KR100898410B1 - Gateway system and method for switching redundancy using the same - Google Patents

Abstract

The present invention relates to a gateway system and a redundancy switching method using the same. Here, the gateway system includes a media gateway, a trunk gateway, a video media gateway, and a signaling gateway.

The present invention provides a service disconnection and degradation of quality for a call in use by switching an RX TDM relay circuit after switching from a media processing block to a redundant media processing block due to a service failure of the media processing block. Solve the problem.

The present invention can be expected to improve the service quality problems caused by the clock synchronization time that occurs when the circuit switching between the PSTN network matching block and the media processing block.

Gateway system, redundancy switching, media processing, redundancy media processing

Description

Gateway System and Method for Switching Redundancy Using The Same}

The present invention relates to a gateway system, and more particularly, to a time division multiplexer (TDM) relay circuit redundancy switching method of a gateway system.

The gateway system is located between the public switched telephone network (hereinafter referred to as 'PSTN') and the packet network (IP network) to provide voice and video services using voice and video codec conversion and signaling conversion functions. It is an important component of next generation network.

The gateway system needs a redundancy function for each function block in the system in order to provide continuity of services when some function blocks fail.

Among them, the redundancy function of TDM relay line matching and media processing block is a very important function associated with the hardware platform structure of the system and must satisfy the condition of minimizing service disconnection and degradation of the call in use.

The PSTN network matching block may cause a problem of service disconnection and quality degradation of a call in use during redundancy switching.

In order to solve such a problem, the present invention is to provide a gateway system and a TDM relay circuit redundancy switching method using the same.

The gateway system according to an aspect of the present invention for achieving the technical problem is to handle the media processing block in the event of failure of the media processing block in charge of the media processing and to control the circuit switch of the network matching block to perform the physical circuit matching function of the media processing A redundancy media processing block connecting a transmission line or a receiving line between a block and the network matching block from the network matching block to change over, and checking whether clock synchronization is completed; And determining a redundancy change by detecting a failure state of the media processing block, and when receiving the failure state, transmits a reception line transfer command to the redundancy media processing block, and synchronizes the clock from the media processing block. And a system control block for transmitting a transmit circuit change command to the redundancy media processing block when is completed.

Redundancy switching method according to an aspect of the present invention comprises the steps of (a) detecting a failure state (Fail) of the media processing block responsible for the media processing function to determine whether or not redundancy switching; (b) transmitting a receive circuit change command to a redundant media processing block that is detected as the failure state and substitutes for a service in the event of a failure of the media processing block; (c) the redundancy media processing block generates a reception line selection signal and transmits the reception line selection signal to a reception line switch of a network matching block that provides a physical line matching function when the reception line transfer command is received. Changing a receive line associated with a processing block to be connected with the redundancy media processing block; (d) the system control block transmitting a transmit circuit change command to the redundant media processing block when clock synchronization completion information is received from the media processing block; And (e) the redundant media processing block generates a transmission line selection signal and transmits the transmission line selection signal to the transmission line switch of the network matching block when the transmission line switching command is received, thereby transmitting the connection with the media processing block through the transmission line switch. Changing the circuit to be connected to the redundancy media processing block.

According to the above configuration, the present invention can be expected to improve the quality of service problems caused by the clock synchronization time that occurs when the circuit switching between the PSTN network matching block and the media processing block.

The present invention separates the RX TDM relay circuit and the TX TDM relay circuit and selects them separately to prevent problems of service disconnection and quality degradation in the call being used.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “module”, “block”, etc. described in the specification mean a unit that processes at least one function or operation, which is hardware or software or a combination of hardware and software. It can be implemented as.

The gateway system of the present invention includes a media gateway, a trunk gateway, a video media gateway, and a signaling gateway.

The gateway system according to an embodiment of the present invention described below will be described by taking a media gateway system as an example for convenience of description.

1 is a block diagram schematically illustrating an internal configuration of a media gateway system according to an exemplary embodiment of the present invention.

The media gateway system according to the embodiment of the present invention includes a switching block 100, a system control block 200, a media processing block 300, a redundancy media processing block 400, a PSTN network matching block 500, and a system backplane. And 600.

The switching block 100 provides Ethernet L2 switching between blocks in the media gateway system to connect each block in the media gateway system using Ethernet.

The system control block 200 performs control and management functions for each block in the media gateway system.

The media processing block 300 performs media processing functions such as voice codec conversion and media conversion.

When the failure of the media processing block 300 occurs, the redundancy media processing block 400 performs the same function as the media processing block 300.

The PSTN network matching block 500 provides a physical line matching function for a PSTN network (TDM network).

System backplane 600 provides inter-block matching and TDM (PSTN) redundancy switching path.

FIG. 2 is a view for explaining how each block is connected in the media gateway system according to an exemplary embodiment of the present invention.

As shown in FIG. 2, each block is connected to the switching block 100 via an Ethernet link through the system backplane 600.

The switching block 100 allows each block to communicate with each other through Ethernet packet switching.

The system control block 200 is connected to each block by TCP to perform block control and fault monitoring.

The system control block 200 monitors the state of the media processing block 300 and determines whether to transfer redundancy when a failure state (Fail) of the media processing block 300 occurs.

Types of failure of the media processing block 300 can be caused by (1) TCP disconnection, (2) Internal module failure of the media processing block 300, (3) Maintenance and testing, (4) Power failure, abnormal board There is a hernia.

(1) The cause of TCP disconnection occurs when the program of the media processing block 300 is down and when the internal Ethernet link fails. When the TCP is disconnected, the system control block 200 considers the media processing block 300 to be a failed state and performs redundancy switching.

(2) An internal module failure of the media processing block 300 corresponds to a case where a normal function cannot be performed due to a failure of the internal block.

The media processing block 300 reports a failure to the system control block 200 when a failure is detected by performing a diagnostic function on the internal block.

(3) The operator and the system operator perform a redundancy switchover for the purpose of maintenance and testing. The causes and methods of redundancy transfer are as follows.

The operator performs a redundancy transfer command at the operating terminal for maintenance and testing purposes.

The operator announces board hernia information using the Hot-Swap switch located on the front of the board before boarding. The media processing block 300 may transmit board hernia information to the system control block 200, and the system control block 200 may know whether to hernia before board hernia.

(4) Power abnormality and abnormal board hernia are cases in which an abnormal state of the media processing block 300 is not known in advance.

3 is a diagram illustrating a redundancy switching structure between a PSTN network matching block, a media processing block 300, and a redundancy media processing block 400 according to a first embodiment of the present invention.

The system control block 200 detects a failure state of the media processing block 300 through the switching block 100 when a failure state occurs in the media processing block 300.

The system control block 200 determines whether the redundant media processing block 400 is in a normal state through message exchange for redundancy switching.

When the redundancy media processing block 400 is in a normal state, the system control block 200 generates a line transfer command and transmits it to the redundancy media processing block 400.

The redundancy media processing block 400 generates a single TDM line selection control signal and transmits it to the switch control element 510 of the PSTN network matching block 500 when the circuit change command is received.

Subsequently, when the switch control element 510 of the PSTN network matching block 500 receives the single TDM line selection control signal from the redundancy media processing block 400, the switch control element 510 transmits the control signal to the switch element to transmit the control signal to the media processing block 300. The control unit is connected to the redundancy media processing block 400 by switching from the circuit A group connected to the circuit B group.

In the TDM channel interworking scheme according to the first embodiment of the present invention, the TDM channel interworking scheme is switched by a single TDM channel selection control signal in units of a circuit A group (TDM RX / TX signal) and a circuit B group (TDM RX / TX signal).

4 is a diagram illustrating a method of switching redundancy of a TDM relay circuit using a media gateway system according to a second embodiment of the present invention, and FIG. 5 is a redundancy media processing block 400 according to the second embodiment of the present invention. A block diagram schematically illustrating the internal structure of the apparatus.

In the normal state, the media processing block 300 performs a service and the redundancy media processing block 400 waits in a standby state.

The redundancy media processing block 400 includes a framer 410, a digital phase locked loop (DPLL) 420, and a controller 430.

The framer 410 provides smooth data transmission between two devices according to transmission standards PDH and SDH / SONET. The framer 410 provides a unit frame discrimination function, an error check for transmission data, and a maintenance alarm information transmission function for continuously transmitted frames. Framer 410 also provides appropriate line coding and waveform generation functions for the transmission medium.

The framer 410 extracts a clock from the received signal of the PSTN network and transmits the clock to the DPLL 420. The DPLL 420 generates an operation clock required by the framer 410 and transmits the generated operating clock to the framer 410. Here, the operation clock is a clock that is frequency locked and phase locked to the extraction clock.

The DPLL 420 provides a frequency and phase synchronization function for the input clock and provides various clocks required for the PSTN network interworking component (Framer).

The controller 430 checks the lock signal indicating the operation state of the DPLL 420 and transmits the DPLL clock synchronization completion information to the system control block 200 when the clock synchronization is completed. Here, the lock signal is a signal for outputting whether or not synchronization with respect to the input clock is completed.

Components of the above-described redundancy media processing block 400 are identically configured in the media processing block 300. Accordingly, the media processing block 300 and the redundancy media processing block 400 may check clock synchronization.

The system control block 200 detects a failure state of the media processing block 300 through the switching block 100 when a failure state occurs in the media processing block 300.

The system control block 200 determines whether the redundant media processing block 400 is in a normal state through message exchange for redundancy switching.

When the redundancy media processing block 400 is in a normal state, the system control block 200 generates and transmits an RX circuit change command to the redundancy media processing block 400.

The redundancy media processing block 400 generates an RX line selection signal and transmits it to the switch control element 510 of the PSTN network matching block 500.

Subsequently, when the switch control element 510 of the PSTN network matching block 500 receives the RX line selection signal from the redundancy media processing block 400, the switch control element 510 transmits the control signal to the switch element 520 to transmit the media processing block 300. RX TDM relay line of the TDM circuit connected to the () is connected to the redundancy media processing block 400. Here, the RX TDM relay line may be expressed differently as a receiving line and an RX line.

After the RX TDM relay circuit is switched to the redundancy media processing block 400, the DPLL of the redundancy media processing block 400 starts clock synchronization.

Redundancy boards must be active in the state of clock synchronization to improve quality of service.

When the DPLL clock synchronization completion information is received from the redundancy media processing block 400, the system control block 200 transmits a TX circuit change command to the redundancy media processing block 400.

When the redundancy media processing block 400 receives the TX circuit switching command, the redundancy media processing block 400 generates a TX channel selection signal and transmits the TX channel selection signal to the switch control element 510 of the PSTN network matching block 500.

Subsequently, when the switch control element 510 of the PSTN network matching block 500 receives the TX line selection signal from the redundancy media processing block 400, the switch control element 510 transmits a control signal to the switch element 520 to transmit the media processing block 300. The TX TDM relay circuit of the TDM circuit connected to the < RTI ID = 0.0 >)< / RTI > Here, the TX TDM relay line transmits It can be expressed differently as a line or a TX line.

The media processing block 300 transmits channel setting information of the media processing block 300 to the redundancy media processing block 400 before the TX TDM relay line is switched to the redundancy media processing block 400. Here, the channel setting information includes call information of each channel being processed by the board, TDM channel setting information (PSTN network) for each call, IP address, MAC address (IP network), and codec information for each call. It includes.

The redundancy media processing block 400 sets the call setup information set in the media processing block 300 and becomes active to perform a service.

As another embodiment of the present invention, after the RX TDM relay circuit switching, it is possible to automatically switch to the TX TDM relay circuit after a predetermined time with a default value.

In the media gateway system, the data flow is (1) board switching start, (2) RX TDM relay line switching, (3) channel setting information sent to the redundancy media processing block 400, (4) channel setting completed, clock synchronization completed In the following description, TX TDM relay circuit switching is performed.

(1) Board switch start, (2) RX TDM relay line switch

The media processing block 300 continuously transmits data to the PSTN network and the IP network.

(3) Send channel setting information to the redundancy media processing block 400

The media processing block 300 continuously transmits data to the PSTN network and the IP network, and the redundancy media processing block 400 prevents the IP packet generated due to the channel setting (call setup) from leaving the board.

(4) Channel setting completed, clock synchronization completed, TX TDM relay line switching

The media processing block 300 blocks the generated IP packet, prevents data transmission to the PSTN network because the TX TDM relay circuit is switched, and transmits the IP packet blocked by the redundant media processing block 400.

In conclusion, the data transmission occurs in the media processing block 300 and the redundancy media processing block 400, and is implemented in a manner that prevents data transmission of one board. That is, the IP network blocks the packet transmission in the Ethernet switch, and the PSTN network blocks the data transmission while switching the circuit.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiments of the present invention, a recording medium on which the program is recorded, and the like. Such implementations may be readily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a block diagram schematically illustrating an internal configuration of a media gateway system according to an exemplary embodiment of the present invention.

FIG. 2 is a view for explaining how each block is connected in the media gateway system according to an exemplary embodiment of the present invention.

3 is a diagram illustrating a redundancy switching structure between a PSTN network matching block, a media processing block, and a redundant media processing block according to the first embodiment of the present invention.

FIG. 4 is a diagram for describing a redundancy switching method of a TDM relay circuit using a media gateway system according to a second embodiment of the present invention.

5 is a block diagram schematically illustrating an internal configuration of a redundancy media processing block according to the second embodiment of the present invention.

Claims (6)

Detects a failure transfer by detecting a failure state of a media processing block that is in charge of a media processing function, and when receiving the failure state, generates and transmits a reception line transfer command, and when clock synchronization completion information is received. A system control block for generating and transmitting a transmit circuit change command; And A module for performing a service in the event of a failure of the media processing block, wherein the receiving line transfer command and the transmission line transfer command are received when the receiving line or the transmission line between the media processing block and the network matching block serving as a physical line matching function. Transmit by changing from a network matching block, changing the switching, starting clock synchronization after the receiving line is switched, and checking the clock synchronization completion information and transmitting the transmission information to the system control block to determine the switching timing of the transmission line. Redundancy media processing block that selects and separates the line and the receive line separately Gateway system comprising a. According to claim 1, When the redundancy media processing block receives the receive circuit change command, the redundancy media processing block controls the receiving line switch of the network matching block to change the receiving line of the media processing block so as to be connected to the redundancy media processing block. And control the transmission line switch of the network matching block to change the transmission line of the media processing block to be connected with the redundancy media processing block according to a command. According to claim 1, The media processing block and the redundancy media processing block A framer providing line coding and waveform generation functions for the transmission medium; A digital phase locked loop for starting the clock synchronization and outputting a lock signal indicating whether synchronization with respect to an input clock is completed after the reception line is switched to the redundant media processing block; And A controller which checks the lock signal and generates clock synchronization completion information and transmits the clock synchronization completion information to the system control block when the clock synchronization is completed; Gateway system comprising a. (A) the system control block for controlling each block in the gateway system to detect the failure state (Fail) of the media processing block in charge of the media processing function to determine whether the redundancy transfer; (b) the system control block is configured to transmit a receive line transfer command to a redundant media processing block which is detected as the failure state and acts as a service in case of failure of the media processing block; (c) the redundancy media processing block generates a reception line selection signal and transmits the reception line selection signal to a reception line switch of a network matching block that provides a physical line matching function when the reception line transfer command is received. Changing a receive line associated with a processing block to be connected with the redundancy media processing block; (d) the system control block transmitting a transmit circuit change command to the redundant media processing block when clock synchronization completion information is received from the media processing block; And (e) The redundancy media processing block generates a transmission line selection signal and transmits the transmission line selection signal to the transmission line switch of the network matching block when the transmission line switching command is received, thereby transmitting line connected to the media processing block through the transmission line switch. Changing the connection with the redundancy media processing block. Redundancy switching method comprising a. The method of claim 4, wherein Between step (b) and step (c), After the receiving line is switched to the redundancy media processing block, starting clock synchronization and outputting a lock signal indicating whether synchronization with an input clock is completed; And Checking the lock signal to generate clock synchronization completion information and transmitting the clock synchronization completion information to the system control block when the clock synchronization is completed; Redundancy switching method comprising a. The method of claim 4, wherein After step (e), Setting call setup information set in the media processing block to the redundancy media processing block and performing an active service. Redundancy switching method further comprising.

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