KR19980030381A - Communication Mode Management Method of Base Station in Satellite Communication System - Google Patents

Abstract

The present invention relates to a communication modem state management method in a satellite communication system that allows the base station combined with a subscriber to periodically retrieve the state of the self-equipped communication modem (SCU) and retain the state information. A satellite communication system for providing communication between subscribers by combining a plurality of base stations coupled to subscribers of the mobile station with a central control station through satellites; The base station initializes the SCU previous state information storage unit corresponding to the contents of the SCU current state information storage unit, a polling step of outputting a polling signal to the SCPC channel unit, and outputs a polling signal from the corresponding SCPC channel unit. When the response message for the current status is received, the response message receiving step of storing it in the SCU current status information storage unit, a status comparison step for comparing whether the contents of the SCU current status information storage unit and the SCU previous status information storage unit match, and the two states If it does not match, update the SCU previous status information storage unit with the SCU current status information, report the status change of the SCPC channel unit to the central control station, and then perform each of the above steps for the SCPC channel unit of the next number. It includes a repeated polling step of performing each step for the SCPC channel unit of the next number Characterized in that configured.

Description

Communication Mode Management Method of Base Station in Satellite Communication System

The present invention relates to a communication system using a satellite, and in particular, a communication in a satellite communication system that allows the base station combined with a subscriber to periodically search for the state of its own communication modem (SCU) and retain its state information. The present invention relates to a modem state management method.

Recently, with the rapid development of communication technology, satellite communication, which enables subscribers who are located at remote sites to make calls through satellites, is becoming increasingly common. Such satellite communication is mainly used as a long distance communication between countries, or a communication method in a mountainous country such as Korea, because a separate signal line is not required for a call.

In the above-mentioned satellite communication, there are two types of PAMA (Pre Assignment Multiple Access) method for allocating communication channels for each subscriber according to the channel allocation method and Demand Assignment Multiful Access (DAMA) method for allocating communication channels according to the subscriber's request. In general, in the satellite communication system for communication between subscribers, many DAMA methods are adopted in consideration of the cost and the effectiveness of the communication channel.

1 is a block diagram showing the overall system configuration of a general satellite communication system according to the DAMA method.

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). And interface functions for terminals such as data terminals 13A and 13B and facsimile 14A and 14B, such as a computer, and communication between the various terminals through data transmission and reception with the central control station 2. It provides a base station.

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.

In the above-described configuration, the central control station 2 transmits a control message through a service channel in a normal state and then, based on a response message sent from the base station 3, that is, communication It performs a polling function to check the available capacity or the utilization status of the communication channel. When there is a call request from a specific base station, for example, the base station 3A to the terminal of the base station 3B, it is determined whether the corresponding base station 3B is in a state in which communication is possible 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 is applied to both base stations. By executing the communication termination process, the traffic channel T which has been provided to both base stations 3A and 3B is released.

2 is a block diagram schematically showing the configuration of the base station 3 described above.

In the drawing, reference numeral 21 denotes an antenna for transmitting and receiving satellite 1, an uplink signal, and a downlink signal, and 22 denotes an antenna for transmitting and receiving through the antenna 21 by using a polarization property of frequency. Orthogonal Mode Transducer (OMT) for separating and inputting a separate signal, and Low Noise Amplifier (LNA) for low-noise amplifying downlink frequency signals of 12.25 to 12.75 GHz inputted through the Orthogonal Mode Converter. ), A frequency down converter (DC) for converting a frequency signal applied through this low noise amplifier into, for example, an intermediate frequency signal (IF) of 70 MHz, and applied from an IF combination / distributor 23 to be described later. Up-converter (UC) for converting 70MHz IF signal into microwave of 14.0 ~ 14.5G㎐ to generate uplink frequency signal An RF processor including a high power amplifier (HPA) for amplifying a wave signal.

In addition, reference numeral 23 separates and outputs the intermediate frequency signal applied from the RF processor 22 into a plurality of intermediate frequency signals, and also describes a Single Channel Per Carrier (SCP) channel unit (SCU: 24) to be described later. IF combiner / distributer for combining and outputting the intermediate frequency signal applied from the output signal, and 24 demodulates, decodes and outputs the intermediate frequency signal applied from the IF combiner / distributor 23, and thereafter. An SCPC channel unit, that is, a communication modem, which encodes, modulates, and outputs a message output from the base station controller 20 to be described.

Here, the IF combination / distributor 23 is employed for system scalability when using a plurality of SCPC channel units, and up to 32 SCPC channel units 24 are used in the base station 3.

Reference numeral 20 denotes an available traffic channel of the satellite allocated from the central control station 2 after generating a predetermined S-ALOHA message and transmitting it to the central control station 2 when there is a call request from the subscriber. It is a base station control unit for controlling the communication between subscribers by setting the SCPC channel unit 24 itself provided based on the modem to a predetermined operating state.

That is, the base station 3 having the above-described configuration generates a predetermined S-ALOHA message according to the call request when there is a call request from the subscriber in the normal state, and through the SCPC channel unit 24, the central control station 2 Will be sent out.

Subsequently, when the originating subscriber is assigned an available traffic channel and modem from the central control station 2, the base station 3 makes the origination by setting the operation state of the corresponding SCPC channel unit 24 _{1 to} 24 _n to the available state. The subscriber and the called party are controlled to perform mutual communication.

That is, the originating base station performs predetermined signal processing on the signal transmitted by the subscriber, and then converts the satellite into a predetermined frequency of the assigned traffic channel through the SCPC channel unit 24 allocated from the central control station 2, It transmits to the destination base station through 1), performs predetermined signal processing on the signal transmitted and received from the destination base station, restores it to the original signal, and outputs it from the calling party.

As described above, the base station 3 should not only be allocated a traffic channel available from the central control station 2 when there is a call request from the subscriber, but also its own SCPC channel unit 24, which is also allocated this SCPC. Communication processing is performed through the channel unit 24.

Therefore, the central control station 2, which controls the satellite communication system as a whole, should keep the information on the available status of the SCPC channel unit 24 provided in each base station 3 continuously.

In addition, the central control station 2 acquires the state information of each base station 3 held from the predetermined information transmitted and received from the base station 3, and each base station 3 receives the SCPC channel unit. You will need to search continuously.

Accordingly, the present invention has been made in view of the above-mentioned point, and the base station continuously performs polling function for the SCPC channel unit provided by itself, and determines the state information of the SCPC channel unit based on the accompanying response signal. The purpose of the present invention is to provide a method for managing the communication modem state of a base station in a satellite communication system that stores the memory in the memory and sends it to the central control station to determine whether each SCPC channel unit is available or not.

1 is an overall system configuration for explaining the outline of a general satellite communication system.

FIG. 2 is a block diagram showing the configuration of the base station 3 in FIG.

3 is a block diagram showing the configuration of a base station 3 to which a communication modem state management method of a satellite communication base station according to an embodiment of the present invention is applied.

4 is a flowchart illustrating a method for managing a communication modem state of a base station in a satellite communication system according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: satellite 2: central control station

3A, 3B: base station 11A, 11B: switchboard

12A, 12B: Telephone 13A, 13B: Data Terminal

14A, 14B: Facsimile 21: Antenna

22: RF processing unit 23: IF combination / distribution unit

24: SCPC channel unit 20: base station control unit

31: SCU current status information storage unit 32: SCU previous status information storage unit

In the satellite communication system according to the present invention for realizing the above object, a method for managing a communication modem state of a base station is to provide a communication between subscribers by combining a plurality of base stations, each of which is coupled with a plurality of subscribers, with a central control station via satellite. In the system; The base station initializes the SCU previous state information storage unit corresponding to the contents of the SCU current state information storage unit, a polling step of outputting a polling signal to the SCPC channel unit, and outputs a polling signal from the corresponding SCPC channel unit. When the response message for the current status is received, the response message receiving step of storing it in the SCU current status information storage unit, a status comparison step for comparing whether the contents of the SCU current status information storage unit and the SCU previous status information storage unit match, and the two states If it does not match, update the SCU previous status information storage unit with the SCU current status information, report the status change of the SCPC channel unit to the central control station, and then perform each of the above steps for the SCPC channel unit of the next number. It includes a repeated polling step of performing each step for the SCPC channel unit of the next number Characterized in that configured.

That is, according to the above, the base station searches for the operation state by continuously performing polling function for each SCPC channel unit, and sends the result to the central control station so that the central control station can refer to this state information when calling. do.

Next, with reference to the accompanying drawings will be described in detail an embodiment according to the present invention.

FIG. 3 is a block diagram illustrating a communication modem state management system in a satellite communication system to which an embodiment of the present invention is applied. In FIG. 3, the same reference numerals are assigned to parts performing the same functions as those of FIG. 3. Omit.

In the figure, reference numeral 31 is an SCU current state information storage unit for storing the current state of the SCPC channel unit 24, 32 is an SCU previous state information storage unit for storing the previous state of the SCPC channel unit 24.

Further, reference numeral 30 denotes the function described with reference to FIG. 3, that is, when a subscriber requests a call, a predetermined S-ALOHA message is generated, sent to the central control station 2, and then assigned from the central control station 2. For the SCPC channel unit 24 as well as controlling the communication between subscribers by setting its own SCPC channel unit 24 based on the available traffic channel and modem of the satellite to a predetermined operating state. If the status of any SCPC channel unit 24 is changed while performing the polling function continuously, the result is transmitted to the central station 2.

Next, a communication modem state management method in a satellite communication system according to an embodiment of the present invention will be described with reference to the flowchart of FIG. 4.

First, when the base station 3 starts up, the base station control unit 30 is in a state in which all SCPC channel units 24 operate normally in the areas of the SCU previous state information storage unit 32 and the SCU current state information storage unit 31. It is set to a predetermined flag indicating (ST1 step).

Subsequently, the base station controller 30 reads the stored contents of the SCU current state information storage unit 31 (eg, the normal state contents at the time of initial startup) and stores them in the SCU previous state information storage unit 32 (ST2). step). This is applied to perform the repetitive operation of the base station controller 30.

That is, the base station control section 30 once (step ST3), and it outputs a polling signal to one SCPC channel unit (24 ₁₎ time required for the current state of the SCPC channel unit (24 _1), the first SCPC channel unit ( 24 ₁ ) when the response message for the current status is received (step ST4), the status information of the received SCPC channel unit 24 ₁ is stored in the SCU current status information storage unit 31 as normal, for example ( ST5 step).

On the other hand, if the response signal for the polling signal is not received from the SCPC channel unit 24 ₁ is stored as an unresponsive state in the SCU current state information storage unit 31, for example, abnormally stored (step ST6).

Subsequently, the base station controller 30 reads out the SCU state information of the SCU current state information storage unit 31 and the state information stored in the SCU previous state information storage unit 32 obtained by performing the steps ST5 and ST6. The two status information are compared with each other (ST7 step).

Here, the base station control unit 30 adds 1 to the unit number of the SCPC channel unit 24 ₁ that has performed the polling operation when the current state of the SCPC channel unit 24 ₁ and the previous two state information coincide with each other. The process then proceeds to the following operation (ST8 step).

On the other hand, if the previous state information and the current state information does not match in step ST7 means that the state of the SCPC channel unit 24 ₁ has been changed, this changed state (the state of the current SCPC channel unit) to the base station control unit ( 30) transmits to the central control station 2, and then proceeds to step ST8 to perform the following operations (step ST9).

Subsequently, the base station controller 30 sequentially outputs polling signals to each SCPC channel unit 24 _{1 to} 24 _n to perform a repeated polling operation. For example, from the first SCPC channel unit 24 ₁ . If the polling operation is performed to the N SCPC channel unit 24 _n by the polling operation, the polling operation is repeated from the SCPC channel unit 24 ₁ again.

That is, according to the above, the base station can manage the SCPC channel unit which is provided by itself by performing the polling operation on the SCPC channel unit provided in itself.

On the other hand, the present invention is not limited to the above embodiments and can be implemented in various modifications without departing from the technical rights of the present invention.

As described above, according to the present invention, the base station continuously performs polling function for the SCPC channel unit provided therein, and stores the state information of the SCPC channel unit in a predetermined memory based on the accompanying response signal. In addition, it is possible to realize the method of managing the communication modem status of the base station in the satellite communication system that sends the information to the central control station to determine the status of each SCPC channel unit.

Claims (2)

In a satellite communication system that provides communication between subscribers by combining a plurality of base stations, each of which is combined with a plurality of subscribers, with a central control station through a satellite, the base station is the SCU previous state information of the area corresponding to the contents of the SCU current state information storage unit. Memory initialization step of initializing storage unit, polling step of outputting polling signal to SCPC channel unit, and outputting polling signal and receiving response message about current status from corresponding SCPC channel unit and storing it in SCU current status information storage Responding to the response message to receive the status, comparing the contents of the SCU current state information storage unit and the state comparison step of comparing the SCU previous state information storage unit, and if the two states do not match, and updates the SCU previous state information storage unit with the SCU current state information SCPC of the next number after reporting status change of SCPC channel unit to the central control station. A method of managing a communication modem state of a base station in a satellite communication system, comprising repeating polling steps of performing each step for a channel unit and performing each step for an SCPC channel unit of the next number immediately if there is a match. . The base station of claim 1, wherein the response message receiving step stores the non-response information in the SCU current status information storage unit if a response message is not received from the SCPC channel unit after outputting a polling signal. How to manage communication modem status.