KR100300356B1 - Atm circuit emulation apparatus and method therefor - Google Patents

Abstract

In the asynchronous transmission mode circuit emulation apparatus, the time division multiplexing data applied in the time division multiplexing network is converted and processed according to the asynchronous transmission mode network, and provided to the asynchronous transmission mode network, and applied through the asynchronous transmission mode network. A data conversion and processing unit for converting and processing the asynchronous transmission mode data according to the time division multiplexing network and providing the time division multiplexing network; detecting time division multiplexing signaling information from the time division multiplexing data; Converts a signaling method into asynchronous transmission mode signaling information and provides the asynchronous transmission mode signaling information to the asynchronous transmission mode network, detects asynchronous transmission mode signaling information from the asynchronous transmission mode data, and detects the detected asynchronous transmission mode signaling. Time-sharing information Constitute processes convert way signaling information to the signaling conversion processing section provided in the time-division multiplexing network.

Description

Asynchronous transmission mode line emulation apparatus and method {ATM CIRCUIT EMULATION APPARATUS AND METHOD THEREFOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an asynchronous transfer mode (hereinafter referred to as 'ATM') switching system, and more particularly to an ATM circuit emulation apparatus and method.

ATM line emulation is recommended in International Telecommunications Union-Telecommunications standardization sector (ITU-T) I.363.1 and the ATM Forum, and an example of the device configuration is shown in FIG.

Referring to FIG. 1, data received from a T1 / E1 trunk is applied to an ATM cell converter 4 via an existing network connection 2. The data applied to the ATM cell converter 4 is in the form of TDM (Time Division Multiplexing). The ATM cell converter 4 converts the TDM data into an ATM cell and outputs the data to the ATM processor 6. The ATM cell is ATM processed by the ATM cell processor 6 and then transferred to the ATM switch fabric. On the other hand, the data (ATM cell) from the ATM switch fabric is applied to the ATM cell converter 4 via the ATM cell processor 6, and the ATM cell converter 4 converts the ATM cell to the data format of the existing network. Then it transmits to the T1 / E1 trunk through the existing network connection (2).

However, the ATM circuit emulation apparatus according to the related art as described above should transmit to the target point even if there is no valid data in the data flow received from the T1 / E1 trunk. That is, the ATM cell conversion unit 4 of the ATM line emulation apparatus creates an ATM cell of invalid data and transmits it to the ATM cell processing unit 6 in a period where no valid data exists. Therefore, the prior art has a drawback of not using the resources of the ATM switch efficiently. The advantage of the ATM method is the efficient use of resources. As in the prior art, more operations for creating and transmitting invalid data can adversely affect the actual valid data transmission.

Accordingly, an object of the present invention is to provide an ATM circuit emulation apparatus and method for efficiently using ATM switch resources.

Another object of the present invention is to provide an ATM line emulation apparatus and method capable of increasing the efficiency of network use to serve more subscribers with limited network resources.

According to the above object, the present invention, in the asynchronous transmission mode circuit emulation apparatus, converts and processes the time division multiplexed data applied in the time division multiplexing network according to the asynchronous transmission mode network to provide to the asynchronous transmission mode network, the asynchronous A data conversion and processing unit for converting and processing asynchronous transmission mode data applied through a transmission mode network to the time division multiplexing network and providing the time division multiplexing network, and detecting time division multiplexing signaling information from the time division multiplexing data. Converting the detected time division multiplexing signaling information into an asynchronous transmission mode signaling information to provide the asynchronous transmission mode signaling information, and detecting the asynchronous transmission mode signaling information from the asynchronous transmission mode data. Asynchronous transfer mode signal The information characterized in that it consists of a signaling conversion processing for processing conversion by time division multiplexing the signaling information available in the time-division multiplexing network.

1 is a block diagram of an ATM line emulation apparatus according to the prior art,

2 is a block diagram of an ATM line emulation apparatus according to an embodiment of the present invention;

3 is a detailed block diagram of the signaling conversion processing unit 10 of FIG.

4 is a frame format configuration diagram;

5 is a configuration diagram of an HDLC format of No. 7 signaling channel data according to an embodiment of the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that like elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

The present invention implements an ATM line emulation apparatus utilizing the fact that in a real voice or data network, valid information is transmitted only after a connection setting by signaling is confirmed.

2 is a block diagram of an ATM line emulation apparatus according to an embodiment of the present invention. Referring to FIG. 2, an ATM line emulation apparatus according to an exemplary embodiment of the present invention includes an existing network connection unit 12, an ATM cell converter 14, and an ATM cell processor 16, similarly to FIG. 1. . In addition, a signaling conversion processing unit 18 is further provided to process signaling of an existing network or ATM network. In the embodiment of the present invention, when the signaling conversion processing unit 18 performs the signaling processing of the existing network or the signaling processing of the ATM network, that is, confirms the connection setting by signaling, the ATM of FIG. The cell converter 14 and the ATM cell processor 16 are operated. Therefore, the ATM cell converter 14 and the ATM cell processor 16 perform their own operations only on valid data after connection establishment.

3 illustrates a detailed block configuration of the signaling transform processing unit 18 of FIG. 2. Referring to FIG. 3, the signaling conversion processing unit 18 includes an HDLC generation / detection unit 20 for detecting and generating signaling information received in a high level data link control (HDLC) format, and No. 7 signaling information. No. 7 signaling processing unit 22 for analyzing and processing the signal, a signaling inter-working unit 24 for interworking between No. 7 signaling and ATM signaling, and ATM signaling information It consists of an ATM signaling processing section 26 for analysis and processing, and an ATM cell generation / detection section 28 that handles conversion to an ATM cell and reception processing of an ATM cell. In the above, No. 7 signaling is also referred to as common line signaling.

In an actual voice or data network, in order to utilize transmission of valid information only after the connection setting by signaling is confirmed, the ATM line emulation apparatus of FIG. 2 according to an embodiment of the present invention uses the signaling conversion processing unit 10. It is further provided. The signaling conversion processing unit 10 transmits and receives No. 7 signaling channel data with the existing network connection unit 12, and the ATM cell processing unit 16 transmits and receives an ATM signaling ATM cell.

The existing network connection 12 receives a frame as shown in FIG. 4 through the E1 / T1 trunk. The frame of the E1 method consists of 32 channels, that is, the timeslots TS0 to TS31, and the frame of the T1 method consists of 24 channels, that is, the timeslots TS0 to TS23. According to an embodiment of the present invention, in this frame, a specific channel, that is, timeslot TS # x, is allocated to a channel for processing signal No.7. The specific channel for processing the No. 7 signal may be composed of a plurality of channels as necessary.

The HDLC generation / detection unit 20 of the signaling conversion processing unit 18 reads data received from a predetermined specific channel, that is, timeslot TS # x, and determines whether the data satisfies the HDLC format. As shown in Fig. 5, in the HDLC format of No. 7 signaling channel data, start and end flag fields F1 and F2 exist at the beginning and end of the format, and address field A is present after the start flag field F1, After the field A, there is an information field in which the message No. 7 exists. A CRC (Cyclic Redundancy Check Code) field exists immediately before the end flag field F2. In the start flag field F1 and the end flag field F2, flag information indicating the start and end of the packet data and serving as a synchronization signal is recorded. In the address field A, a receiving address or a sending address is recorded, and in the control field C, an operation command or response information for the receiving side is recorded. No. 7 signaling information is recorded in the information field, and CRC error information is recorded in the CRC field to determine whether the contents of the address field A, the control field C, and the information field are correctly transmitted.

The HDLC generation / detection unit 20 of the signaling conversion processor 18 determines whether the received data satisfy the HDLC format through the basic network connection unit 12 as follows. When the start flag field F1 is detected from the received data, the total length of the packet (receive data) is obtained in synchronization with the start flag field F1, CRC error check is performed on the packet, and the end flag field F2 is checked. In this way, when the received data satisfies the HDLC format, the HDLC generating / detecting unit 20 determines that the received data is No. 7 signaling channel data, and the No. 7 signal channel data recorded in the information field of the No. 7 signaling channel data. The 7 signaling information is extracted and sent to the No. 7 signaling processing unit 22.

The No. 7 signaling processor 22 analyzes the validity of the detected No. 7 signaling information and whether it is suitable for the signaling flow. Therefore, if the No.7 signaling information is valid and suitable for the signaling flow, the No.7 signaling information is transmitted to the signaling linking unit 24. The signaling interworking unit 24 interworks to convert No. 7 signaling information into ATM signaling. That is, No. 7 signaling information is mapped to an AAL (ATM Adaptation Layer) signaling signal and transmitted to the ATM signaling processor 26. The ATM signaling processor 26 checks whether the received AAL signaling signal is in conformity with the signaling flow and the state thereof, and transmits the same to the ATM cell generator / detector 28. The ATM cell generation / detector 28 converts the AAL signaling signal into an ATM cell for ATM signaling and transmits the AAL signaling signal to the ATM cell processor 16 of FIG. 2.

Referring to FIG. 2, when the ATM cell processing unit 16 receives an ATM cell for ATM signaling, the ATM cell processor 16 processes the ATM cell and transfers the ATM cell to the ATM switch fabric. As the ATM signaling ATM cell transmits the connection setting by the signaling, the ATM cell conversion unit 14 and the ATM cell processing unit 16 of FIG. 2 are unique to the actual valid data received thereafter. Perform the action.

On the other hand, the signaling information received by the ATM cell is the reverse of the operation described above. When the ATM signaling ATM cell is applied to the signaling conversion processing unit 18 through the ATM cell processing unit 16, the ATM cell generation / detection unit 28 of the signaling conversion processing unit 18 detects the ATM signaling ATM cell. The ATM signaling information is extracted and transmitted to the ATM signaling processor 26. The ATM signaling processor 26 checks the suitability and status of the ATM signaling information according to the signaling flow, and then converts the ATM signaling information into an AAL signaling signal and then the signaling interworking unit 24. To send.

The signaling interworking unit 24 interworks the AAL signaling signal to be converted into No. 7 signaling information. That is, the AAL (ATM Adaptation Layer) signaling signal is mapped to No. 7 signaling information and then transmitted to the No. 7 signaling processor 22. The No. 7 signaling processing unit 22 analyzes the validity of the No. 7 signaling information provided by the signaling interlocking unit 24 and whether it is suitable for the signaling flow. Thus, if the No.7 signaling information is valid and suitable for the signaling flow, the No.7 signaling information is transmitted to the HDLC generation / detection unit 20. The HDLC generating / detecting unit 20 converts the No. 7 signaling information provided by the No. 7 signaling processing unit 22 to conform to the HDLC format to the T1 / E1 trunk through the existing network connection unit 12 of FIG. 2. send. As the No.7 signaling information is transmitted in this way, the connection establishment by signaling is confirmed, and after that, the ATM cell converter 14 and ATM cell processor 16 of FIG. 2 are unique to the actual valid data received. Performs the operation of.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

As described above, the present invention increases the efficiency of network use by allowing a signaling function in the ATM emulation apparatus. In other words, it can accommodate more subscribers and provide services than when using the same network resources as before.

Claims (6)

In the asynchronous transmission mode line emulation apparatus, Convert and process the time division multiplexed data applied in the time division multiplexing network to the asynchronous transmission mode network, and provide the asynchronous transmission mode network to the asynchronous transmission mode network, A data conversion and processing unit for converting and processing the data to provide the time division multiplexing network; Detecting time division multiplexing signaling information from the time division multiplexing data, converting the detected time division multiplexing signaling information into asynchronous transmission mode signaling information, and providing the asynchronous transmission mode signaling information to the asynchronous transmission mode network. And a signaling conversion processing unit for detecting asynchronous transmission mode signaling information, converting the detected asynchronous transmission mode signaling information into time division multiplexing signaling information, and providing the signal to the time division multiplexing network. Asynchronous transfer mode line emulation device. The method of claim 1, wherein the signaling conversion processing unit A signaling information format generation and detection unit for detecting whether the time division multiplexing signaling information is received in accordance with a predetermined format, and generating signaling information to be transmitted in accordance with the format; A first signaling processor configured to analyze and process time division multiplexing signaling information provided by the signaling information format generation and detection unit; An asynchronous transmission mode network data generation and detection unit for receiving the asynchronous transmission mode signaling information from the asynchronous transmission mode network and converting the transmission signaling information according to the asynchronous transmission mode network and providing the asynchronous transmission mode network to the asynchronous transmission mode network; A second signaling processor for analyzing and processing the asynchronous transmission mode signaling information provided by the asynchronous transmission mode network data generation and detection unit; The time-division multiplexing signaling information analyzed is converted into an asynchronous transmission mode signaling method and transmitted to the second signaling processor, and the time-division multiplexing signaling method is used to transmit the analyzed asynchronous transmission mode signaling information. And a signaling interworking unit for converting the signal to the first signaling processor. The apparatus of claim 1, further comprising a time division multiplexing network connection unit connected to the time division multiplexing network between the time division multiplexing network and the data conversion and processing unit. 3. The apparatus of claim 2, wherein the predetermined format is a high level data link control (HDLC) format. 5. The asynchronous transmission mode circuit emulation apparatus according to any one of claims 1 to 4, wherein the time division multiplexing signaling information is No. 7 signaling information. In the asynchronous transmission mode line emulation method, Detecting time division multiplexing signaling information from time division multiplexing data applied from a time division multiplexing network, converting the detected time division multiplexing signaling information into asynchronous transmission mode signaling information, and providing the asynchronous transmission mode signaling information to the asynchronous transmission mode network. Detecting asynchronous transmission mode signaling information from asynchronous transmission mode data, converting the detected asynchronous transmission mode signaling information into time division multiplexing signaling information, and providing the same to the time division multiplexing network; In response to receiving the time division multiplexing signal information or the asynchronous transmission mode signal information, data transmitted from the asynchronous transmission mode network or the time division multiplexing network is converted into data suitable for the time division multiplexing network or the asynchronous transmission mode network. Asynchronous transmission mode line emulation method characterized in that the conversion process.