KR20040073717A - Apparatus and method for call control message redundancy in wireless soft-switch system - Google Patents

Abstract

PURPOSE: A device for communicating by duplexing a call control message in a mobile communication system is provided to duplex a call processing message of a WSS(Wireless SoftSwitch System), and to transmit a call processing message of an alternative system when the previous call processing message fails in transmission, thereby carrying out a call connection without call disconnection. CONSTITUTION: When a call is requested from a mobile station, a WSS transmits/receives call processing messages through an SIP-T(Session Initiation Protocol-Telephony)(220). The WSS comprises an ISUP(Integrated Services digital network User Part) (240) to transmit/receive the call processing messages within a time slot. The WSS comprises a basic call state processor(200) to manage a path and a state of the call processing messages of the ISUP(240). The basic call state processor(200) realizes a call control function, and controls the call processing messages.

Description

Device and method for duplication of call control message in mobile communication system {APPARATUS AND METHOD FOR CALL CONTROL MESSAGE REDUNDANCY IN WIRELESS SOFT-SWITCH SYSTEM}

The present invention relates to a mobile communication system, and in particular, to provide an apparatus and method for processing a call processing message between a source radio switching station and a destination radio switching station.

The current mobile communication system has evolved from the circuit switched network structure, so that all functional boards and processors in the mobile communication system operate on an Internet Protocol network. Proposed structure. Accordingly, the mobile communication system of the ALL IP network structure transmits / receives call processing messages according to a call progress requested from a mobile terminal through an Internet protocol. This will be described with reference to FIG. 1.

1 is a signal flowchart of a call control message transmitted / received for call setup in a mobile communication system based on an Internet protocol.

Referring to FIG. 1, in step 1, a mobile terminal 10 transmits an origination message for call connection to a base station subsystem (hereinafter, referred to as a 'BSS'). In this case, the calling message may be referred to as a mobile terminal identification number (MIN), which is unique information of at least one calling party mobile terminal 10 or at least one called party mobile terminal 90. And a parameter including an electronic serial number (called 'ESN') and a service option associated with the call. In step 2, the BSS 20 calls a Connection Management Service Request Message (hereinafter referred to as a 'CM Service Request Message') as a wireless soft-switch system (hereinafter referred to as a 'WSS'). ) To request authentication of the calling mobile terminal 10. That is, the BSS 20 transmits the mobile terminal identification number (MIN) of the called party's mobile terminal 90 to the WSS 30 after completing the authentication of the mobile terminal 10. In this case, the WSS 30 receiving the CM service request message connects a local call caller (Call ID) and an endpoint identifier (called an endpoint identifier, or 'EID') of the called-party mobile terminal 90 to the local call connection. Sends a Circuit Identifier Code Allocation Request Message (CCI Assignment Message) containing a Local Connection Option to the Media Gateway (R-MGW). do. The CIC assignment message performs an identification function for distinguishing paths between call processing messages between the mobile terminal 10 and the WSS 30. Accordingly, the R-MGW 40 transmits the requested Call ID and EID and the Local Call Option to the WSS 30 through the call connection signal corresponding to the requested CIC assignment message. Notify In step 3, the WSS 30 generates a channel assignment request message and transmits it to the BSS 20. Therefore, a trunk setup for transmitting and receiving user data to the mobile terminal 10 is completed, and a traffic channel, which is a radio resource, is allocated between the BSS 20 and the mobile terminal 10. In step 4, the BSS 20 transmits an assignment complete message corresponding to the channel assignment request message to inform that the allocation of the channel is completed. In step 5, the WSS 30 sends a location request message to a home location register (HRL) 50 to determine the location of the called party's mobile terminal 90. Send a 'LOC request message'. In step 6, the HLR 50 transmits a routing number request message (hereinafter, referred to as a 'RTR request message') to the called party's WSS 60 to manage the called party's mobile terminal 90. Requesting a routing number, and in step 7, a routing number response message (hereinafter referred to as an RTR response message) corresponding to the RTR request message is received from the called party WSS 60. That is, the HLR 50 determines the location of the called party's mobile terminal 90 through the called party's WSS 60, and then includes a routing response message (hereinafter referred to as a 'LOC response message') including the routing number. (Step 8) In step 9, the originating WSS 30 is referred to as a Session Initiation Protocol-Telephony Invite Message (hereinafter referred to as a SIP Invite message). Request a call connection to the called party's WSS (60). Upon receiving the SIP Invite message in step 10, the called party WSS 60 transmits a paging message for notifying the incoming call to the mobile terminal 90 that is managed. At this time, the called party WSS 60 transmits a SIP 180 ring message, which is a wireless initial protocol allocation completion message corresponding to the SIP Invite message, to the calling party WSS 30, thereby transmitting the calling party mobile terminal 10. Instruct the ring to connect. In step 12, the called party's mobile terminal 90 transmits a paging response message to inform the WSS 60 that the call is possible. The WSS 60 transmits a CIC assignment message to the calling party R-MGW 70, and the R-MGW 70 checks the MIN number and EID of the mobile station and a local call connection function. Complete the call connection with the mobile terminal 90. In step 13, the WSS 60 sends a channel assignment request message to the BSS 80. In step 14, the BSS 80 transmits a channel assignment response message to the WSS 60 to complete a trunk setup for transmitting and receiving user data to the destination mobile terminal 90, and in step 15, the destination mobile terminal. 90 sends an Answer message corresponding to the Alarm signal. In step 16, the BSS 80 informs the WSS 60 that the called terminal has responded. In step 17, the called party WSS 80 transmits a SIP 200 O.K message to the calling party WSS 30 to indicate that call connection preparation is completed. That is, the originating WSS 30 and the receiving WSS 60 transmit / receive a call control message including the call identification number, the EID, the call connection identifier, and the remote connector to complete the call connection. . In step 18, the calling party WSS 30 transmits an SIP acknowledge signal (hereinafter referred to as 'ACK') in response to the SIP 200 O.K message. Therefore, the setting of the wireless bearer path between the calling mobile terminal 10 and the receiving mobile terminal 90 is completed.

As described above, call processing messages according to call setup of the WSS 30 or 60 are transmitted / received through an Internet protocol network (IP), and the WSS 30 or 60 receives an Internet protocol from an upper system. When not allocated, a problem arises in that call connection fails continuously. Therefore, the internal call processing failure message has continuously increased in the mobile communication system, and thus the problem of failing to secure system stability throughout the mobile communication system has been continuously generated. In addition, there is a problem that does not provide the reliability of the call to the user of the mobile terminal.

An object of the present invention is to provide an apparatus for communicating by dualizing call processing messages in a mobile communication system.

It is still another object of the present invention to provide a method for duplexing call processing messages in a mobile communication system.

A first embodiment of the present invention for achieving the above object is a device for duplexing and transmitting a call control message in a mobile communication system, the first call according to the call based on the Internet protocol when a call is requested from the mobile terminal A second call processing unit for processing the processing messages and a second call processing message according to the call during the allotted time interval based on a time division multiple access method for performing communication by dividing a predetermined bandwidth into a predetermined time interval. The first call processing messages and the second call processing messages to transmit / receive second call processing messages which perform the same function through the second call processing unit on behalf of the first call processing messages of the first call processing unit. And a Wireless SoftSwitch System having a basic call state processing section including path and status information of the processing messages. do.

According to a second embodiment of the present invention for achieving the above object, a method for dually transmitting and receiving a call control message in a mobile communication system includes: a first call processor based on an Internet protocol at a wireless switching center; Processing first call processing messages through the first call processing unit by a basic call state processing unit including a process of processing call processing messages and a path and status information of the first call processing messages and the second call processing messages; Instead, the second call processing unit based on the time division multiple access method that performs communication by dividing a predetermined bandwidth into a predetermined time interval, processes the second call processing messages performing the same function during the allocated time interval. It is done.

1 is a signal flow diagram of a call control message transmitted / received for call establishment in a mobile communication system generally based on the Internet protocol.

2 is a diagram schematically illustrating an internal configuration of a radio switching center of a mobile communication system according to an embodiment of the present invention.

3 is a signal flowchart of a call control message transmitted / received for call setup in a mobile communication system according to an embodiment of the present invention;

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

DETAILED DESCRIPTION In the following detailed description, one representative embodiment of the present invention is set forth in order to achieve the above technical problem. And other embodiments that can be presented with the present invention are replaced by the description in the configuration of the present invention.

The mobile communication system of the ALL IP network structure uses a method of transmitting / receiving call processing messages according to a communication service of voice data and packet data through the Internet protocol. That is, the mobile communication system of the ALL IP network structure does not guarantee reliability to the user of the mobile terminal for the call processing message by transmitting / receiving the call processing messages through the Internet protocol without a previously allocated communication path. Accordingly, in the present invention, in addition to transmitting / receiving call processing messages between a wireless switching center and a wireless switching center through the Internet protocol, in order to ensure the reliability of the call processing messages, time-sequence multiple access schemes are intended to transmit / receive call processing messages. do. In other words, it proposes a method of duplexing and transmitting / receiving call processing messages between radio switching stations. This will be described in more detail with reference to FIG. 2 below.

2 is a diagram schematically showing an internal configuration of a radio switching center according to an embodiment of the present invention.

Referring to FIG. 2, in a mobile communication system having the ALL IP network structure, a wireless soft switch system (hereinafter referred to as a "WSS") is an exchange based on an Internet protocol. When a call is requested from a mobile terminal, the WSS calls the call processing messages in the first half of the mobile communication system according to the call progress (Session Initiation Protocol-Telephony, hereinafter referred to as SIP-T). Send / receive via). That is, the SIP-T 220 performs call connection based on the Internet protocol and performs call connection between the calling party WSS and the called party WSS. In addition, the WSS divides a predetermined frequency band into a predetermined time interval and is a comprehensive information communication network based on a time division multiple access method (hereinafter referred to as 'TDMA') for transmitting and receiving call processing messages only during an allocated time interval. A user unit (Integrated Services Digital Network User Part, hereinafter referred to as "ISUP") is provided to transmit / receive the call processing messages within the allocated time slot. In this case, the WSS includes a basic call state processing unit 200 to manage the path and state of the SIP-T 220 and call processing messages of the ISUP 240. The basic call state processing unit 200 implements a call control function to control the call processing messages. Accordingly, the SIP-T 220 implements the same call control function by sharing the basic call state processing unit 200 and processes call processing messages based on the Internet protocol. In addition, the ISUP 240 also implements a call control function by sharing the basic call state processing unit 200, and processes call processing messages according to voice and packet data within an allocated time interval of the ISDN network structure.

For example, while the originating WSS and the called party WSS exchange call processing messages according to a call connection or a call through the SIP-T 220, the path of the Internet protocol is released or the SIP-T ( If a failure occurs in the block of 220 to transmit / receive the call processing messages, the basic call state processing unit 200 is the same as the call processing message of the SIP-T 220 through the ISUP 240. A call processing message of a TDMA type performing a function is transmitted within an allotted time interval so that communication disconnection due to call progression does not occur between the originating WSS 330 and the called party WSS 360.

As described above, the call processing message of the WSS based on the Internet protocol is duplicated to provide reliability of the call processing message, thereby providing system stabilization according to the overall mobile communication system.

3 is a signal flowchart of a call control message transmitted / received for call setup in a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in step 31, the mobile terminal 310 transmits an origination message for call setup to the BSS 320. In this case, the calling message is mobile terminal identification numbers (MINs) which are unique information of at least one calling party mobile terminal 310 or at least one called mobile terminal 390, the electronic serial number (ESN) and the mobile. Parameters including a service option associated with a call of the terminal 310. In step 32, the BSS 320 transmits a CM service request message to the WSS 330 to request authentication of the calling mobile terminal 310. That is, the BSS 320 transmits an identification number (MIN) of the called party's mobile terminal 390 to the WSS 330 to perform authentication. In this case, the WSS 330 receiving the CM service request message calls the call ID and the endpoint ID of the call of the called-party mobile terminal 390, and a local call connection function. It generates a CIC assignment message containing a and transmits to the R-MGW (340). The CIC assignment message performs an identification function for distinguishing paths between call processing messages between the mobile terminal 310 and the WSS 330. The R-MGW 340 is connected to an upper system by a predetermined data transmission interface and performs a function of switching the call connection data to a corresponding WSS 360. Accordingly, the R-MGW 340 may call the call identifier (Call ID) requested through the call connection signal corresponding to the CIC Allocation corresponding to the call connection signal (the inventor writes the FULL NAME and meaning (role)). And an endpoint identifier (EID) and a local call connection function (Local Call Connection) to the WSS (330). In step 33, the WSS 330 generates a channel assignment request message and transmits it to the BSS 320. Accordingly, the BSS 320 completes a trunk setup for transmitting and receiving data to and from the mobile terminal 310, and allocates a traffic channel that is a radio resource between the BSS 320 and the mobile terminal 310. In step 34, the BSS 320 sends a channel assignment completion message corresponding to the channel assignment request message to inform the WSS 30 that channel allocation is completed. In step 35, the WSS 30 sends a LOC request message to the HRL 350 to determine the location of the called mobile terminal 390. In step 36, the HLR 350 transmits a routing number request message including a path of the called mobile terminal 390 to the called party WSS 360, and the called party WSS as shown in step 37. Receive a routing number response message corresponding to the routing number request message from 60. That is, the HLR 350 detects the location of the called mobile terminal 390 through the WSS 360 and then transmits a LOC response message including the routing number to the calling WSS 330. Step 38) In step 39, the calling side WSS 330 transmits a SIP Invite message based on the Internet protocol to the called side WSS 360 through the SIP-T 220 of FIG. 2 to request a call connection. However, when the Internet protocol path is released or disconnected due to system failure and overload of the SIP-T 220, that is, when the transmission of the SIP Invite message fails, the basic call state processing unit 200 The ISUP 240 transmits an initial address request message (hereinafter referred to as an IAM message) that performs the same function as the SIP Invite message, so that the originating WSS 330 and the destination WSS 360 are transmitted. Request a call connection between them. In step 40, the called party WSS 360 that has received the IAM message transmits a paging message indicating a call connection to the called party mobile terminal 390 to be managed. In this case, in step 41, the called party WSS 360 includes the basic call state processing unit 200 to perform the same function as the wireless initial protocol allocation completion message (SIP 180 ring message) through the ISUP 240. An address complete message (hereinafter referred to as an 'ACM message') is transmitted to the originating WSS 330 to inform that the address for the call connection is allocated. Accordingly, a call connection is instructed to the calling mobile terminal 310. In step 42, the called party mobile terminal 390 transmits a paging response message to inform the called party WSS 360 that call is possible. The called party WSS 360 transmits a CIC assignment message to the calling party R-MGW 370, and the R-MGW 370 checks the MIN number and EID of the mobile station and a local call connection function. Complete call connection with the called mobile terminal 390. In step 43, the called party WSS 360 sends a channel assignment request message to the called party BSS 380. In step 44, the BSS 380 transmits a channel assignment response message to the called party WSS 360 to complete a trunk setup for transmitting and receiving user data to the called party mobile terminal 390. The mobile terminal 390 sends an answer message corresponding to an alarm signal. In step 46, the BSS 380 notifies the WSS 360 that the called terminal has responded. In step 47, the called party WSS 360 performs the same function as the SIP 200 OK message based on the Internet protocol by the basic call state processing unit 200 through the ISUP 240. Send an ANM message) to indicate that call connection preparation is complete. That is, the calling side WSS 330 and the receiving side WSS 360 modify a call connection message including the call ID, the endpoint ID, the call connection identifier, and the remote connection coordinator. Send / receive) to complete the call connection. In step 48 the originating WSS 30 sends a response message corresponding to the ANM message. Therefore, in step 49, the setting of the radio bearer path between the calling mobile terminal 310 and the receiving mobile terminal 390 is completed.

As described above, the WSSs 330 or 360 based on the Internet protocol include a basic call state processing unit 200 to perform the same function when the transmission of the call processing message based on the Internet Protocol (IP) fails. Send call processing messages to ensure the reliability of call processing messages.

As described above, the present invention duplicates the call processing message of the wireless switching center based on the Internet protocol, and transmits the call processing message of an alternative system that performs the same function when the call processing message fails due to a system failure, thereby connecting the call without disconnection. Has the advantage of performing. Therefore, the reliability of the call processing message has an advantage of providing reliability according to communication to a mobile terminal user.

Claims (10)

An apparatus for transmitting and receiving duplicated call control messages in a mobile communication system, A first call processing unit which processes first call processing messages according to the call based on an internet protocol when a call is requested from a mobile terminal; A second call processing unit which processes the second call processing messages according to the call during the allotted time interval based on the time division multiple access method of performing communication by dividing the predetermined bandwidth into a predetermined time interval; Instead of the first call processing messages of the first call processing unit, the first call processing messages and the second call processing messages may be transmitted / received by the second call processing messages performing the same function through the second call processing unit. And a wireless softswitch system having a basic call state processing section including path and status information. 2. The method of claim 1, further comprising: a first call processing unit for processing the first call processing messages, a second call processing unit for processing the second call processing messages, and a first call processing message through the first call processing unit. Path and status information of the first call processing messages and the second call processing messages to transmit / receive second call processing messages through the second call processing unit in place of the first call processing message when the reception fails. And a wireless switching station comprising a basic call state processing unit including a wireless switching station based on an internet protocol. 3. The caller of claim 2, wherein the originating radio switching center includes the basic call state processing unit and transmits a wireless initial protocol request message (SIP Invite message), which is a call connection request message, through the first call processing unit. The apparatus characterized in that for requesting a call connection by transmitting an initial address request message (IAM message) through the processing unit. 4. The receiver of claim 3, wherein the called party's wireless switching center includes the basic call state processing unit to transmit a wireless initial protocol allocation completion message (SIP 180 ring message) of the call connection request message through the first call processing unit. And transmitting an address assignment completion message (ACM message) through the second call processor. 5. The method of claim 4, wherein the calling party's wireless switching center includes the basic call state processing unit and transmits a call connection completion message (SIP 200 OK message) indicating that the call connection preparation is completed through the first call processing unit. The apparatus, characterized in that for transmitting a response message (ANM message) through the call processing unit. In the method for transmitting and receiving call control messages in a mobile communication system, Processing the first call processing messages according to the call by the first call processing unit based on the Internet protocol at the wireless switching center; Instead of processing the first call processing messages through the first call processing unit by the basic call state processing unit including the path and status information of the first call processing messages and the second call processing messages, the predetermined bandwidth is fixed at a predetermined time interval. And a second call processing unit based on a time division multiple access method for performing communication, processing second call messages performing the same function during an allocated time interval. 7. The call processing apparatus of claim 6, wherein when the first call processing unit fails to transmit / receive the first call processing message at a wireless switching center based on an Internet protocol, the second call processing unit via the basic call state processing unit performs the first call. And transmitting / receiving second call processing messages which perform the same function as the processing messages. 8. The caller of claim 7, wherein the calling party's wireless switching center includes the basic call state processing unit and transmits a wireless initial protocol request message (SIP Invite message), which is a call connection request message, through the first call processing unit. The method as claimed in claim 1, wherein the call request is made by transmitting an initial address request message (IAM message) through the processor. 9. The system of claim 8, wherein the called party's wireless switching center includes the basic call state processing unit to transmit a wireless initial protocol allocation completion message (SIP 180 ring message) of the call connection request message through the first call processing unit. And transmitting an address assignment completion message (ACM message) through the second call processor. 10. The method of claim 9, wherein the calling party wireless switching station includes the basic call state processing unit and transmits a call connection completion message (SIP 200 OK message) indicating that the call connection preparation is completed through the first call processing unit. The method characterized in that the process of transmitting a response message (ANM message) through the call processor.