JP2000106559A - Broadcast communication method and device, and recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To keep a satisfactory state of communication and to prevent the lowering of throughput in the broadcast communication by transmitting the retransmission request data from a communication device of the receiving side if the transmission data having the same information are not received even once in a normal state by the communication device of the receiving side. SOLUTION: A retransmission routine is started (S104), a retransmission interval t1 that is previously set is calculated as a time interval when the same divided data are retransmitted (S105), the transmission data are produced to write the same divided data in the next transmitting buffer (S106) and the contents of the transmitting buffer are transmitted (S107). In these steps, data 1, i.e., the 1st divided data, are written in the 2nd transmitting buffer and then sent to plural receiving sides as packets. The retransmission request data are transmitted from a communication device of the receiving side to retransmit the transmission data if the transmission data having the same information are not received even once in a normal state by the transmission device of the receiving side.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of communication apparatuses connected by a communication line, for example, a plurality of computers.
Or a broadcast communication method for transmitting and receiving data between a server computer (hereinafter referred to as a server) and a plurality of printers;
The present invention relates to a broadcast device for implementing the method and a recording medium on which a computer program for broadcast is recorded.

[0002]

2. Description of the Related Art A plurality of communication devices such as a computer and a printer are connected to a communication line, and the same data is simultaneously transmitted from one communication device on a transmission side to a plurality of communication devices on a reception side. Communication methods used for broadcast communication (broadcast messages) can be classified into two types. The first communication method is a communication method of only transmitting data from a transmission side (server) to a reception side (printer), and the second communication method is a communication method of transmitting data to a receiving side (printer) in order to guarantee transmitted data. ) Is a communication method for performing processing of a recovery transmission request for requesting data transmission again from the receiving side (printer) when the received data has an abnormality such as missing data.

[0003]

In the first conventional communication method, there is no guarantee at the time of data abnormality, so that there is a problem that sufficient reliability for data communication cannot be obtained.

Further, in the second conventional communication method, for example, when the same data is transmitted to printers installed in each room at the same time, if an error such as data loss occurs on a large number of receivers (printers), A recovery transmission request is sent from each receiving side (printer) to all communication devices, and the transmitting side (server) sends a recovery transmission request from each receiving side (printer) to all communication devices. On the other hand, retransmission data is transmitted as recovery transmission.
For this reason, there is a problem that a broadcast storm occurs in which traffic on a communication line increases sharply, so that normal communication cannot be performed, and a problem that overall throughput is reduced due to a load on a transmission side (server). In particular, when transmitting large-sized data such as an image, these problems appear remarkably.

The present invention has been made in view of such circumstances, and a first object is to generate a broadcast storm by transmitting a predetermined number of transmission data having the same information at predetermined time intervals. Provided is a broadcast method for suppressing communication, maintaining a good communication state, and preventing a decrease in throughput, a broadcast apparatus for performing the method, and a recording medium on which a computer program for broadcast is recorded. Is to do.

A second object is to extend the time interval for transmitting data for transmission when a recovery transmission request is received on the transmission side, and to further extend the time interval for receiving many recovery transmission requests and transmitting data. When the communication time becomes longer than a preset upper limit time, a broadcast communication method that maintains a good communication state by giving priority to securing a throughput by not transmitting a recovery transmission request and implements the method. And a recording medium in which a computer program for broadcasting is recorded.

A third object is to check the reception status of a recovery transmission request on the transmission side, adjust the number of transmission data items having the same information, further receive a large number of recovery transmission requests, and transmit the data having the same information. When the number of data to be transmitted becomes larger than a preset upper limit number, by not transmitting a recovery transmission request, a good communication state is maintained, and a broadcast communication method that prioritizes securing of a throughput, It is an object of the present invention to provide a broadcast device for performing the method and a recording medium on which a computer program for the broadcast is recorded.

A fourth object is that when the number of transmissions reaches the reference number, the receiving side does not request recovery transmission of transmission data received before that, thereby giving priority to securing the throughput. An object of the present invention is to provide a broadcast communication method, a broadcast communication device for performing the method, and a recording medium on which a computer program for broadcast is recorded.

A fifth object is to recover the same transmission data when the second receiving communication device receives a recovery transmission request transmitted from the first receiving communication device to a plurality of communication devices. Provided is a broadcast communication method for suppressing occurrence of a broadcast storm by not requiring transmission, a broadcast communication device for performing the method, and a recording medium on which a computer program of the broadcast is recorded. It is in.

[0010]

According to a first aspect of the present invention, there is provided a broadcast communication method in which data having the same content is transmitted from one communication device on the transmission side to a plurality of communication devices on the reception side, and the communication method on the reception side is transmitted. In a broadcast communication method of detecting whether or not data has been normally received by a device and transmitting data requested to be retransmitted from a communication device on the receiving side when there is data that has not been normally received. The transmission data having the same information is transmitted a plurality of times at predetermined time intervals from the communication device on the receiving side to the communication device on the receiving side, and the transmission data having the same information can be normally received at least once by the communication device on the receiving side. If not, retransmission request data for requesting retransmission is transmitted from the communication device on the receiving side.

A broadcast communication method according to a second invention is characterized in that, in the first invention, when the communication device on the transmission side receives the retransmission request data, a time interval for transmitting the transmission data is extended. I do.

The broadcast method according to a third aspect of the present invention is the broadcast communication method according to the second aspect, wherein the time interval for transmitting the transmission data is longer than a predetermined time by extending the time interval for transmitting the transmission data. The transmission side notifies the reception side not to transmit the retransmission request data.

[0013] The broadcast communication method according to the fourth invention is the broadcast communication method according to any one of the first invention to the third invention, wherein the transmitting-side communication apparatus transmits the transmission data having the same information when receiving the retransmission request data. It is characterized in that the number of transmissions is increased.

The broadcast communication method according to a fifth aspect of the present invention is the broadcast communication method according to the fourth aspect, wherein the number of times of transmitting the transmission data is increased by increasing the number of times of transmitting the transmission data. The transmission side notifies the reception side not to transmit the retransmission request data.

[0015] The broadcast communication method according to the sixth invention is the broadcast communication method according to any one of the first invention to the fifth invention, wherein the communication device on the transmitting side measures time from a predetermined time, and measures the measured time according to a predetermined standard. When the retransmission request data is not received before the time is reached, the number of times of transmitting the transmission data having the same information is reduced.

A broadcast communication method according to a seventh invention is the broadcast communication method according to any one of the first invention to the sixth invention, wherein the number of times data is transmitted by the communication device on the transmission side is counted, and the number of transmissions is a predetermined reference number. , The transmission side notifies the reception side not to transmit the retransmission request data.

A broadcast communication method according to an eighth invention is the broadcast communication method according to any one of the first invention to the seventh invention, wherein retransmission request data is transmitted from the first communication device on the receiving side to a plurality of communication devices. When the second communication device on the receiving side receives the retransmission request data transmitted from the first communication device on the receiving side,
It is characterized in that the first receiving side communication device does not transmit retransmission request data for the same transmission data as the transmission data requesting retransmission.

The broadcast communication apparatus according to the ninth invention transmits the same data to a plurality of communication apparatuses on the receiving side, and detects whether or not the data has been normally received by the communication apparatuses on the receiving side. When there is data that has not been received, a broadcast communication device that receives retransmission request data transmitted from the communication device on the receiving side and requests retransmission is transmitted to the communication device on the receiving side at a predetermined time interval. And means for transmitting transmission data having the same information a plurality of times.

A broadcast apparatus according to a tenth aspect is the broadcast apparatus according to the ninth aspect, further comprising means for extending a time interval for transmitting the transmission data when the retransmission request data is received.

[0021] The broadcast communication apparatus according to the eleventh aspect of the present invention comprises the tenth aspect.
In the present invention, by extending the time interval for transmitting the transmission data, when the time interval for transmitting the transmission data becomes longer than a preset time, the receiving side is notified not to transmit the retransmission request data. It is characterized by comprising means.

According to a twelfth aspect of the present invention, in the broadcast communication apparatus according to any of the ninth to eleventh aspects, when the retransmission request data is received, the number of times of transmitting the transmission data having the same information is increased. It is characterized by having.

The broadcast communication apparatus according to the thirteenth aspect of the present invention comprises
In the present invention, by increasing the number of times transmission data is transmitted, when the number of times transmission data is transmitted exceeds a preset number, means for notifying the receiving side not to transmit retransmission request data is provided. It is characterized by having.

According to a fourteenth aspect of the present invention, in the broadcast communication apparatus according to any of the ninth to thirteenth aspects, there is provided a means for measuring time from a predetermined point in time, and a means for retrying until the measured time reaches a predetermined reference time. Means for reducing the number of times transmission data having the same information is transmitted when the transmission request data is not received.

A broadcast communication apparatus according to a fifteenth aspect of the present invention is the broadcast communication apparatus according to any one of the ninth to fourteenth aspects, further comprising: means for counting the number of times data has been transmitted; Means for notifying the receiving side not to transmit the retransmission request data.

A broadcast communication apparatus according to a sixteenth aspect of the present invention detects whether or not transmission data transmitted from one communication apparatus on the transmission side to a plurality of communication apparatuses on the reception side has been normally received. When there is transmission data that has not been received, the broadcast device that transmits the retransmission request data requesting that it be transmitted again receives transmission data with the same information multiple times and successfully receives it once Means for transmitting retransmission request data to a plurality of communication devices if the retransmission request data transmitted from the receiving communication device has not been received; Means for preventing transmission of retransmission request data for the same transmission data as the transmitted data.

According to a seventeenth aspect of the present invention, a computer readable recording medium allows a computer to transmit data of the same content to a plurality of receiving communication devices and receive the data normally by the receiving communication device. A computer that has recorded a program for detecting whether or not there is data that has not been received normally and that receives retransmission request data transmitted from the communication device on the receiving side and requesting retransmission. In a readable recording medium, the present invention is characterized by including program code means for causing a computer to transmit transmission data having the same information a plurality of times at predetermined time intervals to a destination communication device.

A computer-readable recording medium according to an eighteenth aspect is the computer-readable recording medium according to the seventeenth aspect, wherein the computer includes means for extending a time interval for transmitting the transmission data when the retransmission request data is received. It is characterized by.

The computer-readable recording medium according to the nineteenth invention is the computer-readable recording medium according to the eighteenth invention, wherein the time interval for transmitting the transmission data is set in advance by extending the time interval for transmitting the transmission data to the computer. And a means for notifying the transmission destination not to transmit the retransmission request data when the time exceeds the set time.

The computer-readable recording medium according to the twentieth invention is the computer-readable recording medium according to any one of the seventeenth invention to the nineteenth invention, wherein when the computer receives the retransmission request data, And means for increasing the number of times of transmission.

According to a twenty-first aspect of the present invention, in the computer-readable recording medium according to the twentieth aspect, the number of times of transmitting the transmission data is set in advance by increasing the number of times of transmitting the transmission data to the computer. When the number of times exceeds the number of times, means for notifying the transmission destination not to transmit the retransmission request data is included.

The computer-readable recording medium according to the twenty-second invention is the computer-readable recording medium according to any one of the seventeenth invention to the twenty-first invention, wherein the computer measures time from a predetermined timing and the computer measures time. Means for reducing the number of times transmission data having the same information is transmitted when retransmission request data is not received before the time reaches the reference time.

The computer-readable recording medium according to the twenty-third invention is the computer-readable recording medium according to any one of the seventeenth invention to the twenty-second invention, wherein the computer is configured to count the number of times data has been transmitted, and Means for notifying the transmission destination not to transmit the retransmission request data when the number of times reaches the reference number.

According to a twenty-fourth aspect of the present invention, a computer-readable recording medium causes a computer to receive data from a transmitting communication device that transmits the same data to a plurality of receiving communication devices. To detect whether or not there is data received, and if there is data that has not been received normally,
In a computer-readable recording medium having recorded thereon a program for transmitting retransmission request data requesting retransmission, the computer includes:
A program code unit for transmitting retransmission request data to a plurality of communication devices when transmission data having the same information is received a plurality of times and the data has not been successfully received at least once; Program code means for, when receiving the transmitted retransmission request data, not transmitting retransmission request data for the same transmission data as the transmission data requested by the received retransmission request data. And

The present invention provides a broadcast communication method for transmitting and receiving data, which is performed in an environment in which a plurality of computers and a communication device such as a printer are connected to a communication line, a broadcast communication device used for implementing the method, and a computer. And a program for transmitting and receiving data to and from another communication device.

According to the first, ninth, and seventeenth aspects, the transmission data having the same information is transmitted a predetermined number of times at a predetermined time interval so that any of the data received by the receiving side is normal data. Good. Thereby, the purpose of maintaining a good communication state can be achieved.

According to the second, third, tenth, eleventh, eighteenth, and nineteenth aspects of the present invention, when the transmission side receives a recovery transmission request, the transmission data transmission interval is lengthened. Communication can be prevented from being concentrated in a short period of time and the communication state is not good. Furthermore, when the communication state is poor and a large number of recovery transmission requests are received, and the data transmission interval is longer than a preset time interval,
By not transmitting the recovery transmission request, it is possible to suppress the occurrence of the broadcast storm and to give priority to securing the throughput.

In the fourth, fifth, twelfth, thirteenth, twentieth, and twenty-first inventions, when a recovery transmission request is received on the transmission side, the number of times of transmission of transmission data having the same information is increased. It is possible to further reduce the possibility that the receiving side cannot normally receive all the data, suppress the necessity of recovery transmission, and prevent the communication state from becoming poor. Further, when the communication state is poor and a large number of recovery transmission requests are received, and the number of transmissions of transmission data having the same information becomes larger than a preset number, the recovery transmission request is not transmitted and a broadcast storm occurs. And priority can be given to securing the throughput.

According to the sixth, fourteenth, and twenty-second inventions, when the transmission side does not receive a recovery transmission request for a reference time or more, the number of transmissions of transmission data having the same information is reduced to thereby reduce the number of transmission lines. Traffic congestion can be prevented.

According to the seventh, fifteenth, and twenty-third inventions, when the number of transmissions reaches the reference number, the receiving side does not request recovery transmission for transmission data received before, thereby improving throughput. Can be given priority.

According to the eighth, sixteenth, and twenty-fourth inventions, when a communication device on the receiving side receives a recovery transmission request sent from another communication device on the receiving side, recovery transmission for the same transmission data is performed. Is not required, the occurrence of a broadcast storm can be suppressed.

[0041]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 Hereinafter, the present invention will be described in detail with reference to the drawings showing the embodiments. FIG. 1 is a block diagram showing an embodiment using a broadcast communication device of the present invention. In the figure, 1, 1,... Are computers used as communication devices, each of which has a CPU 2, a RAM 3 for storing data generated in the CPU 2, and a computer C for storing a program of the present invention.
Recording medium 10 such as a D-ROM and a flexible disk
An external storage device 4 such as a CD-ROM drive and a flexible disk drive for reading the program of the present invention from a storage device, a recording device 5 such as a hard disk for storing the program of the present invention read by the external storage device 4, and a timing device 6 for timing time A communication interface 7 for transmitting and receiving data to and from the outside, an input device 8 such as a keyboard and a mouse, and an output device 9 such as a monitor and a printer are connected. The computers 1, 1,... Are connected to a communication line 11 by a communication interface 7. Further, the communication line 11 is connected to an external network line 13 such as the Internet by a connection device 12 such as a router.

In addition to reading from the recording medium 10, the program of the present invention is connected to an external server computer 14 via an external network line 13 and records the program of the present invention stored in the external server computer 14. By downloading the program of the present invention from the medium 15 to the computer 1, the program can be stored in the recording device 5.

Next, the broadcast communication method of the present invention will be described. 2 (a), 2 (b) and 4 are flowcharts showing a broadcast method of a transmitting computer according to the present invention, and FIG. 3 is a flowchart of a broadcast method of a receiving computer according to the present invention. . In a computer as a communication device on the transmission side, original data, which is data to be transmitted, is read into a continuous address area on the RAM 3 and divided data obtained by dividing the original data into n pieces is transmitted m times. Generate m transmission buffers for writing transmission data to be transmitted (step S10)
1).

In the transmission buffer, transmission count data indicating the number of times of transmission of the same divided data, attribute data indicating the attribute of the transmission data, address data indicating the address at which the divided data to be transmitted is read, and divided data A transmission data creation process for writing information such as the contents of the transmission data is performed (step S102). In the first stage, data1 which is the first divided data is written to the transmission buffer for the first transmission. Then, the contents of the transmission buffer in which the transmission data to be transmitted has been written are simultaneously transmitted as packets to a plurality of communication apparatuses on the receiving side (step S103).

The retransmission routine is started (step S10).
4), a retransmission interval t1 preset as a time interval for retransmitting the same divided data is counted (step S10).
5) A transmission data creation process of writing the same divided data into the next transmission transmission buffer is performed (step S10).
6) Transmit the contents of the transmission buffer (step S10)
7). At this stage, data1 which is the first divided data is written in the transmission buffer for the second transmission, and transmitted as packets to a plurality of receivers. Step S105
By repeating the processing of S107 to (m-1) times (step S106), m pieces of the same divided data are created and transmitted m times at intervals of t1.

After data1 is transmitted in step S103, a transmission interval t2 set in advance as a time interval for transmitting each divided data is counted (step S109), and steps S102, S103, and S1 are performed.
The first transmission of the divided data data1, data2,..., Datan is performed at intervals of t2 by repeating the process of step 04 until the last divided data, datan, is transmitted (step S110). Then, also for data2 to datan, by the retransmission routine of steps S105 to S108,
m are created and transmitted m times to a plurality of receivers at intervals of t1. By adjusting t1 and t2, the time required for retransmission and transmission of the divided data and the transmission order can be arbitrarily changed.

The computer, which is the communication device on the receiving side, receives the packet (step S121), determines the attribute data of the packet, and determines that the received packet is a packet transmitted from the transmitting side. Based on the information written in the received packet, data restoration processing for restoring the original data from the divided data is performed (step S122), and the address data of the received packet is stored as address information.

The attribute data of the received packet is
If the data indicates that the recovery transmission request is rejected (step S123), the address information is searched to detect the continuity of the addresses of the received divided data. By writing dummy data, a recovery transmission request prohibition process is performed to prevent transmission of a recovery transmission request for the divided data received before the packet (step S124).

Then, the transmission count data written in the received packet is determined, and when it is determined that the received packet is the last transmission of the same divided data (step S125), the address information is searched and received. The continuous state of the addresses of the divided data thus detected is detected, and when there is a discontinuous portion (step S126), a recovery transmission request for requesting retransmission of the divided data of the discontinuous portion is generated and transmitted as a packet. (Step S
127). The recovery transmission request generated at this time has the same format as the transmission data, a code indicating the recovery transmission request is written in the attribute data, and the address of the divided data requesting the recovery transmission is written in the address data.

Thus, the data restoration process is performed by repeating the processes of steps S121 to S128. However, when a packet in which the same divided data is written is received a plurality of times, the corresponding part of the restored data is updated to the content of the data received later.

When a packet in which the last divided data "datan" is written is received (step S12)
8) It is determined that all packets have been received, and the receiving process is terminated. Note that data1 and datan can be made to be recognized as the first divided data or the last data by the receiving side by writing a code indicating the first divided data or the last data to the attribute data on the transmitting side. .

When the transmitting side receives the packet and determines the attribute data of the packet, if it is determined that the received packet is a recovery transmission request transmitted from the receiving side, the recovery transmitting data to be transmitted as a packet is transmitted. Is generated (step S131), and recovery transmission data is written to the generated recovery transmission buffer (step S132). The recovery transmission data is based on the content of the received recovery transmission request, and has the same format as the transmission data. The attribute data indicates a code indicating the recovery transmission data, and the address data indicates the address of the divided data to be recovered and transmitted. , And the contents of the divided data to be transmitted for recovery.

Then, the content of the recovery transmission buffer in which the recovery transmission data to be transmitted for recovery is written is packetized and transmitted once to the receiving side (step S133). The processing related to the recovery transmission is performed in step S1.
It takes precedence over the normal transmission shown in 01 to S110.

As described above, the broadcast communication method of the present invention provides a method for transmitting the same data m times from the transmitting side, and when the receiving side cannot normally receive a packet having the same data even once. This is a method for making a request for recovery transmission.

The broadcast communication method of the present invention is not limited to communication between computers as described above, but is also applicable to a case where print data is transmitted from a server as a transmitting device to a plurality of printers as receiving devices. Can be.

Embodiment 2 FIG. 5 is a flowchart illustrating a broadcast communication method of a transmitting computer for explaining the broadcast communication method according to the second embodiment of the present invention. In the second embodiment, the transmission-side program in the first embodiment is partially modified. Each time a computer that is a transmission-side communication device receives a recovery transmission request (step S201), the retransmission interval t1 is set in advance. T1 is extended by the set extension time (step S202) so that transmission is not concentrated in a short time. Further, when the recovery transmission request is frequently received and T1 is longer than a preset upper limit time (step S203), a process of writing a code indicating rejection of the recovery transmission request into attribute data of a packet to be transmitted next from the transmission side. (Step S2
04), a broadcast communication method in which a computer used as a communication device on the receiving side does not transmit a recovery transmission request. Note that the transmission interval t2 may be extended instead of the retransmission interval t1.

Other configurations and operations of the main parts are the same as those of the broadcast communication method described in the first embodiment, and thus description thereof is omitted.

Embodiment 3 FIG. FIG. 6 is a flowchart illustrating a broadcast communication method of a transmitting-side computer for explaining the broadcast communication method according to the third embodiment of the present invention. The third embodiment is obtained by partially modifying the transmission-side program in the first embodiment. Each time a computer as a transmission-side communication device receives a recovery transmission request (step S301), the same divided data is divided. The number m of retransmissions is increased by a predetermined increase number to M (step S
302), the possibility that all the packets having the same divided data cannot be normally received by the computer used as the communication device on the receiving side is further reduced. Further, when the recovery transmission request is frequently received and M exceeds the preset upper limit number (step S303), a code indicating the rejection of the recovery transmission request is written in the attribute data of the packet to be transmitted next from the transmission side. This is a broadcast communication method in which processing is performed (step S304) so that the receiving side does not transmit a recovery transmission request.

By combining the second embodiment and the third embodiment, an upper limit value for T1 × M is set, and when the upper limit value is exceeded, the attribute data of the packet transmitted next from the transmission side is set. A process of writing a code indicating rejection of the recovery transmission request may be performed, whereby the same effect as in the second or third embodiment can be obtained.

Other configurations and operations of the main part are the same as those of the broadcast communication method described in the first embodiment, and thus the description is omitted.

Embodiment 4 FIG. 7 is a flowchart illustrating a broadcast communication method of a transmitting-side computer for explaining the broadcast communication method according to the fourth embodiment of the present invention. In the fourth embodiment, the transmission-side program in the first embodiment is partially modified, and a computer, which is a transmission-side communication device, performs a predetermined monitoring time t3 from the start of transmission.
Is counted (step S401). If the transmitting side does not receive the recovery transmission request (step S402) before the time measurement of t3 is completed (step S403), the number m of retransmissions of the same divided data is reduced by a preset reduction number to m1. (Step S404), which is a broadcast communication method for suppressing unnecessary transmission. However, m1 should not be reduced below a preset lower limit count.

The other main configuration and operation are the same as the main configuration and operation of the broadcast communication method described in the first embodiment, so that the description will be omitted.

Embodiment 5 FIG. FIG. 8 is a flowchart illustrating a broadcast communication method of a transmitting-side computer for explaining the broadcast communication method according to the fifth embodiment of the present invention. In the fifth embodiment, the transmission-side program in the first embodiment is partially modified. In the computer as the transmission-side communication device, a transmission number counter is provided to count the number of times a packet has been transmitted ( In step S501, every time the number of transmissions reaches a predetermined number, a process of writing a code indicating rejection of a recovery transmission request is performed on the attribute data of the packet to be transmitted next from the transmission side (step S502), and used as a communication device on the reception side. This is a synchronous communication method in which a computer does not transmit a recovery transmission request.

The other main configuration and operation are the same as the main configuration and operation of the broadcast communication method described in the first embodiment, and the description is omitted.

Embodiment 6 FIG. FIGS. 9A and 9B are flowcharts illustrating a broadcast communication method of a receiving-side computer for explaining a broadcast communication method according to Embodiment 6 of the present invention. The sixth embodiment is obtained by partially changing the program on the receiving side in the first embodiment. When a computer which is a communication device on the receiving side receives a packet,
The attribute data of the received packet is determined, and when it is determined that the received packet is a recovery transmission request transmitted from another receiving communication device, the address of the divided data requested for the recovery transmission is deleted. It is stored as reception information (step S601).

In step S128 of the first embodiment, the address information is searched to detect the continuity of the address of the received divided data. If there is a discontinuous portion, the address of the discontinuous portion of the address information is determined. ,
The address stored as the missing address reception information is compared (step S602). If the address of the discontinuous portion of the address information is not included in the address stored as the missing address reception information, a recovery transmission request is issued. This is a synchronous communication method that transmits (step S603) and, if included, does not transmit a recovery transmission request. When a packet in which a code indicating rejection of the recovery transmission request is written in the attribute data is received, the missing address reception information is deleted.

The other configuration and operation of the main part are the same as those of the main part described in the first embodiment, so that the description is omitted.

[0068]

As described in detail above, according to the present invention, by transmitting transmission data having the same information at predetermined time intervals a predetermined number of times, if any of the data received by the receiving side is normal data, Good, therefore, the possibility that normal data cannot be obtained due to abnormalities such as missing data is low, the frequency of requesting recovery transmission to retransmit abnormal data is also low, and broadcast storm is unlikely to occur, Excellent effects are obtained, such as maintaining a good communication state and preventing a decrease in throughput.

Further, according to the present invention, when a recovery transmission request is received on the transmission side, by increasing the transmission data transmission interval, communication is concentrated in a short time, and the communication state is not good. Can be prevented. Furthermore, when the communication state is poor and a large number of recovery transmission requests are received, and the data transmission interval is longer than a preset time interval, the recovery transmission request is not transmitted to suppress the occurrence of the broadcast storm, Excellent effects are achieved, such as giving priority to securing the throughput.

Further, according to the present invention, when the transmission side receives a recovery transmission request, the number of times of transmission of transmission data having the same information is increased, thereby reducing the possibility that the data cannot be received in a normal state on the reception side. Further, the necessity of the recovery transmission can be suppressed, and the communication state can be prevented from becoming poor. Further, when the communication state is poor and a large number of recovery transmission requests are received, and the number of transmissions of transmission data having the same information becomes larger than a preset number, the recovery transmission request is not transmitted and a broadcast storm occurs. And the priority can be given to securing the throughput.

Further, according to the present invention, when the transmission side does not receive a recovery transmission request for a reference time or more, the number of transmissions of transmission data having the same information is reduced, thereby preventing traffic on the communication line from being congested. It has excellent effects such as prevention.

Further, according to the present invention, when the number of transmissions reaches the reference number, priority is given to securing throughput by not requesting recovery transmission of transmission data received before on the receiving side. It has excellent effects such as

Further, according to the present invention, when a communication device on the receiving side receives a recovery transmission request sent from another communication device on the receiving side, it is prevented that recovery communication for the same transmission data is not requested. Thereby, an excellent effect such as the occurrence of a broadcast storm can be suppressed.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating an embodiment using a broadcast communication device of the present invention.

FIG. 2 is a flowchart illustrating a broadcast communication method of a transmitting computer according to the first embodiment.

FIG. 3 is a flowchart illustrating a broadcast communication method of a receiving computer according to the first embodiment.

FIG. 4 is a flowchart showing a broadcast communication method of a transmitting computer according to the first embodiment.

FIG. 5 is a flowchart illustrating a broadcast communication method of a transmitting computer according to the second embodiment.

FIG. 6 is a flowchart illustrating a broadcast communication method of a transmitting computer according to the third embodiment.

FIG. 7 is a flowchart showing a broadcast communication method of a transmitting computer according to the fourth embodiment.

FIG. 8 is a flowchart illustrating a broadcast communication method of a transmitting computer according to the fifth embodiment.

FIG. 9 is a flowchart illustrating a broadcast communication method of a receiving computer according to the sixth embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Computer 2 CPU 3 RAM 4 External storage device 5 Recording device 6 Timing device 7 Communication interface 8 Input device 9 Output device 10 Recording medium 11 Communication line 12 Connection device 13 External network line 14 External server computer 15 Recording medium

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04L 29/14 H04L 13/00 311 (72) Inventor Ryuji Fujiwara 35, Saho, Shato-cho, Kato-gun, Hyogo None) Inside Fujitsu Peripheral Machinery Co., Ltd. (72) Inventor Yoshikazu Onishi, No. 35, Saho, Shato-cho, Kato-gun, Hyogo (No address) Inside Fujitsu Peripheral Machinery Co., Ltd. (72) Nobuko Fujiwara 35, Saho-machi, Kato-gun, Hyogo (No address) Inside Fujitsu Peripheral Machinery Co., Ltd. (72) Inventor Noriko Nagano 35, Saho, Shato-cho, Kato-gun, Hyogo (No address) Inside Fujitsu Peripheral Machinery Co., Ltd. No. 35, Saho, Higashi-gun (without address) Inside Fujitsu Peripheral Machinery Co., Ltd. (72) Inventor Jun Kajihara No. 35, Saho, Kato-gun, Hyogo Prefecture (No address) Fujitsu Peripheral Machinery Co., Ltd. F-term (reference) 5B089 GA01 GA11 GA21 JA33 JB16 KA12 KB11 KE07 KF02 ME08 5K030 GA03 HC01 HD06 JA05 JT02 JT06 LA01 LA19 LB15 LD04 MB10 5K032 AA01 AA07 CC04 CC05 CC10 DB19 DB22 DB24 5K033 AA01 AADBB13A03 DBA13 DBA CC01 CC03

Claims (24)

[Claims] 1. A single communication device on the transmission side transmits data of the same content to a plurality of communication devices on the reception side, and the communication device on the reception side detects whether or not the data has been normally received. When there is data that has not been received, a broadcast communication method for transmitting data requested to be transmitted again from the communication device on the receiving side to the communication device on the receiving side in a predetermined time interval. The transmission data having the same information is transmitted a plurality of times, and the transmission data having the same information is transmitted by the communication device on the receiving side.
A broadcast communication method comprising: transmitting retransmission request data for requesting transmission again from a communication device on the receiving side when the data has not been normally received once. 2. The broadcast communication method according to claim 1, wherein, when the communication device on the transmission side receives the retransmission request data, a time interval for transmitting the transmission data is extended. 3. By extending the time interval for transmitting transmission data, when the time interval for transmitting transmission data becomes longer than a preset time, the transmission side does not transmit the retransmission request data. 3. The broadcast communication method according to claim 2, wherein notification is made to a receiving side. 4. The transmission apparatus according to claim 1, wherein, when receiving the retransmission request data, the transmission side communication apparatus increases the number of times of transmitting transmission data having the same information. Broadcast method described in. 5. The transmission apparatus according to claim 1, wherein the number of transmissions of the transmission data is increased so that when the number of transmissions of the transmission data exceeds a predetermined number, the transmission side does not transmit the retransmission request data. The broadcast communication method according to claim 4, wherein the notification is made to the user. 6. A communication device on the transmitting side measures time from a predetermined time point, and has the same information when retransmission request data is not received until the measured time reaches a predetermined reference time. The broadcast communication method according to any one of claims 1 to 5, wherein the number of times transmission data is transmitted is reduced. 7. A communication device on the transmission side counts the number of times data has been transmitted, and when the number of transmissions reaches a predetermined reference number, notifies the reception side from the transmission side not to transmit retransmission request data. The broadcast communication method according to any one of claims 1 to 6, wherein: 8. A retransmission request data is transmitted from a first receiving communication device to a plurality of communication devices, and a second receiving communication device is transmitted from the first receiving communication device. When the retransmission request data is received, the first
8. The broadcast according to claim 1, wherein the communication device on the receiving side does not transmit the retransmission request data for the same transmission data as the transmission data requesting the retransmission. Communication method. 9. When the same data is transmitted to a plurality of receiving communication devices, the receiving communication device detects whether or not the data has been normally received, and there is data that is not normally received. A broadcast communication device receiving retransmission request data transmitted from the communication device on the receiving side and requesting retransmission, transmitting a plurality of transmission data having the same information to the receiving communication device at predetermined time intervals. A broadcast communication device comprising: means for transmitting a broadcast. 10. When receiving retransmission request data,
The broadcast communication device according to claim 9, further comprising a unit for extending a time interval for transmitting the transmission data. 11. Extending the time interval for transmitting transmission data, so that when the time interval for transmitting transmission data becomes longer than a preset time, the receiving side is prevented from transmitting retransmission request data. The broadcast communication device according to claim 10, further comprising a notification unit. 12. When receiving retransmission request data,
2. The method according to claim 1, further comprising: means for increasing the number of times of transmitting transmission data having the same information.
2. The broadcast communication device according to claim 1. 13. When the number of transmission data transmissions is increased by increasing the number of transmission data transmissions, the reception side is notified not to transmit the retransmission request data when the number of transmission data transmissions exceeds a preset number. 13. The broadcast communication device according to claim 12, further comprising means. 14. A means for measuring time from a predetermined point in time, and the number of times transmission data having the same information is transmitted when retransmission request data is not received before the measured time reaches a predetermined reference time. The broadcast communication device according to any one of claims 9 to 13, further comprising: means for reducing the number of times. 15. A system comprising: means for counting the number of times data has been transmitted; and means for notifying a receiving side not to transmit retransmission request data when the number of times transmitted has reached a predetermined reference number. The broadcast communication device according to any one of claims 9 to 14, wherein 16. Detecting whether transmission data transmitted from one communication device on the transmission side to a plurality of communication devices on the reception side has been normally received, and there is transmission data that has not been normally received. In the case where a broadcast device that transmits retransmission request data requesting that data be transmitted again is received multiple times and the transmission data having the same information has not been successfully received even once, a retransmission request Means for transmitting data to a plurality of communication devices; and when receiving retransmission request data transmitted from the receiving communication device, retransmitting the same transmission data as the requested retransmission request data. Means for preventing transmission of transmission request data. 17. The computer causes the computer to transmit the same data to a plurality of communication apparatuses on the receiving side, and detects whether or not the data has been normally received by the communication apparatus on the receiving side. In the case where there is, on a computer-readable recording medium that stores a program for receiving retransmission request data transmitted from the receiving communication device requesting retransmission, A computer readable recording medium comprising program code means for transmitting transmission data having the same information a plurality of times to a communication device at predetermined time intervals. 18. The computer-readable recording medium according to claim 17, wherein the computer includes means for extending a time interval for transmitting the transmission data when the retransmission request data is received. . 19. A computer according to claim 1, further comprising: extending the time interval for transmitting the transmission data so that the computer does not transmit the retransmission request data when the time interval for transmitting the transmission data becomes longer than a preset time. 19. The computer-readable recording medium according to claim 18, further comprising means for notifying a transmission destination. 20. The computer according to claim 17, further comprising means for increasing the number of times of transmitting transmission data having the same information when the retransmission request data is received by the computer. A computer-readable recording medium according to the above. 21. By increasing the number of times transmission data is transmitted to the computer, when the number of times transmission data is transmitted exceeds a preset number, the transmission destination is controlled so as not to transmit retransmission request data. 21. The computer-readable recording medium according to claim 20, further comprising means for notifying the user of the information. 22. A means for causing a computer to measure time from a predetermined timing, and transmitting data having the same information when the computer does not receive retransmission request data before the measured time reaches a reference time. 22. The computer-readable recording medium according to claim 17, further comprising: means for reducing the number of times of transmission of the data. 23. Means for causing a computer to count the number of times data has been transmitted, and means for causing the computer to notify a transmission destination so as not to transmit retransmission request data when the number of times transmitted has reached a reference number. 23. The computer-readable recording medium according to claim 17, wherein the recording medium comprises: 24. A computer that receives data from a communication device on the transmission side that transmits the same data to a plurality of communication devices on the reception side, detects whether the data has been received normally, and receives the data normally. When there is data that has not been transmitted, a computer-readable recording medium on which a program for transmitting retransmission request data requesting transmission again is recorded. Program code means for transmitting retransmission request data to a plurality of communication devices when the data has not been successfully received even once, and a retransmission request transmitted from the receiving communication device to the computer. When data is received, retransmission request data for the same transmission data as the transmission data requested by the received retransmission request data is transmitted. Recording medium readable on a computer which comprises a program code means for so no.