KR100284320B1 - Alto Signaling Control Data Processing Method and Apparatus in Satellite Communication System - Google Patents

Abstract

The present invention relates to a control data processing method of an Al2 (R2) signal system in a satellite communication system that can prevent error processing of control data by a retransmission function in an Al2 (R2) signal system communication with a general telephone network through a satellite communication network. And to an apparatus.

In the present invention, when there is a reception of data from any source base station combined with a general telephone network, the processor 36 transmits control data based on the signaling method of the R2 signaling method storage unit 34 to generate a status flag storage unit ( The transmission flag is set in the transmission area of 35), and when the response data for the transmitted control data is received, the reception flag is set in the reception area of the state flag storage unit 35. If all the transmission / reception flags for the transmitted control data are set or if the state flag storage unit 35 is all set, the next control data is transmitted, and if none of the transmission / reception flags are set, And retransmitting the control data previously sent out.

Therefore, according to the present invention, it is possible to provide the best relay call service to the subscriber by preventing the error of control data processing in the R2 signal communication of the satellite communication system.

Description

Alto Signaling Control Data Processing Method and Apparatus in Satellite Communication System

The present invention relates to a satellite communication system using satellites, and more particularly, in a satellite communication system capable of preventing error processing of control data by a retransmission function in an Al2 (R2) signal communication with a general telephone network through a satellite communication network. The present invention relates to a control data processing method and apparatus of Al2 (R2) signal system.

1 is a block diagram showing the configuration of an overall system of a general satellite communication system.

In Fig. 1, reference numeral 1 is a satellite having a plurality of communication channels, 2 is a central control station for controlling the entire satellite communication system, and 3 (3A, 3B) is an exchanger (11A, 11B) or a telephone (12A, 12B). Communication function between the various terminals through data transmission and reception with the central control station 2 as well as an interface function for terminals such as data terminals 13A and 13B and facsimile 14A and 14B, such as a computer. The base station that provides.

In addition, in FIG. 1, reference numeral S denotes a service channel for transmitting and receiving control data, and T denotes a traffic channel for transmitting and receiving data or voice.

That is, in the satellite communication system having the above-described configuration, the central control station 2 normally transmits a control message through the service channel, and then, based on the response message transmitted from the base station 3, each base station 3 It performs a polling function to check the state of the communication capacity or the availability of the communication channel.

When there is a call request from a subscriber, for example, a base station 3 to a terminal under the control of the base station 3B, it is determined whether the base station 3B is in a state capable of communication based on the information obtained in the polling process. In the case of the communicable state, the available traffic channel T of the satellite is allocated to both base stations 3A and 3B so that both base stations 3A and 3B can directly communicate with each other.

Subsequently, when the communication between the base stations 3A and 3B is terminated and the communication termination signal is applied through the service channel S from the base station 3A, which has been requested for communication, the central control station 2 receives By executing the communication termination process, the traffic channel T which has been provided to both base stations 3A and 3B is released.

On the other hand, the call setup method of the satellite communication system includes an internal call setting for connecting a call between internal subscribers and an outgoing call for connecting a call between a subscriber and a general telephone network subscriber through a satellite communication network. ), There is an incoming call setup that connects the call between the internal subscribers through the subscriber and the satellite communication network.

In addition, as described above, the satellite communication system is connected to the subscriber of the general telephone network through the switch 11, so that the subscriber of the satellite telephone network can provide a call in the subscriber network.

In the case of Korea, in the satellite communication system, a communication method with a general telephone network is transmitted by using an R2 signal method, and the R2 signal method is indicated through the table of FIG. 2.

In Fig. 2, (a) is the R2 signaling method in the forward link and (b) is the R2 signaling method in the reverse link. In addition, in (A), Group 1 is a signal to be selected and input, Group 2 is a signal indicating the service class or type of the calling party, (B) Group A is a confirmation and control signal of the forward link signal, Group B is the forward Confirmation of the link signal and the status or class indicating signal of the called party line.

That is, in the communication method according to the R2 signaling method, a signal corresponding to the number digit is input at the calling party and the corresponding signal is transmitted. Accordingly, the called party sends a control signal. Subband signaling is performed to transmit control data for synchronizing the base station modem to which the subscriber belongs to the modem of the base station to which the called party belongs.

However, in the above-described subband signaling process, the control data is transmitted three times in succession by the function of retransmitting three times, so that an error may occur when the same signal is repeatedly received and recognized, or an error may occur in processing in the satellite communication system. Will be.

Accordingly, the present invention has been made in view of the above circumstances, and can provide the best relay call service to subscribers by preventing errors in control data processing in Al2 (R2) signal communication with a general telephone network through a satellite communication network. It is an object of the present invention to provide a control data processing method and apparatus of the Al2 (R2) signaling method in a satellite communication system.

1 is a block diagram showing the overall configuration of a typical satellite communication system.

2 is a diagram illustrating a general Al2 (R2) signal system.

3 is a block diagram showing a control data processing apparatus of the Al2 (R2) signal system in a satellite communication system according to an embodiment of the present invention.

4 is a flowchart illustrating a control data processing method of an Al2 (R2) signal system in a satellite communication system according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

1: satellite 2: central control station

3: base station S: service channel

T: Traffic channel 11A, 11B: Switch

12A, 12B: Computer 13A, 13B: Terminal

14A, 14B: facsimile 30: network control unit

31: SCPC (Single Channel Per Carrier) Channel Unit

32: Trunk Interface Port (TIP)

33: Telephone Data Card (TDC)

34: R2 signal storage unit 35: status flag storage unit

36 processor 38 dual-port RAM

37: Service Channel Controller (SCC)

In the satellite communication system according to the present invention for realizing the above object, the control data processing method of the Al2 (R2) signaling method is a satellite communication system which enables communication between a calling party base station and a called party base station through a satellite. Receiving data from subscriber base station, Receiving control data for transmitting response control data for received data, Receiving control flag for transmitting control data, Receiving response data for control data Response data receiving step, receiving flag storing step of receiving response signal for control data as status flag, status flag checking step for checking whether all sending / receiving status flags for one control data are stored, sending / receiving status flag If everything is saved then That is configured with a control data transmitting step to transmit return data is characterized.

The control data transmission and returning step may include re-transmitting previously transmitted control data when one of the transmission and reception flags is not stored by checking the status flag.

In addition, in the satellite communication system according to the present invention for realizing the above object, the control data processing apparatus of the Al2 (R2) signal system includes a trunk interface and an Al2 (R2) signal system to which an exchange or the like for coupling with a general telephone network subscriber is connected. Alto signaling method storage unit stored as this data, a state flag storage unit for storing a predetermined state flag, a processor for storing and confirming the transmission and reception status flag when transmitting and receiving the predetermined control data, and then transmit and receive the next control data, the trunk interface port And a data transmission and reception unit for transmitting and receiving data between the processor and the processor.

The state flag storage unit may include a transmission flag area and a reception flag area, and a plurality of predetermined addresses for storing the state flag for each control data are provided.

That is, according to the present invention having the above-described configuration, in the R2 signal type communication of the satellite communication system, the transmission flag is stored every time control data is transmitted, and if there is response data, the reception flag is stored and then confirmed. The next control data can be processed.

Therefore, data processing errors or errors due to retransmission functions such as subband signaling can be prevented.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

3 is a block diagram showing a control data processing apparatus of an Al2 (R2) signal system in a satellite communication system according to an embodiment of the present invention.

In FIG. 3, reference numeral 30 denotes a network control unit of a central control station to which an apparatus according to the present invention is applied, and 31 denotes a single channel per carrier (SCP) channel unit that encodes, modulates, or demodulates and decodes an input / output message signal. SCU), 32 is a trunk interface port (TIP) to which a switch or the like for coupling with a general telephone network subscriber is connected, 33 is a telephone 12 or a data terminal 13 and a facsimile 14 as shown in FIG. Telephone Data Card (TDC) for connecting terminals such as

The SCPC channel unit 31, the trunk interface port 32, and the telephone data card 33 have a main PCM highway bus (MPH) for transmitting and receiving processing data such as voice data, and an UPH (transmitting predetermined control data). It can be combined via the Utillity PCM Highway BUS.

In FIG. 3, reference numeral 34 denotes an alto signal storing unit in which an Al2 (R2) signaling system is stored as data, and 35 denotes a state flag storing unit in which a predetermined state flag is stored. An area in which a reception flag is stored is provided, and 36 stores a transmission flag when transmitting predetermined control data, and stores a reception flag when a response message data is received thereafter. A processor that sends and receives data.

In addition, reference numeral 37 extracts packet information from the message applied by the SCPC channel unit 31 to generate a S-ALOHA (Slotted ALOHA) packet, and also, for the SCPC channel unit 31. A service channel controller (SCC) that generates and outputs a message of a time division multiplex (TDM) stream, and 38 is a dual port RAM, which is formed between the processor 36 and the service channel controller 37. Will be provided for data transmission and reception.

Next, the operation of the device having the above-described configuration will be described with reference to the flowchart shown in FIG.

In the normal state, the network controller 30 checks the state of each base station by performing a polling operation.

That is, the processor 36 of the network controller 30 writes packet data for checking the state of each base station to the dual port RAM 38, and the service channel controller 37 writes to the dual port RAM 38. After reading the written packet data, the TDM stream generates a message and outputs it to the SCPC channel unit 31.

Then, the SCPC channel unit 31 converts the message into an intermediate frequency signal by encoding and modulating the message, and outputs the intermediate frequency signal through an intermediate frequency combination / distributor, a high output amplifier, an antenna, and the like (not shown). After being output, the satellite 1 is transmitted to each base station 3 through the satellite 1.

Meanwhile, the response message signal received from each base station 3 through the satellite 1 is converted into an intermediate frequency signal, applied to the SCPC channel unit 31, demodulated and decoded, and then applied to the network controller 30. .

In addition, the network controller 30 extracts packet information from the message to which the service channel controller 37 is applied to generate an S-ALOHA packet, and then writes the packet information into the dual port RAM 38. The packet data is read from the port RAM 38 and the base station information is updated and registered on the basis of the packet data, thereby retaining state information for each base station. In addition, the above-described polling operation is continuously performed for each base station.

On the other hand, when the number digit data is received by the subscriber keying in a telephone number or the like from any originating base station connected to the general telephone network (PSTN) during the above-described polling operation (step ST1), the processor 36 stores the R2 signaling scheme. On the basis of the signaling method of the unit 34, control data for transmitting the next data is transmitted (ST2 step). Then, the transmission flag is set in the transmission area of the state flag storage unit 35 (step ST3).

Subsequently, if the response data for the control data is not received or other data from the originating base station (step ST4), the processor 36 does not set the reception area of the status flag storage unit 35, and the control data transmitted before is sent. It will be resent (ST5 step).

However, if the data received from the source base station is response data to the control data, the reception flag is set in the reception area of the status flag storage unit 35 (step ST6).

Then, the processor 36 checks the state flag storage unit 35 to determine whether all transmission / reception flags for the transmitted control data are set (step ST7).

Therefore, as a result of checking the state flag storage unit 35, if all the transmission / reception flags are set, the process returns to the step ST2 for transmitting the next control data, and if any one of the transmission / reception flags is not set before, The transmitted control data is resent (ST8 step).

That is, according to the above embodiment, whenever the satellite communication system transmits control data and sets the status flag related to transmission / reception each time the response data is received, it is checked and the next control data is processed when there is no abnormality in processing of one control data. By being able to transmit, it is possible to prevent errors in data processing.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, it is possible to realize the control data processing method and apparatus of the Al2 (R2) signal method in the satellite communication system which can prevent the error of the control data processing and provide the best relay call service to the subscriber. do.

Claims (4)

In a satellite communication system that enables communication between a calling party base station and a called party base station through a satellite, A data receiving step of receiving data from the calling party base station; A control data transmission step of transmitting response control data to the received data; A transmission flag storing step of storing the control data as a status flag; A response data receiving step of receiving response data for the control data; A receiving flag storing step of storing, as a status flag, that a response signal for control data has been received; Status flag checking step of checking whether all transmission / reception status flags for one control data are stored, The control data processing method of the Al2 (R2) signal system in a satellite communication system, characterized in that it comprises a control data transmission return step of transmitting the next control data if all transmission and reception status flags are stored. The method of claim 1, The control data transmission return step checks the status flag and retransmits the previously transmitted control data if any one of the transmission / reception flags is not stored, the control data of the Al2 (R2) signal type in the satellite communication system. Treatment method. In a satellite communication system having a central control station for controlling each base station to perform communication between a calling party base station and a called party base station through a satellite, The network control unit of the central control station includes a trunk interface connected to a switch of a general telephone network, and data transmission / reception means for transmitting and receiving predetermined control data with each base station; Al2 signal storage unit for storing the Al2 (R2) signal method as data, And a state flag storage unit configured to store a predetermined state flag according to transmission and reception of predetermined control data with each base station. It is connected to the data transmission / reception means, the ALTO signal system storage unit and the state flag storage unit. Control data processing apparatus of the Al2 (R2) signaling method in a satellite communication system, characterized in that it comprises a processor for controlling the data transmission and reception means to transmit and receive the next control data when transmission and reception of control data is confirmed. The method of claim 3, wherein The state flag storage unit includes a transmission flag area and a reception flag area, and a plurality of predetermined addresses for storing the state flag for each control data are provided. Data processing unit.

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