JP2002318751A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system, which can perform delivery confirmation while avoiding congestion or the like, can be utilized for a satellite broadcasting system or the like as well and further can generate statistic information concerning the delivery confirmation. SOLUTION: A managing terminal 7 generates a monitor packet 21 and sends it to a server 5, and the server 5 sends this monitor packet 21 to respective computers 9-1, 9-2,.... When the computer 9-1 is designated, belongs to a designated group or draws a successful lot stochastically, for example, a response packet 51 is returned to the side of the server 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system for performing communication by a multicast method in a computer network, a satellite network using artificial satellites, and the like.

[0002]

2. Description of the Related Art Recently, a server and a client computer are connected by a computer network such as the Internet or a satellite network using an artificial satellite, and a system in which the server distributes contents and the like to the client side in the same manner as broadcasting is realized. Is being done.

[0003]

When the server distributes contents by the multicast address method, it is a connectionless communication. Therefore, it is necessary to confirm whether or not the contents have been transmitted to the client side. There is. Conventionally, when such delivery confirmation is performed, since a delivery confirmation packet is transmitted to all clients, all the clients receiving this packet transmit response packets, and congestion occurs on the server side,
There were problems such as a long processing time.

In general, a client sends back a response packet to a server that has transmitted an acknowledgment packet. In a system such as a satellite broadcast, for example, the client and the server are connected in a network. In some cases, it was impossible to return a response packet from the client to the server.

[0005] Further, the server confirms the delivery each time the content is transmitted, and confirms the delivery of the content. At the same time, the server determines the number of successful clients due to the congestion on the transmission path and the communication band. There was a request to create information.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object the purpose of avoiding congestion and the like, making it possible to confirm delivery, use the satellite broadcast system, and the like. To provide a communication system that can also generate a communication system.

[0007]

To achieve the above object, the present invention provides a communication system in which a server and a plurality of terminal devices are connected via a network, and the server distributes contents to the terminal devices in a multicast manner. So,
The server is a communication system, wherein the server sends delivery confirmation information to the terminal device for confirming whether the content has been delivered, and the terminal device that has received the delivery confirmation information sends back response information.

[0008] The server distributes contents and the like. The terminal device is a personal computer, a portable terminal, or the like owned by an end user or the like. The network is a public communication line network or the like, for example, a satellite network via the Internet or an artificial satellite. The multicast method is a method in which a terminal device accesses a multicast address to receive content or the like distributed from a server.

The contents are music information, image information, and the like. The transmission confirmation information is information for confirming whether the content has been delivered to the terminal device, and is transmitted from the server to the terminal device as a monitor packet. The response information includes information indicating whether or not the terminal device has received the predetermined content, and the terminal device returns a response packet to the server.

In the present invention, various information is written in the delivery confirmation information, and the terminal device creates response information according to the information and sends it back to the server. For example, in the delivery confirmation information,
A group of terminal devices is designated, and the terminal devices belonging to the designated group send back the response information. Also, the terminal device is designated by the delivery confirmation information, and the designated terminal device sends back the response information. Further, the terminal device that has received the delivery confirmation information performs probability calculation as to whether or not to respond, and when responding, sends back the response information.

[0011] The server designates a specific content from among the plurality of contents, and sends delivery confirmation information to the terminal device. The terminal device returns the reception status of the specific content, the reception bit rate of the specific content, and the received ratio of the specific content as response information.

The server specifies a reply destination of the response information to the terminal device. The reply destination is, for example, a management terminal device that manages the server. If the acknowledgment information is the same as the previously transmitted acknowledgment information, the terminal device does not send the response information. The server performs statistical processing of delivery confirmation based on the response information.

[0013] The present invention is also a server connected to a plurality of terminal devices via a network and delivering content to the terminal devices by a multicast method, wherein the delivery confirmation for confirming that the content has been received by the terminal devices. A server for transmitting information to the terminal device.

[0014] The present invention is also a terminal device connected to a server via a network, the server receiving the content distributed by the server in a multicast system, and receiving delivery confirmation information for confirming whether the content has been delivered. Then, the terminal device transmits response information back.

[0015]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram of a communication system 1 according to an embodiment of the present invention. The communication system 1 is configured by connecting a server 5, a management terminal 7, computers 9-1, 9-2, 9-3,... As terminals on the client side to a network 3 such as the Internet.

The network 3 is a network such as the Internet and includes wired and wireless networks. Note that the network 3 also includes a satellite network that distributes contents via artificial satellites. In this satellite network, one-way communication for distributing content from the server 5 to the computer 9 is performed.

The server 5 holds contents,
Performs distribution of content and the like. The content is, for example, music information, image information, and the like. The management terminal 7 is a computer that instructs the server 5 to transmit a monitor packet 21 for performing a content transmission command and a delivery confirmation.

.. Are computers owned by general users, for example. Instead of a computer, a portable terminal or a terminal having a telephone function (mobile phone) may be used. The server 5 and the management terminal 7 are provided in, for example, a content distribution company 11.

Next, the operation of the communication system 1 will be described. 2, 3, and 4 are flowcharts showing the operation of the communication system 1. As shown in FIG.
The management terminal 7 sets the delivery confirmation control information (step 2).
01), generates a monitor packet 21 and sends it to the server 5
(Step 202).

The monitor packet 21 is a packet for confirming whether or not the computer 9-1 or the like has received the content distributed by the server 5 to the client-side computer 9-1 or the like. That is, the monitor packet 21
Has delivery confirmation information.

FIG. 5 is a diagram showing the structure of the monitor packet 21. The format version 23 indicates the format version of the monitor packet 21. The version number 25 is the version number of the monitor packet 21. The hash value 27 is a value obtained by multiplying the content of the monitor packet 21 by a hash function, and indicates whether or not the monitor packet 21 has been updated.

The response flag 29 takes a value of "1", "2" or "3", and "1" is a response packet 51 to only clients belonging to the group specified by the group ID 31.
Indicates a mode for requesting transmission of a message. That is, when the response flag 29 is “1”, the computer 9 specified by the group ID 31 returns a response packet 51.

When the response flag 29 is "2", this is a mode in which only the client specified by the client ID 33 (for example, the computer 9-1) is requested to transmit the response packet 51. The computer 9-1 having this client ID 33 , A response packet 51 is returned.
When the response flag 29 is "3", the client (for example, the computer 9-) has a value specified by the response probability 35.
1) Only the client that has won the probability calculation on the side returns the response packet 51.

For example, when the response flag 29 is "3",
Assuming that the computer 9-1 receives the monitor packet 21, the computer 9-1 reads the value of the response probability 35 and determines whether or not to win based on the probability. If the response probability 35 is, for example, 0.3, the computer 9-1 generates a random number or the like and wins with a probability of 0.3. When winning, the computer 9-1 returns the response packet 51, but when not winning, the computer 9-1 does not return the response packet 51.

The group ID 31 is the ID of the client group designated to return the response packet 51.
Number. The client ID 33 is the response packet 5
1 is the ID number of the client (for example, computer 9-1) specified to return 1. Response probability 35
Indicates the return probability of the response packet 51. For example, “0.
3 "and the like. When the response probability 35 is “0.3”, 30
The client returns a response packet 51 with a percentage probability.

The content ID 37 is the ID number of the content to be monitored. Content ID on server 5
The content is specified by 37. For example, by specifying the ID number of the content distributed one week ago,
The delivery of this content can be confirmed.

The reply address 39 is a response packet 51
Of the management terminal 7, for example. The reply destination port number 41 is the reply destination port number of the response packet 51.

In FIG. 2, the server 5 sends the monitor packet 21 sent from the management terminal 7 via the network 3 to the client computers 9-1, 9-2,
.. (Step 203). For example, computer 9-
1 receives the monitor packet 21 (step 204),
It is checked whether or not the monitor packet 21 has been updated (step 205), and if not, the monitor packet 21 is discarded (step 206). The update of the monitor packet 21 is performed by using the hash value 27
Can be determined by reading.

That is, the computer 9-1 stores the hash value 25 when the monitor packet 21 was previously received, and determines whether the hash value of the monitor packet 21 received this time is the same as the previous hash value. Then, if they are the same, the monitor packet 21 received this time is discarded because it has not been updated.

As described above, by checking whether or not the monitor packet 21 has been updated, the computer 9-
Each time the first side receives the monitor packet 21, it is possible to avoid returning the response packet 51, and it is possible to improve the communication efficiency of the transmission path.

When the monitor packet 21 has been updated, the computer 9-1 reads the response flag 29.
(Step 207) When the response flag 29 is “1”, if it is determined that the user belongs to a group that has an obligation to make a response (Step 208), the response packet 51 is generated (Step 212). For example, when the response flag 29 is “1”, the computer 9-1 reads the group ID 31 and determines whether or not the computer itself is a client belonging to the group ID 31. Generate

When the response flag 29 is "2", the computer 9-1 generates a response packet 51 (step 212) if it determines that the computer 9-1 is a client that has an obligation to respond to itself (step 209). . For example, when the response flag 29 is “2”, the computer 9-1 reads the client ID 33 and
Is the own ID number, a response packet 51 is generated. If the response flag 29 is "3", the computer 9-
1 calculates a probability (step 210), and generates a response packet 51 (step 212) when an obligation to respond is generated (step 211).

When the response flag 29 is "3", for example, the computer 9-1 reads the response probability 35. If the response probability is, for example, "0.3", the computer 9-1 generates a random number or the like for determining whether or not to win with the probability of "0.3", and determines whether or not the computer itself wins. . Then, in the case of a winning, an obligation to make a response occurs, so that a response packet 51 is generated.

FIG. 6 is a diagram showing the response packet 51. The client ID 53 is the ID number of the client that transmitted the response packet 51. That is, when the computer 9-1 transmits the response packet 51,
The client ID 53 is the ID number of the computer 9-1. The content ID 55 is the ID number of the content for which the delivery confirmation has been requested, and is the same as the content ID 37. The status 57 is the status of the content for which the delivery confirmation has been requested.

FIG. 7 shows the status 57, where "0" indicates "no reception information", "1" indicates "receiving", "2" indicates "reception completed",
“3” indicates “time-out error”. For example, when the computer 9-1 receives the monitor packet 21 and is requested to confirm delivery of the content specified by the content ID 37, and does not receive the content, the status 57 is set to “0”. . The status 57 is set to “1” when the reception is currently being performed, “2” when the reception is completed, and “3” when a timeout error occurs.

The reception percentage 59 indicates the reception percentage of the content requested to be acknowledged, and the reception bit rate 61 is the reception bit rate of the content requested to be acknowledged. That is, the computer 9-1 writes the ID numbers in the client ID 53 and the content ID 55, writes the values from “0” to “3” in the status 57, and writes predetermined values in the reception percentage 59 and the reception bit rate 61. The information is transmitted to the management terminal 7 (step 213). The reason why the address is transmitted to the management terminal 7 is that the address of the management terminal 7 is written in the return address of the monitor packet 21.

The management terminal 7 receives the response packet 51
(Step 214), the response packet 51 is transferred to the server 5 (Step 215). The server 5 receives the response packet 51 (step 216), and sends the plurality of computers 9
-1,... Based on a response packet 51 sent from
Generate and store delivery information and statistics.

The delivery information is information such as whether or not the computer 9 on a certain client has received a certain content. The statistical information is statistical information such as how many clients have successfully received a certain content. The server 5 sends the delivery information and the statistical information to the management terminal 7 (Step 218), and the management terminal 7 receives the delivery information and the statistical information and displays them on the screen (Step 219).

As described above, according to the present embodiment, by designating the group ID 31, the server 5 returns the response packet 51 only to a specific group constituted by a plurality of clients (computers 9). , It is possible to know whether or not the content has been delivered for a limited group, and it is possible to perform efficient delivery confirmation.

By designating the client ID 33, the server 5 can instruct a certain one of the plurality of clients to return the response packet 51, thereby suppressing the congestion of the network 3 and increasing the efficiency of the delivery. You can check. Since the server 5 can instruct the client to calculate the probability and return the response packet 51, the server 5 can suppress congestion in the network 3 and perform efficient delivery confirmation.

By specifying the content ID 37 to the client, the server 5 restricts the response packet 51 to a specific content out of a plurality of contents.
Can be ordered to reply. Client is server 5
, The status 57, the reception percentage 59, the reception bit rate 61, etc. are transmitted in the response packet 51, so that the server 5 can transmit a lot of information regarding the reception status.

The server 5 can specify the reply destination of the response packet 51 to the client side by specifying the reply destination address 39, the reply destination port number 41, and the like. 7 can return a response packet 51. Therefore, even in a communication system in which the client 5 cannot access the server 5 that sends out the monitor packet 21, such as a network using satellites, the delivery can be confirmed.

Since the monitor packet 21 has the hash value 27, it is possible to notify the client that the monitor packet 21 has been updated, and the client only needs to process only the latest monitor packet 21 at all times.
The processing efficiency is improved, and the load on the network 3 is reduced.
Response packet 5 returned from multiple clients
1 is statistically processed on the server 5 side and displayed on the management terminal 7, so that the server 5 can easily obtain statistical information on delivery confirmation.

[0044]

As described above in detail, according to the present invention, it is possible to confirm delivery while avoiding congestion and the like, use it for a satellite broadcast system, etc., and generate statistical information related to delivery confirmation. .

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a communication system 1.

FIG. 2 is a flowchart showing a schematic operation of the communication system 1;

FIG. 3 is a flowchart showing a schematic operation of the communication system 1;

FIG. 4 is a flowchart showing a schematic operation of the communication system 1;

FIG. 5 is a diagram showing a monitor packet 21;

FIG. 6 is a diagram showing a response packet 51;

FIG. 7 is a diagram showing a status 57;

[Explanation of symbols]

 1 Communication system 3 Network 5 Server 7 Management terminal 9 Computer 21 Monitor packet 57 Response packet

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Akiyuki Takano 6-35, Kita-Shinagawa, Shinagawa-ku, Tokyo Inside Sony Corporation (72) Inventor Hirohisa Tominaga 6-35, Kita-Shinagawa, Shinagawa-ku, Tokyo Sony Corporation F term (reference) 5C064 BA07 BB10 BC23 BD05 BD08 BD14

Claims (33)

[Claims] 1. A communication system in which a server and a terminal device are connected via a network, and the server distributes content to the terminal device in a multicast manner, wherein the server checks whether the content has been delivered. A communication system comprising: sending acknowledgment information to the terminal device; and receiving the acknowledgment information, the terminal device sends back response information. 2. The communication system according to claim 1, wherein the acknowledgment information specifies a group of terminal devices, and the terminal devices belonging to the specified group return response information. 3. The communication system according to claim 1, wherein a terminal device is designated by the delivery confirmation information, and the designated terminal device sends back response information. 4. The terminal device having received the acknowledgment information performs a probability calculation as to whether or not to respond, and when responding, sends back the response information.
A communication system as described. 5. The communication system according to claim 1, wherein the server designates a specific content among a plurality of contents and sends delivery confirmation information to the terminal device. 6. The terminal device, as the response information,
The communication system according to claim 5, wherein a reception state of the specific content is returned. 7. The terminal device, as the response information,
The communication system according to claim 5, wherein the reception bit rate of the specific content is transmitted back. 8. The terminal device, as the response information,
The communication system according to claim 5, wherein the received ratio of the specific content is returned. 9. The communication system according to claim 1, wherein the server designates a reply destination of the response information to the terminal device. 10. The communication system according to claim 9, wherein the reply destination is a management terminal device that manages the server. 11. The communication system according to claim 1, wherein the terminal device does not send response information when the delivery confirmation information is the same as the previously sent delivery confirmation information. 12. The server according to claim 1, wherein the server performs statistical processing of delivery confirmation based on the response information.
A communication system as described. 13. A terminal device connected to a network by a network,
What is claimed is: 1. A server for distributing content to a terminal device by a multicast method, wherein the server sends delivery confirmation information for confirming that the content has been received by the terminal device to the terminal device. 14. The server according to claim 13, wherein the acknowledgment information specifies a group of terminal devices, and the terminal devices belonging to the specified group return response information. 15. The server according to claim 13, wherein a terminal device is designated by the delivery confirmation information, and the designated terminal device sends back response information. 16. The server according to claim 13, wherein a reply destination of response information is designated to said terminal device. 17. The server according to claim 16, wherein the reply destination is a management terminal device that manages the server. 18. The server according to claim 13, wherein statistical processing of delivery confirmation is performed based on the response information. 19. A terminal device connected to a server via a network, the server receiving content distributed by the server in a multicast manner, and when receiving acknowledgment information for confirming whether the content has been delivered, responding information. A terminal device for sending back a message. 20. The terminal device according to claim 19, wherein a group of the terminal device is designated by the delivery confirmation information, and if the terminal device belongs to the designated group, response information is sent back. 21. The terminal device according to claim 19, wherein the terminal device is designated by the delivery confirmation information, and if the terminal device is the designated terminal device, response information is sent back. 22. The terminal device according to claim 19, wherein upon receiving the delivery confirmation information, a probability calculation as to whether or not to respond is performed, and when responding, the terminal device sends back the response information. 23. The method according to claim 1, wherein response information for a specific content is returned.
9. The terminal device according to 9. 24. The method according to claim 1, wherein the response information is a status of receiving the specific content.
9. The terminal device according to 9. 25. The terminal device according to claim 19, wherein a reception bit rate of the specific content is sent back as the response information. 26. The terminal device according to claim 19, wherein a received ratio of the specific content is returned as the response information. 27. The terminal device according to claim 19, wherein the response information is returned to a designated destination of the response information. 28. The terminal device according to claim 27, wherein the reply destination is a management terminal device that manages the server. 29. The terminal device according to claim 19, wherein the response information is not sent when the delivery confirmation information is the same as the previously sent delivery confirmation information. 30. A program for causing a computer to function as the server according to any one of claims 13 to 18. 31. A recording medium on which a program for causing a computer to function as the server according to claim 13 is recorded. A program for causing a computer to function as the terminal device according to any one of claims 19 to 29. 33. A recording medium on which a program for causing a computer to function as the terminal device according to claim 19 is recorded.