KR20000047235A - Method for assigning channel modem of satellite communication system - Google Patents

Abstract

PURPOSE: A method for assigning a channel modem of a satellite communication system is provided to improve the reliability of a satellite communication service by assigning a channel model having a high rate of connection success. CONSTITUTION: Input of a number data related to a communication request from a subscriber terminal, is determined(ST1). A network controlling part generates and transmits a control message related to a number translation to a central control station(ST2). The network controlling part determines the receipt of call setting command signal from the central control station(ST3), if receiving the signal, searches a channel modem having the smallest connection failure coefficient value(ST4). The channel modem is set to a subscriber terminal having requested for communication request(ST5). The network controlling part generates and transmits a status request message to a receiving subscriber to the central control station(ST6), and then waits for a responding message. If not receiving the responding message, the network controlling part withdraws the assigned channel modem, and stores the connection failure coefficient value with increasing '1'(ST8). If receiving the responding message, the network controlling part stores the connection failure coefficient value with decreasing '1'(ST9).

Description

Channel Modem Allocation Method for Satellite Communication System

The present invention relates to a channel modem allocation method of a satellite communication system. In particular, a channel modem allocation of a satellite communication system that stores a connection failure rate for each channel modem and can allocate a channel modem from a small connection failure rate based on the channel modem It is about a method.

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, each base station 3 is based on a response message transmitted from the base station 3 after the central control station 2 normally transmits a control message through the service channel. It performs a polling function to check the state of the communication capacity or the availability of the communication channel.

In the state where the central control station 2 is performing the polling function as described above, a call request for the terminal 12B under the jurisdiction of another base station 3B from the subscriber station 12A connected to an arbitrary base station 3A is performed. If there is Calling, the call request base station 3A searches for and allocates a channel modem available to the subscriber station 12A, and then executes a call request to the central control station 2.

Subsequently, the central control station 2 determines whether the destination base station 3B can communicate with the call request from any of the base stations 3A, and searches for available channel modems when the communication is possible. After allocation, the available traffic channel T of satellite 1 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.

However, as described above, when the calling party and the called party are each assigned a channel modem and communication is performed between the base stations 3A and 3B through the satellite 1, the performance of a specific modem is degraded. If it is too low or too high, there is a problem that the call sensitivity becomes bad even when communication is interrupted or communication is made when the communication is executed through this modem.

In addition, since the bad modem could not be identified, the bad modem is allocated to another call request even after the communication connection is terminated, thereby providing a satisfactory communication service to subscribers using the satellite communication service. Not only that, there was a problem of repeating the vicious cycle of repeating the allocation of the bad modem.

Accordingly, the present invention has been made in view of the above circumstances, and the satellite communication system stores the connection failure rate for each channel modem, and based on this, it is possible to allocate the channel modem from the highest connection success rate to the satellite communication service. The purpose of the present invention is to provide a channel modem allocation method of a satellite communication system capable of improving reliability.

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

2 is a block diagram showing a configuration of a central control station 20 to which the present invention is applied.

3 is a block diagram showing the configuration of a base station 40 to which the present invention is applied.

4 is an operation flowchart of a base station 40 for explaining the channel modem allocation method of the satellite communication system according to the first embodiment of the present invention.

Fig. 5 is a flowchart of operation of the central control station 20 for explaining the channel modem allocation method according to the first embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: satellite 2: central control station

3: base station 21, 41: antenna

22, 42: orthogonal mode converter 23, 43: low noise amplifier

24, 44: frequency down converter 25, 45: intermediate frequency combination / distribution

26, 46: telephone data card 27, 47: subscriber terminal

28, 48: channel modem 30, 50: frequency up converter

31, 51: high power amplifier 32, 52: network control unit

33, 53: MPH bus (Main PCM Highway BUS)

34, 54: UPH bus (Utility PCM Highway BUS)

35: network management system 36, 55: connection failure count storage unit

The channel modem allocation method of the satellite communication system according to the present invention for realizing the above object counts the connection failure for each channel modem every call request, stores the count value as data, and allocates the channel modem based on this. A base station of the system, comprising: a call request input step of determining whether number data on a call request is input from a subscriber terminal, a number translation request step of executing a number translation request to a central control station based on the input number data, and central control Call setup signal receiving step for determining whether a command signal for call setup has been received from a station, and channel modem searching step for searching for a channel modem having the smallest connection failure coefficient value among the channel modems when a command signal for call setup is received. And a channel modem assignment step of allocating a channel modem having the smallest connection failure count value. After allocating the channel modem with the smallest rate, the step of transmitting the incoming state request message that sends the status request message of the called party to the central control station, and the response determining whether the response message about the called party's reception is received from the central control station. Message receiving judging step, when the response message is received from the central control station comprises a call processing step of reducing and storing the connection failure coefficient value of the stored channel modem "1" and outputs a ring back tone signal to the subscriber station; It is done.

In addition, after transmitting the status request message of the called subscriber to the central control station, if the response message about the reception of the receiving party is not received, it is stored by increasing the coefficient of connection failure of the stored channel modem by "1" do.

In addition, the channel modem allocation method of the satellite communication system according to the present invention for realizing the above object is to count the connection failure at each call request for each channel modem to store the count value as data, and to allocate the channel modem based on this A central control station of a satellite communication system, comprising: a number translation request reception step for determining whether a number translation message has been received from a base station, a call setup command sending step for sending a call setup command signal to a base station that has requested number translation, and a call Channel modem search step for searching the channel modem with the smallest connection failure count value, channel modem allocation step for allocating the channel modem with the smallest connection failure coefficient value after sending the setup command, and receiving the status request message of the called party from the base station. Incoming state request receiving step of judging whether or not In the case of a callable determining step of reducing and storing the connection failure coefficient value of the stored channel modem by " 1 " And a call connection execution step of performing a call processing by outputting a ring signal to the called terminal.

In addition, if the status request message of the called subscriber is not received from the base station after the call setup command signal is transmitted to the base station, the connection failure coefficient value of the stored channel modem is increased by " 1 ".

Therefore, according to the present invention having the above-described configuration, in the satellite communication system, when a channel modem is allocated due to a call request from a central control station or a base station, the channel modem is searched and the connection failure coefficient value is assigned from the smallest one. The communication service with high connection success rate can be provided.

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

2 is a block diagram showing the configuration of the central control station 20 to which the present invention is applied.

In FIG. 2, reference numeral 21 is an antenna for transmitting and receiving an uplink signal and a downlink signal with respect to the satellite 1, and 22 is an antenna 21 using a polarization property of frequency. Orthogonal Mode Transducer (OMT) 23 for separating and transmitting and receiving signals transmitted and received through A low noise amplifier (LNA) 24 is a frequency down converter (DC) for converting a frequency signal applied through the low noise amplifier 23 into an intermediate frequency signal IF of 70 MHz, for example.

In addition, reference numeral 25 separates and outputs the intermediate frequency signal IF applied from the frequency down converter 24 into a plurality of intermediate frequency signals, and a channel modem (SCU: 28 _{1 to} 28n) to be described later. An intermediate frequency combiner / distributor (IF C / D) for combining and outputting an intermediate frequency signal applied from the apparatus, and reference numeral 26 denotes a telephone 12, a data terminal 13, or a facsimile as shown in FIG. A telephone data card 27 for connecting a terminal such as 14 is a subscriber terminal connected to the telephone data card 26.

Further, reference numeral 28 (28 _{1 to} 28n) demodulates and decodes a frequency signal from a base station input through the intermediate frequency combination / distributor 25 described above, and also receives a subscriber from the telephone data card 26. A single channel per carrier (SCP) channel unit as a channel modem which encodes, modulates and outputs control signals for other base stations output from the network control unit 32 to be described later.

In the drawing, reference numeral 30 denotes a frequency up-converter for converting a 70 MHz IF signal applied from the IF combination / distributor 25 into an microwave of 14.0 to 14.5 GHz to generate an uplink frequency signal. : Up Converter (31), and 31 is a high power amplifier (HPA) for amplifying an uplink frequency signal output from the frequency up-converter (30).

In the drawing, reference numeral 32 denotes polling for checking the state of each base station 3 based on a response message transmitted from the base station 3 after transmitting a control message to each base station 3 through a specific channel modem 28. If a call is requested from a specific base station, the base station determines whether the other base station can communicate with each other based on the information obtained during the polling process. The network controller performs system control such as searching the storage unit 36 and searching and allocating the channel modem having the smallest connection failure coefficient value so that both base stations can directly communicate with each other.

Here, the network controller 32, the channel modem 28, and the telephone data card 26 are connected to the MPH bus (Main PCM Highway BUS) 33 and predetermined control data for transmitting and receiving processing data such as voice data. It is coupled via the UPH bus (Utility PCM Highway BUS: 34) for transmitting and receiving.

In the drawing, reference numeral 35 denotes a network management system for managing the overall network of the satellite communication system by the system manager managing the network control unit 32, and reference numeral 36 denotes a connection failure coefficient value of each channel modem 28. Connection failure number storage is stored as.

3 is a block diagram showing the configuration of the base station 40 to which the present invention is applied.

In FIG. 3, reference numeral 41 denotes an antenna for transmitting and receiving an uplink signal and a downlink signal with respect to the satellite 1, and 42 denotes an orthogonal mode converter for separating and inputting and receiving signals transmitted and received through the antenna 41; Is a low noise amplifier for low noise amplifying the frequency signal inputted through the orthogonal mode converter 42, 44 is a frequency down converter for converting the intermediate frequency signal IF applied through the low noise amplifier 43, 25 is this frequency The intermediate frequency signal applied from the down-converter 44 is separated into a plurality of intermediate frequency signals and output, and the intermediate frequency signals applied from the channel modems 48: 48 _{1 to} 48n to be described later are combined and output. Frequency combination / distribution.

In the drawing, reference numeral 46 denotes a telephone data card for connecting terminals such as the telephone 12, the data terminal 13, and the facsimile 14 of FIG. 1, and 47 denotes the telephone data card ( The subscriber station having the base station 40 coupled to the base station 40, 48 (48 _{1 to} 48n), demodulates and decodes the frequency signal from the central control station 20 input through the intermediate frequency combination / distributor 45. In addition, a channel modem for encoding, modulating and outputting a transmission signal from the subscriber station 47 input from the telephone data card 46 and control data for another base station output from the network controller 52 to be described later. to be. The channel modems 48: 48 _{1 to} 48n are composed of a plurality of processors, and processors are respectively provided therein to perform modulation / demodulation and encoding / decoding respectively under the control of the processor.

In the figure, reference numeral 50 denotes a frequency up-converter for converting the intermediate frequency signal output from the intermediate frequency combination / distributor 45 to generate an uplink frequency signal, and 51 outputs from this frequency up-converter 50. The high power amplifier 52 for amplifying an uplink frequency signal, 52 transmits a control message to each base station 3 through a specific channel modem 48, and then each base station 3 based on a response message transmitted from the corresponding base station. Perform a polling function to check the state of the communication, and if there is a call request from a specific base station, determine whether the other base station is in a communication state on the basis of the information obtained in the polling process. The central control station 20 searches and allocates the channel modem having the lowest connection failure coefficient value through the number storage unit 55. ) Is a network control unit that performs system control such as enabling communication with respect to.

Reference numeral 55 denotes a connection failure number storage unit in which connection failure coefficient values of the channel modems 48 are stored as data, and the network controller 52, the channel modem 48, and the telephone data card 46. Is coupled via an MPH bus (Main PCM Highway BUS) 53 for transmitting and receiving processing data such as voice data and a UPH bus (Utility PCM Highway BUS) 54 for transmitting and receiving predetermined control data.

Next, the operation of the device having the above configuration will be described with reference to the operation flowcharts shown in FIGS. 4 and 5.

First, in the control operation of the base station 40 through FIG. 4 to which the present invention is applied, for example, the subscriber having jurisdiction over the central control station 20 together with the number data from the subscriber station 47 coupled to the telephone data card 46. When a call request is input to the terminal 27 (step ST1), the network controller 32 of the base station 40 controls a message regarding a number translation request on the basis of the number data input from the subscriber terminal 47. It is generated and sent to the central control station 20 (ST2 step).

Subsequently, the network controller 32 determines whether a call setup command signal is received from the central control station 20 (step ST3). When the call setup command signal is received from the central control station 20, Through the connection failure number storage unit 55 storing the connection failure number of each channel modem 48, the channel modem having the smallest connection failure coefficient value is searched (step ST4).

Accordingly, the network controller 52 searches for the connection failure number storage unit 55 and sets a channel modem having the smallest connection failure coefficient value for the subscriber station 47 applying for the call request (step ST5). ).

The network controller 52 generates a status request message Sync_GD of the called party 27 and sends it to the central control station 20 (step ST6), and waits for the response message.

Subsequently, the network controller 52, which has determined whether there is a reception of the response message Sync_Ack_DG for the state subscriber message transmission from the central control station 20, receives the response message from the central control station 20. If not, the channel modem 48 allocated to the subscriber station 47 is recovered, and the access failure coefficient value of the channel modem is increased by " 1 " through the connection failure number storage unit 55 (ST8). step).

However, when the response message for the status request message transmission of the called subscriber is received from the central control station 20, the connection failure coefficient value of the allocated channel modem stored in the connection failure number storage unit 55 is "1". It reduces and stores it, and outputs a ringback tone signal to the subscriber station 47 requesting the call (step ST9).

Accordingly, the base station 40 allocates a channel modem having a high call success rate to the subscriber station 47 requesting a call, thereby improving reliability of a communication service.

On the other hand, in the control operation of the central control station 20 to which the present invention is applied through FIG. 5, as described above, a control message regarding a number translation request is received from the base station 40 based on the number data about the call request. If (ST51 step), the network control unit 32 of the central control station 20 confirms that the subscriber station 47 through the base station 40 requesting the number translation is a legitimate subscriber, and if it is confirmed that the legitimate subscriber, A control message relating to a call setup command is generated and sent to the base station 40 which has requested the number translation (ST52).

The network control unit 32 of the central control station 20 transmits the channel modem 28 having the smallest number of connection failures through the connection failure number storage unit 36 in which connection failure numbers of the respective channel modems 28 are stored. Search (ST53).

Therefore, the network control unit 32, which has searched for the connection failure number storage unit 36, allocates the channel modem 28 having the smallest number of connection failures to the base station 40 that requested the call (ST54).

Subsequently, the network controller 32 allocates the channel modem 28 to the base station 40 that has requested the call, and then checks whether a status request message of the called subscriber is received from the base station 40 (ST55). Step), if the incoming subscriber status request message is not received from the base station 40, the allocated channel modem 28 is recovered, and the connection failure coefficient value stored in the connection failure count storage unit 36 is " 1 "is increased and stored (ST56 step).

However, after allocating the channel modem 28 to the base station 40 requesting the call, and receiving the status request message (Sync_GD) of the called subscriber from the base station 40, the connection failure number storage unit ( The connection failure coefficient value of the assigned channel modem 28 in step 36 is reduced by " 1 ", and it is checked whether the called terminal 27, which is the call request target, is in a callable state (step ST57).

If it is determined that the called party's subscriber station 27 is in an impossible call state (step ST58), the network controller 32 generates and transmits a busy signal indicating that the call is in progress to the base station 40 (step ST59). ).

However, if it is determined that the called party's subscriber station 27 is in a callable state, the network controller 32 generates and transmits a message indicating that a call is possible to the base station 40 that requested the call (step ST60). After the ring signal is output to the called subscriber terminal 27 and the called subscriber terminal 27 is in an off-hook state, the ring signal output is interrupted and a call response message (Term_Answer_DG) is transmitted to the base station 40. The call processing is performed (step ST61).

Therefore, a high quality call service can be provided between the call requesting subscriber 47 and the called subscriber 27 through the channel modem 28 having a high connection success rate.

That is, according to the above embodiment, the channel modem allocated to the call request in the satellite communication system is assigned to the channel modem having the lowest number of connection failures, thereby providing a satellite communication service having a high call success rate.

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, the satellite communication system can allocate a channel modem having a high connection success rate, thereby improving reliability of the satellite communication service.

Claims (4)

In the base station of the satellite communication system for counting the connection failure at each call request for each channel modem and stores the count value as data, and allocates the channel modem based on this, A call request input step of determining whether number data on a call request is input from the subscriber terminal; A number translation request step of executing a number translation request to the central control station based on the entered number data, A call setup signal reception step of determining whether a command signal for call setup has been received from the central control station; A channel modem searching step of searching for a channel modem having the smallest connection failure coefficient value among the channel modems when a command signal for call setup is received; A channel modem allocation step of allocating a channel modem having the smallest connection failure count value; A call state request message sending step of allocating a channel modem having the smallest connection failure rate, and then sending a state request message of the called subscriber to the central control station; A response message receiving judging step of judging whether or not a response message relating to reception of the called party is received from the central control station; And a call processing step of reducing and storing a value of a connection failure coefficient of the stored channel modem when the response message is received from the central control station and outputting a ringback tone signal to the subscriber station. How to assign channel modem. The method of claim 1, And after transmitting the status request message of the called subscriber to the central control station, if the response message regarding the possibility of the called party's reception is not received, increase the coefficient of connection failure of the stored channel modem by " 1 " Channel Modem Assignment Method of Communication System. In the central control station of the satellite communication system that counts the connection failure at each call request for each channel modem, stores the count value as data, and allocates the channel modem based on this. A number translation request reception step for determining whether a message regarding number translation is received from a base station, A call setup command sending step of sending a call setup command signal to a base station that has requested number translation; A channel modem search step of searching for a channel modem having the smallest connection failure count value after issuing a call setup command; A channel modem allocation step of allocating the channel modem having the smallest connection failure count value, A call request state determining step of determining whether a call request state of a called subscriber is received from a base station; Receiving a call state request message from a base station, decreases and stores a connection failure coefficient value of the stored channel modem by " 1 " A response message transmitting step of transmitting a response message regarding possible reception to the base station when it is determined that the called terminal can communicate; And a call connection execution step of performing a call processing by outputting a ring signal to a called party's terminal. The method of claim 3, wherein If the status request message of the called subscriber is not received from the base station after the call setup command signal is transmitted to the base station, the channel modem of the satellite communication system, characterized in that, stored is increased by "1". Assignment method.