JPH07297970A - Image data multi-address system and image data multi-address method - Google Patents

Abstract

PURPOSE:To obtain image data multi-address system and image data multi- address method with high reliability. CONSTITUTION:A control signal and image data are transmitted from a transmission station 1 to a satellite 31 via a satellite communication line 3. The satellite 31 receives this data and returns received data to the ground. This returned data is received by the transmission station 1 and the collation of transmitted data and received data is performed by a transmission signal monitoring part 113. When identity does not exist in the both of the data by the collation, the transmitted data transmitted the last time is retransmitted by adding a retransmission code to the transmitted data. This retransmitted data is returned again to the ground from the satellite 31. A reception station 2 receives these data, a signal reception control part 212 detects the retransmission code and an image reception control part 211 cancels the orignal data corresponding to the retranmitted data by this detection. By this procedure, the fault generated in the satellite communication line 3 is eliminated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image data broadcasting system and an image data broadcasting method, and more particularly to broadcasting image data from a single transmitting station to a plurality of receiving stations by utilizing a satellite communication line. The present invention relates to an image data broadcasting system and an image data broadcasting method.

[0002]

2. Description of the Related Art Conventionally, there are the following examples of techniques related to an image data broadcasting system. Example 1 is a system in which a line for transmitting a response signal is installed for each receiving station, and each receiving station returns a control procedure signal transmitted by the transmitting station and a response signal for confirming reception of image data. Example 2 is a simple broadcasting system in which a control procedure signal and image data are sent from a transmitting station and an error occurring in a transmission line is not corrected.

A specific example is disclosed in Japanese Patent Laid-Open No. 4-160972. In this conventional example, a switching control device and a facsimile device are provided on the output side of the satellite communication receiving station,
Based on the control signal output from the satellite communication receiving station, the switching means switches from the telephone line signal to the satellite communication line facsimile signal, the receiving condition for the facsimile signal is judged by the judging means, and the facsimile based on the judgment result. The reception operation is performed. Therefore, the configuration of the facsimile broadcast system is simplified, and the facsimile broadcast communication can be realized easily and economically.

Another specific example is Japanese Patent Laid-Open No. 1702/1992.
There is one described in Japanese Patent No. 53. This example is a transmitting / receiving station and image data broadcasting method of a satellite broadcasting system using a satellite, in which a master station is connected to a slave station and exchanges transmission control signals only with a facsimile machine of the slave station. . The transmission control signal transmitted and received between the master station and the slave station is distributed by the hybrid circuit provided between the master station and the slave station, and transmitted to the grand station via the satellite transmitter. According to this procedure, the facsimile device of the grand station can receive only the signal of the master station without transmitting the return signal.

[0005]

However, the above-mentioned conventional techniques have the following problems. In the method using the response signal, it is necessary to lay a line for returning the response signal for each receiving station, which complicates the line facility configuration. Further, in the system which does not require the response signal from the receiving station, the line for returning the response signal for each receiving station is not necessary, but the radio disturbance on the satellite line due to the weather condition directly affects the system operation. In particular, when a radio wave failure occurs during uplink, which is a transmission from a terrestrial transmission station to a satellite, this failure involves a problem that affects signals received by all reception stations.

An object of the present invention is to provide a highly reliable image data broadcasting system and image data broadcasting method.

[0007]

In order to achieve the above object, the image data broadcasting system according to claim 1 is configured by connecting a single transmitting station and a plurality of receiving stations via a satellite communication line. Is an image data broadcasting system that broadcasts image data sent from a single transmitting station to multiple receiving stations. This transmitting station is a satellite that sends and receives image data via satellite communication lines and antennas. The communication transmission / reception means, the signal transmission control means for controlling the output operation of the image data of the satellite communication transmission / reception means, and the identity between the image data output to the antenna by the satellite communication transmission / reception means and the image data input from the antenna are determined. However, it has a transmission signal monitoring means for outputting a signal representing the result of the discrimination to the signal transmission control means, and if there is no identity as a result of the discrimination, the signal is outputted to the antenna corresponding to this discrimination. To retransmit the image data, it is characterized in that signal transmission control means controls the operation of the satellite communication send and receive unit.

When the satellite communication transmitting / receiving means retransmits the image data, it is preferable to add a retransmission code for identifying the retransmission to the retransmitted image data.

A receiving station of the image data broadcasting system according to claim 3 is a satellite communication receiving means for receiving image data via a satellite communication line and an antenna, and image data received by the satellite communication receiving means is re-received. A signal reception control unit for checking whether or not the image data is the transmitted image data, and if the result of the check is that the image data is the image data to be transmitted, the image data is treated as regular data. .

Further, the above-mentioned receiving station has at least 2
When the image data of the second frame subsequent to the first frame is the retransmitted data, the image data of the first frame is canceled and the second frame is stored. It is advisable to handle the image data of as normal data.

The image data broadcasting method according to claim 5 is as follows:
An image data transmission step of transmitting image data from a single transmission station to the satellite communication station, a return transmission step of receiving the image data by the satellite communication station and transmitting the received image data back to the transmission station, and a return transmission Image data received by the transmitting station, and an identity determining step in which the transmitting station determines the identity between the image data received in the transmitting image data receiving step and the image data transmitted in the image data transmitting step. And if the identity is denied by the identity determination process,
An image data re-transmission step of adding a re-transmission code for identifying re-transmission to the image data transmitted in the image data transmission step, and re-transmitting the image data to which the re-transmission code is added to the satellite communication station. The receiving station has an image data receiving step of receiving image data returned from the satellite communication station and a retransmission code determining step of determining the presence or absence of a retransmission code in the image data received by the image data receiving step. Then
The identity determination step determines whether or not a failure has occurred in the image data returned from the satellite communication station in the return transmission step,
It is characterized in that the receiving station discriminates the retransmitted code to receive the image data having no failure.

[0012]

Therefore, according to the image data broadcasting system and the image data broadcasting method of the present invention, the transmitting station transmits and receives the image data via the satellite communication line and the antenna, and the transmitted image data and the received image data are transmitted. If there is no identity as a result of this determination, the image data corresponding to the received image data is retransmitted.
Therefore, when a failure occurs in the image data in the communication between the ground station and the satellite, the receiving station can receive the retransmitted image data instead of the failed image data.

[0013]

Embodiments of the image data broadcasting system and the image data broadcasting method according to the present invention will now be described in detail with reference to the accompanying drawings. Referring to FIG. 1, an embodiment of the image data broadcasting system of the present invention is shown.

The image data broadcasting system shown in FIG. 1 is composed of a transmitting station 1, a receiving station 2 and a satellite communication line 3. Each of these parts is further detailed, and the transmitting station 1
Is an image broadcast transmitter 11 that controls the simultaneous broadcast transmission of images.
And a satellite communication transceiver 12 for transmitting and receiving radio waves propagating through the satellite communication line 3 and an antenna device 13. The receiving station 2 is composed of N receiving stations 2a to 2n, and each of the receiving stations 2a, 2b, ..., 2n receives an image broadcast signal from the transmitting station 1 as an image receiver 21. And a satellite communication receiver 22 for receiving radio waves propagating through the satellite communication line 3 and an antenna device 23.

Further, the image broadcast transmitter 11 comprises an image transmission control section 111, a signal transmission control section 112 and a transmission signal monitoring section 113, and the image receiver 21 has an image reception control section 211. The signal reception control unit 212 is included.

The image transmission controller 11 of the image broadcast transmitter 11
Reference numeral 1 is a functional unit that controls the operation of the entire transmitting station 1. The signal transmission control unit 112 is a unit that controls the transmission operation of the satellite communication transceiver 12 based on the control signal output from the image transmission control unit 111 and the transmission state identification signal output from the transmission signal monitoring unit 113. . Transmission signal monitoring unit 113
Inputs the image signal transmitted from the satellite communication transceiver 12 and the image signal returned from the satellite 31, monitors the identity of both signals, and outputs the identification signal of the monitoring result to the signal transmission control unit 1
It is a circuit unit for outputting to 12.

The image reception control section 211 of the image receiver 21
Is a functional unit that controls the receiving operation of the entire receiving station 2.
The signal reception control unit 212 is a circuit unit that monitors the reception state of the satellite communication reception station 22 and outputs the monitoring result to the image reception control unit 211.

The satellite 31 is an antenna device 13 of the transmitting station 1.
It is a relay station that receives a radio wave signal emitted from, amplifies the received signal, and transmits the amplified signal to the ground.

FIG. 2 is a sequence diagram for explaining the flow of the interface in the image data broadcasting system of the present invention.

In FIG. 2, vertical lines "transmitting station", "satellite", and "receiving station" conceptually represent each station, and a slanting line shows a communication procedure between the stations from top to bottom in time series. It represents. The control signals A1 and A2 for each communication are signal frames carrying control information for image data broadcasting defined by the interface in the system of this embodiment, and the control signal A2 'is a retransmission of the control signal A2. Indicates a signal.
Further, the image data B1, B2, ..., Bn are signal frames carrying the image data, and the image data B2 ′ indicates a retransmission signal of the image data B2. These retransmitted signals A2 ', B
2'is transmitted with an identification code for distinguishing it from the first transmission signals A2 and B2.

In the shaded lines representing the above communication, the "x" marks of "image data B2" and "control signal A2" indicate the occurrence of a fault in the transmission signal. Further, the presence / absence of diagonal lines after the x mark indicates the presence / absence of communication in the same frame. Therefore, the "image data B2" indicates that the communication after the x mark is interrupted and the satellite 31 cannot receive the image data of the entire one frame. In addition, "control signal A
"2" means that the communication occurred, although the failure occurred. The cross mark between the "transmitting station" and the "satellite" means that a failure has occurred between the two stations. The crosses between the "satellite" and the "transmitting station" and the "receiving station" indicate that the "control signal A2", which has failed between the "transmitting station" and the "satellite", is transmitted to the satellite 3
1 returned to the ground station.

The image transmission control unit 111 follows the interface regulation in the image data system of this embodiment.
Transmission of control signals A1, A2, A2 '(hereinafter collectively referred to as control signal A) and image data B1, B2, B2', ..., Bn (hereinafter collectively referred to as image data B) to the signal transmission control unit 112. Request.

The signal transmission control unit 112 controls the satellite communication transmitter / receiver 12 using the control signal A and the image data B requested to be transmitted as signal frames, converts them into radio waves through the antenna device 13, and transmits them to the satellite 31. To send.

After the control signal A and the image data B are transmitted, the signal transmission control unit 112 receives a notification of the reception of various signals of the control signal A and the image data B from the transmission signal monitoring unit 113 within a fixed time. If not, or if the content of the notified signal is different from the transmitted signal, the same signal is transmitted again.

The transmission signal monitoring unit 113 receives the radio wave via the antenna device 13 and the satellite communication transmitting / receiving station 12, and notifies the signal transmission control unit 112 of the various received signals.

The signal reception control section 212 includes the antenna device 2
The control signal A and the image data B sent from the transmitting station 1 are received via the 3 and the satellite communication receiving station 22 and output to the image reception control unit 211.

At this time, as an interface regulation in the image data broadcasting system of the present embodiment, a signal sequence number or a retransmission code as retransmission information is added to the signal frame of the control signal A and the image data B. Therefore, the signal reception control unit 212 confirms the signal sequence number or the retransmission information and controls so that the latest signal is treated as a regular signal, so that the same control signal A and image data B are sent to the image reception control unit 211. Do not output.

A more specific example of handling procedure of the image data B2, the control signal A2 and the retransmitted signals B2 'and A2' in the receiving station 2 will be described. The satellite communication receiver 22 has a storage means capable of storing the image data B of at least two frames or the control signal A, and the signal reception control unit 21.
2 checks the presence / absence of a retransmission code in the signals of these frames (image data B or control signal A), and if there is a retransmission code, it is stored in the frame immediately before the corresponding retransmission signal. The signal is canceled and the retransmitted signal of the subsequent frame is treated as a normal signal, and the generated fault is removed. The signal reception control unit 212 controls these operations.

The signal transmitted by the transmitting station 1 and the satellite 31
Determines the identity of the signal returned to the ground station, and if there is no identity, the procedure of retransmitting the previously transmitted signal
It is possible to eliminate the trouble that has occurred in the satellite communication line 3. The satellite communication line 3 is divided into an uplink between the transmitting station 1 and the satellite 31 and a downlink between the satellite 31 and the ground station, and the theoretical possibility of eliminating the above-mentioned obstacle will be considered.

First, since the failure that has occurred in the uplink has a failure in the return signal from the satellite 31 received by the transmitting station 1, the retransmission is surely executed. Also,
All the failures that occur in the downlink cannot be covered due to differences in equipment and reception positions between one transmitting station 1 and many receiving stations 2a, 2b, ..., 2n. However, among the obstacles in the downlink, a large obstacle that affects a large number of receiving stations is considered to cause an obstacle in the reception signal of the transmitting station 1, and it is highly possible to determine the occurrence of the obstacle. Therefore, it is possible to partially improve the failure even in the downlink.

In determining the identity between the transmission signal and the reception signal in the transmission station 1, if the satellite communication line 3 transmits and receives a digital signal, there is no problem in comparing and discriminating between the two. In the case of a signal, a technical problem arises in comparison and discrimination of identity. The problem is that if the two signals of the analog signal are strictly discriminated from each other, the signal is unnecessarily retransmitted if it is strictly performed, and if it is too loose, it is easy to make a mistake that the necessary retransmission is not performed. The degree of strictness in this comparison determination may be determined according to the required strictness, the distribution state of the receiving stations 2, the identification capability of the transmitting station 1 for identity, and the like.

As described above, the present invention eliminates the need for laying a line for returning a response signal for confirming the reception of various signals transmitted from the transmitting station for each receiving station, which is caused by a failure at the time of uplink. The reliability of communication characteristics can be improved by correcting the propagation of various signals and transmitting a signal without a failure to the receiving station.

Although the above-described embodiment is a preferred embodiment of the present invention, the present invention is not limited to this and various modifications can be made without departing from the gist of the present invention.

[0034]

As is apparent from the above description, the image data broadcasting system and the image data broadcasting method of the present invention are
The transmitting station transmits and receives image data via the satellite communication line and the antenna, determines the identity between the transmitted image data and the received image data, and if there is no identity as a result of this determination, then it applies. Retransmit the transmitted image data. Therefore, if a failure occurs in the image data in the communication between the ground station and the satellite, the receiving station can process the retransmitted image data instead of the failed image data. By this processing, it is possible to correct the failure that has occurred during the uplink and the large failure that has occurred during the downlink, and improve the reliability of the broadcast data.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of an image data broadcasting system of the present invention.

FIG. 2 is an interface sequence diagram in the system of FIG.

[Explanation of symbols]

 1 transmitting station 2 receiving station 3 satellite communication line 11 image broadcasting transmitter 12 satellite communication transmitter / receiver 13, 23 antenna device 21 image receiver 22 satellite communication receiver 111 image transmission control unit 112 signal transmission control unit 113 transmission signal monitoring unit 211 image reception control unit 212 signal reception control unit

Claims (5)

[Claims] 1. A single transmitting station and a plurality of receiving stations are connected to each other via a satellite communication line, and image data sent from the single transmitting station is simultaneously broadcast to the plurality of receiving stations. In the image data broadcasting system, the transmitting station is a satellite communication transmitting / receiving unit for transmitting / receiving the image data via the satellite communication line and an antenna, and a signal for controlling an output operation of the image data of the satellite communication transmitting / receiving unit. The transmission control means determines the identity between the image data output from the satellite communication transmission / reception means to the antenna and the image data input from the antenna, and sends a signal representing the result of the determination to the signal transmission control means. If there is no identity as a result of the determination, the image data output to the antenna corresponding to this determination is retransmitted. Image data broadcast system which has a signal transmission control unit and controls the operation of the satellite communication send and receive unit. 2. The satellite communication transmitting / receiving means, when the image data is retransmitted, adds a retransmission code for identifying the retransmission to the retransmitted image data. Image data broadcasting system described. 3. The receiving station, a satellite communication receiving means for receiving the image data through the satellite communication line and an antenna, and a re-transmission for retransmitting the image data received by the satellite communication receiving means. And a signal reception control means for checking whether or not the image data, as a result of the check, if the image data is retransmitted,
The image data broadcasting system according to claim 1, wherein the retransmitted data is treated as regular data. 4. The receiving station further includes a storage unit capable of storing the image data of at least two frames, and the image data of a second frame following the first frame is the retransmitted data. 4. The image data of the first frame is canceled and the image data of the second frame is treated as regular data.
Image data broadcasting system described. 5. An image data transmitting step of transmitting image data from a single transmitting station to a satellite communication station, the satellite communication station receiving the image data, and transmitting the received image data back to the transmitting station. A sending and receiving step, a sending image data receiving step in which the sending station receives the sent and returning image data, an image data received in the sending image data receiving step, and an image data sent in the image data sending step. An identity determination step in which the transmitting station determines the identity, and a re-transmission code for identifying re-transmission in the image data transmitted in the image data transmission step when the identity is denied in the identity determination step. And a step of retransmitting the image data to which the retransmit code is added to the satellite communication station again, and a plurality of receiving stations returning and transmitting from the satellite communication station. Image data receiving step for receiving the image data, and a retransmission code determining step for determining the presence or absence of the retransmission code in the image data received by the image data receiving step. Whether the image data returned from the satellite communication station has a fault or not is discriminated by the identity discriminating step, and the retransmit code is discriminated by the receiving station so that the image data having no fault is received. Characteristic image data broadcasting method.