KR100328207B1 - Apparatus for matching a isdn subscriber in a variable speed communications network - Google Patents

Abstract

The present invention relates to an ISDN subscriber matching device in a variable speed delivery system that can accommodate both a variable speed delivery system and a fixed speed delivery system through an ISDN subscriber matching device. A line interface defining characteristics to perform an interface between a subscriber station and the subscriber matching device; An ADSL sensing device for separating the frequency of the signal received through the line interface to serve another data distinguished from the ISDN channel service, detecting the ADSL data transmitted at the ADSL frequency; A digital subscriber interface for separating signals provided from the ADSL sensing device into B, D, and H-channels; A channel controller which separates and transmits data channel information and voice information from the separated channel information; A compression CODEC for compressing / decomposing the voice information transmitted from a channel controller; A CPU that processes data channel information and data protocols and is responsible for call progress management of subscriber matching devices; An all-channel HDLC control unit for processing layer 2 of the data channel information transmitted from the channel control unit, and analyzing the HDLC frame for the ADSL data and reporting the remaining data size to the CPU; A communication control unit for monitoring a system operation state and performing a communication function with an upper processor of the subscriber matching device; A switch ID control unit for dividing the data channel information and the compressed voice information and assigning an ID indicating a preset destination point to designate a communication path; Accommodate ISDN telephone subscribers in data and Internet networks by including a variable speed switch interface for receiving variable ADSL data from external sources in accordance with the variable speed delivery system. There is an effect that can be done, thereby improving the efficiency of the communication network.

Description

ACEPARENUS FOR MATCHING A ISDN SUBSCRIBER IN A VARIABLE SPEED COMMUNICATIONS NETWORK}

The present invention relates to an ISDN subscriber matching device in a variable speed transmission system communication network, and more particularly, to accommodate an ISDN service in a conventional general fixed speed transmission system communication network and to provide a variable speed service. The present invention relates to an ISDN subscriber matching device in.

2 is a block diagram illustrating a configuration of a subscriber matching device in a fixed speed transmission system communication network according to the present invention, and includes an asymmetric digital subscriber line (ADSL) sensing device 200 and a line interface 310. , Subscriber matching device including a digital subscriber interface 320, a channel controller 330, a memory unit 340, a D-channel HDLC controller 350, a CPU 360, a communication controller 370, and a time division switch interface 380. 300.

Referring to Figure 2 describes the subscriber matching device of the conventional fixed speed transmission system communication network in detail as follows.

First, the conventional fixed speed subscriber matching device 300 configured as shown in FIG. 2 performs a matching function of a fixed speed time switch (not shown) and an ISDN telephone (not shown). Therefore, in the case of ADSL for data transmission in a complex frequency, the subscriber matching device 200 has an ADSL sensing device 100 interworked directly with the Internet or a data network. Unlike this, in some cases, the ADSL sensing device 200 may be embedded in the subscriber matching device 200. However, since the capacity of the time switch and the characteristics of the switch channel are different, the Internet or data may be separated through a separate dedicated line without using a switch. Linked to the network.

Referring to the conventional subscriber matching device 300 shown in FIG. 2, first, the line interface 310 defines the electrical characteristics of the ISDN BRI (Primary Rate Interface) and PRI (Primary Rate Interface), and the digital subscriber interface ( 320 performs a function of separating each channel (B, D, H-channel), the channel controller 330 is the D-channel HDLC channel information of the channel information separated by the digital subscriber interface 320 The controller 350 transmits the remaining channel information to the switch interface 380.

The memory unit 340 is a means for storing the management information generated by the CPU 360, the D-channel HDLC control unit 350 is a layer-2 (layer-2) for the D-channel signal provided from the channel control unit 330 Perform the process. The CPU 360 is responsible for such a D-channel signal processing function and call progress management.

On the other hand, the communication control unit 370 monitors the operation state of the system and performs a communication function with the upper processor (not shown) of the subscriber matching device 300, and the time division switch interface 380 with the time switch (not shown) Performs a matching function and transfers B or H-channel information to the time switch and transmits the B or H-channel information received from the switch to the channel controller 330 to send the B or H-channel information to the ISDN telephone (not shown). Perform.

The structure of the conventional fixed speed delivery system subscriber matching device 300 transmits data to be transmitted at a variable rate through a switch for fixed speed processing under the condition of using a separate packet processor only for data transmission among ISDN internal services. Could. However, even in this case, since the fixed speed channel constituting the switch is wasted, there is a problem in that the channel efficiency is lowered.

In addition, the conventional subscriber matching device structure has a problem that cannot provide ISDN service because it does not directly interoperate with the rapidly increasing switch of the variable speed delivery system for the Internet or data transmission.

Therefore, the present invention has been made to solve the above-mentioned problems of the prior art, ISDN telephone subscriber matching device that can be accommodated in a variable speed delivery system can perform ISDN telephony in the Internet network, another data network An object of the present invention is to provide an ISDN subscriber matching device in a variable speed transmission system communication network that can be used in a network.

In order to achieve the above object, the present invention, in the ISDN subscriber matching apparatus for accommodating ISDN telephone subscriber in a variable speed transmission system communication network, the electrical characteristics of ISDN Basic Rate Interface (BRI) and PRI (Primary Rate Interface) A line interface for defining an interface between the subscriber station and the subscriber matching device; An ADSL sensing device for separating the frequency of a signal received through the line interface to serve another data distinguished from an ISDN channel service, detecting ADSL data transmitted at an ADSL frequency; A digital subscriber interface for separating the signal provided from the ADSL sensing device into B, D, and H-channels; A channel controller which separates and transmits data channel information and voice information from the separated channel information; A compression CODEC for compressing / decomposing the voice information transmitted from the channel control unit; A CPU that performs processing on the data channel information and data protocol and is in charge of call progress management of the subscriber matching device; A memory unit configured to store management information generated from the CPU and billing / statistics based information on data communication amount; An all-channel HDLC control unit for processing layer 2 of the data channel information transmitted from the channel control unit, and analyzing the HDLC frame for the ADSL data and reporting the remaining data size to the CPU; A communication control unit monitoring a system operation state and performing a communication function with an upper processor of the subscriber matching device; A switch ID control unit for distinguishing the data channel information and the compressed voice information and assigning an ID indicating a preset destination point to designate a communication path; ISDN subscriber matching device in a variable speed delivery system communication network including a variable speed switch interface for receiving the ADSL data input from the outside and transmitting variable speed data for the data channel information and voice information in conformity with the variable speed delivery system. To provide.

1 is an ISDN telephone subscriber matching device in a variable speed transmission system communication network to which the present invention is applied;

Figure 2 is a subscriber registration device in a fixed speed delivery system communication network using the prior art.

<Explanation of symbols for the main parts of the drawings>

110: line interface 115: ADSL detection device

120: digital subscriber interface 125: channel control unit

130: memory unit 135: first compression CODEC

140: second compression CODEC 145: all channel HDLC control unit

150: CPU 155: communication control unit

160: switch ID control unit 165: variable speed switch interface

Hereinafter, described in detail by the accompanying drawings, the present invention for achieving the above object is as follows.

1 is a block diagram illustrating a configuration of an ISDN subscriber matching device in a variable speed transmission system communication network according to a preferred embodiment of the present invention, and includes a line interface 110, an ADSL sensing device 115, and a digital subscriber interface 120. ), Channel control unit 125, memory unit 130, first compression CODEC 135, second compression CODEC 140, all channel HDLC control unit 145, CPU 150, communication control unit 155, switch The ID controller 160 and the variable speed switch interface 165 are included.

First, the biggest difference from the conventional fixed speed delivery system subscriber matching device 300 shown in FIG. 2 is that the ADSL sensing device 115 is included in the subscriber matching device 100 and the voice signal of the subscriber. The compression CODECs 135 and 140 for compressing and transmitting the P are included in the subscriber matching apparatus 100 and configured to process the entire channel as HDLC in a single D-channel HDLC control. In particular, such a configuration has the effect of not having to provide a separate processor for data communication.

Referring to FIG. 1, the line interface 110 functions to define electrical characteristics of the ISDN BRI and the PRI, and the ADSL sensing device 115 may service another data distinguished from the ISDN channel service.

The digital subscriber interface 120 functions to separate each channel (B, D, H-channel), the channel control unit 125 is a data channel (D- of the channel information separated through the digital subscriber interface 120) channel) information is transmitted to all-channel HDLC control unit 145, which will be described later, and voice information of the remaining channels is transmitted to compression CODECs 135 and 140.

In addition, the memory unit 130 stores the management information generated from the CPU 150 to be described later and charging / statistics based information on the data communication amount, and the first and second compression CODECs 135 and 140 according to the call quality. Compress / decompose the voice information. Here, the first compression CODEC 135 is an 8-bit compression CODEC and the second compression CODEC is a 16-bit compression CODEC.

Meanwhile, the all-channel HDLC control unit 145 performs layer-2 processing of all data transmission channels including the D-channel signal provided from the channel control unit 125, and the CPU 150 performs the D-channel. It performs signal and data protocol processing functions and manages call progress.

In addition, the communication control unit 155 monitors a system operation state or performs a communication function with an upper processor (not shown) of the subscriber matching device 100, and the switch ID control unit 160 performs ADSL and data and compressed voice information. Classify the communication path to the incoming call, and the variable speed switch interface 165 performs data transmission and reception of the variable speed.

On the other hand, the operation process of the ISDN subscriber matching device configured as described above can be divided into the process of processing the ADSL data call and the process of processing the voice call, with reference to Figure 1 will be described in detail the operation process for each call As follows.

First, in the case of a call transmitting ADSL data, since the call has a fixed call path, the overall processing is started while the call destination is known before the call.

Accordingly, the subscriber matching device 100 receiving the data at the ADSL frequency from the terminal (not shown) through the line interface 110 detects the ADSL data through the ADSL sensing device 115, and the ADSL sensing device 115. ) Transmits the detected data to the full channel HDLC control unit 145.

The all channel HDLC control unit 145 analyzes all channel HDLC frames from the data transmitted from the channel control unit 125, reports the remaining data size to the CPU 150, and returns the transmitted data to the switch ID control unit 160. Will be sent).

In this case, the switch ID controller 160 assigns an ID indicating a predetermined destination point to the data provided from the all-channel HDLC control unit 145 and transmits the ID to the variable speed switch interface 165, and the variable speed switch interface 165. ) Transmits this data to the destination point through a variable speed switch (not shown). As a result, ADSL data provided from the subscriber's terminal is transmitted to the called subscriber via the ISDN subscriber matching device 100.

If the reverse process, that is, the case where the data for the purpose of receiving the ADSL via the ADSL is received from the destination, first through the variable speed switch interface 165 received data transmitted from the variable speed switch, not shown, The switch ID controller 160 detects this.

The switch ID controller 160 determines whether the path unique value of the received data is ADSL data, and transmits the data to the full channel HDLC controller 145 when the data is ADSL data. Subsequently, the all-channel HDLC control unit 145 generates an HDLC frame in a data communication form for the data provided from the switch ID control unit 160 and transmits the HDLC frame to the ADSL sensing device 115. Accordingly, the ADSL sensing device 115 loads the received ADSL information on a different frequency from the voice information and transmits the ADSL information to the subscriber through the line interface 110.

On the other hand, when the ISDN subscriber matching device 100 receives information other than ADSL data, that is, a voice signal from the terminal, a process of processing the same will be described below.

First, the voice information received by the subscriber matching device 100 through the line interface 110 is provided to the digital subscriber interface 120 through the ADSL sensing device 115 to be classified for each channel. It is analyzed by the CPU 150 via the full channel HDLC control unit 145, and the B-channel information and the H-channel information are transferred to the compression CODECs 135 and 140 or the full channel HDLC control unit 145 according to the analyzed information. Diverged.

That is, the call channel selection information analyzed by the CPU 150 and the full channel HDLC control unit 145 is fed back to the channel control unit 125 so that the channel control unit 125 compresses the call channel by classifying data types. (135, 140) or branch to the full-channel HDLC control unit 145. If the channel information received from the subscriber is general voice, it is sent to the compression CODECs 135 and 140 to compress the voice data with the call quality reserved by the subscriber in advance.

If it is recognized that the channel information received from the subscriber is HDLC type such as Internet, X.25, frame relay, the corresponding channel information is transmitted to all channel HDLC control unit 145 as in the case of ADSL data. will be. The all-channel HDLC control unit 145 reports the data traffic volume and data regarding billing / statistics to the CPU 150, and transmits the data to the switch ID control unit 160.

In addition, the switch ID control unit 160 assigns a unique value (ID) presenting a destination point to transfer the received data to the variable speed switch (not shown), and converts the data into a form necessary for communication. In this case, the CPU 150 interworks with the communication control unit 155 to send report data such as billing to the upper processor or CRT, not shown, in addition to the D-channel analysis and a function of transmitting the analysis result to the channel control unit 125. .

The communication control unit 155 processes general debugging information to a device (for example, an RS232 port) owned by itself, and transmits data required for interworking with an upper processor (not shown) to the variable speed switch interface 165. In addition, the variable speed switch interface 165 is interworked with the upper processor through a specific channel. In addition, the variable speed switch interface 165 works in conjunction with the variable speed switch to match electrical and physical characteristics of the switch, and transmits and receives information on each channel.

On the other hand, the reverse process, that is, the voice signal is delivered from the incoming point to the subscriber through the subscriber matching device 100 is subjected to the reverse process for the above-described process.

As a result, according to the present invention, by performing a variable speed matching process that could not be handled by a conventional fixed speed delivery system subscriber matching device, there is an effect that the ISDN telephone subscriber can be accommodated in the data network and the Internet network. There is an effect that can improve the efficiency of.

Claims (1)

An ISDN subscriber matching device for accommodating ISDN telephone subscribers in a variable speed communication network, A line interface that defines an electrical characteristic of an ISDN Basic Rate Interface (BRI) and a Primary Rate Interface (PRI) to perform an interface between a subscriber station and the subscriber matching device; An ADSL sensing device for separating the frequency of a signal received through the line interface to serve another data distinguished from an ISDN channel service, detecting ADSL data transmitted at an ADSL frequency; A digital subscriber interface for separating the signal provided from the ADSL sensing device into B, D, and H-channels; A channel controller for separately transmitting data channel information and voice information from the separated channel information; A compression CODEC for compressing / decomposing the voice information transmitted from the channel control unit; A CPU that performs processing on the data channel information and data protocol and is in charge of call progress management of the subscriber matching device; A memory unit configured to store management information generated from the CPU and billing / statistics based information on data communication amount; An HDLC controller for processing data channel information transmitted from the channel controller, the ADSL data, and layer-2 of a D channel control protocol, and reporting the size of the layer 2 protocol processed data to a CPU; A communication control unit monitoring a system operation state and performing a communication function with an upper processor of the subscriber matching device; A switch ID control unit for distinguishing the data channel information and the compressed voice information and assigning an ID indicating a preset destination point to designate a communication path; A variable speed switch interface matching with a variable speed transmission system to transmit data for the data channel information and voice information at a variable speed, and to transmit and receive ADSL data input from the outside; ISDN subscriber matching device in a variable speed delivery system communication network comprising a.