KR20080080798A - Method for matching asynchronous transfer mode interface in mobile communication system and the system thereof - Google Patents

Abstract

A method and a system for matching an ATM(Asynchronous Transmission Mode) interface in a mobile communication system are provided to set a call at a normal link by sensing an error of an arbitrary link of a specific RNC(Radio Network Controller) in an ATM switching concentration interlocking environment. A method for matching an ATM interface in a mobile communication system includes the steps of: receiving a periodic echo request message from an RNC when a PS(Packet Switched) call is not connected(201); updating a call processing resource assigning management table by deleting link information of a link with a corresponding error from the call process resource assigning management table when link error information of the RNC exists in the echo request message(205); and matching the ATM interface with a normal link based on the call processing resource assigning management table(213).

Description

METHOD FOR MATCHING ASYNCHRONOUS TRANSFER MODE INTERFACE IN MOBILE COMMUNICATION SYSTEM AND THE SYSTEM THEREOF}

1 is a block diagram illustrating a mobile communication system to which an ATM interface matching method according to an embodiment of the present invention is applied;

2 is a flowchart illustrating an ATM interface matching method according to an embodiment of the present invention.

The present invention relates to an ATM interface matching method and system therefor in an Asynchronous Transfer Mode (“ATM”) based mobile communication system. In particular, a physical ATM interface between network nodes in an ATM based mobile communication system is provided. It relates to a matching method and a system accordingly.

Conventional ATM-based mobile communication systems such as Wideband Code Division Multiple Access (WCDMA) are systems for transmitting data through various frequency bands within 50 GHz to 60 GHz, and include a radio access network (hereinafter referred to as a radio access network). "RAN") and Packet Switched Core Network (hereinafter referred to as "PSCN") areas.

In the ATM-based mobile communication system, the RAN region must efficiently use limited radio resources to provide high-speed packet data service and satisfy various QoS (Quality of Service) requirements in a multimedia system. In addition, the PSCN area interworks with an Internet Protocol (“IP”) based protocol by matching with the RAN area to provide a packet exchange service to a wireless mobile communication terminal. Accordingly, the Serving GPRS Support Node (“SGSN”) included in the PSCN area includes a plurality of Radio Network Controllers (RNCs) included in the RAN area. It is responsible for the mobility and packet session management of the mobile station.

In the conventional PSCN area, a matching method between SGSN and a plurality of RNCs uses a method of realizing a physical ATM interface (lu-PS) with a direct connection structure [1: 1 (number of RNC links: number of SGSN links)]. However, in a data traffic network environment, SGSN must provide as many physical ATM interface links as the number of links of multiple RNCs when matching with a conventional direct connection structure to expand service coverage through matching SGSN with as many RNCs as possible. .

The problem of providing physical ATM interface links as many as the number of links of a plurality of RNCs in the SGSN may be solved by implementing an ATM switching aggregation interworking environment by installing an ATM switch between a network between the SGSN and the RNC. Accordingly, when SGSN implements the ATM switching aggregation interworking environment that is matched with a multilink connection structure [N: 1 (number of RNC links: number of SGSN links)], SGSN detects whether each link of a specific RNC has a failure and is a normal link. The ATM interface must be matched so that the call is established on a non-failed link.

The present invention provides a method and system for matching a physical ATM interface using an ATM switch between network nodes in an ATM-based mobile communication system.

The asynchronous transmission mode (ATM) interface matching method in the mobile communication system according to the present invention comprises the steps of: receiving a periodic echo request message from a radio network controller (RNC) without a packet switched (PS) call connected and the echo request If there is link failure information of the RNC in the message, updating the call processing resource allocation management table by deleting link information on the corresponding link in the call processing resource allocation management table and the call processing resource allocation management table. The process of performing ATM interface matching on the normal link is based on the above.

In addition, the mobile communication system conforming to the asynchronous transmission mode (ATM) interface according to the present invention includes a radio network controller (RNC) that transmits a periodic echo request message without a packet switched (PS) call and the echo request message. If there is link failure information of the RNC, the call processing resource allocation management table is updated by deleting the link information on the failed link in the call processing resource allocation management table, and based on the call processing resource allocation management table. A Serving General Packet Radio Service (GPRS) Support Node (SGSN) that controls the ATM switch to match the ATM interface to the normal link.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intention or custom of a user or an operator. Therefore, the definition should be made based on the contents throughout the specification.

First, the concept of the present invention, the present invention is to detect the failure of any link of a specific network node in the ATM switching aggregation interworking environment matched by the multi-link connection structure between the network nodes so that the call is established on the normal link It provides a way to match physical ATM interfaces.

1 is a block diagram illustrating a mobile communication system to which an ATM interface matching method according to an embodiment of the present invention is applied. According to an embodiment of the present invention, a mobile communication system includes an RNC 110, an ATM switch 130, and an SGSN 150. Here, the ATM switch 130 is connected to the SGSN 150 through one link and the RNC 110 through a plurality of links, respectively.

In FIG. 1, the RNC 110 includes GTP- in TS.29.060 (GRS (GPRS Tunneling Protocol) -C (Control), GTP-U (User bearer) related standard) of 3GPP (3rd Generation Partnership Project, WCDMA standard). For the path alive check through the U echo function, periodically send and receive echo messages with SGSN. Hereinafter, a message periodically transmitted by the RNC 110 to the SGSN 150 among the echo messages is called an echo request message, and an echo message transmitted by the SGSN 150 to the RNC 110 in response to the echo request message is echoed. This is defined as a response message.

The RNC 110 determines whether a failed link exists, and then extracts link failure information (RNC ID and link number) of the RNC 100 when there is a failed link. Field) and transmit to the SGSN 150. The RNC 110 and the SGSN 150 may change the period during system operation during transmission and reception of the periodic echo message, and perform PS (Packet Switched) on a corresponding path. You can send and receive echo messages periodically, without interruption, from the beginning of the process, with or without call setup.

The SGSN 150 updates the echo request message received from the RNC 110 to the call processing resource allocation management table, and then adds a recovery field indicating whether to restart the echo request message. 110). That is, the SGSN 150 includes link failure information of the RNC 110 in an individual extended field in the received echo message. When the link failure of the RNC 110 is indicated, the link information on the corresponding link in which the failure occurs is updated in the valid port information of the call processing allocation management table. The SGSN 150 connects the PS call corresponding to the ID of the RNC extracted from the echo request message using the call processing resource allocation management table.

When the PS call is to be connected, the SGSN 150 may use an internal ATM interface matching IP address (hereinafter, referred to as an "ATM interface IP address") interworking with a normal link corresponding to the extracted RNC information based on a call processing resource allocation management table. Is allocated to the RNC 110 in a Radio Access Bearer (RAB) allocation request message which is a Radio Access Network Application Protocol (RANAP) message. Based on the RAB assignment request message, the RNC 110 places an SGSN (R) assignment response message including an ATM interface IP address in the RNC 110 existing in the same network as the ATM interface IP address assigned by the SGSN 150. 150). When SGSN 150 receives an RAB allocation response message for the transmitted RAB allocation request message from RNC 110, the ATMN 150 matches ATM interfaces on the normal link based on the transmitted and received RAB allocation request and response messages. The switch 130 is controlled.

In FIG. 1, the ATM switch 130 is based on the call processing resource allocation management table to match the RNC 110 and the SGSN 150 in a multilink connection structure [N: 1 (number of RNC links: number of SGSN links)]. The ATM interface IP address assigned by SGSN 150 and the ATM interface IP address in each RNC 110 present in the same network are switched to be connected.

Accordingly, in the present invention, when implementing the ATM switching aggregation interworking environment matched with a multilink connection structure [N: 1 (number of RNC links: SGSN links)], the SGSN determines a specific RNC based on a call processing resource allocation management table. A call can be established to a normal link by detecting whether a failure occurs on any link of the link.

2 is a flowchart illustrating an ATM interface matching method according to an embodiment of the present invention.

In step 201 of FIG. 2, the SGSN 150 periodically receives an echo request message from the RNC 110 in a state where the PS call is not connected. In step 203, the SGSN 150 determines whether link failure information of the RNC 110 exists in the received echo request message, and if the link failure information of the RNC 110 exists, the SGSN 150 corresponds to the call processing resource allocation management table. In order to delete the link information, the process proceeds to step 205. In step 205, when the received echo request message indicates a link failure of the RNC 110, the SGSN 150 deletes and updates the link information on the failed link in the valid port information of the call processing allocation management table. Thereafter, the echo response message is transmitted to the RNC 110.

If the PS call is to be connected, in step 207, the SGSN 150 uses the call processing resource allocation management table to establish an ID of the RNC extracted from the echo request message in order to set up a call on the normal link in the call processing resource allocation process. Allocate an internal ATM interface IP address associated with the appropriate link. In step 209, the SGSN 150 transmits the allocated ATM interface IP address to the RNC 110 in a RAB allocation request message, which is a RANAP message. In step 211, the SGSN 150 sends an RAB assignment response message including an ATM interface IP address of the RNC 110 existing in the same network as the ATM interface IP address assigned to the RAB allocation request message transmitted from the RNC 110. Receive. In step 213, the SGSN 150 controls the ATM switch 130 to set up a bearer with the RNC based on the transmitted and received RAB allocation request and response messages to match an ATM interface with a normal link.

Meanwhile, in the detailed 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 limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention may detect a failure of any link of a specific RNC in an ATM switching aggregation interworking environment and match a physical ATM interface so that a call is established on a normal link.

Claims (6)

In the asynchronous transmission mode (ATM) interface matching method in a mobile communication system, Receiving a periodic echo request message from a radio network controller (RNC) in a state where a packet switched (PS) call is not connected; When link failure information of the RNC is present in the echo request message, updating the call processing resource allocation management table by deleting link information on the corresponding link in the call processing resource allocation management table; And And performing ATM interface matching on a normal link based on the call processing resource allocation management table. The method of claim 1, The link failure information is Interface matching method comprising the ID and link number of the RNC. The method of claim 1, The process of performing the ATM interface matching Allocating an ATM interface IP (IP) address associated with a normal link corresponding to an ID of an RNC extracted from the echo request message by using the call processing resource allocation management table; Transmitting a radio access bearer (RAB) allocation request message including the allocated ATM interface IP address to the RNC; Receiving a RAM allocation response message including the ATM interface IP address of the RNC existing in the same network as the ATM interface IP address included in the RAB allocation request message from the RNC; And And establishing a bearer with the RNC based on the RAB assignment request message and the RAB assignment response message. A mobile communication system that matches an asynchronous transmission mode (ATM) interface, A radio network controller (RNC) for sending periodic echo request messages without a packet switched (PS) call connected; If link failure information of the RNC is present in the echo request message, the call processing resource allocation management table is updated by deleting link information on the corresponding link in the call processing resource allocation management table, and allocating the call processing resource. A mobile communication system comprising a Serving General Packet Radio Service (GPRS) Support Node (SGSN) that controls an ATM switch to match an ATM interface to a normal link based on a management table. The method of claim 4, wherein The link failure information is And a link number and an ID of the RNC. The method of claim 4, wherein SGSN, An RAB including an ATM interface IP address assigned to an ATM interface interworking with a normal link corresponding to an ID of an RNC extracted from the echo request message using the call processing resource allocation management table, and including the allocated ATM interface IP address (Radio Access Bearer) transmits an allocation request message to the RNC, When the RNC receives a RAM allocation response message including an ATM interface IP address of the RNC present in the same network as the ATM interface IP address included in the RAB allocation request message, the RAB allocation request message and the RAB allocation response are received. A mobile communication system for establishing a bearer with the RNC based on a message.

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