KR20080051218A - Apparatus and method for head compression of packet in broadband wireless communication system - Google Patents

Abstract

A method and an apparatus for compressing a header of a packet in a broadband wireless communication system are provided to enable a receiver-side control station to detect a packet to be compressed by indicating whether a header is to be compressed by using an additional header. A control station includes a core network communication unit(301), a packet classifier(303), a GRE(Genetic Routing Encapsulation) header checker(305), an ROHC(RObust Header Compression) compressor(307), and a wireless connection network communication unit(309). The core network communication unit converts a received signal to an information bit stream. The packet classifier binds the information bit stream into packets and determines whether a GRE header is included in the respective packets. The GRE header checker receives the packet with the GRE header and determines whether the header of the packet is to be compressed. The ROHC compressor compresses a header of the packet from the GRE header checker according to an ROHC scheme and outputs the compressed result. The wireless connection network communication unit converts the packets according to a proper communication protocol and transmits the converted result to a base station.

Description

Packet compression apparatus and method in a broadband wireless communication system {APPARATUS AND METHOD FOR HEAD COMPRESSION OF PACKET IN BROADBAND WIRELESS COMMUNICATION SYSTEM}

1 is a view schematically showing a packet flow in a typical broadband wireless communication system,

2 is a block diagram of a control station for transmitting a packet to a core network in a broadband wireless communication system according to the present invention;

3 is a block diagram of a control station for receiving a packet from a core network in a broadband wireless communication system according to the present invention;

4 is a diagram illustrating a procedure for transmitting a header compressed packet to a core network in a control station of a broadband wireless communication system according to the present invention;

5 is a diagram illustrating a procedure for transmitting a header compressed packet to a wireless access network in a control station of a broadband wireless communication system according to the present invention; and

6 illustrates the structure of a generic routing encapsulation header in accordance with the present invention.

The present invention relates to header compression of packets in a broadband wireless communication system, and more particularly, to an apparatus and method for exchanging information on a header compressed packet between an access control router (ACR) in a broadband wireless communication system.

In general, since a wireless communication system uses limited radio resources, efficient use of the radio resources is one of the most important issues for improving the performance of the network itself. In addition, the recent services are mainstream content that requires broadband, such as photos, audio, video, etc., the importance of efficient use of wireless resources is increasing. As one of the efficient radio resource usage methods, header compression of a packet may be considered. Among the various methods for the header compression, ROHC (RObust Header Compression) method has a superior characteristics in compression rate and reliability than other methods.

It is possible to efficiently use radio resources by using header compression as in the ROHC scheme. In this case, the performance improvement due to the header compression may be greater in the wireless access network than in the wired core network. Therefore, the header compression should be considered when used in a wireless network between the terminal and the control station, not the terminal and the wired core network. In other words, when the transmitting terminal 111 transmits the header-compressed packet in the packet transmission path as shown in FIG. 1, the transmitting base station (RAS) radio receives it to control the transmitting side. Transmit to station 113. The transmitting control station 115 restores the compressed header of the packet to the original header and transmits it to the receiving control station 131 through the core network 121, and the receiving control station 131 transmits the packet. Receive the header and perform header compression again. Thereafter, the receiving control station 131 transmits the header compressed packet to the receiving terminal 135 through the receiving base station 133.

In the above-described process, the receiving side control station 131 must perform a procedure of classifying a header compression target packet among a plurality of packets received from the core network 121. In this case, in the case of a service using a Session Initiation Protocol (SIP) such as Voice over IP (VoIP), the receiving side control station 131 receives the IP address of the transmitting and receiving end from the control signal generated in the session establishment step through the SIP And a port number can be obtained. Accordingly, the receiving control station 131 applies header compression to the packet transmitted to the IP address and the port number. However, in order to perform packet classification from the SIP control signal, the receiving side control station 131 has a problem of confirming the message of the application layer. In addition, a service that does not use the SIP has a problem that can not classify the packet in the above-described manner. Furthermore, when classifying packets using the SIP, packets that do not need header compression are also header compressed because they are classified only by IP address and port number.

Accordingly, an object of the present invention is to provide an apparatus and method for classifying header compression target packets in a broadband wireless communication system.

Another object of the present invention is to provide an apparatus and method for exchanging header compression target packet information between control stations in a broadband wireless communication system.

According to a first aspect of the present invention for achieving the above object, a control station apparatus of a broadband wireless communication system includes a classification unit for classifying a header compressed packet among packets received from a base station, and a header of the header compressed packet. And an insertion unit for decompressing and restoring an original packet, and an inserting unit for inserting an additional header for informing that the original packet is a header compression target.

According to a second aspect of the present invention for achieving the above object, in a broadband wireless communication system, a control station apparatus includes: a classification unit for classifying a packet including a predetermined additional header among packets received from a core network, and the additional header It is characterized in that it comprises a confirmation unit for confirming whether or not the header compression target through, and a compression unit for performing a header compression on the packet that is the header compression target.

According to a third aspect of the present invention for achieving the above object, a method for transmitting a packet to a core network by a control station in a broadband wireless communication system includes the steps of: classifying a header-compressed packet among packets received from a base station; And decompressing header compression of the header-compressed packet to restore the original packet, and inserting an additional header for notifying that the header packet is to be compressed.

According to a fourth aspect of the present invention for achieving the above object, a method for transmitting a packet to a base station by a control station in a broadband wireless communication system, the packet received from the core network, the packet containing a predetermined additional header is classified; And a process of checking whether the header is a header compression target through the additional header, and performing a header compression on the packet which is the header compression target.

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.

Hereinafter, a description will be given of a technique for exchanging header compression target packet information between an access control router (ACR) in a broadband wireless communication system. Hereinafter, in the present invention, the header compression scheme will be described as ROHC (RObust Header Compression) as an example, and the same can be applied to the case of using another header compression scheme.

First, the basic idea of the present invention will be described.

In the present invention, the header compression target packet information is transmitted together with the transmission packet. To this end, the Genetic Routing Encapsulation (GRE) header used for secure tunneling is used. That is, an information field for header compression is added to the GRE header, and the GRE header is inserted into a header compression target packet.

For example, as shown in FIG. 6, a header compression information field is added to the GRE header. FIG. 6A illustrates a conventional GRE header configuration. FIG. 6B illustrates a GRE header including a header compression information field (field indicated by a thick line) according to the present invention. In FIG. 6B, when the value of the 'r' field 601 is '1', this indicates that the packet is a header compression target packet. In addition, the 'ROHC information' field 603 is used when additional information on header compression is required.

Therefore, when the header control packet is received from the base station (RAS: Radio Access Station), the transmitting control station decompresses and inserts a GRE header including the header compression information and transmits it to the core network. Accordingly, when the receiving side control station receives a packet in which the GRE header is inserted from the core network, the receiving control station determines whether the header compression target is a header.

2 is a block diagram of a control station for transmitting a packet to a core network in a broadband wireless communication system according to the present invention.

As shown in FIG. 2, the control station uses a wireless access network communication unit 201, a packet classification unit 203, a ROHC release unit 205, a GRE header insertion unit 207, and a core network communication unit 209. It is configured to include.

The wireless access network communication unit 201 performs an interfacing function for communicating with a base station. That is, the signal received according to the communication standard is converted into an information bit string.

The packet classifier 203 bundles the information bit stream provided from the radio access network communication unit 201 in packet units, and determines whether each packet is a ROHC compressed packet. That is, the ROHC compressed packet is output to the ROHC release unit 205 and the ROHC uncompressed packet is output to the core network communication unit 209.

The ROHC release unit 205 decompresses the header compression of the packet compressed by the ROHC method provided from the packet classification unit 203 and restores the original packet.

The GRE header inserter 207 inserts a GRE header to which a header compression information field is added to a packet provided from the ROHC release unit 205 so that a transmitting control station can classify a header compression target packet. For example, the GRE header is as shown in (b) of FIG. 6 and is inserted with the 'r' field 601 set to '1'.

The core network communication unit 209 converts the header compression target packet provided from the GRE header insertion unit 207 and the packets provided from the packet classification unit 203 into signals according to a corresponding communication standard and transmits the signals to the core network. .

3 is a block diagram of a control station for receiving a packet from a core network in a broadband wireless communication system according to the present invention.

As shown in FIG. 3, the control station uses a core network communication unit 301, a packet classification unit 303, a GRE header identification unit 305, a ROHC compression unit 307, and a wireless access network communication unit 309. It is configured to include.

The core network communication unit 301 converts a signal received from the core network into an information bit string according to a corresponding communication standard.

The packet classification unit 303 bundles the information bit string provided from the core network communication unit 301 in packet units, and determines whether each packet includes a GRE header. That is, the packet including the GRE header is output to the GRE header checker 305, and the packet not including the GRE header is output to the radio access network communication unit 309.

The GRE header checker 305 receives a packet including a GRE header from the packet classifier 303 and determines whether the packet is a header compression packet through a specific field of the GRE header. For example, when the 'r' field 601 is set to '1' in the header as shown in FIG. 6 (b), it is confirmed that the packet is a header compression target packet. After determining whether to compress the packet, the GRE header checker 305 outputs the header compression packet to the ROHC compression unit 307 and the remaining packets to the radio access network communication unit 309. In this case, the header compression target packet is output to the ROHC compression unit 307 with the GRE header removed.

The ROHC compressor 307 compresses and outputs the packet provided from the GRE header checker 305 by the ROHC method.

The wireless access network communication unit 309 converts a packet provided from the packet classification unit 303 and the ROHC compression unit 307 into a signal according to a corresponding communication standard and transmits the signal to a base station.

The configuration of the control station described with reference to FIGS. 2 and 3 has been described by dividing the configuration of transmitting a packet to the core network and the configuration of receiving a packet from the core network. This is divided for convenience of description, and the control station may include both the configurations of FIGS. 2 and 3.

4 shows a procedure for transmitting a header compressed packet to a core network in a control station of a broadband wireless communication system according to the present invention.

Referring to FIG. 4, the control station determines whether a ROHC compressed packet is received from the base station in step 401.

When the ROHC compressed packet is received, the control station proceeds to step 403 to decompress the RHOC compression and restore the original packet.

After the RHOC compression is released, the control station proceeds to step 405 and inserts a GRE header for notifying that the header is to be compressed. That is, the GRE header is used to inform that the packet is a header compression target, so that a receiving side control station receives the recovered packet to perform header compression. For example, the GRE header is a header configured as shown in (b) of FIG. 6.

After inserting the GRE header, the control station proceeds to step 407 and transmits the packet with the GRE header inserted to the core network.

5 illustrates a procedure for transmitting a header compressed packet to a wireless access network in a control station of a broadband wireless communication system according to the present invention.

Referring to FIG. 5, the control station determines whether a packet including a GRE header is received from the core network in step 501. That is, the packet including the GRE header is classified among the plurality of packets received from the core network.

When the packet including the GRE header is received, the control station proceeds to step 503 and checks whether the received packet is a ROHC compression target packet through a specific field of the GRE header. For example, the GRE header is a header configured as shown in (b) of FIG. 6.

If the packet is an ROHC compression target packet, the control station proceeds to step 505 to perform ROHC compression on the packet. At this time, the control station removes the GRE header and then performs the ROHC compression.

After performing the ROHC compression, the control station proceeds to step 507 and transmits the ROHC compressed packet to the corresponding terminal through the base station.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible 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, in the broadband wireless communication system, the transmitting control station indicates whether the header is to be compressed using an additional header, so that the receiving control station can confirm the header compression target packet information.

Claims (16)

An access control router (ACR) device in a broadband wireless communication system, A classification unit for classifying a header compressed packet among packets received from a radio access station (RAS); A release unit for decompressing header compression of the header-compressed packet and restoring an original packet; And an inserter for inserting an additional header for notifying that the header packet is to be compressed. The method of claim 1, The header compression, characterized in that the ROHC (RObust Header Compression) method. The method of claim 1, The insertion unit, Device for inserting a Gene Routing Encapsulation (GRE) header containing header compression information. The method of claim 1, And a communicator configured to transmit the packet having the additional header inserted therein to a core network. An access control router (ACR) device in a broadband wireless communication system, A classification unit for classifying a packet including a predetermined additional header among packets received from a core network; A confirmation unit for checking whether the header is to be compressed through the additional header; And a compression unit configured to perform header compression on the packet targeted for header compression. The method of claim 5, The compression unit, characterized in that for performing header compression in a ROHC (RObust Header Compression) method. The method of claim 5, And the additional header is a genetic routing encapsulation (GRE) header. The method of claim 5, And a communication unit for transmitting the header compressed packet from the compression unit to a radio access station (RAS). A method for transmitting a packet to a core network by an access control router (ACR) in a broadband wireless communication system, Classifying a header-compressed packet among packets received from a radio access station (RAS), Restoring the header compression of the header compressed packet to restore the original packet; And inserting an additional header in the original packet to indicate that the header is to be compressed. The method of claim 9, The header compression is characterized in that the ROHC (RObust Header Compression) method. The method of claim 9, The additional header is a genetic routing encapsulation (GRE) header containing header compression information. The method of claim 9, And transmitting the packet having the additional header inserted therein to a core network. In a broadband wireless communication system, a control station (ACR: Access Control Router) transmits a packet to a base station (RAS: Radio Access Station), Classifying a packet including a predetermined additional header among packets received from a core network; Checking whether the header is to be compressed through the additional header; And performing header compression on the packet targeted for header compression. The method of claim 13, The header compression is characterized in that the ROHC (RObust Header Compression) method. The method of claim 13, And the additional header is a genetic routing encapsulation (GRE) header. The method of claim 13, And transmitting the header compressed packet to a base station.

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