JPH11196088A - Multicast communication method and system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the transmission efficiency by excluding a terminal having a deteriorated reception state from members of multicast communication and interrupting the multicast communication, when a state of entire channels is deteriorated. SOLUTION: Upon the receipt of a re-transmission request frame from a reception terminal to a transmission terminal, a reception section 6 of the transmission terminal outputs the retransmission request frame received from an input terminal 5 is outputted to a transmission control section 7. Upon the receipt of the retransmission request frame, the transmission control section 7 counts number of times of re-transmission requests, discriminates the need for transmission control such as exclusion of a reception terminal sending the re-transmission request from members of multicast communication or interruption of the multicast communication, based on the counted value and outputs its discriminated result to a control frame generating section 8. When the transmission control is not conducted, a transmission sequence control section 4 transmits information frame requested by the retransmission request frame again.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multicast communication method, and more particularly, to a multicast communication system for improving communication efficiency by separating a receiving terminal having a poor reception state from multicast communication or interrupting a multicast communication having a poor line state. .

[0002]

2. Description of the Related Art In multicast communication and broadcast communication,
Even if the number of response frames is reduced, if even one terminal has a poor reception state, there is a problem that communication efficiency is deteriorated due to a retransmission frame to the terminal. On the other hand, an example of a method that does not affect other terminals even when there is a terminal having a poor reception state is disclosed in Japanese Patent Laid-Open No. 63-279633.
No., published in Japanese Patent Application Publication No.

FIG. 6 shows a method described in the above publication, in which a plurality of receiving terminals (1011-101) receiving a multicast information frame transmitted by a transmitting terminal 1000 are shown.
5, 1021-1025) are grouped (1010, 1
020). Representative terminals of each group (1012, 10
22) returns a retransmission request frame (1100, 1200) to the transmitting terminal 1000. The transmitting terminal 1000 measures the reception frequency of the retransmission request frame and the frequency of non-response, and separates the group having a high frequency to prevent a decrease in communication efficiency.

[0004]

As described above, in the case where management is performed on a group basis, if at least one terminal in the group has a poor reception state, other terminals in the same group have good reception states. Even the terminals are disconnected, and in the management for each group, a terminal having a poor reception state may affect other terminals having a good reception state.

[0005] In addition, when multicast or broadcast is performed in a poor line condition, the same information is transmitted a plurality of times for one information frame in order to transmit until all the receiving terminals succeed in reception. It may be necessary to send a retransmission frame. In such a case,
It is more efficient to interrupt the communication, open a line for another communication, and start the communication again when the line condition becomes good. Therefore, it is necessary to provide a function for interrupting communication when the line condition is poor.

[0006] It is an object of the present invention to improve the overall communication efficiency by separating terminals having poor reception conditions from multicast communication.

Another object of the present invention is to temporarily stop multicast communication when the line condition is poor, reduce inefficient communication as multicast, and open a communication line for other communication. The purpose is to increase communication efficiency.

[0008]

According to the present invention, there is provided a multicast communication method, wherein a transmitting terminal and a plurality of receiving terminals are connected by a communication line capable of performing multicast communication, the transmitting terminal divides transmission data into information frames, In multicast communication for transmitting to a multicast group including a plurality of receiving terminals as members, the transmitting terminal monitors the number of retransmission request frames from the receiving terminal, detects a terminal having a poor reception state, and removes the terminal from members of the multicast communication. Alternatively, when the overall line condition is poor, control for temporarily stopping multicast communication is performed.

In the multicast communication system according to the present invention, a transmitting terminal and a plurality of receiving terminals are connected by a communication line capable of performing multicast communication, the transmitting terminal divides transmission data into information frames, and divides the plurality of receiving terminals into members. In the multicast communication for transmitting to the multicast group, the transmitting terminal controls the transmission of the information frame based on the number of the retransmission request frames and receiving means for receiving retransmission request frames from the plurality of receiving terminals. Transmission control means.

In the multicast communication system according to the present invention, the transmitting terminal includes, as the transmission control means, address extracting means for extracting a source address of the retransmission request frame from the retransmission request frame; Originally, frame counting means for counting the number of retransmission request frames for each of the plurality of receiving terminals, retransmission request frame number comparison means for detecting that the number of retransmission request frames is greater than or equal to a predetermined value, Receiving terminal deletion means for, when detecting that the number of retransmission request frames is equal to or greater than a predetermined value, removing a reception terminal having the number of retransmission request frames equal to or greater than a predetermined value from members of the multicast group. It is characterized by having.

[0011] Further, the other transmission terminal in the multicast communication system of the present invention, as the transmission control means,
Frame counting means for counting the number of retransmission request frames, retransmission request frame number comparison means for detecting that the number of retransmission request frames is greater than or equal to a predetermined value,
A communication interrupting unit for interrupting the multicast communication when detecting that the number of retransmission request frames is equal to or greater than a predetermined value.

[0012] Further, the other transmitting terminal in the multicast communication system of the present invention, as the transmission control means,
Address extracting means for extracting a source address of the retransmission request frame from the retransmission request frame; and a first frame for counting the number of retransmission request frames for each of the plurality of receiving terminals based on the extracted address. Counting means; second frame counting means for summing the number of retransmission request frames of receiving terminals currently included in the multicast group member among the plurality of receiving terminals;
A second frame number comparing means for detecting that the value counted by the frame counting means is equal to or greater than a predetermined second set value; and When it is detected that the value is equal to or more than a predetermined second set value, the communication interrupting means for interrupting the multicast communication and the value counted by the first frame counting means are equal to or more than a predetermined first set value. A first frame number comparing means for detecting that the number of retransmission request frames is equal to or greater than a predetermined first set value. Receiving terminal deleting means for removing, from the members of the multicast group, receiving terminals which have become equal to or greater than the first set value in the frame number comparing means. And it features.

Further, the other transmitting terminal in the multicast communication system of the present invention further determines the second set value based on the number of the receiving terminals and the number of retransmission request frames allowed per one receiving terminal. It is characterized by comprising a set value calculating means.

In the present invention, the transmitting terminal counts the number of retransmission request frames from the receiving terminal for each receiving terminal.
When it is detected that the counted value is equal to or larger than a predetermined value, the receiving terminal is regarded as a terminal having a poor receiving condition, and is removed from the members of the multicast group. As a result, the amount of retransmission frames during the multicast communication is reduced, so that the multicast communication is completed in a short time and the communication efficiency is improved.

The transmitting terminal counts the number of retransmission request frames from all the receiving terminals, and if it detects that the counted value is equal to or larger than a predetermined value, it considers that the state of the communication line is bad. Interrupt the multicast communication. As a result, the vacant line can be used for other communication, so that communication efficiency can be improved.

For example, k is the number of information frames that the transmitting terminal must transmit, p is the frame error rate of one terminal having a poor reception condition, n is the number of transmission frames including retransmitted frames, If the maximum value of the number of retransmission requests to be allowed is m, the unlimited method of continuing transmission until all terminals succeed in reception without disconnecting the terminal, and the method of the present invention of disconnecting a terminal with poor reception status, respectively , The average traffic G1 of the unlimited method is obtained by the following equation (1), and the average traffic G2 of the method of the present invention is obtained by the following equation (2).

[0017]

(Equation 1) Here, when the average traffic when p = 0.2, k = 100, and m is up to 20% of the number of information frames is obtained from Expressions (1) and (2), G1 = 125. , G2 = about 110, and it can be seen that the average traffic of G1 is reduced by about 15 frames. Therefore, it can be seen that the method of the present invention has better communication efficiency than the unlimited method.

[0018]

Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a configuration example of a transmission terminal for transmitting an information frame of multicast communication according to the present invention.

In FIG. 1, a transmitting terminal receives an input terminal 1 to which a message to be multicast-transmitted is input, divides a transmission message from the input terminal 1 into frames of a fixed-length bit string, and adds a transmission sequence number to each frame. An information frame creating unit 2 for creating an information frame, a buffer 3 for storing the information frame created by the information frame creating unit 2, an information frame stored in the buffer 3, and a control frame creating unit to be described later. Transmission order control unit 4 for controlling the transmission order of the control frames, and transmitting the transmission frame input from the transmission order control unit 4 to an output terminal 1
A transmission system comprising a transmission unit 9 for outputting a retransmission request frame from the receiving terminal to the input terminal 5 and a retransmission request from the input terminal 5 to which the retransmission request frame is input when a retransmission request frame is received from the receiving terminal to the transmitting terminal. A receiving unit 6 for receiving a frame, counting the number of retransmission request frames input from the receiving unit 6,
The transmission control unit 7 controls transmission of information frames and control frames based on the counted values, and a control frame generation unit 8 generates a control frame according to a transmission request from the transmission control unit 7 and outputs the control frame to the transmission order control unit 4. Receiving system.

Next, the operation of the transmitting terminal shown in FIG. 1 will be described. When a transmission message is input from the input terminal 1, the information frame creation unit 2 divides the message into bit strings of a certain length,
An information frame is created by adding a transmission order number to each divided frame, and the created information frames are stored in the buffer 3. After storing the plurality of information frames in the buffer 3, the information frame creation unit 2 outputs a transmission order control unit activation pulse to the transmission order control unit 4.

The buffer 3 stores the information frame when the information frame is input from the information frame generating unit 2, and stores the buffer when the buffer clear pulse is input from the control frame generating unit 8. Erase all frames. When a signal including a sequence number is input from the transmission sequence control unit 4, the buffer 3 outputs an information frame to which the sequence number is added to the transmission sequence control unit 4.

The transmission sequence control unit 4 holds a sequence number counter, starts operation when a transmission sequence control unit activation pulse is input from the information frame creation unit 2, and sets the sequence number counter to an initial value of 1. Then, a signal including the sequence number is output to the buffer 3. The transmission order control unit 4
Outputs a control frame to the transmission unit 9 when a frame is input from the control frame creation unit 8, and outputs a signal including the sequence number when a transmission sequence number is input from the transmission control unit 7. Output to buffer 3.

Further, when there is no input from the control frame creation unit 8 and the transmission control unit 7 and there is no frame to be output to the transmission unit 9, the transmission order control unit 4 counts up the sequence number counter, A signal including a number is output to the buffer 3. When a frame is input from the buffer 3, the transmission order controller 4 outputs the frame to the transmitter 9. When a frame is input from the transmission order control unit 4, the transmission unit 9 outputs the frame to the output terminal 10.

Next, the operation of the receiving system will be described. Receiver 6
Selects a retransmission request frame from the reception frames input from the input terminal 5 and outputs the frame to the transmission control unit 7. When the retransmission request frame is input from the reception unit 6, the transmission control unit 7 counts the number of retransmission requests. If it is determined based on the counted value that transmission control (for example, member deletion or transmission interruption) is to be performed, a signal including the content of the determination is output to the control frame creation unit 8. The transmission control unit 7
When it is determined that the information frame for which retransmission has been requested is retransmitted, the transmission order number included in the retransmission request frame is output to the transmission order control unit 4.

When a signal containing the judgment content is input from the transmission control unit 7, the control frame creation unit 8 creates a control frame based on the judgment and outputs the created control frame to the transmission order control unit 4. The control frame creation unit 8
When a signal including a communication interruption is input from the transmission control unit 7, a control frame for communication interruption is created, the created control frame is output to the transmission order control unit 4, and the buffer is stored in the buffer 3. Outputs a clear pulse.

FIG. 2 is a system diagram showing an embodiment of the transmission control section 7 in FIG. Hereinafter, the configuration and operation of the transmission control unit 7 will be described with reference to FIG. The transmission control unit 7 includes an input terminal 70 from the reception unit 6, an address extraction unit 7
1, buffer 72, frame counting unit 73, host list management unit 74, frame number comparison unit 75, retransmission control unit 76,
Output terminal 7 to member deletion unit 77, transmission order control unit 4
8, and an output terminal 79 to the control frame creation section 8.

When a retransmission request frame is input from the receiving unit 6 to the input terminal 70, the retransmission request frame is transferred to the address extraction unit 71 and the buffer 72. The address extracting unit 71 extracts the address (source address) of the receiving terminal that has transmitted the retransmission request frame from the input retransmission request frame, and outputs the source address to the frame counting unit 73. When the transmission source address is input from the address extraction unit 71, the frame counting unit 73 outputs the transmission source address to the host list management unit 74.

FIG. 3 shows a configuration example of the host list held by the host list management unit 74. The host list has an address area 741 equal to the number of receiving terminals to which an information frame must be transmitted, a status area 742 equal in number to the receiving terminals, and a retransmission request count area 743 equal in number to the receiving terminals. The address area 741-i stores the address of each receiving terminal to which the information frame has to be transmitted. When the receiving terminal corresponding to the address stored in the address area 741-i is a member of the multicast group, “1” is stored in the state area 742-i, and is stored in the address area 741-i. If the receiving terminal corresponding to the given address is in a communication disabled state or a receiving terminal that has been removed from a member of the multicast group, “0” is stored. State area 742-i
Has an initial value of 1. The retransmission request count field 743-i is
The number of retransmission requests requested by the receiving terminal corresponding to the address stored in the address area 741-i is stored. The retransmission request count area 743-i has an initial value of 0.

Referring again to FIG. 2, the frame counting section 73
When the status of the terminal corresponding to the source address output to the host list management unit 74 and the number of retransmission requests are input from the host list management unit 74, the status of the terminal becomes “1”.
In the case of (1), the number of retransmission requests is counted up, and the counted number of retransmission requests and the source address are output to the frame number comparing section 75. When the terminal state is “0”, a buffer clear pulse is output to the buffer 72.

When the number of retransmission requests and the source address are input from frame counting section 73, frame number comparing section 75 compares the number of retransmission requests with a predetermined value.
As a result of the comparison, if the number of retransmission requests is smaller, a change request signal including the source address and the number of retransmission requests is output to the host list management unit 74, and the retransmission control unit 7
6 to output a retransmission request pulse. As a result of the comparison, when the number of retransmission requests is larger, the host list management unit 74
A change request signal including the source address and the state “0” is output to the member deletion unit 77, and the truncated buffer clear pulse is output to the buffer 7.
Output to 2.

The retransmission control unit 76 includes a frame number comparing unit 75
When a retransmission request pulse is input from the controller 72, a sequence number request pulse is output to the buffer 72. When the retransmission request frame is input from the buffer 72, the retransmission control unit 76 extracts the sequence number of the information frame requested to be retransmitted from the retransmission request frame, and outputs the sequence number to the transmission order control unit 4. Output to terminal 78. When the transmission source address is input from the frame number comparison unit 75, the member deletion unit 77
A member deletion request signal including the transmission source address is output to an output terminal 79 to the control frame creation unit 8.

When the retransmission request frame from the receiving unit 6 is input from the input terminal 70, the buffer 72 stores the retransmission request frame. The buffer 72 erases the stored retransmission request frame when the buffer clear pulse is input from the frame counting unit 73 and when the truncated buffer clear pulse is input from the frame number comparing unit 75. Further, when the sequence number request pulse is input from the retransmission control unit 76, the buffer 72
It outputs the stored retransmission request frame to retransmission control section 76 and deletes the stored retransmission request frame.

When an address is input from the frame counting section 73, the host list management section 74 outputs a state corresponding to the address and the number of retransmission requests to the frame counting section.
Further, the host list management unit 74 includes the frame number comparison unit 7
5, when the change request signal including the address and the number of retransmission requests is input, the number of retransmission requests corresponding to the address is changed to the input number of retransmission requests and held. When a change request signal including “0” is input, the state corresponding to the address is changed to “0” and held.

FIG. 4 is a system diagram showing an embodiment of the transmission control unit 7 in FIG. In FIG. 4, the transmission control unit 7 includes an input terminal 70 from the reception unit 6 and a buffer 7.
2 ′, frame counting section 73 ′, frame number comparing section 7
5 ', a retransmission control unit 76, an output terminal 78 to the transmission order control unit 4, and an output terminal 79 to the control frame creation unit 8.

The frame counting section 73 'holds the number of retransmission requests, and when a retransmission request frame is input from the input terminal 70 from the receiving section, counts up the number of retransmission requests and displays the counted value. The number of retransmission requests is held, and the new number of retransmission requests is output to the frame number comparison unit 75 '. When the number of retransmission requests is input from the frame counting unit 73 ', the frame number comparison unit 75' compares the input number of retransmission requests with a predetermined value.
As a result of the comparison, if the number of retransmission requests is smaller, a retransmission request pulse is output to retransmission control section 76. If the result of comparison is that the number of retransmission requests is larger, a buffer clear pulse is sent to buffer 72 '. At the same time, it outputs a communication interruption request signal to an output terminal 79 to the control frame creation unit 8.

When a retransmission request frame from the receiving unit 6 is input from the input terminal 70, the buffer 72 'stores the retransmission request frame. When the buffer clear pulse is input from the frame number comparison unit 75 ', the buffer 72' deletes the stored retransmission request frame. Further, when the sequence number request pulse is input from the retransmission control unit 76, the buffer 72 'outputs the stored retransmission request frame to the retransmission control unit 76, and deletes the stored retransmission request frame. The retransmission control unit 76 performs the same operation as the retransmission control unit in FIG. 3, and thus the description is omitted here.

FIG. 5 is a system diagram showing still another embodiment of the transmission control section 7 in FIG. In FIG.
The transmission control unit 7 includes an input terminal 70 from the reception unit 6, an address extraction unit 71, a first frame counting unit 80, a second frame counting unit 81, a first frame number comparison unit 83, a second
, A retransmission control unit 76, a member deletion unit 77, a host list management unit 86, a buffer 85, an output control unit 84, an output terminal 78 to the transmission order control unit 4, and an output to the control frame creation unit 8. And a terminal 79.

The retransmission request frame from the receiving unit 6 input to the input terminal 70 is input to the address extracting unit 71 and the buffer 85. The address extraction unit 71 extracts, from the input retransmission request frame, the address (source address) of the receiving terminal that has transmitted the retransmission request frame,
The address is output to first frame counting section 80.

When the transmission source address is input from the address extraction unit 71, the first frame counting unit 80 outputs the transmission source address to the host list management unit 86. When the state of the receiving terminal corresponding to the source address output to the host list management unit 86 and the number of retransmission requests are input from the host list management unit 86, the first frame counting unit 80 changes the terminal state to “1”. "", The number of retransmission requests is counted up, and the counted up number of retransmission requests and the source address are output to the buffer 85. When the state of the receiving terminal is “0”, an invalid buffer clear pulse is output to the buffer 85.

When the number of retransmission requests and the source address are input from first frame counting section 80, second frame counting section 81 outputs a retransmission request number request pulse to host list management section 86. Further, the second frame counting unit 81
When the number of retransmission requests of all receiving terminals that are members of the multicast communication and the number of receiving terminals that are members are input from the host list management unit 86, the input number of retransmission requests is totaled, and the first frame counting unit The number of retransmission requests, the source address, the total number of retransmission requests counted by the second frame counting unit 81, and the number of receiving terminals that are members input from the unit 80 are output to the second frame number comparing unit 82.

The second frame number comparing section 82 calculates the total number of retransmission requests counted by the first frame counting section 80, the source address, and the number of retransmission requests counted by the second frame counting section 81, When the number of receiving terminals as members is input from the second frame counting unit 81, the product of the predetermined number of retransmission requests allowed per receiving terminal and the number of receiving terminals as members is calculated as the second product. Store as setting value.

Next, the total number of retransmission requests counted by the second frame counting section 81 is compared with a second set value. As a result of the comparison, if the total number of retransmission requests is smaller, the number of retransmission requests and the source address counted by the first frame counting unit 80 are output to the first frame number comparison unit 83, and the comparison result , If the total number of retransmission requests is greater,
It outputs an interruption buffer clear pulse to the buffer 85 and outputs a communication interruption request signal to the output control unit 84.

When the number of retransmission requests and the source address are input from second frame number comparing section 82, first frame number comparing section 83 compares the number of retransmission requests with a predetermined value. As a result of the comparison, if the number of retransmission requests is smaller, a change request signal including the source address and the number of retransmission requests is output to the host list management unit 86;
The retransmission control unit 76 outputs a retransmission request pulse. As a result of the comparison, when the number of retransmission requests is larger, a change request signal including the transmission source address and the state “0” is output to the host list management unit 86, and the transmission source address is transmitted to the member deletion unit 77. The buffer 85 outputs a truncated buffer clear pulse to the buffer 85.

When a retransmission request pulse is input from the first frame number comparison unit 83, the retransmission control unit 76
The sequence number request pulse is output to 5. Retransmission control unit 76
Receives the retransmission request frame from the buffer 85, extracts the sequence number of the information frame requested to be retransmitted from the retransmission request frame, and outputs the sequence number to the output terminal 78 to the transmission order control unit. . Member deletion unit 77
When the source address is input from the first frame number comparison unit 83, the unit outputs a member deletion request signal including the address to the output control unit 84.

When the retransmission request frame from the receiving unit 6 is input from the input terminal 70, the buffer 85 stores the retransmission request frame. Also, the buffer 85 receives the invalid buffer clear pulse from the first frame counting section 80, the interrupt buffer clear pulse from the second frame number comparing section 82, and the first frame number. When the truncation buffer clear pulse is input from the comparison unit 83, the stored retransmission request frame is deleted. Further, the buffer 85 includes a retransmission control unit 76
When the sequence number request pulse is input from the controller, the stored retransmission request frame is output to the retransmission control unit 76, and the stored retransmission request frame is deleted.

When an address is input from the first frame counting section 80, the host list management section 86 outputs a state corresponding to the address and the number of retransmission requests to the first frame counting section 80. Further, when the retransmission request count request pulse is input from the second frame counting unit 81, the host list management unit 86 determines the number of retransmission requests of all the receiving terminals that are members of the multicast communication and the number of receiving terminals that are members. 2 to the frame counting unit 81. Further, the host list management unit 86 includes a first frame number comparison unit 83
When a change request signal is input from, if the change request signal includes an address and the number of retransmission requests, the number of retransmission requests corresponding to the address is changed to the input value,
If the change request signal includes the address and the state “0”, the state corresponding to the address is changed to “0” and held.

When a member deletion request signal is input from the member deletion unit 77, the output control unit 84 outputs the member deletion request signal to the output terminal 79 to the control frame creation unit, and outputs the second frame number comparison unit. When a communication interruption request signal is input from 82, the communication interruption request signal is output to an output terminal 79 for the control frame creation unit.

[0048]

According to the present invention, multicast communication is performed only in a good communication state by disconnecting a terminal having a bad reception state or interrupting a multicast communication having a bad line state. Failure, retransmission request frames and retransmission frames can be reduced, and communication efficiency can be improved.

[0049]

[Brief description of the drawings]

FIG. 1 is a system diagram showing an embodiment of a multicast frame transmitting terminal according to the present invention.

FIG. 2 is a system diagram showing an embodiment of a transmission control unit in the transmission terminal of FIG.

FIG. 3 is a diagram illustrating a configuration of a host list managed by a host list management unit in the transmission terminal of FIG. 1;

FIG. 4 is a system diagram showing a second embodiment of the transmission control unit in the transmission terminal of FIG. 1;

FIG. 5 is a system diagram showing a third embodiment of the transmission control unit in the transmission terminal of FIG. 1;

FIG. 6 is a configuration diagram of a conventional multicast in which a plurality of receiving terminals are grouped.

[Explanation of symbols]

1, 5 input terminal 2 information frame creation unit 3, 72, 72 ', 85 buffer 4 transmission order control unit 6 reception unit 7 transmission control unit 8 control frame creation unit 9 transmission unit 10 output terminal 70 input terminal from reception unit 71 Address extraction unit 73, 73 'Frame counting unit 74, 86 Host list management unit 75, 75' Frame number comparison unit 76 Retransmission control unit 77 Member deletion unit 78 Output terminal to transmission order control unit 79 Output to control frame creation unit Terminal 741-n Address area 742-n Status area 743-n Retransmission request count area 80 First frame counting section 81 Second frame counting section 82 Second frame number comparing section 83 First frame number comparing section 84 Output Control unit 1000 transmitting terminal 1010 group A 1020 group B 1011, 1012, 1013, 1014, 1015,
1021, 1022, 1023, 1024, 1025
Receiving terminal 1100, 1200 Retransmission request frame 1

Claims (9)

[Claims] 1. A transmitting terminal and a plurality of receiving terminals are connected by a communication line capable of performing multicast communication. The transmitting terminal divides transmission data into information frames and transmits the information frame to a multicast group including the plurality of receiving terminals as members. In the multicast communication, the transmitting terminal controls transmission of an information frame to each of the receiving terminals based on the number of retransmission request frames received from the plurality of receiving terminals. 2. The multicast communication method according to claim 1, wherein the transmitting terminal deletes a receiving terminal whose number of the retransmission request frames exceeds a first set value from members of the multicast group. . 3. The transmission terminal, when detecting that the total number of retransmission request frames received from each of the reception terminals exceeds a second set value, interrupts the multicast communication. The multicast communication method according to claim 1. 4. The transmitting terminal deletes, from the members of the multicast group, receiving terminals in which the number of the retransmission request frames exceeds a first set value, and deletes the retransmission request frames received from the respective receiving terminals. 2. The multicast communication method according to claim 1, wherein the multicast communication is interrupted when the sum of the numbers exceeds a second set value. 5. A transmitting terminal and a plurality of receiving terminals are connected by a communication line capable of performing multicast communication, the transmitting terminal divides transmission data into information frames, and transmits the information frames to a multicast group including the plurality of receiving terminals as members. In the multicast communication, the transmitting terminal comprises: receiving means for receiving retransmission request frames from the plurality of receiving terminals; and transmission control means for controlling transmission of the information frame based on the number of the retransmission request frames. A multicast communication method characterized by: 6. The transmission control unit includes: an address extraction unit for extracting a source address of the retransmission request frame from the retransmission request frame; and a retransmission unit for each of the plurality of receiving terminals based on the extracted address. Frame counting means for counting the number of request frames, retransmission request frame number comparison means for detecting that the number of retransmission request frames is greater than or equal to a predetermined value, and wherein the number of retransmission request frames is greater than or equal to a predetermined value 6. A receiving terminal deleting unit for removing a receiving terminal whose number of retransmission request frames has become a predetermined value or more from a member of the multicast group when detecting that the number of retransmission request frames has exceeded a predetermined value. Multicast communication method. 7. The transmission control unit includes: a frame counting unit that counts the number of the retransmission request frames; a retransmission request frame number comparison unit that detects that the number of the retransmission request frames is equal to or greater than a predetermined value; 6. The multicast communication system according to claim 5, further comprising a communication interruption unit for interrupting the multicast communication when detecting that the number of retransmission request frames is equal to or greater than a predetermined value. 8. The transmission control unit includes: an address extraction unit that extracts a source address of the retransmission request frame from the retransmission request frame; and a retransmission unit for each of the plurality of receiving terminals based on the extracted address. First frame counting means for counting the number of request frames, and second frame counting means for summing the number of retransmission request frames of receiving terminals among the plurality of receiving terminals which are currently included in members of the multicast group And second frame number comparing means for detecting that the value counted by the second frame counting means is equal to or greater than a predetermined second set value;
Communication interruption means for interrupting multicast communication when the second frame number comparison means detects that the number of retransmission request frames is equal to or greater than a second predetermined value; and first frame counting means. A first frame number comparing means for detecting that the value counted in step 1 is equal to or greater than a predetermined first set value, and the first frame number comparing means in which the retransmission request frame number is equal to or smaller than a predetermined first set value. A receiving terminal deleting unit that removes, from the members of the multicast group, receiving terminals that have become equal to or larger than the first set value in the first frame number comparing unit when detecting that the number is equal to or more than the set value. The multicast communication method according to claim 5, wherein 9. The apparatus according to claim 5, further comprising: a set value calculating unit that determines the second set value based on the number of the receiving terminals and the number of retransmission request frames allowed per one receiving terminal. The described multicast communication method.