KR20080036896A - Method and apparatus for supporting a function of a header compression in a broadband wireless access system - Google Patents

Abstract

A method and an apparatus for supporting a header compression function in a broadband wireless access system are provided to improve the transmission rate of packets and the compression rate by generating and transmitting ROHC(Roburst Header Compression)-related parameters. A first apparatus(10) receives a first message from a second apparatus(20). The first message includes information indicating whether ROHC is supported. The first apparatus transmits a second message to the second apparatus. The second message includes information indicating whether the ROHC is supported. The first message is an REG-RSP(REGistration-Response) message, and the second message is an REG-REQ(registration-request) message.

Description

METHOD AND APPARATUS FOR SUPPORTING A FUNCTION OF A HEADER COMPRESSION IN A BROADBAND WIRELESS ACCESS SYSTEM}

1 is a block diagram of a general broadband wireless access system.

2 is a diagram illustrating a network entry process of a general broadband wireless access system.

3 is a diagram showing the configuration of a base station according to the present invention;

4 illustrates an REG message flow in accordance with the present invention.

5 is a diagram illustrating a DSA message flow initiated by a terminal according to the present invention.

The present invention relates to a method and apparatus for supporting header compression in a wireless broadband communication system.

Conventional header compression techniques include CTCP (Compressed TCP), IPHC (IP header compression), and CRTP (Comressed RTP), but these techniques do not guarantee any loss of header-compressed transport packets. However, unlike the conventional header compressor method, ROHC (Roburst Header Compression) compensates for these disadvantages, and has the advantage of maintaining the compression rate while increasing the transmission rate of Pakcet as a compression technology considering the guarantee of packet loss.

1 is a diagram illustrating a configuration of a general broadband wireless access system. Referring to FIG. 1, each mobile subscriber station (MSS) 10, 12 is generally mobile and is connected to a backbone network 30 through a base station (BS) 20, 22, respectively. The terminals 10 and 12 allow access between the base stations 20 and 22 and the subscribers. Base stations 20 and 22 provide control, management, and connectivity to terminals 10 and 12. The backbone network 30 is connected to an authentication and service authorization server (ASA) 40 for authentication and service authentication of the terminals 10 and 12. In the broadband wireless access system configured as described above, the terminal 10 successfully completes a network entry process with a predetermined base station 20 to communicate on a network.

Next, the network entry procedure will be described with reference to FIG. 2. 2 is a network entry process in a general broadband wireless access system. First, the mobile station 10 starts a ranging request (RNG-REQ: Ranging Request Message, hereinafter 'RNG-REQ') message to the base station 20 to initiate a network entry procedure with the base station 20. Transmit (step 211). The terminal 10 notifies the base station 20 that it has been initialized through an RNG-REQ message, and the base station 20 responds to the terminal 10 by a ranging response (RNG-RSP: Ranging). Message) to notify that the terminal 10 has entered the network of the base station 20 (step 213). After entering the capability negotiation step, the terminal 10 transmits a capability request (SBC-REQ: Basic Capability Request) message to the base station 20 (step 215). In response, the BS 10 informs the terminal 10 of the capability of the service that the BS 20 can support by transmitting a capability response (SBC-RSP: Basic Capability Response Message) message (step 217). Thereafter, the terminal 10 transmits a registration request (REG-REQ) message to the base station 20 (hereinafter, referred to as a REG-REQ) message (step 219). By sending a registration response (REG-RSP: REG-RSP) message to the terminal 10 (step 221), it informs that the terminal 10 has been registered with the base station 20. .

Meanwhile, a service flow is set between the terminal 10 and the base station 20 in the wireless access communication system. The service flow refers to a unidirectional flow of data (SDUs) transmitted through a connection that guarantees a specific QoS. The terminal 10 transmits a DSA request (DSA-REQ) message to the base station 20 at the end of network entry (hereinafter, referred to as DSA-REQ) (step 223). In response to the DSA response message (DSA-RSP: DSA-RSP, hereinafter referred to as 'DSA-RSP') message is received from the base station (step 225, DSA REQ / RSP handshake process). Since the UE has a QoS parameter set, the UE can set service flows that can be serviced from the base station. In 802.16, there are basically four types of service types: Unsolicited Grant Services (UGS), Real-Time Polling Services (rtPS), Non-Real-Time Polling Services (nrtPS), and Best Effort (BE) Services. In the initialization process, the base station may provision the terminal for all of these service types or only some of them. The terminal completes the network entry after entering the provisioned service type and enters a normal operation mode.

On the other hand, when changing the QoS of the generated service flow, the Dynamic Service Change (DSC) REQ / RSP handshake process must be performed in the same manner as the DSA-REQ / RSP handshake process. In addition, the terminal 10 may first transmit a DSA-REQ or DSC-REQ message to the base station 20, and conversely, the base station 20 may first transmit a DSA-REQ or DSC-REQ message to the terminal 10. You can also send. That is, the subject generating or changing the service flow may be either the base station or the terminal. Before generating such a service flow, the base station and the terminal need to negotiate whether to support the ROHC function for packet header compression, but there is no mention in the current wireless broadband access system standard.

Accordingly, an object of the present invention is to provide an apparatus and method for supporting header compression function in a broadband wireless access system. .

The method of the present invention for achieving the above object; In a network entry method of a wireless broadband access system, a first device includes receiving a first message including information indicating whether a header compression method is supported from a second device.

The apparatus of the present invention for achieving the above object; A network access device of a wireless broadband access system, comprising: a first device for receiving a first message including information indicating whether a header compression method is supported from a second device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

The present invention proposes a ROHC-related parameter (ROHC support, ROHC enable, ROHC profile) and its procedure to be transmitted and received in a network entry process for a compression method for reducing the size of a transmission data packet header. Hereinafter, for convenience of description, a broadband wireless access system will be described as an example, and the ROHC-related parameters and the procedure proposed by the present invention can be applied to other communication systems as well as the broadband wireless access system.

3 is a view showing the configuration of a terminal 10 according to the present invention. Referring to FIG. 3, the terminal 10 includes a message generator 301 and a transceiver 303. The message generating unit 301 of the terminal 10 applies a parameter ROHC support indicating whether the ROHC can be supported to the message transmitted to the base station 20, and applying the ROHC for each service flow. Insert ROHC profile that tells ROHC enable and ROHC application request. In this case, the message used may be any message transmitted to the base station during the existing network entry process. In addition, the configuration of the base station 20 is configured in the same manner as the configuration of the terminal 10, and also inserts and transmits ROHC support, ROHC enable, and ROHC profile to all messages transmitted from the base station 20 to the terminal 10. Can be.

4 is a diagram illustrating a REG message flow according to the present invention. The message generator 301 of the terminal 10 adds the ROHC support field and transmits a REG-REQ message to the base station 20 (step 411). The base station 20 knows whether the terminal 10 supports the ROHC through the REG-REQ message received from the terminal 10, and transmits the ROHC to the REG-RSP message transmitted to the terminal 10. The support field is added and transmitted (step 413). The terminal 10 knows whether the base station 20 supports ROHC through the received REG-RSP message. This ROHC support field specifies whether the terminal 10 and the base station 20 support ROHC in a network access procedure. In addition, the terminal 10 does not transmit ROHC support in the REG-REQ message to the base station 20, and only the base station 20 includes ROHC support in the REG-RSP to the terminal 10. It is also possible to transmit.

5 is a diagram illustrating a DSA process starting from the terminal 10 according to the present invention. The DSA-REQ message requesting the generation of the service flow transmitted from the terminal 10 to the base station 20 (step 511) is a parameter indicating whether the generated service flow uses the ROHC function (ROHC enable) and what kind. It includes a parameter (ROHC profile) indicating whether to use the ROHC function in the data packet. The ROHC enable and ROHC profile are generated by the message generator 301 and transmitted through the transceiver 303. There are four profiles in ROHC, and each profile is shown in Table 1. It determines which ROHC profile to use between the terminal and the base station according to the ROHC profile value.

Profile Number Packet Type Profile 0x0000 uncompressed IP packets Profile 0x0001 IP / RTP / UDP compression Profile 0x0002 IP / UDP compression Profile 0x0003 ESP / IP compression

In Table 1, Profile 0x0000 means that the header of the IP (Internet Protocol) packet is not compressed, and Profile 0x0001 means that the header of the IP / RTP (Real-time Transport Protocol) / UDP (User Datagram Protocol) packet is compressed. Profile 0x0002 means to compress the header of the IP / UDP packet, and Profile 0x0003 means to compress the header of the Encapsulating Security Payload (ESP) / IP packet. Each of the four Profile values determines which ROHC profile to use between the terminal and the base station. Thereafter, the base station 20 transmits a DSA-RSP message to the terminal 10 in response to the DSA-REQ message to inform the terminal that the service flow generation is completed (step 513).

On the other hand, when changing the QoS of the existing service flow generated, the Dynamic Service Change (DSC) REQ / RSP handshake process must be performed in the same manner as the DSA-REQ / RSP handshake process. Therefore, the DSC-REQ message is included in the DSA-REQ message. ROHC enable, ROHC profiles can be added and transmitted.

In addition, as described above, the terminal may transmit the DSA-REQ or DSC-REQ message to the base station first, and conversely, the base station may transmit the DSA-REQ or DSC-REQ message to the terminal first. A subject that transmits a REQ message indicating a parameter such as ROHC enable and ROHC profile may be either a base station or a terminal.

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 defined not only by the scope of the following claims, but also by the equivalents of the claims.

The ROHC-related parameters (ROHC support, ROHC enable, ROHC profile) that should be exchanged between the terminal and the base station in the network entry process to support the ROHC compression method among the compression methods that reduce the size of the transmission data packet header in the broadband wireless access system. By presenting the creation and transmission procedure, header compression using ROHC compression method is possible.

Claims (18)

In the network entry method of a wireless broadband access system, The first device comprises the step of receiving from the second device a first message including information indicating whether the header compression method support. The method of claim 1, And the first device includes transmitting a second message to the second device, the second message including information indicating whether the header compression method is supported. The method of claim 1, And the first message is a registration response (REG-RSP) message. The method of claim 2, And the second message is a registration request (REG-REQ) message. The method of claim 1, The compression method is a network entry method, characterized in that the ROHC (Roburst Header Compression) method. The method of claim 5, If the information included in the first message indicates that the header compression method can be supported, The first device further comprises the step of including the information to request compression in the message (DSA-REQ) requesting service flow setting to send to the second device. The method of claim 5, If the information included in the first message indicates that the header compression method can be supported, The first device further includes the step of including the information to request compression in the message (DSC-REQ) requesting the change of the service flow is set to the second device further comprising the step of transmitting. The method of claim 6 And transmitting information to the second device by further including information indicating a compression target in a message (DSA-REQ) requesting service flow setting in the first device. The method of claim 7, The method of claim 1, further comprising transmitting a message indicating a compression target to a message (DSC-REQ) requesting a change of the service flow set in the first device, to the second device. In the network entry device of the wireless broadband access system, And a first device for receiving a first message including information indicating whether the header compression method is supported from the second device. The method of claim 10, And the first device transmits a second message to the second device including information indicating whether the header compression method is supported. The method of claim 10, And the first message is a registration response (REG-RSP) message. The method of claim 11 The second message is a network entry device, characterized in that the registration request (REG-REQ) message. The method of claim 10, The compression method is a network entry device, characterized in that the ROHC (Roburst Header Compression) method. The method of claim 14, If the information included in the first message indicates that the header compression method can be supported, And the first device includes information requesting compression in a message (DSA-REQ) requesting service flow setting and transmits the information to the second device. The method of claim 14, If the information included in the first message indicates that the header compression method can be supported, And the first device includes information requesting compression in a message (DSC-REQ) requesting a change of a service flow, and transmits the information to the second device. The method of claim 15, And the first device includes information indicating a compression target in a message (DSA-REQ) requesting service flow setting and transmits the information to the second device. The method of claim 16, And the first device transmits to the second device including information indicating a compression target in a message (DSC-REQ) requesting a change of a set service flow.

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