KR20090051608A - Protocol convertor executing handover between different access system and protocol converting method for the same - Google Patents

Abstract

The present invention relates to a protocol converter and a protocol conversion method for handover between heterogeneous access systems. The present invention analyzes a handover request packet received from a main controller of a multimode terminal, performs protocol conversion using stored protocol conversion rules, By transmitting the protocol-transformed packet to the main control part of the multimode terminal, it is possible to use the multimode terminal in a large number of heterogeneous networks simply and economically without using the specification required for the new construction of the existing network.

Multimode Terminal, Heterogeneous Network, Handover, Protocol Conversion

Description

Protocol convertor executing handover between different access system and protocol converting method for the same}

The present invention relates to a protocol converter and a protocol conversion method for handover between heterogeneous access systems, and more particularly, to a handover technology of a multimode terminal in a heterogeneous network.

The present invention is derived from the research conducted as part of the IT new growth engine core technology development project of the Ministry of Information and Communication and the Ministry of Information and Communication Research and Development. [Task Management Number: 2005-S-404-23, Project Name: 3G Evolution Access System] .

The multi-mode terminal refers to a mobile communication terminal that can be used in a plurality of heterogeneous networks, for example, IEEE 802 and 3GPP networks. In order to use in multiple heterogeneous networks, a multi-mode terminal should be provided with an RF transmission / reception module supporting RF signals of each network. For example, a multi-mode terminal that can be used in an IEEE 802 series network and a 3GPP network should include an RF circuit and modem for IEEE 802 and an RF circuit and modem for 3GPP.

The Institute of Electrical and Electronics Engineers (IEH) has proposed the Media Independent Handover (MIH) protocol to integrate the IEEE 802 family and heterogeneous networks. However, the MIH protocol has a disadvantage in that the same MIH protocol must be applied to both the network and the terminal, and there is a problem of new construction of an existing heterogeneous network.

Meanwhile, the European standard 3GPP also proposes methods for handover between heterogeneous networks or homogeneous networks, but does not accept the MIH protocol proposed by the IEEE 802 series.

Accordingly, the present invention is directed to a protocol conversion technique for exchanging information between heterogeneous networks required in the idle state and communication entry step through the start and initialization of a handover for communication with a heterogeneous network in a multi-mode terminal. I did research.

The present invention has been invented in view of the above, and is provided for a handover between heterogeneous access systems for converting protocols for exchange of information between heterogeneous networks when a handover request from a main controller of a multimode terminal is built in or external to a multimode terminal. It is an object of the present invention to provide a protocol converter and a protocol conversion method.

According to an aspect of the present invention for achieving the above object, the present invention analyzes the handover request packet received from the main control unit of the multi-mode terminal, performs the protocol conversion using the stored protocol conversion rules, protocol conversion The packet is transmitted to the main controller of the multimode terminal.

The present invention provides a protocol converter for protocol conversion for information exchange between heterogeneous networks required in the idle state and communication entry phase through the start and initialization of a handover for communication with a heterogeneous network in a multimode terminal. Equipped with a multi-mode terminal, it is possible to use a multi-mode terminal in multiple heterogeneous networks easily and economically without using the specifications required for the new construction of the existing network, and various protocols through the update of protocol conversion rules stored in the protocol converter. Has generality applicable to heterogeneous networks with

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention.

1 is a schematic diagram of handover in a heterogeneous network. For example, a brief description will be given of a handover situation generated by moving from an IEEE 802 network to a 3GPP network. The base station of the IEEE 802 series network is connected to the authentication server of the IEEE 802 series, and the base station of the 3GPP network is connected to the 3GPP series authentication server. In addition, the multi-mode terminal is equipped with an RF transmission and reception module for connecting to the IEEE 802 series network and the 3GPP network, respectively.

If the multimode terminal located in the IEEE 802 network moves to the 3GPP network, the IEEE 802 network is disconnected from the boundary between the IEEE 802 and 3GPP networks, and the 3GPP network is connected to the 3GPP network. A licensed handover procedure is performed.

2 is a block diagram illustrating an example of a multi-mode terminal equipped with a protocol converter for handover between heterogeneous access systems according to the present invention. As shown in the figure, the multi-mode terminal includes a main controller 10, a first series RF transmission and reception module 20a, a second series RF transmission and reception module 20b, and a protocol converter 100.

The main controller 10 controls the entire terminal, and when a handover is necessary, transmits a handover request packet to the protocol converter 100, and converts the protocol from the protocol converter 100. Receive the packet and perform the corresponding processing. For example, Qualcomm's MSM (Mobile Satation Modem) may be used as the main controller 10.

The first series RF transceiver module 20a includes a first sequence RF transceiver, a first sequence modem, and a first sequence controller, and transmits and receives an RF signal to and from the first sequence network. The second series RF transceiver module 20b includes a second sequence RF transceiver, a second sequence modem, and a second sequence controller, and transmit and receive RF signals to and from the second sequence network. In this case, the first series may be an IEEE 802 series, and the second series may be a 3GPP series. In addition, various protocols can be applied.

The protocol converter 100 analyzes the handover request packet received from the main control unit 10 of the multimode terminal, performs protocol conversion using stored protocol conversion rules, and converts the protocol converted packet into the main control unit of the multimode terminal. Send to (10).

In the drawing, reference numeral 30 denotes a duplexer for transmitting and receiving RF signals using the same antenna, and the first series protocol memory 40a and the second series protocol memory 40b are protocols of the protocol converter 100. A memory for storing the first protocol and the second protocol used in the conversion.

For example, the first series is called IEEE 802, and the second is called 3GPP, and the multimode terminal located in the IEEE 802 network moves to the 3GPP network and handover is performed at the boundary between the IEEE 802 series network and the 3GPP network. Suppose that happens.

In order to perform handover, the multi-mode terminal should query the authentication server of the 3GPP network to determine whether handover is possible. 3GPP protocol analysis should be possible in order to analyze a message (a response message to a message queried for the authentication server of the 3GPP network) transmitted from the 3GPP network through the second series RF transceiver module 20b. The main controller 10 of the multi-mode terminal transmits a handover request packet to the protocol converter 100 to request 3GPP protocol analysis.

Then, the protocol converter 100 analyzes the handover request packet using the 3GPP protocol stack and transmits the handover request packet using the IEEE 802 protocol stack to transmit the handover request packet to the IEEE 802 network. It converts the form and transmits it to the main control unit 10 of the multi-mode terminal.

The main controller 10 of the multi-mode terminal transmits the handover request packet converted into the IEEE 802 protocol to the authentication server of the IEEE 802 series network through the first series RF transmission / reception module 20a to notify the handover execution.

3 is a block diagram according to an embodiment of a protocol converter for handover between heterogeneous access systems according to the present invention. As shown in the figure, the protocol converter 100 includes a memory 110, a protocol converter 120, and a packet transceiver 130.

The memory 110 stores protocol conversion rules. For example, if the first series is IEEE 802 and the second is 3GPP, the protocol conversion rule is a conversion rule for converting the IEEE 802 protocol into a 3GPP protocol, and conversely, the 3GPP protocol is converted into an IEEE 802 protocol. Store the conversion rules for converting to.

Since the protocol conversion rule has various usage examples depending on which protocol is applied, a detailed description thereof may limit the invention, so a description thereof will be omitted. The protocol conversion rule stored in the memory 110 may be updated to have generality applicable to heterogeneous networks having various protocols.

The protocol conversion unit 120 analyzes a handover request packet and performs protocol conversion using a protocol conversion rule stored in the memory. For example, when handing over from an IEEE 802 network to a 3GPP network, the protocol converter 100 analyzes a handover request packet transmitted from an authentication server of a 3GPP network using a 3GPP protocol stack, and converts a protocol stored in the memory. By converting the 3GPP protocol into the IEEE 802 protocol using a rule, the protocol is converted so that the authentication server of the IEEE 802 network that will receive the handover request packet converted into the IEEE 802 protocol can understand.

The packet transceiver 130 receives a handover request packet from the main control unit 10 of the multimode terminal, and converts the packet converted by the protocol conversion unit 120 into the main control unit 10 of the multimode terminal. Send.

When handover is necessary, the main controller 10 of the multi-mode terminal transmits a handover request packet to the protocol converter 100 through the packet sender 130 to request a protocol conversion, and sends the protocol converter 100 to the protocol converter 100. The protocol-transformed packet is received through the packet transceiver 130 to process the packet.

Accordingly, the present invention provides a protocol converter for protocol conversion for information exchange between heterogeneous networks required in the idle state and communication entry step through the start and initialization of a handover for communication with a heterogeneous network in a multimode terminal. It is possible to use the multi-mode terminal in a number of heterogeneous networks simply and economically without using the specifications necessary for the new construction of the existing network by mounting the multi-mode terminal.

On the other hand, according to an additional aspect of the present invention, the first temporary memory 140 and the second sequence protocol that the protocol converter 100 for handover between the heterogeneous access system according to the present invention temporarily stores the first sequence protocol; The second temporary memory 150 may further include a temporary storage.

That is, this embodiment reads the first sequence protocol and the second sequence protocol stored in the first sequence protocol memory 40a and the second sequence protocol memory 40b of the multi-mode terminal, and then reads the first temporary memory 140 and the second sequence protocol. In the exemplary embodiment, the temporary memory 150 is temporarily stored in the temporary memory 150 to be used for protocol conversion of the protocol converter 100.

Meanwhile, according to an additional aspect of the present invention, the protocol converter 120 includes a type analyzer 121, a sequence determiner 122, and a transform performer 123.

The type analyzer 121 determines a message type of a handover request packet using a first sequence protocol and a second sequence protocol temporarily stored in the first temporary memory 140 and the second temporary memory 150. Analyze

The sequence determination unit 122 determines whether the first sequence or the second sequence is based on the result analyzed by the type analyzer 121. For example, the first series may be an IEEE 802 series, and the second series may be a 3GPP series.

As a result of the determination by the sequence determining unit 122, the conversion performing unit 123 converts to a second series protocol using the protocol conversion rule in the case of the first series, and in the case of the second series, the protocol. The conversion rule is performed using the first series protocol.

That is, when the main controller 10 of the multi-mode terminal transmits a handover request packet because the handover is required, the protocol converter 100 that receives the handover request packet receives the first temporary memory 140 through the type analyzer 121. ) And the message type of the handover request packet using the first sequence protocol and the second sequence protocol stored temporarily in the second temporary memory 150.

In addition, the protocol converter 100 determines whether the first sequence is the second sequence or the second sequence based on the result analyzed by the type analyzer 121 through the sequence determiner 122, and performs the conversion performer 123. When it is determined by the sequence determination unit 122 that the first series is converted, the protocol is converted into a second series protocol using the protocol conversion rule. Perform conversion to family protocol.

Therefore, in the present invention, a multi-mode terminal performs multi-protocol conversion necessary for information exchange between heterogeneous networks required at an idle state and communication entry stage through the start and initialization of a handover for communication with a heterogeneous network. By using the protocol converter installed in the mode terminal, it is possible to use the multi-mode terminal in a number of heterogeneous networks simply and economically without using the specifications required for the new construction of the existing network, thereby achieving the object of the present invention described above You can do it.

Referring to Figure 4 looks at the protocol conversion operation of the protocol converter for handover between heterogeneous access system according to the present invention having the above configuration. 4 is a flowchart illustrating a protocol conversion operation of a protocol converter for handover between heterogeneous access systems according to the present invention.

Suppose that a multi-mode terminal located in a first network moves to a heterogeneous second network and a handover occurs between the first network and the second network. For example, the first series may be an IEEE 802 series, and the second series may be a 3GPP series.

In order to perform a handover, the multi-mode terminal should query the authentication server of the second network to determine whether handover is possible. If a response message for a message queried from the authentication server of the second network is transmitted in the second protocol format, and it is determined that handover between heterogeneous networks is required, the response message (handover request packet) for the queried message is removed. In order to transmit to the authentication server of the first series network, the handover request packet of the second series protocol format must be converted to the first series protocol format.

To this end, when the main control unit of the multi-mode terminal transmits a handover request packet to the protocol converter, the protocol converter receives the handover request packet in step S110.

In step S120, the protocol converter analyzes the handover request packet received in step S110, and performs protocol conversion using the stored protocol conversion rule.

Specifically, step S120 is subjected to the following detailed process. The protocol converter analyzes the message type of the handover request packet using the first series protocol and the second series protocol in step S121, and determines whether it is the first series or the second series from the analyzed result in step S122. do.

As a result of the determination in step S122, in the case of the first series, conversion is performed in the second series protocol using the protocol conversion rule in step S123, and in the case of the second series, the protocol is converted to the first series protocol using the protocol conversion rule. Perform the conversion.

That is, if a multi-mode terminal located in the first network moves to a heterogeneous second network and a handover occurs between the first network and the second network, a handover request packet of the second protocol may be used. Is converted to the first series protocol format and vice versa.

When protocol conversion is performed in step S120, the protocol converter transmits the protocol-converted handover request packet to the main control unit of the multimode terminal in step S130. Then, the main controller of the multimode terminal transmits it to the authentication server of the corresponding network so that handover of the multimode terminal is performed in a large number of heterogeneous networks simply and economically without using the specifications required for the new construction of the existing network. The object of the present invention presented can be achieved.

While the invention has been described with reference to the preferred embodiments, which are referred to by the accompanying drawings, it is apparent that various modifications are possible without departing from the scope of the invention within the scope covered by the following claims from this description. .

Industrial Applicability The present invention can be industrially used in the field of handover of multi-mode terminals in heterogeneous networks and applications thereof.

1 is a schematic overview of handover in heterogeneous networks

2 is a block diagram illustrating an example of a multi-mode terminal equipped with a protocol converter for handover between heterogeneous access systems according to the present invention.

3 is a block diagram according to an embodiment of a protocol converter for handover between heterogeneous access systems according to the present invention;

4 is a flowchart illustrating a protocol conversion operation of a protocol converter for handover between heterogeneous access systems according to the present invention.

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

10: main control unit 20a: first series RF transceiver module

20b: second series RF transceiver module 30: duplexer

40a: first series protocol memory 40b: second series protocol memory

100: protocol converter 110: memory

120: protocol conversion unit 121: type analysis unit

122: series determination unit 123: conversion execution unit

130: packet transceiver 140: first temporary memory

150: second temporary memory

Claims (8)

A memory in which a protocol conversion rule is stored; A protocol conversion unit for analyzing a handover request packet and performing protocol conversion using a protocol conversion rule stored in the memory; A packet transceiving unit for receiving a handover request packet from the main control unit of the multimode terminal and transmitting the packet converted by the protocol conversion unit to the main control unit of the multimode terminal; Protocol converter for handover between heterogeneous access systems comprising a. The method of claim 1, The protocol converter is: A first temporary memory for temporarily storing a first sequence protocol; A second temporary memory for temporarily storing a second series protocol; Protocol converter for handover between heterogeneous access systems, characterized in that it further comprises. The method of claim 2, The protocol conversion unit: A type analyzer for analyzing a message type of a handover request packet by using a first sequence protocol and a second sequence protocol temporarily stored in the first temporary memory and the second temporary memory; A sequence determination unit determining whether the first sequence or the second sequence is from the result analyzed by the type analyzer; As a result of the determination by the sequence determining unit, in the case of the first series, the protocol converts to the second series protocol using the protocol conversion rule, and in the case of the second series, the conversion to the first series protocol is performed using the protocol conversion rule. A conversion execution unit to perform; Multi-mode terminal built-in protocol converter for handover between heterogeneous access system comprising a. The method of claim 2 or 3, The first series is the IEEE 802 series, the second series is a 3GPP series protocol converter for handover between heterogeneous access systems. A multimode terminal equipped with a protocol converter for handover between heterogeneous access systems according to any one of claims 1 to 3. a) receiving a handover request packet from a main controller of the multimode terminal; b) analyzing the handover request packet received by step a) and performing protocol conversion using a stored protocol conversion rule; c) transmitting the protocol-converted packet to the main controller of the multimode terminal in step b); A protocol conversion method of a protocol converter for handover between heterogeneous access systems, characterized in that it comprises a. The method of claim 6, Step b) above: b1) analyzing a message type of a handover request packet using a first protocol and a second protocol; b2) determining whether it is a first series or a second series from the result analyzed by step b1); b3) As a result of the determination in step b2), in the case of the first series, the protocol converts to the second protocol using the protocol conversion rule, and in the case of the second system, converts to the first protocol using the protocol conversion rule. Performing a conversion; A protocol conversion method of a protocol converter for handover between heterogeneous access systems comprising a. The method of claim 7, wherein The first series is the IEEE 802 series, and the second series is a 3GPP series protocol conversion method of a protocol converter for handover between heterogeneous access systems.

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