JPH05167565A - Data transmission method using satellite communication - Google Patents

Abstract

(57) [Summary] [Purpose] When transmitting a broadcast communication from a master station to each slave station via a satellite communication line, it is possible to improve the line efficiency, shorten the retransmission time, and affect other normal satellite broadcasting. Control and reduce line costs. [Structure] In a data transmission system in which a center is connected to a parent station of a satellite communication line by a ground line and an online ground line is connected between a center and each slave station of a satellite communication line, each slave station is a data transmission system. The reception status of is checked in block units and the result is notified to the center via the ground line.
The center compares the check results in block units,
The master station is instructed to retransmit a block that has become erroneous in at least one slave station. Also, if necessary, the center resends using the ground line.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device using satellite communication.
The present invention relates to a transmission method for efficiently retransmitting data having a transmission error in a data transmission system.

[0002]

2. Description of the Related Art Conventionally, as a data transmission system using satellite communication, for example, (a) JP-A-1-136433.
As in the "Satellite communication earth station monitoring system" shown in the publication, the satellite stations are centralized by sending the monitoring results from each satellite circuit ground station (slave station) to the monitoring station via the public circuit. There is a method to monitor it. Also, (b) the receiving earth station (slave station) that received the broadcast communication checks for errors in the received data, as in "Satellite broadcast communication system" disclosed in Japanese Patent Laid-Open No. 57-93746. ACK,
One of the NACKs is transmitted to the transmitting earth station (master station). In the transmitting earth station, there is also a method of retransmitting by going back several blocks only when receiving a NACK. At that time, each receiving earth station
By discarding the retransmission block triggered by the retransmission start notification block, duplicate reception of data blocks is avoided.

[0003]

However, in the above method (a), the monitoring result is centrally monitored by the monitoring station via the public line, and the reception status at each slave station is centralized by the monitoring station. However, the master station cannot judge from the reception status of the slave station whether the retransmission should be performed or not. Therefore, when the data is retransmitted from the master station, the satellite communication line with a high line cost is wastefully used such as a method of constantly retransmitting the line a fixed number of times, and it is impossible to cope with the reduction in the line cost. Further, in the above method (b), the presence or absence of error reception is
Since data is transmitted from each slave station side to the master station in data block units, it is necessary to use a bidirectional communication mode between the master station and each slave station, which increases the line cost. Furthermore, since the master station performs error control, the load on the master station side is heavy. A first object of the present invention is to solve the conventional problems as described above, and by performing unidirectional communication on the satellite line, it is possible to reduce the number of satellite lines used and to reduce the line cost. It is to provide a data transmission method using communication.
A second object of the present invention is to perform optimal retransmission suitable for the amount of data transmission error, thereby shortening the line use time and reducing the influence on other normal satellite radiation. It is to provide a data transmission method using satellite communication. A third object of the present invention is to provide a data transmission method using satellite communication which can promptly deal with switching or the like even when a failure occurs in the satellite line.

[0004]

In order to achieve each of the above objects, a data transmission method using satellite communication according to the present invention comprises:
(A) In a transmission system in which the center and a plurality of slave stations are connected via an online line on the ground, and the master station transmits data to each slave station via a satellite communication line, The slave station transmits the error result in block units of the reception data by satellite communication to the above center via the ground line, respectively, and the center accumulates the reception results from the plurality of slave stations.
It is characterized in instructing the master station to retransmit a data block in which at least one slave station has a transmission error. Also,
(B) The center receives the transmission error notification result from the slave station, and when the number of slave stations having a transmission error is less than the predetermined number, the center does not retransmit the satellite communication line but transmits via the ground line. Another feature is that the data is retransmitted to the slave station.
Furthermore, (c) The center is also characterized by instructing the master station and the slave stations to switch to transmission via the ground line as a backup circuit from the center side to the slave stations when a failure occurs in the satellite communication line. is there.

[0005]

In the present invention, when the master station performs the broadcast communication to the slave stations via the satellite communication line, each slave station reports the result to the center, and the center reports the result to the master station. Notice. In this case, the slave station and the center are connected by a terrestrial line (for example, a dedicated line, a public line, etc.), and the center collects the presence or absence of transmission errors from a plurality of slave stations for each data block. When all the data blocks have no transmission error, the center notifies the master station of the normal end and instructs the end of transmission. Also, when a transmission error occurs,
Only the data block in which at least one slave station has a transmission error is retransmitted from the master station, but if there are few errors due to the line cost, it is possible to retransmit from the terrestrial line. In this way, since the resending notification due to a transmission error is sent via the terrestrial line, the satellite communication line can be carried out by unidirectional communication from the master station to the slave station. Also, since the data to be retransmitted is only the data block in which at least one slave station has a transmission error, the retransmission time can be shortened. Further, when the number of slave stations having a data transmission error is small, it is possible to switch to the terrestrial line as needed, and the cost can be further reduced.

[0006]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a block diagram of a data transmission system using a satellite communication line showing an embodiment of the present invention. Figure 1
In the figure, 10 is a center that manages the master station and the slave stations, 20 is the master station that is the transmitting earth station, and 101 is the center 10 and the master station 20.
, A ground communication line connecting 30 to 40, a slave station which is a receiving earth station, 102 a satellite communication line connecting the master station and each slave station, and 103 connecting each slave station 30 and 40 to the center 10. It is a land line. Broadcast communication from the master station 20 to each of the slave stations 30 and 40 is performed via the satellite communication line 102.
The result of the error check at 0 and 40 is transmitted to the center 10 via the ground line 103. Notification of the error check result is sent from the center 10 via the ground line 101 to the master station 20.
Sent to. When the number of error blocks is large, the master station 20
From the center 10 to the slave stations 30 and 40 through the satellite communication line 102. When the number of error blocks is small, the center 10 retransmits the slave stations 30 and 40 via the ground line 103. A normal online line can be used as it is as the ground line 103. For example, when the present invention is used for bank online communication, the ground line 103 uses a normal online line.

FIG. 2 is a diagram showing the contents of the message for transmitting the result of the transmission error for each data block and the contents of the message from the center to the master station in FIG. The presence / absence of a transmission error in each of the data blocks 1, 2, 3, ... Is notified to the center 10 from the slave station (1) 30 and the slave station (2) 40. NG is a block with an error, and OK is a block without an error. According to FIG.
In the slave station 30, NG is block 1, block 4, block 5, and block 10, and in the slave station 40, NG is block 3, block 4, and block 8. The center 10, which has received these error presence / absence results, transmits the blocks 1, 3, 4, 5, 8,
Send 10. That is, the center 10 notifies the master station 20 of blocks in which even one slave station has an error as the next retransmission instruction data, so that these blocks are transmitted from the master station 20 to the slave stations 30, 40. Satellite communication line 1
Send via 02. In this way, the center 10 sends the master station 20 the slave stations 30, 40 via the ground line 101.
It is possible to instruct the start and end of data transmission to and from.

FIGS. 3 and 4 show the center of FIG.
It is a processing flow chart of a master station and a slave station. Center 1
0, the master station 20, and the slave stations 30 and 40 are separated by vertical lines to indicate communication processing and internal processing that are mutually transmitted and received. First, a data transmission instruction and pre-blocked data are transmitted from the center 10 to the master station 20 via the ground line 1.
Pass through 01 (step 31). This makes the master station 2
0 transmits data to all slave stations 30 and 40 via the satellite communication line 102 (step 32). The slave stations 30 and 40 on the receiving side determine whether or not the transmitted data includes a transmission error in data block units (steps 33 and 3).
5) After the transmission is completed, the reception results of each data block are collected and notified to the center 10 via the ground line 103 as a message of the format shown in FIG. 2 (steps 34 and 36).
In the center 10, messages from all the slave stations 30 and 40
When the mobile station receives the message notification and accumulates all the messages (step 37) and there is a slave station in which a transmission error occurs (step 38), the number of slave stations in which a transmission error occurs is set in advance. The number is compared with the number (step 42), and if the number is small, it is judged that retransmission by the ground line 103 is sufficient (step 4).
7) The center line 10 is used for future retransmission by the ground line 103.
To each slave station (step 48). Each slave station that has received the retransmission block via the ground line 103 again performs an error check (step 49) and transmits the check result to the center 10 (step 51). Center 10
Collects the check results (step 52), and determines whether there is a slave station that has a transmission error (step 5).
3) If there is, return to step 48 to perform data transmission again. If not, a transmission end process is performed (step 54),
The process ends (step 55).

In the other cases, that is, when there are many error blocks (step 42), the remaining data block numbers excluding the data blocks that did not cause a transmission error in all the slave stations are determined (step 42). 43) Then, the master station 20 is instructed to retransmit by satellite communication as data to be retransmitted next time (step 44). Then, retransmission data is created (step 45), and the master station 20 is sent via the ground line 101.
A data transmission instruction is issued to (step 46). When the master station 20 receives the data transmission retransmission instruction, it edits the data and then starts data transmission via the satellite communication line 102 (step 32). The slave stations 30 and 40 that have received the retransmission of the data block perform data reception processing and check transmission errors in block units (steps 33 and 3).
5) Then, the check result is reported to the center 10 via the ground line 103 (steps 34 and 36). The center 10 which has received the check result performs the processes of steps 37 to 48 to instruct the master station 20 of the retransmission data block.
The above process is repeated, and the transmission ends when all the slave stations have completed the transmission.

As described above, in the present embodiment, by centrally monitoring the reception status on the receiving station side by the center, it is possible to properly issue a retransmission instruction due to a transmission error and a transmission error occurs. Only the data can be efficiently retransmitted, and as a result, the line efficiency can be improved and the retransmission time can be shortened. Furthermore, when the amount of data to be retransmitted is small, a normal online terrestrial line is used, so the line cost of the satellite communication line can be reduced. For example, when the bank terminal is used for online communication, the center in which the passbook file is stored is the center 10 of the present embodiment, the head office having the transmitting station is the master station 20, and each branch is the slave station 30, 40. For example, the conventional installation can be used as it is. In the bank online communication, the satellite communication line is used for online communication for updating the passbook during the day and for transmitting data and programs at night. In this embodiment, the reception state is notified via the terrestrial line and the retransmission instruction is given via the terrestrial line according to the situation. However, as another method, a transmission error may occur after data transmission by satellite communication. There is also a method in which the center always uses the normal online terrestrial line without making a judgment as to whether the satellite station is a satellite communication line or a terrestrial line. Even in such a case, the exact same effect can be obtained. Further, when some failure occurs in the satellite communication line, the center side can instruct to switch to transmission by the ground line as a backup line. As a result, even when the satellite communication line is in trouble, it is possible to continue online communication without interrupting the communication.

[0011]

As described above, according to the present invention,
(A) Since the satellite communication line is unidirectional, the number of satellite lines used can be reduced, and as a result, the line cost can be reduced. Also, (b) the data of the slave station
Since data can be retransmitted by an optimal method according to the amount of data transmission error, it is possible to shorten the line usage time and minimize the influence on ordinary satellite broadcasting. is there. Further, (c) even when a failure occurs in the satellite communication line, the line is quickly switched to the ground line, so that the line can be continued without interruption.

[0012]

[Brief description of drawings]

FIG. 1 shows a satellite communication-based data showing an embodiment of the present invention.
It is a block diagram of a data transmission system.

2 is a diagram showing the contents of a transmission error notification message and a retransmission data instruction message shown in FIG.

FIG. 3 is a part of the entire processing flow chart of the data transmission system in FIG.

FIG. 4 is a processing flow chart of the data transmission system in FIG.
It is another part of the chart.

[Explanation of symbols]

 10 center 20 master station 30,40 slave station 101 ground line between center and master station 102 satellite communication line 103 ground line between slave station and center

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Minami Tadashi, Ikegami No. 1, Haruoka-cho, Owariasahi-shi, Aichi Prefecture Hitachi Ltd. Asahi Plant

Claims (3)

[Claims] 1. A transmission system in which a center and a plurality of slave stations are connected via an online line on the ground, and data is transmitted from a master station to each slave station via a satellite communication line. , Each slave station transmits an error result in block units of reception data by satellite communication to the above center via the terrestrial line, and the center accumulates the reception results from a plurality of slave stations, and at least one slave station A data transmission method using satellite communication, characterized in that a master station is instructed to retransmit a data block having a transmission error in the station. 2. A data using the satellite communication according to claim 1.
In the data transmission method, the center receives the notification result of the transmission error from the slave station, and when the number of the slave stations having the transmission error is less than the predetermined number, the center does not retransmit the data through the satellite communication line, A data transmission method using satellite communication characterized in that data is retransmitted to a slave station via a line. 3. The data transmission method using satellite communication according to claim 1 or 2, wherein the center serves as a backup line from the center side to a slave station when a failure occurs in the satellite communication line. , A data transmission method using satellite communication, characterized in instructing a master station and a slave station to switch to transmission by a land line.