on the update object information. Accordingly, the registration contents of the databases 3 and 8 are always the same.
[0014]
Further, when the registered content of the database 3 is updated, the server 2 adds data (hereinafter referred to as “subject (appropriately”) to the updated object information, with an identifier (identification information) for identifying the object updated by the updated object information added. subject))) (updated data). That is, an identifier for identifying each object is associated with the object stored in the database 3, and the identifier of the object updated by the updated object information is added to the updated object information, so that the subject Is generated.
[0015]
The server 2 also generates data for acquiring the subject. That is, as will be described later, the subject may be transmitted from the server 2 via the broadcast network 4, and in this case, in order to acquire the subject, the time and channel at which the subject is broadcast are required. In addition, as will be described later, the subject is associated with a URL (Uniform Resorce Locator) or the like and may be managed by the server 2 or the mirror server 7. In this case, the URL is necessary to obtain the subject. It becomes. Therefore, in the server 2, such information is generated as data for acquiring the subject.
[0016]
Further, the server 2 generates data (hereinafter referred to as an event as appropriate) by adding the identifier of the object updated by the subject acquired based on the data to the data for acquiring the subject.
[0017]
When a subject and an event for acquiring the subject are generated in the server 2, these are in accordance with a predetermined transmission schedule, for example, a satellite line, a CATV network, a terrestrial wave, and the like. Via a broadcast network 4, which is a one-way (or two-way) network capable of simultaneous broadcast to users, for example, to a receiving terminal 5 made up of, for example, IRD (Integrated Receiver and Decoder) or STB (Set Top Box). Sent to.
[0018]
That is, when a subject is generated and an event for acquisition (an event to which the same identifier as the subject is added) is generated, basically, the event is first transmitted via the broadcast network 4. Sent. Further, in the event transmitted in this way, when there is a description of the broadcast time or channel of the subject, the subject is transmitted via the broadcast network 4 at that broadcast time. Sent.
[0019]
Here, in the server 2, for example, a subject transmission schedule is established (broadcast time, broadcast channel, etc. are determined), and the broadcast time, broadcast channel, etc. of the subject are described in the event according to the transmission schedule. Is done. Then, a transmission schedule for the event is established.
[0020]
When a subject is associated with, for example, a URL and is managed by the server 2 or the mirror server 7, an event including the URL is generated and transmitted via the broadcast network 4. That is, when the subject is managed by the server 2 or the mirror server 7, an event including a URL having the IP address of the server 2 or the mirror server 7 as a domain name is generated and transmitted.
[0021]
The event transmitted (distributed) via the broadcast network 4 as described above is received by the user receiving terminal 5. In the receiving terminal 5, the received event is selected for an object desired by the user, and a subject is acquired based on the selected event.
[0022]
That is, for example, when an event includes a subject broadcast time and channel, the server 2 transmits the subject via the broadcast network 4 at the broadcast time at the broadcast time as described above. Therefore, the receiving terminal 5 receives the subject transmitted in this way.
[0023]
For example, when the URL associated with the subject is included in the event, the receiving terminal 5 accesses the server corresponding to the domain name of the URL via the communication network 6, Request and receive a subject.
[0024]
Specifically, if the server corresponding to the domain name of the URL included in the event is, for example, the server 2, the subject is under the management of the server 2. The server 2 is accessed via and the subject is acquired.
[0025]
In addition, if the server corresponding to the domain name of the URL included in the event is, for example, the mirror server 7, the subject is under the control of the mirror server 7. To access the mirror server 7 and obtain a subject.
[0026]
After receiving the subject as described above, the receiving terminal 5 updates the object based on the subject.
[0027]
The subject is transmitted from the server 2 via the broadcast network 4 and may be placed under the management of the server 2 or the mirror server 7. Furthermore, in the embodiment of FIG. 1, only one mirror server 7 is illustrated, but a plurality of mirror servers (information processing apparatuses) that perform the same processing as the mirror server 7 are provided on the communication network 6. In this case, the subject can be managed by the plurality of mirror servers. Further, the subject may be transmitted from the server 2 via the broadcast network 4 not only at a certain time of a certain channel but also at a plurality of channels or at a plurality of times.
[0028]
As described above, when there are a plurality of methods for acquiring a subject, information about each of the plurality of methods (broadcast time, broadcast channel, URL, etc.) is included in the event. Whether the subject is acquired by the method is determined by the receiving terminal 5. That is, for example, when an event includes a plurality of times for transmitting a subject via the broadcast network 4, the receiving terminal 5 receives, for example, a subject broadcast at a time closest to the current time. Thus, the subject is acquired. Further, for example, when an event includes a plurality of URLs, the server closest to the receiving terminal 5 is selected, and the subject is selected from the server via the communication network 6. A subject is acquired by making a request. Furthermore, for example, when the event includes a time for transmitting a subject via the broadcast network 4 and a URL, for example, when the line state of the broadcast network 4 is poor (S / N (Signal / Noise)) When the password is low, the subject is acquired based on the URL as described above. In addition, which method the subject is acquired by may be determined based on the operation of the user of the receiving terminal 5 or the like.
[0029]
According to the data distribution system as described above, an event in which a subject acquisition method is described is distributed via the broadcast network 4, and the subject is acquired based on the event at the receiving terminal 5, and the object is updated. Thus, efficient data distribution can be performed while suppressing an increase in the load on the receiving terminal 5.
[0030]
That is, generally, a subject has a large amount of data including updated object information for object update (especially object change and new registration), and the subject is generated corresponding to the object update. I don't know if it happens. Therefore, if only such a subject that occurs irregularly and has a large amount of data is transmitted as early as possible through the broadcast network 4, the server 2 uses the currently available channel, A subject needs to be sent. However, in this case, the receiving terminal 5 needs to wait for a subject that does not know when and in which channel the data is transmitted, which increases the burden.
[0031]
In contrast, since an event includes a description of how to obtain a subject, the amount of data is generally much less than that of a subject that includes updated object information, and thus, for example, for a narrowband channel. It is possible to transmit at a fixed time. Therefore, in this case, the receiving terminal 5 has only to receive an event transmitted at a predetermined time in the channel, and the load is much smaller than that in the case of waiting for the transmission of the subject.
[0032]
Furthermore, in the present embodiment, since the event is transmitted via the broadcast network 4 that can broadcast simultaneously over a wide area, the increase in the number of receiving terminals 5 causes the load on the server 2 and the broadcast network 4 to increase. It will not affect
[0033]
In the present embodiment, the subject is provided not only via the communication network 6 but also via the broadcast network 4, so that the server 2 and the mirror server 7 can obtain the subject. Access is rarely concentrated, thus enabling efficient distribution of subjects.
[0034]
The broadcast network 4 and the communication network 6 do not have to be physically separate networks. That is, when the broadcast network 4 is configured by, for example, a CATV network, the CATV network can also be used as the communication network 6. Further, in the case where data distribution by the broadcast network 4 is performed by, for example, IP (Internet Protocol) multicast using the Internet or the like, the communication network 6 can also be configured by the Internet.
[0035]
Furthermore, the transmission of data (events and subjects) from the server 2 to the receiving terminal 5 is performed, for example, by scrambled, so that only specific users (users with a receiving contract) can receive the data. It is also possible to do so.
[0036]
Next, FIG. 2 shows a configuration example of the server 2 of FIG.
[0037]
The communication control unit 11 includes, for example, a modem, a TA (Terminal Adapter), and the like, and controls communication via the communication network 6. The resource allocation unit 12 performs resource allocation for data transmission via the broadcast network 4. That is, the resource allocation unit 12 receives notification of the update of the object from the registration unit 15, and in response to the update, allocates resources for transmitting the event and subject via the broadcast network 4 (for example, event and object). Transmission channel, transmission time (time), data rate, number of transmissions (transmission frequency), etc.). Resource allocation results for event and subject transmission by the resource allocation unit 12 are supplied to the data configuration unit 17 and the transmission unit 18.
[0038]
The data search unit 13 receives a request for a subject transmitted from the receiving terminal 5 via the communication network 6 from the communication control unit 11, and searches the database 3 for updated object information constituting the subject. The data search unit 13 configures a subject in the same manner as the data configuration unit 17 described later, and supplies the subject to the communication control unit 11. The replication management unit 14 manages information for specifying the mirror server 7 (further, a mirror server (not shown) on the communication network 6). That is, for example, when the communication network 4 is the Internet, the replication management unit 14 stores the IP address of the mirror server 7. Upon receiving notification of the update of the object from the registration unit 15, the replication management unit 14 reads the update object information for the update from the database 3 and controls the communication control unit 11 to update the update object information. For example, the information is transmitted to a server on the communication network 6 having an IP address managed by the mirror server 7 or the like. The replication management unit 14 supplies information managed by itself to the data configuration unit 17 as necessary.
[0039]
The registration unit 15 receives the update object information supplied from the databases 1a to 1c of the information providers A to C, and updates the object (database 3) based on the update object information. That is, the identifiers of the objects updated by the updated object information are supplied from the databases 1a to 1c of the information providers A to C together with the updated object information. The registration unit 15 receives the updated object information and the identifier, and searches the database 3 for an object corresponding to the identifier. Further, the registration unit 15 updates the object thus searched based on the updated object information, and then notifies the resource allocation unit 12, the replication management unit 14, and the data configuration unit 17 that the object has been updated. Output. Note that the registration unit 15 also registers the updated object information and identifiers from the databases 1 a to 1 c in the database 3.
[0040]
When receiving the fact that the object has been updated from the registration unit 15, the data configuration unit 17 reads the updated object information about the updated object from the database 3, and generates a subject in which the updated object information is arranged. And output to the transmission unit 18. Further, the data configuration unit 17 generates an event for acquiring the subject and outputs the event to the transmission unit 18. In the data configuration unit 17, an event is generated using the resource allocation result by the resource allocation unit 12 and information supplied from the replication management unit 14. That is, the data configuration unit 17 transmits the subject transmission channel, time, data rate, information on the server that manages the subject, and the like from the resource allocation result by the resource allocation unit 12 and the copy management unit 14. Recognized from information and included in events.
[0041]
The transmission unit 18 broadcasts the event or subject from the data configuration unit 17 according to the resource allocation result of the resource allocation unit 12, that is, for example, at a predetermined channel and a predetermined data rate at a predetermined data rate. Transmission is performed via the network 4.
[0042]
Next, FIG. 3 shows a configuration example of the mirror server 7 of FIG. In the figure, portions corresponding to those in the server 2 of FIG. That is, the mirror server 7 is basically configured in the same manner as the server 2 except that the resource allocation unit 12, the replication management unit 14, the data configuration unit 17, and the transmission unit 18 are not provided. In the registration unit 15 constituting the mirror server 7, the update object information transmitted via the communication network 6 or the like is transmitted by the replication management unit 14 constituting the server 2 by controlling the communication control unit 11. It is made to be supplied.
[0043]
In the server 2 configured as described above, a registration process for registering data in the database 3 (updating the registration contents of the database), a data transmission process for generating a subject and an event, and transmitting the data via the broadcast network 4, and reception When a request for a subject is received from the terminal 5 via the communication network 6, a request data transmission process for transmitting the subject via the communication network 6 is performed. In the mirror server 7, registration processing and request data are performed. Transmission processing and the like are performed.
[0044]
First, registration processing performed by the server 2 will be described with reference to the flowchart of FIG.
[0045]
In the registration process, first, in step S1, the registration unit 15 determines whether or not the updated object information and the identifier are distributed from any of the databases 1a to 1c of the information providers A to C. If it is determined that it has not been distributed, the process returns to step S1. If it is determined in step S1 that the update object information and the identifier have been distributed, the process proceeds to step S2, and the registration unit 15 adds the identifier to the update object information and registers it in the database 3, for example. .
[0046]
Here, from the databases 1a to 1c, update object information and identifiers are supplied in a format as shown in FIG. 5, for example.
[0047]
Here, the identifier is, for example, traffic information, weather information, stock price information, a unique ID (Identification) assigned in advance for each type of object such as a component constituting the information, and an object. Version information indicating the newness of As the version information, for example, an integer value that is incremented by 1 every time the object is updated is used. Therefore, the version information is compared with respect to the object to which the same ID is added. Thus, the latest object can be recognized.
[0048]
The ID and version information are both fixed length here, for example.
[0049]
When the registration unit 15 adds (associates) the identifiers distributed from the databases 1a to 1c to the updated object information distributed from the databases 1a to 1c, in step S2, the IDs constituting the identifiers are added. The object to which the identifier having the same ID is added is searched from the database 3 and updated based on the updated object information. Then, the registration unit 15 increments the version information of the identifier added to the updated object by, for example, 1.
[0050]
Thereafter, in step S3, the registration unit 15 outputs information indicating that the object has been updated to the resource allocation unit 12, the replication management unit 14, and the data configuration unit 17, and returns to step S1.
[0051]
In the copy management unit 14 that has received the fact that the object supplied as described above has been updated, the updated object information registered in the database 3 and the identifier added thereto are read out in step S2 and managed by itself. In this case, the data is transmitted to the mirror server 7 via the communication network 6. In addition, the replication management unit 14 outputs the specific information for specifying the server that has transmitted the update object information and the identifier, that is, here, for example, the IP address of the mirror server 7 to the data configuration unit 17.
[0052]
In the mirror server 7, the process excluding step S3 of steps S1 to S3 in FIG. 3 is performed as a registration process. That is, in the mirror server 7, in step S1, it is determined by the registration unit 15 whether or not the updated object information and the identifier have been distributed from the server 2, and when it is determined that the updated object information and the identifier have not been distributed, the process returns to step S1. . If it is determined in step S1 that the update object information and the identifier have been distributed, the process proceeds to step S2, and the registration unit 15 of the mirror server 7 adds the identifier to the update object information and registers it in the database 8. . Further, the registration unit 15 of the mirror server 7 searches the database 8 for an object to which an identifier having the same ID as that constituting the identifier received from the server 2 is added in step S2, and the object is Update based on the update object information received from the server 2. Then, the registration unit 15 of the mirror server 7 increments the version information of the identifier added to the updated object by 1, skips step S3, and returns to step S1.
[0053]
In the server 2, the fact that the object output from the registration unit 15 is updated in step S3 by performing the registration process as described above is supplied to the duplication management unit 14, as well as the resource allocation unit 12 and the data The component 17 is also supplied.
[0054]
When the resource allocating unit 12 receives information that the object has been updated, the resource allocating unit 12 allocates resources for transmitting the event and subject relating to the update via the broadcast network 4, and the allocation result is assigned to the data configuration unit 17 and The data is output to the transmission unit 18. When receiving the fact that the object has been updated, the data configuration unit 17 reads updated object information about the updated object from the database 3, generates a subject, and outputs the subject to the transmission unit 18. Furthermore, the data configuration unit 17 sets the event for acquiring the subject, the resource allocation result of the resource allocation unit 12 and the information from the replication management unit 14 (for example, the IP address of the mirror server 7 as described above). And output to the transmission unit 18. In the transmission unit 18, the event or subject from the data configuration unit 17 is transmitted via the broadcast network 4 according to the resource allocation result of the resource allocation unit 12. That is, the resource allocation unit 12, the data configuration unit 17, and the transmission unit 18 perform data transmission processing as shown in FIG.
[0055]
That is, in the data transmission process, first, a resource allocation process is performed in step S11. Specifically, in step S11, when the resource allocating unit 12 receives information that the object has been updated, the broadcast channel for transmitting the event and object relating to the update via the broadcast network 4, the broadcast time, Determine the data rate, number of transmissions, etc. These resource allocation results are supplied to the data configuration unit 17 and the transmission unit 18.
[0056]
In step S12, the data structure unit 17 generates an event and a subject. That is, the data configuration unit 17 reads the updated object information used for updating the object and the identifier added thereto from the database 3, and configures a subject as shown in FIG. 7A, for example. In FIG. 7A (also in FIG. 7B), a determination flag is arranged between the identifier and the update object information. This determination flag indicates whether the data is a subject or Indicates whether it is an event.
[0057]
Further, the data configuration unit 17 configures an event such as that shown in FIG. 7B, for example, in which the same identifier as the identifier added to the subject is added to the subject. That is, the event is configured by sequentially arranging a determination flag, broadcast schedule information, and server access information on the same identifier as the identifier added to the subject.
[0058]
Broadcast schedule information is information (reception required information) necessary to receive a subject when it is broadcast via the broadcast network 4, and this is a resource allocation result from the resource allocation unit 12. A subject's broadcast channel, broadcast time (time), data rate, number of transmissions, and the like are included. Therefore, by referring to the broadcast schedule information constituting the event, it is possible to recognize the broadcast channel, broadcast time, etc. of the subject for updating the object of the identifier constituting the event, thereby receiving the subject. It becomes possible to do.
[0059]
The server access information is information (request required information) necessary for requesting the subject via the communication network 6 when the subject is transmitted from the server 2 or the mirror server 7 via the communication network 6. This includes, for example, the IP addresses of the server 2 and the mirror server 7. The IP address and the like are supplied from the replication management unit 14 to the data configuration unit 17 as identification information for identifying the server 2 and the mirror server 7.
[0060]
That is, the server 2 and the mirror server 7 compose the subject shown in FIG. 7A from the update object information stored in the databases 3 and 8 and the identifier added thereto, and the request from the receiving terminal 5 The subject is transmitted via the communication network 6, and the server access information is referred to when the subject is acquired in this way.
[0061]
Here, in the server 2 and the mirror server 7, for example, a subject composed of update object information and an identifier added thereto is associated with a URL configured by adding the identifier to an IP address, Management is made to be performed. In this case, the receiving terminal 5 that has received the event can recognize the URL of the subject to which the same identifier as the event is added, from the server access information and the identifier constituting the event.
[0062]
The subject can be provided only via the broadcast network 4, but in this case, the server access information is not arranged in the event for the subject. Conversely, the subject can be provided only via the communication network 6, but in this case, broadcast schedule information is not arranged in the event for the subject.
[0063]
When a subject is transmitted via a broadcast network 4 at a plurality of channels or at a plurality of times, an event about the subject includes a broadcast schedule corresponding to each of the plurality of channels or a plurality of times. Information is arranged. Similarly, when a subject can be provided from a plurality of servers via the communication network 6, server access information corresponding to each of the plurality of servers is arranged in the event for the subject.
[0064]
When both broadcast schedule information and server access information exist, or when only one of the broadcast schedule information and server access information exists, not all of them are included in one event. An event may be generated for each of them.
[0065]
Returning to FIG. 6, when the event and subject as described above are generated in step S <b> 12, the event and subject are supplied from the data configuration unit 17 to the transmission unit 18. In the transmission unit 18, in step S <b> 13, the event or subject from the data configuration unit 17 is transmitted via the broadcast network 4 according to the resource allocation result from the resource allocation unit 12. That is, the event or subject is transmitted via the broadcast network 4 at a predetermined data rate at a predetermined transmission time on a predetermined transmission channel, for example, and the process proceeds to step S14.
[0066]
In step S14, the transmission unit 18 determines whether or not the transmission of the event or subject from the data configuration unit 17 has been repeated for the number of transmissions included in the resource allocation result from the resource allocation unit 12, and determines that it has not been performed. If so, the process returns to step S13, and event and subject transmission is repeated. That is, data transmission by the broadcast network 4 is performed only in one direction from the server 2 to the receiving terminal 5, and thus it is not possible to confirm whether or not data transmission / reception has been performed correctly between them. Therefore, the server 2 is configured such that data transmission is repeated as many times as the number of transmissions, which is a resource allocation result by the resource allocation unit 12, and thereby the probability that the receiving terminal 5 will receive accurate data. Has been made to improve.
[0067]
On the other hand, if it is determined in step S14 that the event or subject transmission from the data configuration unit 17 has been repeated for the number of transmissions included in the resource allocation result from the resource allocation unit 12, the process returns to step S11, and so on. The process is repeated.
[0068]
As described above, since an event generally has a small amount of data and a subject has a large amount of data, the resource allocation unit 12 basically increases the number of transmissions for an event and decreases for a subject. In addition, resource allocation is performed. Therefore, in the receiving terminal 5, the probability that the event transmitted via the broadcast network 4 is missed (the probability that it cannot be received) is reduced, and if the event can be normally received, for example, the broadcast schedule information included therein By referring to, the subject can recognize the channel and time transmitted via the broadcast network 4, and as a result, the probability of missing an event with a small number of transmissions can be reduced. In addition, even if the subject has failed to receive the broadcast channel or broadcast time based on the event, or if the subject is required prior to the broadcast time, If the server access information is included in the event, the subject can be acquired early and reliably by accessing the server 2 or the mirror server 7 via the communication network 6 based on the server access information. Can do.
[0069]
Next, a request data transmission process performed by the server 2 and the mirror server 7 will be described with reference to the flowchart of FIG.
[0070]
In this case, in step S21, the communication control unit 11 determines whether, for example, a URL has been transmitted as a subject request from the receiving terminal 5 via the communication network 6, and it is determined that it has not been transmitted. If so, the process returns to step S21. If it is determined in step S <b> 21 that the URL has been transmitted, the communication control unit 11 transfers the URL to the data search unit 13. When the data search unit 13 receives the URL, in step S22, the data search unit 13 searches for update object information to which the same identifier as the data identifier constituting the URL is added (in the server 2, the search is performed from the database 2 and the mirror server). 7 is searched from the database 8).
[0071]
That is, in the present embodiment, as described above, in the receiving terminal 5 that has received the event, the same identifier as that event is added from the IP address as the server access information constituting the event and the identifier. The subject URL is recognized. When the receiving terminal 5 requests a subject via the communication network 6, the receiving terminal 5 transmits the URL. Therefore, the URL from the receiving terminal 5 includes an identifier, and the server 2 and the mirror server 7 search for the identifier as a file name of the update object information.
[0072]
In step S22, when the update object information is searched, the data search unit 13 configures a subject by adding the identifier stored together with the update object, and supplies the subject to the communication control unit 11. The communication control unit 11 receives the subject from the data search unit 13, and transmits it to the receiving terminal (here, the receiving terminal 5) that has transmitted the URL via the communication network 6 in step S23. Return to step S21.
[0073]
Next, FIG. 9 shows a configuration example of the receiving terminal 5 of FIG.
[0074]
The receiving unit 21 receives data transmitted from the server 2 via the broadcast network 4, that is, here, an event and a subject, and outputs them to the selecting unit 22. The selection unit 22 selects an event or subject from the reception unit 21. Further, the selection unit 22 is configured to temporarily store the selected event in the database 23. Further, the selection unit 22 searches the database 23 for an object corresponding to the identifier included in the selected subject, and updates the object based on the updated object information included in the subject.
[0075]
The database 23 is composed of, for example, a large-capacity hard disk, magneto-optical disk, or other recording medium, stores objects, and temporarily stores events from the selection unit 22.
[0076]
The communication control unit 24 performs communication control via the communication network 6, whereby a request for a subject from the request unit 25 is sent to the server 2, the mirror server 7, etc. via the communication network 6. A subject that is transmitted or transmitted from the server 2 or the mirror server 7 via the communication network 6 is received.
[0077]
The request unit 25 controls the reception unit 21 so as to receive a subject transmitted via the broadcast network 4 in accordance with broadcast schedule information included in an event stored in the database 23. . Further, the request unit 25 requests a subject from the server 2 or the mirror server 7 via the communication network 6 according to the server access information included in the event stored in the database 23, and responds to the request. The communication control unit 24 is also controlled so as to receive a subject transmitted from the server 2 or the mirror server 7 via the communication network 6. Further, the request unit 25 searches the database 23 for an object corresponding to the identifier included in the subject received by the communication control unit 24, and updates it based on the updated object information included in the subject. Yes. The request unit 25 performs the above-described processing, for example, periodically, and also when an object update request is received from the reading unit 26.
[0078]
The reading unit 26 reads data stored in the database 23 in response to the operation of the operation unit 28 and supplies the data to the output unit 27. The output unit 27 includes, for example, a display, a speaker, and the like, and displays data from the reading unit 26 or the like or outputs it as sound. The operation unit 28 is operated when a predetermined input is given to the reading unit 26.
[0079]
In the reception terminal 5 configured as described above, a reception process for receiving data transmitted from the server 2 via the broadcast network 4 and a data request process for requesting a subject based on an event stored in the database 23. , And an output process for outputting data registered in the database 23.
[0080]
First, the reception process will be described with reference to the flowchart of FIG.
[0081]
When data is transmitted from the server 2 via the broadcast network 4, the reception unit 21 receives the data, that is, an event or a subject, and supplies the data to the selection unit 22 in step S 31. In step S32, the selection unit 22 determines whether an event or subject from the reception unit 21 is to be selected.
[0082]
That is, when all events and subjects transmitted from the server 2 via the broadcast network 4 are received, the database 23 requires a huge storage capacity. In addition, the user has preference, and each user rarely needs all the objects stored in the database of the server 2. Nevertheless, it is not preferable to reflect all the registered contents of the database 3 of the server 2 in the database 23.
[0083]
Therefore, if, for example, an ID of an object desired by the user (ID constituting the above-described identifier) is registered in the selection unit 22, the selection unit 22 can only select events and objects having the same ID as the ID. Has been made to choose. Therefore, the determination in step S <b> 32 is performed by comparing the ID registered by the user with the IDs constituting the event and subject identifiers supplied from the receiving unit 21.
[0084]
If it is determined in step S32 that the event or subject from the receiving unit 21 is not to be selected, for example, the ID registered by the user and the ID described in the event or subject supplied from the receiving unit 21 If does not match, the process waits for the next event or subject to be transmitted via the broadcast network 4 and returns to step S31. Therefore, in this case, the event is not stored in the database 23, and the database 23 is not updated based on the subject.
[0085]
On the other hand, when it is determined in step S32 that the event or subject from the receiving unit 21 is to be selected, for example, the ID registered by the user and the event or subject supplied from the receiving unit 21 are described. If the ID matches, the process proceeds to step S33, and the selection unit 22 determines whether the event or subject is related to a new object.
[0086]
If it is determined in step S33 that the event or subject selected in step S32 relates to a new object, that is, an object having the same ID as the ID included in the event or subject is stored in the database 23. If not registered, the process skips step S34 and proceeds to step S35.
[0087]
If it is determined in step S33 that the event or subject selected in step S32 is not related to a new object, that is, an object having the same ID as that included in the event or subject is stored in the database. If it is registered in 23, the process proceeds to step S34, and the version information described in the identifier of the object already registered in the database 23 (hereinafter referred to as “registered object” as appropriate) is selected in step S34. It is determined whether the version information described in the identifier of the event or subject selected in S32 is equal.
[0088]
If the version information described in the registered object is not equal to the version information described in the event or subject selected in step S32 in step S34, that is, here, in the data transmission process of FIG. As described above, in order to improve the reliability, the same subject is repeatedly transmitted from the server 2 via the broadcast network 4. Of the transmissions repeatedly performed as described above, transmissions performed in the past. If the registered object has already been updated by the subject, the steps S35 to S37 are skipped, and after waiting for an event or subject to be transmitted, the process returns to the step S31. Therefore, in this case, the event is not stored in the database 23, and the database 23 is not updated based on the subject.
[0089]
On the other hand, if it is determined in step S34 that the version information described in the registered object is equal to the version information described in the event or subject selected in step S32, the process proceeds to step S35 and the selection unit 22 is performed. In step S32, it is determined by referring to the determination flag whether the data selected in step S32 is an event or a subject.
[0090]
If it is determined in step S35 that the data selected in step S32 is a subject, the process proceeds to step S36, and the selection unit 22 updates the database 23 based on the subject.
[0091]
That is, when a new object is arranged as updated object information in a subject, the new object is associated with an identifier included in the subject and newly registered in the database 23.
[0092]
In addition, when an updated object is arranged as updated object information in a subject, an object associated with an identifier having the same ID as the ID included in the subject is searched from the database 23, The searched object is changed to the updated object. Further, the version information associated with the object is incremented by 1, for example.
[0093]
Furthermore, in the subject, when an object deletion instruction is arranged as update object information, an object associated with an identifier having the same ID as the ID included in the subject is searched from the database 23, It is deleted with the identifier associated with the object.
[0094]
Note that the update of the object based on the updated object information performed in step S2 of the registration process described with reference to FIG. 4 is performed in the same manner.
[0095]
In step S36, after the database 23 has been updated as described above, next, it waits for an event or subject to be transmitted, and then returns to step S31.
[0096]
On the other hand, if it is determined in step S35 that the data selected in step S32 is an event, the process proceeds to step S37, and the selection unit 22 supplies the event to the database 23 and temporarily stores the event. Then, after waiting for an event or subject to be transmitted, the process returns to step S31.
[0097]
In step S37, the event stored in the database 23 is deleted after being read from the database 23 by the request unit 25 in the data request process (FIG. 11) and the data output process (FIG. 12) described later. It is made so that.
[0098]
Next, the data request process will be described with reference to FIG. This data request process is periodically performed at the receiving terminal 5. However, the data request process can be performed irregularly.
[0099]
In the data request process, first, in step S41, the registration content of the database 23 is retrieved by the request unit 25, and the process proceeds to step S42 to determine whether or not an event is stored in the database 23. If it is determined in step S42 that no event is stored, the data request process is terminated.
[0100]
If it is determined in step S42 that an event is stored in the database 23, the event is read (if a plurality of events are stored, one of them is read). The request unit 25 determines whether it is advantageous to receive the subject based on the event via the broadcast network 4 capable of broadcasting or the communication network 6 capable of bidirectional communication. The
[0101]
Here, the determination in step S42 is performed as follows, for example.
[0102]
That is, the request unit 25 refers to the broadcast schedule information included in the event, so that the number of transmissions (transmission frequency) in which the subject with the same identifier as the identifier added to the event is transmitted and the transmission time are determined. Be recognized. For example, when the number of transmissions is large or when the transmission time is close to the current time, the reception time of the subject is received via the broadcast network 4 where the reception time of the subject and other costs for reception are expected to be low. Is determined to be advantageous.
[0103]
For example, when the number of transmissions is small or the transmission time is far from the current time, it is determined that it is advantageous to receive the subject via the bidirectional network 6.
[0104]
In addition, for example, when the data amount of the subject is described in the broadcast schedule information included in the event (even if the data amount itself is not described, the data rate and the time required for transmission are described. If this is the case, the amount of data can be recognized), and based on the amount of data, it is determined whether it is advantageous to receive the subject via the broadcast network 4 or the communication network 6 It is also possible.
[0105]
Further, whether the subject is advantageous to be received through the broadcast network 4 or the communication network 6 is determined by the user operating the operation unit 28 and determined in accordance with the operation. Is also possible.
[0106]
Further, in the case of receiving a subject via the bidirectional network 6, the bidirectional network 6 supports a plurality of transmission rates, and the receiving terminal 5 is connected via a line having such a plurality of transmission rates. When communication is possible, it is possible to change the line to be used according to the amount of subject data.
[0107]
Here, as described above, an event may include only one of broadcast schedule information and server access information. If the event includes only broadcast schedule information, it is determined in step S43 that it is advantageous to receive the subject via the broadcast network 4. Conversely, if the event includes only server access information, it is determined in step S43 that it is advantageous to receive the subject via the communication network 6.
[0108]
If it is determined in step S43 that it is advantageous to receive the subject via the broadcast network 4, the process proceeds to step S44, and the request unit 25 determines whether or not the reception unit 21 is operable ( For example, it is determined whether or not power is supplied (whether it is not in a sleep state). In step S44, when it is determined that the receiving unit 21 is not in an operable state, the process proceeds to step S45, and the request unit 25 waits until, for example, immediately before the transmission time of the subject arranged in the broadcast schedule information of the event. Thus, the receiving unit 21 is put into an operable state, that is, when the receiving unit 21 is in the sleep state, the supply of power is started, and the process proceeds to step S46.
[0109]
If it is determined in step S44 that the receiving unit 21 is in an operable state, step S45 is skipped and the process proceeds to step S46. The request unit 21 controls the receiving unit 21 to control the database 23. In the transmission channel arranged in the broadcast schedule information of the event read out from the subject, it is added to the subject, that is, the event transmitted through the broadcast network 4 at the transmission time arranged in the broadcast schedule information. The subject having the same identifier as the existing identifier is received and supplied to the selection unit 22. In step S47, the selection unit 22 updates the database 23 based on the subject from the reception unit 21 in the same manner as in step S36 in FIG.
[0110]
Here, in the receiving terminal 5, data loss often occurs due to the power supply of the receiving unit 21 being turned off. Therefore, as described above, it is determined whether or not the receiving unit 21 is in an operable state. If the receiving unit 21 is not in an operable state, the receiving unit 21 is set in an operable state so that the power source of the receiving unit 21 is turned on. It is possible to prevent the subject from being missed due to being in the off state.
[0111]
On the other hand, if it is determined in step S43 that it is advantageous to receive the subject via the bidirectional network 6, the process proceeds to step S48, and the request unit 25 controls the communication control unit 24 to control the database. The server 2 and the mirror server 7 are requested via the communication network 6 for a subject to which the same identifier as the identifier included in the event read from 23 is added.
[0112]
That is, the request unit 25 adds the same identifier as the identifier included in the event read from the database 23 and the server access information (here, the IP address as described above). The URL associated with the subject is configured, and the communication control unit 24 is controlled to transmit the URL to the server 2 or the mirror server 7 via the communication network 6.
[0113]
In the server 2 and the mirror server 7 to which the URL is transmitted, the request data transmission process described with reference to FIG. 8 is performed, whereby the subject associated with the URL is transmitted via the communication network 6. . This subject is received by the communication control unit 24 and supplied to the request unit 25 in step S49. Upon receiving the subject from the communication control unit 24, the request unit 25 proceeds to step S47, updates the database 23 based on the subject as described above, and ends the data request process.
[0114]
As described above, it is determined whether it is advantageous to receive a subject via the broadcast network 4 or the communication network 36, and a subject transmitted via the advantageous one is received. The receiving terminal 5 can efficiently receive the subject and update the object.
[0115]
In the case where the subject is received via the broadcast network 4, when a plurality of transmission times are arranged in the broadcast schedule information of the event, for example, the transmission time closest to the current time (however, the current time) A subject that is transmitted before (excluding the time in the past) is received. However, it is also possible to have the user operate the operation unit 28 to select a transmission time.
[0116]
Further, when requesting and receiving a subject via the communication network 6, when the IP addresses of a plurality of servers are arranged in the server access information of the event, for example, the position closest to the receiving terminal 5 among them The URL is constructed using the IP address of the server in However, it is also possible to have the user operate the operation unit 28 to select a server.
[0117]
Next, data output processing will be described with reference to the flowchart of FIG. The data output process is basically started periodically, for example, as in the data request process of FIG.
[0118]
In the data output process, first, in step S51, it is determined by the reading unit 26 whether or not the operation unit 28 has been operated so as to output data (an object in the present embodiment). If it is determined that is not operated, the data output process is terminated.
[0119]
If it is determined in step S51 that the operation unit 28 has been operated to output an object, the process proceeds to step S52, and an event for the object requested to be output, that is, the same identifier as the identifier of the object. The reading unit 26 determines whether or not the event to which “” is added is stored in the database 23. In step S52, when it is determined that the event for the object whose output is requested is not stored in the database 23, that is, the object whose output is requested is the latest stored in the database 23. In the case where it is determined that there is no event missing, the process proceeds to step S53, where the reading unit 26 reads the object requested to be output from the database 23 and supplies it to the output unit 27. In the output unit 27, the object from the reading unit 26 is displayed or output with sound, and the data output process is terminated.
[0120]
If it is determined in step S52 that the event for the object requested to be output is stored in the database 23, that is, the object requested to be output is updated in the server 2, but received. If the terminal 5 has not yet been updated, the process proceeds to step S54, and the reading unit 26 determines whether or not to update the object.
[0121]
That is, in step S54, the reading unit 26 displays a message for inquiring whether or not to update the object on the output unit 27, and prompts the user to operate the operation unit 28. In step S54, it is determined whether or not to update the object in response to the operation of the operation unit 28.
[0122]
Alternatively, in step S54, the broadcast schedule information of the event for the object requested to be output is referred, and the subject for updating the object is transmitted among the transmission times transmitted via the broadcast network 4. The one closest to the current time is recognized. In step S54, it is determined whether or not to update the object in correspondence with whether or not the transmission time closest to the current time is within a predetermined time set in advance in the receiving terminal 5 from the current time. (If the transmission time is within a predetermined time from the current time, it is determined to update the object).
[0123]
In step S54, when it is determined not to update the object requested to be output, the process proceeds to step S55, and the reading unit 26 reads the object requested to be output, that is, the object before update from the database 23. Thereafter, in the same manner as in step S53, the data is output to the output unit 27 and the data output process is terminated. In this case, the output unit 27 may output the object and display a message indicating that the object is not updated.
[0124]
On the other hand, if it is determined in step S54 that the object requested to be output is to be updated, the process proceeds to step S56, and a database update process for updating the object is performed. That is, in step S56, the same processing as that in steps S43 to S49 of the data request processing in FIG. 11 is performed using the event for the object for which output is requested. Updated. In step S53, the updated object is output from the output unit 27 as described above, and the data output process ends.
[0125]
By the way, in the case where the IP addresses of a plurality of servers are arranged in the server access information of the event, the server from which the subject is requested is determined, for example, as described above, If the determination is made in response to the operation of the operation unit 28 by the user, access to a certain server may be concentrated.
[0126]
Therefore, when there are a plurality of servers that transmit the subject to the receiving terminal 5 via the communication network 6 (for example, as shown in FIG. 1, in addition to the server 2, a mirror server 7 exists, In the case where there are further mirror servers other than the server 7), in order to distribute access to the server (in order not to concentrate access to one server), the receiving terminal 5 or its user has a unique ID ( Hereinafter, the server 2 is given a user ID as appropriate, and the server 2 is associated with each server's IP address and assigned to the event as server access information (hereinafter referred to as a load balancing process as appropriate). ) Can be made to send the event. On the other hand, the receiving terminal 5 performs processing for recognizing the server of the IP address associated with its own user ID (hereinafter referred to as access server determination processing as appropriate), and then requests that server to request a subject. Can be.
[0127]
A load distribution process performed by the server 2 will be described with reference to the flowchart of FIG. In addition, this load distribution processing is performed when there are a plurality of servers that transmit a subject to the receiving terminal 5 via the communication network 6 (in addition to the server 2, the subject is transmitted via the communication network 6). 6 is performed as part of the process of step S12 in the data transmission process of FIG.
[0128]
In the load distribution process, first, in step S61, the number of receiving terminals (hereinafter referred to as the number of assignments as appropriate) N assigned to one server that transmits a subject is calculated via the communication network 6. In other words, in step S61, for example, the total number of receiving terminals is divided by the total number of servers that transmit the subject via the communication network 6, and the divided value (for example, rounded up after the decimal point) is assigned number N. The Note that the server 2 manages the total number of receiving terminals. In the server 2, the total number of servers that transmit the subject via the communication network 6 is recognized from the information managed by the replication management unit 14.
[0129]
Thereafter, in step S62, one of a plurality of servers that transmit the subject is selected via the communication network 6 (this selected server is hereinafter referred to as a selected server as appropriate), and the process proceeds to step S63. The receiving terminal located near the selected server is detected by the assigned number N. It is assumed that the positions of the selected server and the receiving terminal 5 are managed in the server 2.
[0130]
In step S64, the user ID of each of the N receiving terminals detected in step S63 is associated with the IP address of the selected server, and a set of the IP address and the N user IDs (request destination information). ) Is arranged in the event as server access information. Thereafter, the process proceeds to step S65, and it is determined whether or not the processes of steps S62 to S64 have been performed using all the plurality of servers transmitting the subject via the communication network 6 as selected servers. If it is determined in step S65 that all of the plurality of servers are not yet selected servers, the process returns to step S62, and a server that has not yet been selected as a selected server is newly selected as a selected server. repeat. On the other hand, if it is determined in step 65 that the process has been performed with all of the plurality of servers as the selected server, the load distribution process is terminated.
[0131]
As described above, in load distribution processing, N (or N-1) receiving terminals are allocated to one server.
[0132]
In the case described above, the total number of receiving terminals is simply divided by the total number of servers that transmit the subject via the communication network 6 as the number of receiving terminals assigned to one server. The number of receiving terminals allocated to each of the plurality of servers may be determined in consideration of, for example, the processing capability of each server.
[0133]
Next, the access server determination process performed by the receiving terminal 5 will be described with reference to the flowchart of FIG. This access server determination process is performed at the receiving terminal 5 before constructing the URL to be transmitted in step S48 of the data request process of FIG.
[0134]
In the access server determination process, in step S71, the receiving terminal 5 searches for the user ID assigned to itself from the server access information of the event, and proceeds to step S72. In step S72, the IP address associated with the user ID, that is, the server that should request the subject is recognized, and the access server determination process ends.
[0135]
In the receiving terminal 5, as described with reference to FIG. 11, in step S48, a URL is constructed and transmitted using the IP address recognized in step S72.
[0136]
As described above, by performing load distribution processing or access server determination processing in the server 2 or the receiving terminal 5 respectively, the request for the subject from the receiving terminal can be distributed to a plurality of servers, and an efficient subject is obtained. Can be delivered.
[0137]
In the above case, the user ID of the receiving terminal is associated with the IP address and the server that the receiving terminal should access is limited. For example, the user ID of the receiving terminal and the server The access to the server can also be distributed by associating the time zone (request timing information) accessible via the communication network 6 and limiting the time zone in which the receiving terminal accesses the server. Is possible.
[0138]
As described above, the data distribution system to which the present invention is applied has been described. Such a data distribution system, for example, distributes data to a large number of databases in a distributed database or distributes data by IP multicast. It is particularly useful when distributing data to an unspecified number of others.
[0139]
In the present embodiment, the event is transmitted via the broadcast network 4. However, for example, the event may be transmitted via the communication network 6 in response to a request from the receiving terminal 5. good. Furthermore, in the present invention, it is not essential to have both the broadcast network 4 and the communication network 6. That is, the present invention can be applied to a system including only one of the broadcast network 4 and the communication network 6.
[0140]
In this embodiment, the IP addresses of the server 2 and the mirror server 7 are arranged in the server access information. However, for example, the server access information is managed by the server 2 or the mirror server 7. It is also possible to arrange a URL of a subject, a telephone number for accessing the server 2 or the mirror server 7, and the like.
[0141]
Further, it is possible to cause the mirror server 7 to update the database 8 by receiving events and subjects in the same manner as the receiving terminal 5.
[0142]
Furthermore, in the present embodiment, the updated object itself is arranged as the updated object information included in the subject. However, as the updated object information, for example, the updated object can be added to the updated object. Data to reflect changes to the data (for example, an executable computer program that changes the object before update to the object after update, the difference between the object after update and the object before update, etc.) It is also possible to do.
[0143]
【The invention's effect】
As described above, according to the present invention, it is possible to acquire update data based on the acquired data and update the content based on the update data.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration example of an embodiment of a data distribution system to which the present invention is applied.
FIG. 2 is a block diagram illustrating a configuration example of a server 2 in FIG.
FIG. 3 is a block diagram illustrating a configuration example of a mirror server 7 of FIG.
FIG. 4 is a flowchart for explaining a registration process performed by the server 2;
5 is a diagram showing a format of data supplied from databases 1a to 1c in FIG. 1. FIG.
FIG. 6 is a flowchart for explaining data transmission processing performed by the server 2;
FIG. 7 is a diagram showing a format of subjects and events.
FIG. 8 is a flowchart for explaining request data transmission processing performed by the server 2;
FIG. 9 is a block diagram illustrating a configuration example of the receiving terminal 5 in FIG. 1;
FIG. 10 is a flowchart for explaining a reception process performed by the reception terminal 5;
FIG. 11 is a flowchart for explaining data request processing performed by the receiving terminal 5;
FIG. 12 is a flowchart for explaining data output processing performed by the receiving terminal 5;
FIG. 13 is a flowchart for explaining a load distribution process performed by the server 2;
FIG. 14 is a flowchart for explaining an access server determination process performed by the receiving terminal 5;
[Explanation of symbols]
1a to 1c database, 2 server, 3 database, 4 broadcast network, 5 receiving terminal, 6 communication network, 7 mirror server, 8 database, 11 communication control unit, 12 resource allocation unit, 13 data search unit, 14 replication management unit, 15 registration units, 17 data configuration units, 18 transmission units, 21 reception units, 22 selection units, 23 databases, 24 communication control units, 25 request units, 26 readout units, 27 output units, 28 operation units

Claims (20)

In a transmission device that transmits data for providing content registered in a database,
When the content registered in the database is updated, update data for updating the content is generated, to which identification information for identifying the content updated by the update data is added. Update data generation means;
Acquisition data generation means for acquiring the update data, wherein the identification data of the content to be updated by the update data acquired based on the acquisition data is added.
Allocating means for allocating resources for transmitting the update data and acquisition data via the first transmission path;
First transmission means for transmitting the update data and acquisition data via the first transmission path in accordance with resource allocation by the allocation means ;
In the case where the first transmission means transmits the update data via a one-way broadcast network capable of simultaneous broadcast,
The acquired data generation means adds reception necessary information necessary for receiving the update data transmitted via the broadcast network to the update data based on resource allocation by the allocation means. A transmission apparatus characterized in that the same information as the identification information is included in the acquired data . A second transmission means for transmitting the update data via a second transmission path;
When the second transmission means transmits the update data via the bidirectional network in response to the request for the update data transmitted via the bidirectional network capable of bidirectional communication. In
The acquisition data generation means includes the acquisition data to which the same information as the identification information added to the update data is added as required information necessary for requesting the update data via the bidirectional network. The transmission device according to claim 1, wherein the transmission device is included in the transmission device. The update data is received and stored, and the update data is transmitted via the bidirectional network in response to the update data request transmitted via the bidirectional network capable of bidirectional communication. When there is an information processing device that
The acquired data generation means has the required information necessary for requesting the update data to the information processing apparatus via the bidirectional network, the same as the identification information added to the update data. The transmission apparatus according to claim 1, wherein the acquired data is included in the acquired data. In the case where there is one or more information processing devices,
In response to a request for the update data transmitted via a bidirectional network capable of bidirectional communication, further comprising second transmission means for transmitting the update data via the bidirectional network;
The acquired data generation means provides the required data necessary for requesting the update data via the bidirectional network to the one or more information processing apparatuses or the second transmission means. The transmission apparatus according to claim 3 , wherein the same information as the identification information added to is included in the acquired data. In the case where there are a plurality of receiving devices that receive the acquired data and request the update data to the one or more information processing devices or the second transmission unit based on the acquired data,
The acquired data generation means includes request destination information relating to which of the one or more information processing apparatuses or the second transmission means each of the plurality of receiving apparatuses should request the update data from, or the update 5. The transmission apparatus according to claim 4 , wherein request timing information regarding when to request data is also included in the acquired data. The transmission apparatus according to claim 1, wherein the update data includes information for reflecting changes to the updated content in the updated content or the pre-update content. In a data transmission method for providing content registered in a database,
When the content registered in the database is updated, update data for updating the content is generated, to which identification information for identifying the content updated by the update data is added. Along with the acquisition data for acquiring the update data, the one added with the identification information of the content updated by the update data acquired based on the acquisition data,
Allocating resources for transmitting the update data and acquired data via a one-way broadcast network capable of simultaneous broadcast ,
Based on the allocation of the resource, the reception necessary information necessary for receiving the update data transmitted via the broadcast network is added to the same identification information added to the update data. Included in the acquired data
The update method and the acquisition data are transmitted via the broadcast network according to the resource allocation. In a receiving apparatus that receives data for receiving provision of content registered in a database,
When content registered in the database is updated, it is acquisition data for acquiring update data for performing the update, and resources for transmitting the update data via a predetermined transmission path Receiving means for receiving information necessary for receiving the update data generated based on the assignment, and having added identification information for identifying the content updated by the update data; ,
Based on the acquisition data, an acquisition means for acquiring the update data to which the same identification information as that added thereto is added;
Updating means for updating the content corresponding to the identification information added thereto by the update data ,
The update data is transmitted via a one-way broadcast network capable of simultaneous broadcast, and the acquired data is based on allocation of resources for transmitting the update data via the broadcast network. In the case of including the reception necessary information generated by
The receiving device is characterized in that the acquisition means acquires the update data transmitted via the broadcast network based on the reception necessary information . The acquisition means includes
Receiving means for receiving the update data transmitted via the broadcast network;
In the case where the reception required information includes a transmission time at which the update data is transmitted, when the reception unit is not in an operable state at the transmission time, the reception unit is set in an operable state. The receiving device according to claim 8 . The update data is transmitted via a bidirectional network capable of bidirectional communication in response to the update data request, and the acquired data is transmitted via the bidirectional network. in case of containing a request necessary information required to request,
The acquisition means requests the update data via the bidirectional network based on the request necessary information, and acquires the update data transmitted via the bidirectional network in response to the request. The receiving device according to claim 8 . In response to a request for the update data from the acquisition unit, when there is one or more information processing apparatuses that transmit the update data,
The acquired data also includes request destination information regarding which of the one or more information processing devices should request the update data, or request timing information regarding when the request data should be requested,
The acquisition unit requests the update data from the one or more information processing apparatuses corresponding to the request destination information or at a timing corresponding to the request timing information. receiving apparatus according to claim 1 0. The acquisition unit is configured to transmit the acquisition data and the update data to the transmission apparatus or the information processing apparatus that receives and stores the update data transmitted from the transmission apparatus via the bidirectional network. receiving apparatus according to claim 1 0, characterized in that to request the update data. The updated data, the while being transmitted through a broadcast network, in response to a request for the update data is transmitted via a bidirectional network that allows communication in both directions, and the acquired data is Including the necessary reception information generated based on allocation of resources for transmitting the update data via the broadcast network, and required for requesting the update data via the bidirectional network. When including required information,
The acquisition means acquires the update data transmitted via the broadcast network based on the reception necessary information, or via the bidirectional network based on the request necessary information. The receiving apparatus according to claim 8 , wherein update data is requested, and the update data transmitted via the bidirectional network is acquired in response to the request. The acquisition means determines whether to acquire the update data transmitted via the broadcast network or the bidirectional network, the size of the update data, or the update data via the broadcast network. be selected based on the frequency transmitted Te receiver according to claim 1, wherein the. It further comprises an operating means that is operated when a predetermined input is given,
The acquisition means selects, based on an operation of the operation means, whether to acquire the update data transmitted via the broadcast network or the bidirectional network. receiver according to 1 3. The receiving apparatus according to claim 8 , wherein the update data includes information for reflecting changes to the updated content in the updated content or the pre-updated content. In the case where the update data includes information for reflecting changes to the updated content in the content before the update,
The receiving device according to claim 16 , wherein the updating unit reflects changes in the content after update on the content before update based on the information included in the update data. In the data receiving method for receiving the provision of contents registered in the database,
When the content registered in the database is updated, it is acquisition data for acquiring update data for performing the update, and the resource for transmitting the update data via a predetermined transmission path Receiving information necessary for receiving the update data generated on the basis of the assignment, to which identification information for identifying the content to be updated by the update data is added;
The update data is transmitted via a one-way broadcast network capable of simultaneous broadcast, and the acquired data is based on allocation of resources for transmitting the update data via the broadcast network. in case of containing the received necessary information generated Te, based on the received information necessary things the identification information identical to that added to the acquired data including the received necessary information is added, the broadcast Obtain the update data sent via the network ,
The receiving method, wherein the content corresponding to the identification information added thereto is updated by the update data. A transmission device for transmitting data for providing content registered in the database;
In a transmission / reception system comprising: a reception device that receives data from the transmission device;
The transmitter is
When the content registered in the database is updated, update data for updating the content is generated, to which identification information for identifying the content updated by the update data is added. Update data generation means;
Acquisition data generation means for acquiring the update data, wherein the identification data of the content to be updated by the update data acquired based on the acquisition data is added.
Allocating means for allocating resources for transmitting the update data and the acquired data via a predetermined transmission path;
Transmission means for transmitting the update data and the acquisition data via the predetermined transmission line according to the resource allocation by the allocation means,
In the case where the transmission means transmits the update data via a one-way broadcast network capable of simultaneous broadcast,
The acquired data generation means adds reception necessary information necessary for receiving the update data transmitted via the broadcast network to the update data based on resource allocation by the allocation means. Included in the acquired data to which the same identification information is added,
The receiving device is:
Receiving means for receiving the acquired data;
Based on the acquisition data, an acquisition means for acquiring the update data to which the same identification information as that added thereto is added;
Wherein the update data, have a updating means for updating the content corresponding to the identification information added thereto,
In the case where the update data is transmitted via the broadcast network and the acquired data includes the reception necessary information,
The transmission / reception system , wherein the acquisition unit acquires the update data transmitted via the broadcast network based on the reception necessary information . A transmission device for transmitting data for providing content registered in the database;
In a transmission / reception method of a transmission / reception system comprising: a reception device that receives data from the transmission device;
In the transmitter,
When the content registered in the database is updated, update data for updating the content is generated, to which identification information for identifying the content updated by the update data is added. Along with the acquisition data for acquiring the update data, the one added with the identification information of the content updated by the update data acquired based on the acquisition data,
Allocating resources for transmitting the update data and acquired data via a one-way broadcast network capable of simultaneous broadcast ,
Based on the allocation of the resource, the reception necessary information necessary for receiving the update data transmitted via the broadcast network is added to the same identification information added to the update data. Included in the acquired data
According to the resource allocation, the update data and the acquisition data are transmitted via the broadcast network ,
In the receiving device,
Receiving the acquired data;
Based on the received necessary information included in the acquired data, the said added to the obtained data including the received necessary information identification information same thing and are added, the transmitted via a broadcast network Obtaining the update data;
The transmission / reception method characterized by updating the content corresponding to the identification information added thereto by the update data.

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