KR100240056B1 - Call Processing Method using Medium Band Modem in Satellite Communication System - Google Patents

Abstract

The present invention relates to a call processing method using a medium band modem in a satellite communication system that enables a high speed data communication or a multi-party video communication using a medium band modem, each of which is connected to a plurality of base stations through satellites. In the satellite communication system providing a communication function between subscribers in combination, the reservation start time comparison step of comparing and determining whether the start time of the data call reservation and the current time based on the data call information using the medium-band modem and the reservation If the start time matches the current time, the call setup step sets up the data call using the medium band modem through the available satellite channels, and compares the reservation time of the reservation time of the data call using the medium band modem with the current time. End time comparison step and the reservation end time is made to match the current time And a call release step of releasing the corresponding mid-band modem data call.

Description

Call Processing Method using Medium Band Modem in Satellite Communication System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system using satellites, and more particularly, to a call processing method using a medium band modem in a satellite communication system that enables high-speed data communication or multi-party video communication using a medium band modem.

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.

The satellite communication is a PAMA (Pre-Assignment Multiple Access) method in which a subscriber reserves a channel according to an allocation request of a channel to be used in the future according to a channel allocation method and a communication channel is allocated in real time according to a subscriber's request. It can be divided into two types of demand assignment multiple access (DAMA) method.

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

In Figure 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, 3 (3A, 3B) is a data terminal and facsimile, such as an exchange, a telephone, a computer, etc. A base station having an interface function for a terminal and providing a call function between the various terminals through data transmission and reception with the central control station 2.

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 configuration, the central control station 2 sends a control message through the service channel S and polls for checking the state of each base station 3 based on the response message transmitted from the base station 3. By performing the (Polling) function, the state information of each base station 3 is continuously maintained.

If the central control station 2 receives data call-related information including data such as a reservation time, an originating subscriber number, and a communication speed of a satellite channel by the operator, the base station 3 based on this information. By assigning available communication channels and communication modems to control direct communication between subscribers.

Thereafter, when the call release time of the communication channel currently in use is reached, the call channel control is performed for both base stations to restore the traffic channel T provided for both base stations.

Meanwhile, the base station 3 is directly coupled with a plurality of analog subscribers or digital subscribers to control direct communication between the corresponding analog or data subscribers through a communication channel and a communication modem allocated by the central control station 2.

2 is a block diagram showing the configuration of the central control station 2 in FIG.

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 using polarization quality of frequency. Orthogonal Mode Transducer that separates and inputs and outputs a signal, and Low Noise Amplifier for low noise amplification of 12.25 to 12.75 GHz downlink frequency signal inputted through the Orthogonal mode converter, A frequency down converter for converting a frequency signal applied through a low noise amplifier, for example, to an intermediate frequency signal IF of 70 MHz, and an IF signal of 70 MHz applied from the IF combination distributor 23 to be described later. For example, a frequency upconverter for converting the microwave into a microwave of 14.0 to 14.5G㎐ and generating an uplink frequency signal, and an uplink frequency output from the frequency upconverter. An RF processor configured to include a high power amplifier (High Power Amplifier) for amplifying the call.

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 is applied from the SCPC (Single Channel Per Carrier) channel unit 24 to be described later. An IF combination distributor (Combiner / Distributer) for combining and outputting the intermediate frequency signal, 24 is demodulated and decoded and outputted the intermediate frequency signal applied from the IF combination distribution unit 23, the base station controller to be described later SCPC channel unit that encodes, modulates and outputs output messages in accordance with control signal (30).

Here, the IF combination distribution unit 23 is adopted for system scalability when using a plurality of SCPC channel units 24.

Further, reference numeral 30 denotes a state of each base station 3 based on a response message transmitted from the base station 3 after sending a control message to each base station 3 through a predetermined SCPC channel unit 24. Performs a polling function to check and, if there is a call request from a specific base station, determines whether the other base station is in a communication state based on the information obtained in the polling process, and in the case of a communication state, the satellite (1). By assigning the available traffic channel (T) and the modem to both base stations of the network control unit for performing the system control, such as allowing both base stations to directly communicate with each other.

Here, the network controller 30 performs a series of controls related to data call processing according to a predetermined data call setup control signal input from the network management apparatus 40 to be described later.

Further, reference numeral 40 is a network management device connected to the operator through a predetermined operator terminal and performing overall management of the satellite communication system.

The reference code MPH (Main PCM Highway) is a data bus through which information data such as a voice signal or a data signal is transmitted and received, and the Utility PCM Highway (UPH) is a control bus through which control data is transmitted and received between the base station controller 30 and each device. to be.

3 is a block diagram showing the configuration of the base station 3 in FIG. 1, wherein the base station 3 has a configuration very similar to that of the central control station 2, and its function is also very similar. The detailed description of each configuration of the illustrated base station 3 is omitted.

In the drawing, reference numeral 60 denotes a base station controller which performs overall control of the base station 3, which generates and transmits a series of response messages for the polling signal transmitted from the central control station 2, and allocates a communication channel. And direct communication between subscribers based on the communication modem 24, 70 is a telephone data card directly connected to a plurality of analog or digital subscribers, and 80 is connected to an exchange of a public telephone network. It is a trunk interface port for combining this system with a public telephone network subscriber.

In the above configuration, the network management device 40 controls the network controller 30 based on a series of information related to a predetermined data call input from the operator, the network controller 30 is collected during the polling process. Based on the received base station information, data call related information including the currently available SCPC channel unit 54 and the communication channel is transmitted to the base station 3. Then, the base station 3 provides a direct communication function between subscribers based on the data call related information transmitted from the central control station 2.

However, as described above, the current satellite communication system has a problem that it is not suitable for video communication or high-speed data communication at the data transmission and reception speed.

Accordingly, the present invention has been made in view of the above circumstances, and a call processing method using a medium band modem in a satellite communication system that enables a high speed data communication or a multi-party video communication using a medium band modem suitable for high speed data communication. The purpose is to provide.

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 central control station 2 in FIG.

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

4 is a conceptual diagram illustrating a call processing method using a mid-band modem in a satellite communication system according to an embodiment of the present invention.

FIG. 5 is a block diagram showing the configuration of the base station 93 in FIG.

6 and 7 are flowcharts illustrating a call processing method using a mid-band modem in a satellite communication system according to an embodiment of the present invention.

* Brief description of the main parts of the drawing

1: satellite 2: central control station

3, 93: base station 21, 51: antenna

22, 52: RF processing unit 23, 53: IF combination distribution unit

24, 54: SCPC channel unit 30, 92: network control unit

40, 91: network management device 60, 100: base station control unit

70: Telephony Data Card 80: Trunk Interface Port

ANT: Antenna M: Medium Band Modem

In the satellite communication system according to the present invention for realizing the above object, a call processing method using a medium band modem is provided to a satellite communication system providing a communication function between subscribers by combining a plurality of base stations connected to a plurality of subscribers through satellites, respectively. A reservation start time comparison step of comparing and determining whether a data call reservation start time coincides with a current time based on data call information using a mid-band modem; and a satellite channel available when the reservation start time coincides with a current time. Call setup step of establishing a data call using the mid-band modem through the reservation end time comparison step of comparing and determining whether the reservation end time of the data call using the mid-band modem and the current time and the reservation end time and the current time A call release step that releases the midband modem data call once it is matched Characterized in that comprised over.

Therefore, according to the above, multi-way video communication and high-speed data communication are possible by using a medium band modem.

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

4 is a system conceptual diagram illustrating a call processing method using a medium band modem in a satellite communication system according to an embodiment of the present invention.

In the drawings, reference numerals 91 and 92 denote network management devices and central stations of the central control station, respectively, which perform overall control of the satellite communication system, and 93 denotes a base station directly connected to the subscriber.

Reference numeral M is a medium band modem and ANT is an antenna.

Here, the network management device 91 stores data related to a data call using a medium band modem (M) input from a system operator, and controls the central station 92 based on the data call start time data. (92) assigns the middle band modem (M) number, communication channel, etc. to the corresponding base station 93 through the service channel (S) based on the base station state information collected according to the polling operation for the base station 93; do. Then, the base station 93 sets the operating environment of the medium band modem M allocated from the central station 92, and then provides data communication between subscribers through the assigned communication channel.

At this time, in the case of multi-party video communication, for example, if one base station 93 ₁ transmits predetermined image data through the assigned traffic channel T among the plurality of base stations 93, the other plurality of base stations 93 _{2 to} 93 _N ) receives image data from the central station 92 through the middle band modem M already allocated.

5 is a block diagram showing the configuration of the base station 93 in FIG. 4, the same reference numerals are assigned to parts performing the same functions as FIG. 3, and detailed description thereof will be omitted.

In the figure, reference numeral 100 denotes a base station that provides a data call using a medium band modem (M) through transmission and reception of control data with a central station (92). The RS-232C of the medium band modem (M) allocated by the central station 92 is used. The video communication function is controlled by setting the operating environment through the line.

Here, in the case of multi-party video communication, for example, when the middle band modem M ₁ of an arbitrary base station 93 is in the transmission-only mode, one or more middle band modems M _{2 to} M _N of the other base station 93 receive-only. When the image data generated from the video communication system connected to the transmission-only medium band modem M ₁ is transmitted through the traffic channel T, the reception-only medium band modem of the other base station 93 is set. M _{2 to} M _N receive the transmitted image data and output the image data to the video communication system.

Next, an embodiment according to the present invention will be described with reference to the flowcharts of FIGS. 6 and 7. FIG. 6 is a flow chart for explaining the operation of the central control station 2, and FIG. 7 is a flow chart for explaining the operation of the base station 93. The two drawings are mixed and described.

First, in order for a system subscriber to perform a data call communication using the medium band modem (M), a series of information that requires data call establishment using the medium band modem (M), for example, a call start time, release time, communication speed, and The system operator should be notified of data such as the called subscriber number and the operation mode of the medium band modem (M). Then, the operator inputs the data call information received from the subscriber into the network management apparatus 91 using a predetermined operating platform. Data call reservation processing is performed (step ST1).

Subsequently, the network management apparatus 91 stores the data call information in a predetermined memory and continuously searches for the start time of the call (steps ST2 and ST3). At this time, when the data call start time coincides with the current time, the data call setup request signal using the middle band modem (M) together with the call information of the subscriber is output to the central station 92.

Then, the central station 92 searches whether there is a satellite channel currently available (steps ST4 and ST5), and if there is no satellite channel available, the data call setup using the midband modem is treated as a failure. When the satellite channel is presently available, the satellite channel is allocated to the corresponding base station 93 through the service channel S, and the mid-band modem (M) number and a series of data calls. A setting request signal is sent (ST7 step).

On the other hand, the base station 93, if the above-mentioned mid-band modem (M) data call setup request signal is received from the central station 92 (step ST21), the subscriber first searches whether the current state is available for communication Bar (steps ST22 and ST23), if the subscriber does not exist or is currently in a state where communication is not possible, perform call setup fail processing, and report a call failure signal to the central station 92; The setting operation ends (ST24 step).

However, if the subscriber is in a state where communication is currently possible, the operating environment of the mid-band modem M allocated from the central station 92 is searched to set the operation environment (step ST25). First, if the operation mode is not the reception-only mode (step ST26), the modulator of the corresponding mid-band modem M is set to the operation mode (step ST27), and then it is again determined whether it is the bidirectional mode (step ST28). In this case, the demodulator of the corresponding middle band modem M is set to the operation mode (step ST29). Subsequently, the base station controller 100 performs a series of controls to perform video communication between subscribers through the corresponding mid-band modem M (step ST30).

On the other hand, if the operation mode of the corresponding medium-band modem (M) in step ST26 is not the reception-only mode, the process proceeds to step ST29 to set the operation mode of the demodulator and performs a series of control to perform video communication between subscribers .

That is, the base station controller 100 sets the operating environment of the medium band modem M according to the operation mode information of the medium band modem M allocated from the central station 92. The medium band modem M When the operation environment mode of the mode becomes the reception-only mode, the demodulator is set to the reception-only environment to receive the image data, and when the operation environment mode of the corresponding medium band modem M is the bidirectional mode, Communication will be enabled. In addition, when the reception only mode and the bidirectional mode are not used (that is, the transmission only mode), the modulator is set to the transmission environment in order to transmit the image data.

Subsequently, when the data call using the medium band modem M is performed as described above, the network management apparatus 91 searches for the end time of the corresponding data call (steps ST9 and ST10), and the end time of the data call is the current time. If it is matched with the output signal to the central station 92 to request the release of the data call to the base station (93) that is currently performing data communication using the medium-band modem (M) to the central station 92, the central station 92 The call release signal is output to the base station 93 (step ST11). Subsequently, the central control station 2 outputs a call release signal to the base station 93 and then performs call release processing such as erasing information on the corresponding data call (step ST12).

On the other hand, when the base station 93 receives the data call release request signal from the central station 92 (step ST31), the base station 93 performs the data call release process by initializing the operating environment of the corresponding medium-band modem M. (ST32 step).

That is, according to the above embodiment, multi-way video communication and high-speed data communication are possible by using the medium band modem.

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, a method for processing a call through a medium band modem can be realized in a satellite communication system that enables a high speed data communication or a multi-party video communication using a medium band modem.

Claims (1)

In a satellite communication system providing a communication function between subscribers by combining a plurality of base stations each connected to a plurality of subscribers through satellites, the start time of a data call reservation coincides with the current time based on the data call information using a medium band modem. A reservation start time comparison step for comparing and judging whether the reservation start time coincides with a current time, a call setup step for setting a data call using a medium band modem through an available satellite channel, and a data call using a medium band modem. And a call release step of releasing the corresponding mid-band modem data call when the reservation end time is compared with the current time. Method of processing data call through mid-band modem in satellite communication system.

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