KR20060091835A - Method of multiplexing transport channels in mobile communications system - Google Patents

Abstract

 The present invention relates to a method and apparatus for multiplexing to convert data frames of a plurality of transport channels of a reverse link into a plurality of physical channel frames in a terminal of an asynchronous wideband code division multiple access (WCDMA) mobile communication system. In a method of multiplexing a transport channel in a mobile communication system according to the present invention, a method for multiplexing two or more transport channels and mapping them to a physical channel includes: transmitting data through each transport channel for each transport channel; Performing primary data processing on a transmission time interval (TTI) basis; Performing second data processing on a radio frame basis for data that has undergone the first data processing for each transport channel; And multiplexing the data that has undergone the second data processing for each transmission channel in units of radio frames.

Mobile Communication, Transport Channel, Multiplexing, TrCH, CCTrCH, Channel Coding, Interleaving

Description

Method of multiplexing transport channels in mobile communication system and apparatus therefor {Method of multiplexing transport channels in mobile communications system}

1 is a diagram illustrating an encoding and multiplexing procedure of a reverse transport channel defined in the 3GPP standard in an asynchronous WCDMA mobile communication system.

2 is a process flow diagram in accordance with a preferred embodiment of the present invention.

FIG. 3 shows the configuration of important operation blocks and required buffers of the multiplexing apparatus of a transport channel according to the procedure of FIG.

4 is a view for explaining the division of operation time of the TrCH processor and CCTrCH processor in an embodiment of the present invention.

The present invention relates to a mobile communication system. More specifically, the present invention provides a method and apparatus for multiplexing to convert data frames of a plurality of transport channels of a reverse link into a plurality of physical channel frames in a terminal of an asynchronous wideband code division multiple access (WCDMA) mobile communication system. It is about.

A transport channel (TrCH) multiplexing and channel encoding apparatus of an asynchronous WCDMA mobile communication system generates data in units of a transmission time interval (TTI) and transmits the data in units of radio frames. . In the prior art, all transport channel data are generated as encoded hybrid transport channel (CCTrCH) data in the first radio frame of the transmission time interval. Therefore, the largest amount of data is processed in the first radio frame of the transmission time interval, and the remaining radio frames have an irregular amount of computation.

In an asynchronous wideband code division multiple access mobile communication system, an apparatus for receiving data frames on a plurality of transport channels (TrCHs) which may have different transmission time intervals in parallel, multiplexing the data frames and converting them into serial data frames, Multiplexing the divided data frames with radio frame matchers having the same number as the number of transport channels, each having a radio frame divider to receive the data frames and divide them into sizes to be transmitted at radio frame transmission time intervals. It consists of a multiplexer that converts to serial data frames.

FIG. 1 illustrates an encoding and multiplexing procedure of a reverse transport channel defined in 3 Technical Specification for Multiplexing and Channel Coding (TS 25.212) in an asynchronous WCDMA mobile communication system.

Referring to FIG. 1, the multiplexing and channel encoding procedures of the reverse transport channel may be divided into two processes according to their operation units. First, a process [S10] of dividing a plurality of transport channels into divided data frames in order to convert each transport channel into serial data frames. The other is a process of multiplexing a plurality of transport channels generated by the above procedure, dividing a coded hybrid transport channel (CCTrCH) according to a physical channel and mapping each physical channel [S20].

The processor which processes the electron according to the data processing the above two processes A processor that processes the latter and a TrCH processor will be referred to as a CCTrCH processor. The TrCH processor performs an operation for each transmission time interval of each transport channel, and the CCTrCH processor performs an operation of mapping and transmitting one or more physical channels for every radio frame.

Transmission time intervals of each transport channel that divides the operation intervals of the TrCH processor may be 10 ms, 20 ms, 40 ms, and 80 ms. In other words, assuming that the transmission time interval is data of a transport channel corresponding to 80 ms, the TrCH processor generates data by performing an operation only once in eight radio frames, and the data is encoded during eight radio frames. It is stored in a buffer that stores hybrid transport channel data, and is used to generate physical channel data every radio frame. In this case, the TrCH processor requires very high computational speed because the TrCH processor processes data to be used in eight radio frames at a time when generating the first radio frame data. However, the TrCH processor is inefficient because it is not driven during the remaining seven radio frames.

Therefore, in the channel encoding and multiplexing method of the transport channel according to the prior art, it is implemented to consider the maximum operation amount in order to process the irregular operation amount within a predetermined time, so that the parallelism of the device and a fast clock Overhead such as use is required.

Meanwhile, in the channel encoding and multiplexing method of a transport channel according to the prior art, since a plurality of transport channels are multiplexed and converted into data of a physical channel, TrCH processing of all transport channels is completed, and thus physical channel data for each radio frame. There is a need for a buffer that stores the encoded transport channel data encoded to generate the. However, the buffer should be able to store encoded hybrid transport channel data corresponding to the 80 ms transmission time interval in the worst case in order to generate and transmit physical channel data every radio frame for 80 ms corresponding to the largest transmission time interval. It must be large.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to provide an equivalent amount of computation in every radio frame, thereby reducing the maximum computation rate and reducing the overhead of implementation. A method and apparatus for transport channel multiplexing in a system are provided.

Another object of the present invention is to provide a transport channel multiplexing method and apparatus for a mobile communication system capable of significantly reducing the size of a data input buffer and a coded hybrid transport channel data buffer of a transport channel.

According to the present invention, in the channel encoding and multiplexing method of a reverse transport channel, the transmission channel multiplexing in a mobile communication system can reduce the maximum computation rate and reduce the overhead for realizing the same operation amount in every radio frame. A method and apparatus thereof are disclosed.

In addition, the present invention provides a buffer for storing encoded hybrid transport channel data generated by processing of a plurality of transport channels, not a capacity for storing data corresponding to a maximum transmission time interval of 80 ms, but not one physical channel. Disclosed are a transmission channel multiplexing method and apparatus in a mobile communication system, which can reduce the size of a buffer to 1/8 compared to a conventional method by storing only data corresponding to one radio frame for transmitting a Tx.

As a specific means for solving the above technical problem, the transmission channel multiplexing method in a mobile communication system according to the present invention, in the method for multiplexing two or more transport channels (map) to the physical channel, Performing primary data processing on a transmission time interval (TTI) basis for data transmitted through each transport channel for each transport channel; Performing second data processing on a radio frame basis for data that has undergone the first data processing for each transport channel; And multiplexing the data that has undergone the second data processing for each transmission channel in units of radio frames.

In the mobile communication system according to the present invention, a transmission channel multiplexing apparatus includes a transmission time interval (TTI) for data transmitted through each transport channel for each transport channel for two or more transport channels. A first data processing module performing first data processing in units; A second data processing module configured to perform second data processing in units of radio frames on the data subjected to the first data processing for each transport channel; And a multiplexing module configured to multiplex the data that has undergone the second data processing for each transmission channel in units of radio frames.

The construction, operation and other features of the present invention will be readily understood by the preferred embodiments of the present invention described below with reference to the accompanying drawings.

In order to implement an efficient transport channel multiplexing and channel encoding apparatus without using such a large buffer, the TrCH processor requires generation of radio frame data rather than transmission time interval data for each transport channel. A coded hybrid transport channel data buffer is required to store only data to be transmitted in the next radio frame and to generate and transmit physical channel data for each radio frame.

In the channel communication apparatus of the asynchronous WCDMA communication system of the present invention, the definition for multiplexing and channel coding is in accordance with the 3GPP specification (Technical specification for multiplexing and channel coding, TS 25.212).

According to the present invention, the CRC (Cyclic Redundancy Check) operation and the channel encoding process are processed in units of transmission time intervals, and the first interleaving and rate matching operations are processed only for data to be transmitted to the next radio frame. The present invention has an equal amount of calculation for each radio frame. Accordingly, the maximum computation rate that the transport channel multiplexing and channel encoding apparatus should have is reduced to about 1/8 in the present invention compared to the general method when comparing the case where the maximum transmission time interval is 80 ms. The overhead is also drastically reduced.

When calculating a plurality of transport channels, instead of processing all data corresponding to the transmission time interval, only the data for transmission in the next radio frame is generated and processed in the physical channel so that the maximum computational requirement of data to be processed in one radio frame is processed. By reducing the number of radio frames in each radio frame, the overhead of increasing the maximum computation rate can be reduced.

The present invention also provides a method for transmitting a single physical channel that is not capable of storing data corresponding to a maximum transmission time interval of 80 ms in an encoded hybrid transport channel data buffer generated by processing of a plurality of transport channels. By storing only the data corresponding to one radio frame, the size of the buffer is reduced to 1/8 of the conventional method. In addition, the operation blocks of transport channel processing and coded hybrid transport channel processing are distinguished and their operation times are defined by dividing them within a radio frame to provide a data input buffer and a coded hybrid transport channel data buffer. It has an efficient structure by implementing the required size without double buffering.

FIG. 2 is a flow chart of a procedure according to a preferred embodiment of the present invention, and FIG. 3 shows the configuration of important operation blocks and required buffers of the multiplexing apparatus of a transport channel according to the procedure of FIG.

Each transport channel (TrCH) processor in the present invention performs operations in units of transport channels, CRC operation and channel encoding operation is performed once per transmission time interval of the corresponding transport channel in each transport channel processor, The first interleaving and rate matching is performed once every radio frame.

In FIG. 2, TrBk _cnt is a counter of a transport block belonging to a transport channel currently performing calculation, TrCH _cnt is a counter of a transport channel, frame _cnt is a counter of a radio frame, and N _{TrBk , n} is performing a current operation. The number of transport blocks belonging to the transport channel n being used, and N _TrCH represents the number of transport channels.

CRC operation is performed continuously for all transport blocks belonging to one transport channel [S21, S22, S23, S24]. If this is stored continuously, TrBk concatenation operation is performed and channel encoding is performed. The code is divided into code block units [S25], and when two or more code blocks exist, channel encoding is continuously performed [S26]. Up to the channel encoding operation, all data of each transport channel to be transmitted within a transmission time interval is processed regardless of whether data to be transmitted to the next radio frame.

In order to perform the CRC operation and the channel encoding operation once for each transmission time interval of the corresponding transport channel, that is, if the transmission time interval is 20ms, 40ms, or 80ms, it is determined whether the transport channel has been processed before the start of the CRC operation. In the case of new data, the process is performed in the same manner as in the case that the transmission time interval is 10 ms. However, if the data is the same as the data processed in the past, the operation is performed after the radio frame equalization [S27]. However, the data to be used for equalizing the radio frame is used to read the past value from the output buffer that stores the channel encoding result and manages the start address for writing and reading in transmission time interval unit in each transport channel unit.

In the 1st interleaving, a substitution pattern is determined according to a transmission time interval, and the frames are replaced with each other, so that the operation of the corresponding frame unit to be output through the transmitter in the next radio frame is possible [S28]. Therefore, after radio frame equalization, 1st interleaving is performed immediately without performing 1st interleaving and radio frame segment is calculated, and 1st interleaving is a simple buffer read operation. To complete the operation. In the rate matching operation, since an offset required for bit separation is changed in units of frames according to a transmission time interval, operation of a radio frame operation unit is possible [S29].

Thus, we implement an encoded mixed transport channel data buffer that can store the maximum value of bits that can be transmitted in radio frame units, regardless of the sum of the number of bits in all transport blocks transmitted at any moment, and for each transport Multiplexing of the transport channel can be implemented by sequentially storing the operation result of the channel [S32]. Subsequently, data corresponding to one radio frame is sent to the transmitter through physical channel division [S33], 2nd interleaving [S34], and physical channel mapping [S35].

As shown in Fig. 4, the TrCH processing operation time and the CCTrCH processing operation time are divided in consideration of the maximum operation speed in one radio frame. The data input of the transport channel enables data update because a read operation of the corresponding buffer does not occur during the CCTrCH processing operation time. This allows the data input buffer of the transport channel and the encoded hybrid transport channel data buffer to be usable without double buffering of data, thereby reducing the required buffer size by half.

In general, the preferred embodiment of the present invention shown in FIG. 3 is compared with the method of performing all transport channel operations in the first radio frame of the transmission time interval. According to the apparatus, since the 1st interleaving and rate matching operations are processed only for data to be transmitted to the next radio frame, each radio frame has an equal amount of computation. Therefore, the maximum computation rate that the transport channel multiplexing and channel encoding apparatus should have is 80ms. In the case of, it is reduced to about 1/8 maximum and the overhead is drastically reduced.

Also, a buffer for storing encoded hybrid transport channel data generated by processing of a plurality of transport channels may transmit one physical channel other than the capacity for storing data corresponding to a maximum transmission time interval of 80 ms. The size of the buffer is reduced to 1/8 by storing one radio frame unit.

  It is apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit and essential features of the present invention. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

According to the present invention, there is provided a method and apparatus for multiplexing a transmission channel in a mobile communication system according to the present invention.

First, since only 1st interleaving and rate matching operations are processed for the data to be transmitted to the next radio frame, each radio frame has an equal amount of computation. Therefore, the maximum computational processing requirement of the transport channel multiplexing and channel encoding apparatus has a transmission time interval of 80ms Assuming that data is equivalent to 1/8, it is reduced to about 1/8 and the overhead is drastically reduced.

Secondly, a buffer for storing encoded hybrid transport channel data generated by processing of a plurality of transport channels is used to transmit one physical channel that is not large enough to store data corresponding to a maximum transmission time interval of 80 ms. The size of the buffer is reduced to 1/8 by storing in units of radio frames.

Third, by separating the operation of the TrCH processor and the CCTrCH processor and defining its operation time within one radio frame, it does not buffer the required sizes of the transport channel data input buffer and the encoded hybrid transport channel data buffer. There is considerable benefit in terms of multiplexing of the reverse transport channel and the size of the channel coding apparatus.

Claims (12)

A method for multiplexing two or more transport channels to a physical channel, the method comprising: Performing primary data processing on a transmission time interval (TTI) basis for data transmitted through each transport channel for each transport channel; Performing second data processing on a radio frame basis for data that has undergone the first data processing for each transport channel; And And multiplexing the data that has undergone the second data processing for each transport channel in units of radio frames. The method of claim 1, Dividing the multiplexed data into physical channels; And mapping the divided data to each physical channel. The method of claim 1, wherein performing the first data processing comprises: Attaching an error check bit for each transport block; And performing channel encoding on the transport block to which an error check bit is attached. The method of claim 3, The performing of the second data processing may include: Performing interleaving on the channel coded data; And performing radio frame segmentation on the interleaved data. The method of claim 4, wherein And performing radio frame equalization on the channel coded data before performing the interleaving. The method of claim 5, And performing rate matching after the radio frame division. In the mobile communication system, A first data processing module for performing primary data processing on two or more transport channels in units of a transmit time interval (TTI) for data transmitted through each transport channel for each transport channel. ; A second data processing module configured to perform second data processing in units of radio frames on the data subjected to the first data processing for each transport channel; And And a multiplexing module configured to multiplex the data that has undergone the second data processing for each transport channel in units of radio frames. The method of claim 7, wherein And a means for dividing the multiplexed data into physical channels and mapping the physical data to respective physical channels. The module of claim 7, wherein the first data processing performing module comprises: Means for attaching an error check bit for each transport block; And means for performing channel encoding on the transport block to which an error check bit is attached. The method of claim 9, The second data processing performing module, Means for performing interleaving on the channel coded data; And means for performing radio frame segmentation on the interleaved data. The method of claim 10, And means for performing radio frame equalization on the channel coded data.  The method of claim 11, And means for performing rate matching on the radio frame divided data.

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