KR100850514B1 - The apparatus and method for media access control of mobile communication system - Google Patents

Abstract

The present invention relates to a medium access control apparatus of a mobile communication system and a method for transmitting and receiving the same.

In the present invention, first, traffic data received from an upper layer is stored in a memory. After generating the information data including the header of the stored traffic data or the control packet data unit (PDU) data, location information necessary for moving and storing the traffic data to another memory, ie, a memory connected to a lower layer, is generated. Subsequently, in moving and storing traffic data in a memory connected to a lower layer based on the generated location information, the previously generated information data is stored together.

Through this, by allowing the microprocessor to transfer the traffic data transmitted and received between the upper and lower layers by controlling a media access control (MAC) transceiver, which is hardware, a structure suitable for high-speed and large-capacity traffic processing can be proposed.

Media access control (MAC) layer, traffic data, memory, control

Description

METHOD AND METHOD FOR TRANSMITTING AND RECEIVING THE METHOD OF A MOBILE COMMUNICATION SYSTEM {THE APPARATUS AND METHOD FOR MEDIA ACCESS CONTROL OF MOBILE COMMUNICATION SYSTEM}

1 is a diagram illustrating a structure of a media access control apparatus according to an embodiment of the present invention.

FIG. 2 is a flowchart sequentially illustrating a data transmission process of the apparatus for media access control shown in FIG. 1.

3 is a flowchart sequentially illustrating a data receiving process of the apparatus for controlling media access shown in FIG. 1.

The present invention relates to a mobile communication system, and more particularly, to a medium access control apparatus and a method for transmitting and receiving traffic data transmitted and received between each layer in the mobile communication.

One of the mobile communication systems, Wibro, is a communication service that can access necessary information and multimedia contents by accessing the Internet at high speed through a portable terminal. The WiBro standard established by the WiBro international standard IEEE802.16e and the domestic TTA (Telecommunication Technology Association) describes the physical (PHY) layer and the media access control (MAC) layer. It is responsible for system access, bandwidth allocation, connection establishment and management.

In detail, in the mobile communication, the media access control protocol corresponds to Layer 2, which divides data received from Layer 3 or higher layers, and transmits the data received by the Layer 1 modem to the modem. Assemble the data received from the pass to the upper layer. That is, not only the data received from the upper layer is processed and delivered to the lower layer, but also the data of the lower layer is processed and transferred back to the upper layer.

However, in the conventional mobile communication system, the above-mentioned role of the media access control protocol has been processed by the micro-process in software. That is, the MAC microprocess temporarily stores the traffic data received from the upper layer in the local memory, and then adds MAC-specific additional information to the stored traffic data and transfers the additional data to the memory of the lower layer.

However, in recent years, as the mobile communication system has developed exponentially, the data transmission speed has increased, and the amount of data transmitted and received by the MAC microprocess with each layer has increased, and the data processing capability of the microprocess has reached its limit. In order to overcome this, a MAC microprocessor having a high processing speed may be used, but in this case, a large amount of traffic can be processed, but a problem arises in that the battery consumption of a mobile terminal increases. That is, the processing capacity of the media access control protocol is also often limited.

Therefore, in recent years, a method of performing a role of a media access control protocol through hardware rather than software of a microprocess has been proposed. As a related technology, the right holder has a patent of the Korea Electronics and Telecommunications Research Institute [name: media access control device and transmission / reception method for high-speed data processing, publication number: 2006-62883]. Plays the role of.

However, the above-mentioned solution is difficult to develop a system because it intends to play the role of a protocol using only hardware, and there is a limit in adaptability due to the change of the media access control protocol.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve such a problem, and to provide an apparatus and a method for transmitting and receiving a medium of a mobile communication system capable of delivering a large amount of traffic data at high speed.

In accordance with an aspect of the present invention, an apparatus for accessing a medium of a mobile communication system includes: an upper layer microprocess for storing traffic data received from an upper layer in a first memory; A MAC transmitter for moving and storing traffic data stored in the first memory to an encoder memory and transferring the traffic data to a lower layer; And a MAC microprocess for generating location information necessary for moving and storing traffic data to the encoder memory and providing information data on the traffic data to the MAC transmitter, wherein the MAC transmitter is provided from the MAC microprocessor. The traffic data is stored together with the generated information data in the encoder memory based on the received location information.

In addition, the method for transmitting and receiving of the apparatus for media access control of a mobile communication system according to an aspect of the present invention comprises the steps of: storing traffic data received from a higher layer in a first memory; Generating information data including at least one of a header and control PDU data relating to the traffic data stored in the first memory; Generating location information necessary to move and store traffic data stored in the first memory into an encoder memory; And moving and storing traffic data stored in the first memory along with the information data to the encoder memory based on the generated location information, and transferring the traffic data to the lower layer.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

1 is a diagram illustrating a structure of a media access control apparatus of a mobile communication system according to an exemplary embodiment of the present invention.

As shown in FIG. 1, the apparatus 100 for accessing media according to an embodiment of the present invention may include a higher layer microprocess 110, a MAC microprocessor 120, and a first memory TXI-. RAM 130, a second memory (RXI-RAM) 140, a MAC transmitter 150, a buffer memory 160, a MAC receiver 170, an encoder memory 180, and a decoder memory 190. The MAC microprocessor 120 includes a traffic processor 121, a control information generator 122, and a transceiver controller 123.

In addition, the MAC transmitter 150 includes a data interface unit 151 and a data transfer unit 152, and the MAC receiver 170 includes a data separator 171 and a data assembly unit 172, respectively.

In detail, first, the upper layer microprocess 110 of the media access control apparatus 100 stores the traffic data received from the upper layer in the first memory 130 or is received from the lower layer and thus the second memory 140. Transmit the traffic data stored in the upper layer. Then, information about the traffic data received from the upper layer is provided to the MAC microprocess 120.

The traffic processing unit 121 of the MAC microprocess 120 processes the information about the traffic data provided from the upper layer microprocess 110, and the control information generation unit 122 processes the information processed from the traffic processing unit 121. Based on the generated information data, for example, MAC header data or MAC control PDU (Packet Data Unit) data, and the like. The generated information data is provided to the MAC transmitter 150 or the MAC receiver 170 together with the transmitter or receiver control information. The transmitter and receiver control information will be referred to in the following description of the operation process.

The transceiver controller 123 controls the MAC transmitter 150 and the MAC receiver 170 to store traffic data in the memory 130 or 140 according to the transmitter or receiver control information. That is, the MAC microprocessor 120 according to the embodiment of the present invention controls the data to be transmitted through the MAC transmitter 150 or the MAC receiver 170, which is hardware, rather than directly transmitting traffic data transmitted and received between the layers.

The data interface unit 151 of the MAC transmitter 150 moves and stores the traffic data stored in the first memory 130 to the buffer memory 160.

The data transfer unit 152 reads the traffic data stored in the buffer memory 160 under the control of the transceiver control unit 123, and transmits the data to the encoder memory 180 together with the data related information received from the MAC microprocess 120. Save it. In storage, the data transfer unit 152 is based on transmitter control information received from the MAC microprocessor 120.

The data separator 171 of the MAC receiver 170 analyzes the traffic data received from the lower layer and stored in the decoder memory 190 and based on the analysis result, the information data excluding pure traffic data of the traffic data (for example, MAC header data or MAC control PDU data) is separated and transmitted to the MAC microprocessor.

The data assembly unit 172 assembles the traffic data stored in the decoder memory 190 based on the receiver control information provided from the MAC microprocessor 120 and stores the traffic data in the second memory 140, or the data assembly unit ( If the traffic data is not assembled at 172, the data is stored in the buffer memory 160.

Then, the process of transferring the data received from the upper layer to the lower layer of the operation process of the medium access control device having the above-described structure will be described first.

In the following embodiment of the present invention, another protocol layer is classified as an upper layer or a lower layer based on a medium access control layer (second layer), which is one of the radio protocol layers, but the present invention is not limited thereto. In some cases, a plurality of protocol layers may be classified into upper or lower layers based on another protocol layer instead of the second layer.

2 is a flowchart illustrating a data transmission process of a media access control apparatus according to an embodiment of the present invention.

As illustrated in FIG. 2, first, the upper layer microprocess 110 of the apparatus 100 for media access control stores traffic data to be transmitted to a modem (not shown), which is a first layer, in the first memory 130 (S210). In operation S220, information on the traffic data stored in the first memory 130 is transmitted to the MAC microprocessor 120.

Then, the traffic processing unit 121 of the MAC microprocess 120 processes the information received from the upper layer microprocess 110, the control information generation unit 122 is based on the processed information information data, for example After generating MAC header data or MAC control PDU data by itself, the generated information data is transmitted to the MAC transmitter 150 together with the transmitter control information (S230). For reference, the transmitter control information is information required for copying traffic data stored in the buffer memory 160 or the first memory 130 to the encoder memory 180 and may be referred to as location information.

Meanwhile, the data interface unit 151 of the MAC transmitter 150 moves and stores the traffic data stored in the first memory 130 to the buffer memory 160 (S240). Thereafter, the transceiver control unit 123 of the MAC microprocessor 120 controls the MAC transmitter 150 so that the traffic data stored in the buffer memory 160 is stored in the encoder memory 180 (S250).

That is, the data transmitter 152 of the MAC transmitter 150 reads the traffic data stored in the buffer memory 160 under the control of the transceiver controller 123, and transmits the data related information received from the MAC microprocessor 120. The location information is stored in the encoder memory 180. In this case, the data transfer unit 152 stores the transmitter control information received from the MAC microprocessor 120. The data transfer unit 152 stores the traffic data in the encoder memory 180 to complete the transfer to the modem, which is a lower layer (S260).

As such, the media access control apparatus according to an embodiment of the present invention delivers a large amount of traffic data received from an upper layer to a lower layer. However, the MAC microprocessor 120 controls the MAC transmitter 150 to transmit the information instead of directly transmitting it. This enables high speed traffic data processing using a low specification microprocess. This, in turn, saves battery life through low-end microprocessors for mobile handsets.

Meanwhile, in the above embodiment, the traffic data stored in the first memory 130 is moved to and stored in the buffer memory 160 and finally stored in the encoder memory 180. However, the present invention is not limited thereto, and for example, the traffic data stored in the first memory 130 without passing through the buffer memory 160 may be stored in the encoder memory 180 through the above-described processing. Processing is also possible.

Next, a process of transferring data received from a lower layer to an upper layer in an operation process of the apparatus 100 according to an embodiment of the present invention will be described.

3 is a flowchart illustrating a data receiving process of a media access control apparatus according to an embodiment of the present invention.

As shown in FIG. 3, first, the data separator 171 of the MAC receiver 170 analyzes traffic data received from a modem (not shown) that is a layer 1 and stored in the decoder memory 190 (S310). Then, based on the analysis result, information data (for example, MAC header data or MAC control PDU data, etc.) except pure traffic data is separated from the traffic data and transmitted to the MAC microprocessor 120 (S320).

The MAC microprocessor 120 then processes the MAC protocol using only the received information data. In other words, pure traffic data is not used to process the MAC protocol.

In detail, the control information generation unit 122 of the MAC microprocessor 120 stores the data related to the decoder memory, which is traffic data received from the lower layer, in the second memory 140 to deliver the data to the upper layer. Receiver control information, which is information needed to be stored in the buffer memory 160, is generated and provided to the MAC receiver 170 (S330).

Thereafter, the transceiver controller 123 controls the MAC receiver 170 based on the provided receiver control information. That is, the data assembling unit 172 of the MAC receiver 170 assembles traffic data stored in the decoder memory 190 based on the receiver control information provided from the MAC microprocessor 120 (S340) to form a second memory ( 140 or in the buffer memory 160. For example, the traffic data stored in the decoder memory 190 and the data received in the previous step are buffered to assemble the traffic data stored in the buffer memory 160 based on the receiver control information. Then, the assembled traffic data is stored in the second memory 140.

However, if the traffic data is not assembled, the data assembly unit 172 of the MAC receiver 170 stores the unassembled traffic data in the buffer memory 160.

Thereafter, the upper layer microprocess 110 reads the assembled data from the second memory 140 and transmits the assembled data to the upper layer (S370).

As such, the media access control apparatus according to an embodiment of the present invention proposes a structure suitable for high-speed and large-capacity traffic processing by transferring traffic data transmitted and received between upper and lower layers together with a MAC transceiver having a microprocessor hardware.

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the claims or in the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, according to an embodiment of the present invention, a structure suitable for high-speed and high-capacity traffic processing may be proposed by allowing traffic data transmitted and received between upper and lower layers to be controlled by a microprocessor controlling a MAC transceiver that is hardware. It has an effect.

Claims (10)

An upper layer microprocess for storing traffic data received from an upper layer in a first memory; A MAC transmitter for moving and storing traffic data stored in the first memory to an encoder memory and transferring the traffic data to a lower layer; And MAC microprocess for generating location information necessary for moving and storing traffic data to the encoder memory and information data on the traffic data and providing the data to the MAC transmitter Including; And the MAC transmitter stores the traffic data together with the generated information data in the encoder memory based on the location information provided from the MAC microprocessor. According to claim 1, MAC receiver for moving and storing the traffic data received from the lower layer to a second memory to deliver to the upper layer More, And the MAC microprocessor generates location information necessary for moving and storing traffic data to the second memory and provides information data on the traffic data to the MAC receiver. According to claim 1, The MAC microprocessor, A control information generator configured to generate information data including the header of the traffic data or control PDU (Packet Data Unit) data and the location information in the encoder memory and provide the location information to the MAC transmitter; And A transceiver control unit for controlling the MAC transmitter to move and store traffic data in the encoder memory based on the provided location information Media access control device of a mobile communication system comprising a. According to claim 1, The upper layer includes at least one radio protocol layer higher than a media access control layer, And the lower layer includes at least one or more radio protocol layers lower than the media access control layer. According to claim 1, Further includes a buffer memory, The MAC transmitter stores the traffic data provided from the first memory in the buffer memory, and then moves and stores the traffic data stored in the buffer memory to the encoder memory and transfers the traffic data to the lower layer to the lower layer. Device. The method of claim 2, Further comprising a buffer memory in which traffic data is stored, The MAC receiver assembles the traffic data received from the lower layer and the traffic data stored in the buffer memory under the control of the MAC microprocess, stores the data in the second memory, and delivers the data to the upper layer. Media access control device. In the transmission and reception method of the media access control apparatus for transmitting traffic data transmitted and received between layers, Storing traffic data received from an upper layer in a first memory; Generating information data including at least one of a header and control PDU data relating to the traffic data stored in the first memory; Generating location information necessary to move and store traffic data stored in the first memory into an encoder memory; And Moving and storing traffic data stored in the first memory along with the information data to the encoder memory based on the generated position information, and transferring the data to the lower layer Transmitting and receiving method of a media access control device comprising a. The method of claim 7, wherein Storing traffic data received from the lower layer in a decoder memory; Analyzing the traffic data stored in the decoder memory to extract information data including any one of a header of the traffic data and control PDU data; Generating location information necessary for moving and storing traffic data based on the extracted information data; And Assembling traffic data stored in the decoder memory based on the generated location information, and then moving and storing the assembled traffic data into a second memory based on the generated location information and transferring the traffic data to the upper layer; Transmitting and receiving method of a media access control device further comprising. The method of claim 8, Delivering to the higher layer, And assembling the traffic data previously stored in the buffer memory and the traffic data stored in the decoder memory, and storing the assembled traffic data in the second memory. The method of claim 9, Delivering to the higher layer, And transmitting the traffic data from the decoder memory to the buffer memory when the traffic data are not assembled.

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