JP2011048466A - Data distribution method, data distribution system, distribution source terminal, and distribution destination terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data distribution method, a data distribution system, a distribution source terminal, and a distribution destination terminal capable of distributing data to many terminals in a short period of time without increasing costs. <P>SOLUTION: In the data distribution method, a data distribution source terminal determines data distribution ranking to a plurality of predetermined terminals for each data and distributes data to the terminal with the highest rank in the data distribution ranking among the terminals to which data can be distributed, and the terminal receiving the data determines the next destination terminal for data distribution based on the ranks of the subsequent terminals in the distribution ranking. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a data distribution method, a data distribution system, a distribution source terminal, and a distribution destination terminal.

  In a distribution system composed of a distribution source terminal that distributes data and a large number of distribution destination terminals that receive the distributed data, when distributing data from a distribution source terminal to a large number of distribution destination terminals via a network, Various data transmission systems are known.

  For example, there is a system in which a distribution source terminal and each distribution destination terminal are connected one-to-one via a network, and data is transmitted from the distribution source terminal to each individual distribution destination terminal. In this transmission system, after data transmission to one distribution destination terminal is completed, data is transmitted to an undistributed distribution destination terminal, and such data transmission is repeated until there is no distribution destination terminal to receive.

  As another data transmission method, there is a method of transmitting data by connecting a distribution source terminal and each distribution destination terminal in a 1-to-n relationship. In this case, the distribution source terminal and each distribution destination terminal are connected in parallel, and data is collectively transmitted from the distribution source terminal to each distribution destination terminal on the receiving side. In order to adopt such a transmission method, it is necessary to physically or logically connect each delivery destination terminal in parallel.

  However, the conventional data transmission method as described above has various problems as described below.

  A method of connecting a distribution source terminal that distributes data and a distribution destination terminal that receives this data on a one-to-one basis is that the distribution source terminal transmits data to the next distribution destination terminal at the end of transmission for each individual distribution destination terminal. Since it starts, the delivery time is long. In order to complete the delivery in a short time, it is necessary to execute the delivery process from the delivery source terminal to a number of delivery destination terminals at the same time. It is necessary to prepare multiple numbers. In particular, in order to increase the number of physical ports, it is necessary to prepare not only the number of ports of the distribution source terminal but also a plurality of network paths, which requires a great cost.

  On the other hand, the method of connecting the distribution source terminal and the distribution destination terminal in a one-to-n manner has an advantage that data transmission can be performed collectively because each distribution destination terminal and the distribution source terminal are connected in parallel. In order to transmit data at the same time, it is necessary to prepare a large number of distribution transmission paths and data output ports themselves, which increases the cost of the apparatus.

  In other words, whether the distribution source terminal and the distribution destination terminal are connected on a one-to-one basis or on a one-to-n basis, the data transmission efficiency is taken into account when distributing data from the distribution source terminal to the distribution destination terminal. As a result, the delivery route has not been determined, resulting in problems such as an increase in delivery time. Further, when data transmission is performed using a dedicated line network, problems such as an increase in distribution time occur.

  Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide a data distribution method and a data distribution system capable of distributing data to a large number of terminals in a short time without increasing costs. It is to provide a distribution source terminal and a distribution destination terminal.

  In the present invention that solves the above-described problem, a data distribution source terminal determines a data distribution order to a plurality of predetermined terminals for each data, and selects a terminal having the highest distribution order from among distributable terminals. A data distribution method characterized in that a terminal that distributes data and receives the data determines a terminal of a next distribution destination of the data based on a distribution order of a terminal subsequent to the terminal among the distribution orders. is there.

  The present invention for solving the above-mentioned problems has a distribution source terminal for distributing data and a plurality of predetermined distribution destination terminals, and the distribution source terminal distributes data to a plurality of predetermined terminals. A distribution rank determining unit that determines rank for each data; and a distribution unit that distributes data to a terminal having the highest distribution rank among distributable terminals, wherein each distribution destination terminal receives data A distribution destination determination unit that determines a terminal that is the next distribution destination of the data based on the distribution order of the terminal subsequent to the terminal in the distribution order, and distribution that distributes the received data to the determined distribution destination A data distribution system characterized by comprising a unit.

  The present invention that solves the above-mentioned problem is a distribution source terminal that distributes data to a plurality of predetermined distribution destination terminals, and determines the distribution order of data to a plurality of predetermined terminals for each data A distribution source terminal comprising: a rank determination unit; and a distribution unit that transmits data to a terminal having the highest distribution rank among terminals that can be distributed.

  The present invention that solves the above-described problem is a distribution destination terminal that distributes data based on the distribution order, wherein the distribution order of data is determined for each data by a distribution source terminal that distributes data, and receives data A receiving unit, a distribution destination determining unit that determines a terminal of the next distribution destination of the data based on a distribution order of the terminal subsequent to the terminal among the distribution orders, and distributing the received data to the determined distribution destination A distribution destination terminal having a distribution unit.

  According to the present invention, data can be distributed to a large number of terminals in a short time without increasing costs.

FIG. 1 is a schematic diagram of a distribution system according to the first embodiment. FIG. 2 is a block diagram of the distribution source terminal 1. FIG. 3 is a diagram for explaining the determination of the distribution order in the first embodiment. FIG. 4 is a block diagram of the distribution destination terminals 2 ₁ to 2 _n . FIG. 5 is an operation flowchart of the distribution source terminal 1. FIG. 6 is an operation flowchart of the distribution destination terminals 2 ₁ to 2 _n . FIG. 7 is a diagram for explaining a case where a specific example is applied to a conventional distribution method. FIG. 8 is a diagram for explaining a case where a specific example is applied to the distribution method of the present invention. FIG. 9 is a diagram for explaining the second embodiment.

<First Embodiment>
A first embodiment of the present invention will be described.

  FIG. 1 is a schematic diagram of a distribution system according to the first embodiment.

As shown in FIG. 1, the distribution system according to the first embodiment is a distribution source terminal that distributes content data. The distribution source terminal 1 connected to the network 3 and the content data are distributed to the network 3. Distribution destination terminals 2 ₁ to 2 _n to be connected. The number of distribution destination terminals 2 _{1 to} 2 _n may be arbitrary, but the distribution source terminal 1 is assumed to store the number and identification information of the distribution destination terminals 2 ₁ to 2 _{n in} advance.

As shown in FIG. 2, the distribution source terminal 1 has a blocking unit 11 that blocks the content data and a distribution that determines the distribution order of the blocked data to the distribution destination terminals 2 ₁ to 2 _n for each data. The rank determination unit 12 and the distribution unit 13 that distributes data to the distribution destination terminals 2 ₁ to 2 _n having a high distribution order among the distribution destination terminals that can be distributed.

  The blocking unit 11 divides the content data into predetermined data amounts and blocks them. The blocking unit 11 may divide data that has already been completed as one piece of content data (for example, video data) by a predetermined amount of data, or a predetermined amount of data is generated sequentially. It may be configured to block each time. In the following description, content data is divided into predetermined data amounts, and block data is simply referred to as a block.

The distribution order determination unit 12 randomly determines the distribution order of blocks to the distribution destination terminals 2 ₁ to 2 _n for each block. For example, as shown in FIG. 3, when one piece of content data is divided into n blocks, the distribution order of block 1 is the distribution destination terminal 2 ₁ , distribution destination terminal 2 ₂ , distribution destination terminal in descending order. 2 ₃ ... destination terminal _{2 n,} the delivery order of the block 2, in order descending order, distribution destination terminal _{2 4,} distribution destination terminal ₂ 5, ... destination terminal _{2 3,} delivery order of block 3 , to rank in descending order, the random delivery order as the destination terminal 2 _7, Shinsaki terminal 2 ₈ ... the destination terminal 2 _5. The distribution order may be determined randomly for each block, but several types having different distribution orders may be prepared in advance, and one of them may be selected randomly for each block. In this way, the distribution order determination unit 12 determines the distribution order, and creates a distribution list of the block describing the distribution order.

The distribution unit 13 transmits the block to the distribution destination terminals 2 ₁ to 2 _n having the highest rank among the distribution orders described in the block distribution list. For example, in the example of FIG. 3, the delivery order of the blocks 1, in order descending order, distribution destination terminal 2 _1, the distribution destination terminal 2 _2, the distribution destination terminal 2 ₃ ... destination terminal 2 _n Since the block 1 to send to the distribution destination terminal _{2 1.} The distribution order of the block 2, in order descending order, distribution destination terminal 2 _4, distribution destination terminal 2 _5, since ... destination terminal 2 _3, and transmits the block 2 to the distribution destination terminal 2 _4. When transmitting a block, the block number and distribution list of the block are also added and transmitted. The block transmission process will be described in detail in the description of the operation.

The distribution destination terminals 2 _{1 to} 2 _n are determined by a reception unit 21 that receives a block, a distribution destination determination unit 22 that determines a distribution destination of the received block, and a distribution destination determination unit 22 as illustrated in FIG. And a distribution unit 23 for transmitting the block to the distribution destination.

  The receiving unit 21 receives the distributed block, and also stores the block number that has been acquired.

The distribution destination determination unit 22 determines the distribution destination terminal having the highest rank in the ranks subsequent to the self distribution destination terminal among the distribution ranks described in the distribution list of the received block as the distribution destination of the block. For example, in FIG. 3, when the destination terminal which has received the block 1 is a distribution destination terminal 2 _2, the destination terminal 2 ₂ most rank high in the distribution destination terminal 2 ₂ later ranking of the delivery order block 1 the destination terminal 2 ₃ is determined as the delivery destination block 1. Similarly, if the destination terminal which has received the block 2 is a distribution destination terminal 2 _4, destination most rank higher distribution destination terminal terminal 2 ₄ In the distribution destination terminal 2 ₄ subsequent ranking of the delivery order block 2 2 ₅ is determined as the distribution destination of block 2.

  The distribution unit 23 transmits the block to the distribution destination terminal determined by the distribution destination determination unit 22. When transmitting a block, the block number and distribution list of the block are also added and transmitted.

  Next, the operation in the first embodiment will be described.

  First, the operation of the distribution source terminal 1 will be described using a flowchart. FIG. 5 is an operation flowchart of the distribution source terminal 1.

  The blocking unit 11 receives the content data and blocks the content data (Step 100).

The distribution order determining unit 12 randomly determines the distribution order of the blocks to the distribution destination terminals 2 ₁ to 2 _n for each block, and generates a distribution destination list (Step 101).

The distribution unit 13 notifies the distribution destination terminals 2 ₁ to 2 _n having the highest rank among the distribution orders listed in the distribution destination list (Step 102). The block delivery notification also notifies the block number to be delivered. If there is an acquisition response of the distribution destination terminal in response to the distribution notification (Step 103), block distribution processing to the distribution destination terminal is performed (Step 105). When a block acquisition completion notification is received from the distribution destination terminal (Step 106), the distribution processing for the block is terminated.

  Then, the distribution source terminal 1 returns to Step 100 and performs the next block processing.

  On the other hand, when the distribution destination terminal does not respond to the block distribution notification (Step 103), the distribution unit 13 distributes the block to the distribution destination terminal having the second highest distribution order after the distribution destination terminal. Notification is performed (Step 104). If there is a response from the distribution destination terminal to the distribution notification, the process proceeds to Step 105 as described above. If there is no response from the distribution destination terminal to the block distribution notification, the processing of Step 104 described above is repeated.

  In this way, the distribution source terminal 1 distributes the block to the distribution destination terminal.

Next, the operation of the distribution destination terminals 2 ₁ to 2 _n will be described using a flowchart. FIG. 6 is an operation flowchart of the distribution destination terminals 2 ₁ to 2 _n .

  First, when receiving a block distribution notification (Step 200), the receiving unit 21 determines whether the block has already been acquired (Step 201). If the block has already been acquired (Step 202), an acquired response is transmitted to the distribution destination (Step 203). On the other hand, if the block has not yet been acquired (Step 202), an acquisition response is transmitted to the delivery destination (Step 204). Then, the block acquisition process is performed (Step 205). When the acquisition process is completed (Step 206), an acquisition completion notification is transmitted (Step 207).

  Next, distribution processing of the acquired block is started. First, the delivery destination determination unit 22 deletes its own terminal from the delivery destination list of the received block (Step 208). In this operation, the own terminal is deleted from the distribution destination list, but it can be implemented without deleting.

Subsequently, the distribution destination determination unit 22 notifies the distribution destination terminals 2 ₁ to 2 _n having the highest rank among the distribution orders described in the distribution destination list (Step 209). The block delivery notification also notifies the block number to be delivered. Here, when there is an acquisition response of the distribution destination terminal in response to the distribution notification (Step 210), a block distribution process to the distribution destination terminal is performed (Step 211). When a block acquisition completion notification is received from the distribution destination terminal (Step 212), the block distribution processing is terminated.

  On the other hand, when there is no response from the distribution destination terminal to the block distribution notification or when there is an already acquired response (Step 210), the distribution destination determination unit 22 follows the distribution destination terminal. The delivery notification of the block is sent to the delivery destination terminal having the higher delivery order (Step 213). If there is an acquisition response from the distribution destination terminal in response to the distribution notification, the process proceeds to Step 211 as described above. On the other hand, when there is no response from the distribution destination terminal with respect to the block distribution notification, or when there is an already acquired response, the processing of Step 213 described above is repeated.

In this way, the distribution destination terminals 2 ₁ to 2 _n distribute the blocks to the distribution destination terminals.

  In addition, although it is a process when a delivery notification is sent to the delivery destination terminal and there is no response, the information of the delivery destination terminal that does not respond to the delivery notification is transmitted to the delivery source terminal, and the delivery source terminal delivers the delivery. Retry delivery to the destination terminal. In addition, after the delivery destination terminal that has made the delivery notification delivers the block to the delivery destination terminal next to the delivery destination terminal that does not respond to the delivery notification, the delivery is delivered to the delivery destination terminal that does not respond to the delivery notification. You may make it retry.

  Next, a specific example in the first embodiment will be described.

In this example, it is assumed that the distribution destination terminals are _three distribution destination terminals 2 ₁ to 2 ₃ and the number of blocks is five. FIG. 7 is a diagram for explaining a case where a conventional distribution method is applied to this example, and FIG. 8 is a case where this embodiment is applied to this example.

In the conventional distribution method that does not change the destination at random, as shown in FIG. 7, the distribution source terminal 1 when delivering the block 1, to start distribution to distribution destination terminal 2 ₁ (time t1). When the distribution source terminal 1 is delivered to the destination terminal 2 ₁ block 1 is completed (time t2), it starts delivery to the distribution destination terminal 2 ₁ block 2. However, the distribution destination terminal 2 _1, since the distributing block 1 to the distribution destination terminal 2 ₂ can not start the delivery to the destination terminal 2 ₁ block 2. Therefore, delivery to the distribution destination terminal 2 _first block 2 is a time t2 after the destination terminal 2 ₁ delivered the block 1 to the distribution destination terminal 2 _2.

  Similarly, since each block is distributed, the time at which all the blocks 1 to 5 are distributed to all the distribution destination terminals is time tE.

In contrast, in the present embodiment, for each block, since the distribution order is the delivery destination is changed randomly determined, as shown in FIG. 8, after delivering the block 1 to the distribution destination terminal 2 ₁ ( time t2), it is possible to begin delivering the block 2 immediately to the distribution destination terminal 2 _3. Also, in each of the distribution destination terminals 2 ₁ to 2 ₃ , since the same distribution destination terminal does not become a distribution destination at each distribution time, it is useless that another block cannot be acquired during the block acquisition process. Time can be eliminated. As a result, the time tE at which all the blocks 1 to 5 are distributed to all distribution destination terminals can be remarkably advanced as compared with the conventional distribution method.

  As described above, according to the present embodiment, the distribution source terminal of the block into which the data is divided determines the distribution order of the block to a plurality of predetermined distribution destination terminals for each block, The delivery destination terminal that has delivered the block to the delivery destination terminal with the highest delivery order, and the delivery destination terminal that has received the block determines the next delivery destination of the block based on the delivery order of the delivery destination terminal after the own delivery destination terminal in the delivery order. Since it is configured to determine, the time for completing the distribution of data to all distribution destinations can be significantly advanced as compared with the conventional distribution method.

Further, since the transmission line itself does not require a dedicated line or special equipment, it can be implemented at a low cost.
<Second Embodiment>
In the first embodiment, the example in which the distribution source terminal 1 distributes a block to one distribution destination terminal having the highest rank according to the decided distribution rank has been described.

  In the second embodiment, a description will be given of an example in which a delivery destination terminal to which a block is first delivered delivers a block to a delivery destination terminal of the next rank in addition to the delivery destination terminal having the highest rank according to the delivery order. To do.

  Similar to the first embodiment, the distribution order determination unit 12 of the distribution source terminal 1 determines the distribution order for each block, and generates a distribution list. And the delivery part 13 delivers a block similarly to 1st Embodiment.

The distribution destination terminals 2 ₁ to 2 _n to which blocks are first distributed from the distribution source terminal 1 distribute the acquired blocks to the two distribution destination terminals. That is, according to the distribution order, the block is distributed to the distribution destination terminal of the next rank in addition to the distribution destination terminal having the highest rank. For example, in the example of FIG. 9, the distribution destination terminal 2 ₁ served the block 1 for the first time, ranking is distributed to the distribution destination terminal 2 ₂ highest destination terminal 2 ₃ and the next rank. Similarly, the distribution destination terminal 2 ₇ delivered to the block 2 to the first rank is distributed to the distribution destination terminal 2 ₅ highest destination terminal 2 ₂ and the next rank. The operation of the distribution destination terminal other than the distribution destination terminal to which the block is first distributed from the distribution source terminal 1 is the same as the operation of the first embodiment. In the first embodiment, when a block distribution notification is received, there is almost no case where the block is an acquired block. However, in the second embodiment, the block is first sent from the distribution source terminal 1. Since one block is distributed to two distribution destination terminals at the distribution destination terminal that has been distributed, the order in which the blocks are acquired differs from the distribution order depending on the condition of the transmission path. When a block delivery notification is received, the block may have already been acquired.

For example, in the example of FIG. 9, the distribution order of block 1 is as follows: distribution destination terminal 2 ₁ , distribution destination terminal 2 ₃ , distribution destination terminal 2 ₂ , distribution destination terminal 2 ₅ , distribution destination terminal 2 ₄ ,. since it is, the destination terminal 2 ₁ destination terminal 2 ₃ acquired the block 1 from, according to distribution order listed in the distribution list, will deliver the block 1 to the distribution destination terminal 2 _2. However, the destination terminal 2 _2, there is a possibility that the distribution destination terminal 2 ₁ has already acquired the block 1. Even in such a case, as described above, the distribution destination determination unit 22 distributes the block to the distribution destination terminal having the second highest distribution order after the distribution destination terminal, if already acquired (Step 210). Notification is performed (Step 211). That is, in the previous example, to deliver the block 1 to the distribution destination terminal 2 ₂ high destination terminal 2 ₅ of ranking next. Accordingly, the block can be distributed to all distribution destination terminals.

  In the present embodiment, the distribution destination terminal that has first delivered the block from the distribution source terminal 1 is configured to distribute to the two distribution destination terminals, but is configured to be distributed to two or more distribution destination terminals. Also good. Moreover, you may comprise so that it may deliver to two or more delivery destination terminals in delivery destination terminals other than the delivery destination terminal which delivered the block from the delivery origin terminal 1 initially. However, since distribution to too many distribution destination terminals is not different from distribution to all distribution destination terminals, the number is determined without departing from the spirit of the present invention.

1 distribution source terminal 2 ₁ to 2 _n distribution destination terminal 3 network

Claims (16)

The data distribution source terminal determines, for each data, the distribution order of data to a plurality of predetermined terminals, distributes the data to the terminal having the highest distribution order among the distributable terminals,
The data receiving method, wherein the terminal that has received the data determines a terminal that is the next delivery destination of the data based on a delivery order of a terminal subsequent to the terminal in the delivery order. 2. The data distribution method according to claim 1, wherein at least one terminal that distributes data to two or more terminals based on the distribution order has at least one terminal. The terminal that has received the data is a terminal other than the terminal that has already received data among the terminals having the distribution order after the terminal, and determines the terminal having the higher rank as the terminal of the next distribution destination. The data distribution method according to claim 2. The terminal that has received the data
Send the data delivery notification to the terminal with the highest ranking among the terminals with the ranking of delivery after the own terminal,
When the terminal with the highest rank has an acquisition response to the distribution notification, the data is distributed to the terminal with the highest rank,
4. The data distribution method according to claim 3, wherein when the terminal with the highest ranking makes no response or a response with data already received, the data delivery notification is sent to the terminal with the next ranking. The terminal that has received the data transmits information identifying a terminal that has not responded to the distribution notification to the distribution source terminal,
5. The data distribution method according to claim 4, wherein the distribution source terminal performs distribution notification of data that could not be transmitted to the non-response terminal every predetermined period. 6. The data distribution method according to claim 1, wherein the data is data obtained by dividing content data by a predetermined size. The data distribution method according to any one of claims 1 to 6, wherein the distribution order is randomly determined for each data. A distribution source terminal for distributing data and a plurality of predetermined distribution destination terminals;
The distribution source terminal distributes data to a terminal having the highest distribution order among terminals that can be distributed, and a distribution order determination unit that determines the distribution order of data to a plurality of predetermined terminals for each data. And
Each of the distribution destination terminals includes a receiving unit that receives data, a distribution destination determination unit that determines a terminal of a next distribution destination of the data based on a distribution order of the terminal subsequent to the terminal among the distribution orders, A data distribution system comprising: a distribution unit that distributes received data to a determined distribution destination. 9. The data distribution system according to claim 8, comprising at least one distribution destination terminal that distributes data to two or more terminals based on the distribution order. The distribution destination determination unit determines a terminal having a higher rank as a terminal of a next distribution destination among terminals of distribution ranks subsequent to the terminal, excluding terminals that have already received data. Item 12. The data distribution system according to Item 9. The delivery destination determination unit
Send the data delivery notification to the terminal with the highest ranking among the terminals with the ranking of delivery after the own terminal,
When the terminal with the highest rank has an acquisition response to the distribution notification, the terminal distributes data to the terminal with the highest rank,
11. The data distribution system according to claim 10, wherein when the terminal with the highest ranking makes no response or has received a response that has already been received, the data delivery notification is sent to the terminal with the next ranking. Each of the distribution destination terminals has a non-response terminal information transmission unit that transmits information identifying a non-response terminal to the distribution notification to the distribution source terminal,
12. The data distribution system according to claim 11, wherein the distribution unit of the distribution source terminal notifies the non-response terminal of distribution of data that could not be transmitted every predetermined period. The data distribution system according to any one of claims 8 to 12, wherein the data is data obtained by dividing content data into a predetermined size. The data distribution system according to any one of claims 8 to 13, wherein the distribution order determination unit randomly determines a distribution order for each data. A distribution source terminal that distributes data to a plurality of predetermined distribution destination terminals,
A distribution order determination unit for determining the distribution order of data to a plurality of predetermined terminals for each data;
A distribution source terminal comprising: a distribution unit that transmits data to a terminal having the highest distribution order among terminals that can be distributed. A distribution destination terminal that distributes data based on the distribution order, wherein the distribution order of data is determined for each data by a distribution source terminal that distributes data,
A receiver for receiving data;
A delivery destination determination unit that determines a terminal of a next delivery destination of the data based on a delivery order of a terminal subsequent to the terminal among the delivery orders;
A distribution destination terminal comprising: a distribution unit that distributes received data to the determined distribution destination.

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