KR20070091883A - Apparatus and method for hybrid automatic repeat requesting using log likelihood ratio in mobile communication system - Google Patents

Abstract

A method and an apparatus for a hybrid automatic repeat request using a log likelihood ratio in a mobile communication system are provided to improve an HARQ(Hybrid Automatic Repeat Request) signal detecting speed by reducing the number of repeated transmissions. An apparatus for a hybrid automatic repeat request using a log likelihood ratio in a mobile communication system includes a decoder(109), a CRC(Cyclic Redundancy Check) unit(111), and a repeat request unit. When a packet is received, the decoder decodes the packet according to a predetermined decoding scheme and outputs received bits to the CRC unit. The decoder calculates an LLR(Log Likelihood Ratio) bit of the received bits and outputs the result to the repeat request unit. When the packet is received, the CRC unit inspects an error from the received packet. When an error occurs in the received packet, the repeat request unit compares the calculated LLR value with an LLR threshold value, and determines a size of the packet to be retransmitted. The repeat request unit requests the retransmission of the packet of the determined size.

Description

Apparatus and method for complex retransmission request using log likelihood in mobile communication system {APPARATUS AND METHOD FOR HYBRID AUTOMATIC REPEAT REQUESTING USING LOG LIKELIHOOD RATIO IN MOBILE COMMUNICATION SYSTEM}

1 is a block diagram showing the configuration of a transmission and reception apparatus in a mobile communication system according to the present invention; and

2 is a flowchart illustrating a procedure of a method for requesting a combined retransmission using a log likelihood ratio in a mobile communication system according to an exemplary embodiment of the present invention.

The present invention relates to a mobile communication system, and more particularly, to an apparatus and a method for requesting complex retransmission using a log likelihood ratio.

The Automatic Repeat ReQuest (hereinafter referred to as 'ARQ') technique is a method of attempting retransmission to reduce error and loss of a packet in wired or wireless communication. The ARQ retransmits the initially transmitted packet as it is at the time of retransmission, and operates in a manner that does not utilize any information of all packets that have been previously attempted to be transmitted. In contrast, a hybrid automatic repeat request (hereinafter referred to as a HARQ) scheme is an advanced form of the ARQ, which operates by using information of packets that have been previously attempted at retransmission, and is largely chase combined. (Chase Combining: referred to as 'CC') and Incremental Redundancy (hereinafter referred to as 'IR') method.

The CC scheme of the HARQ operates by utilizing both retransmitted packets and signal information of previously transmitted packets, and retransmits the original packet transmitted as it is during initial transmission. Although the original packet is retransmitted as it is, attempting to receive a combination of all the packets transmitted up to that time, the HARQ-specific combining effect (Combining Effect) occurs. Therefore, in the CC method, the performance is superior to that of the ARQ method which does not use the information of previously transmitted packets, and the probability of receiving the packet without error at the receiving end is increased.

Coding schemes are used for the IR scheme of HARQ, and the coding schemes mainly used include Turbo encoding, Rate Compatible Punctured Convolutional (RCPC) encoding, and Low-Density Parity-Check (LDPC) encoding. In the case of using the IR method, the transmitter generates redundancy information blocks by encoding the information to be transmitted using the aforementioned coding method, and transmits only the original packet without the excess information during initial transmission. When the failure is confirmed, the excess information block is transmitted without transmitting the original packet. In other words, the IR method transmits the excess information generated by the encoding rather than retransmitting the original packet for the retransmission request. At this time, the receiving end receives only the original packet during the initial transmission, receives the excess information block in the subsequent transmission, and attempts to receive the signal using all the previously transmitted signal information. Accordingly, in the IR method, a coding gain is generated in addition to the HARQ-specific combining effect, and generally shows a higher reception success rate than the CC method.

As described above, the HARQ operation lowers the probability of error (Block) for the packet by soft combining with the retransmitted data without discarding the errored data. However, since the HARQ scheme involves a delay due to the retransmission, the convergence speed of the HARQ is slowed. Therefore, in theory, repeating the HARQ retransmission operation infinitely can reduce the BLER to 0, but it is common to retransmit only as long as the appropriate BLER can be secured.

In addition, when retransmitting all or part of packets without any condition in the HARQ scheme according to the prior art, the probability of occurrence of a decoding error even during retransmission is increased, and the number of retransmissions increases, and the larger the HARQ burst size, the more unnecessary waste is caused by unnecessary retransmissions. There is a problem that the amount of transmission resources to be increased.

Disclosure of Invention An object of the present invention is to provide an apparatus and method for requesting complex retransmission using log likelihood ratio in a mobile communication system.

Another object of the present invention is to provide an apparatus and method for reducing the convergence speed of a complex retransmission request by reducing the number of retransmissions by varying the burst size during retransmission using a log likelihood ratio in a mobile communication system.

According to an embodiment of the present invention to achieve the above object, a complex retransmission request method using a log likelihood ratio (hereinafter referred to as LLR) in a mobile communication system, when a packet is received, Checking whether an error occurs in the packet, when an error occurs in the received packet, measuring the reliability of the packet using the LLR value of the packet, and measuring the reliability and the LLR threshold of the measured packet ( comparing a threshold) to determine a size of a packet to be retransmitted, and requesting a packet retransmission of the determined size.

According to an embodiment of the present invention to achieve the above object, a composite retransmission request apparatus using a log likelihood ratio (hereinafter referred to as LLR) in a mobile communication system, when a packet is received, A decoder which decodes a packet according to a predetermined decoding method and outputs received bits to a CRC checker, calculates LLR values of the received bits, and outputs the received bits to a retransmission request unit; and when a packet is received, whether or not an error of the received packet occurs When an error occurs in the CRC checker and the received packet, the LLC value and the LLR threshold of the calculated packet are compared to determine a size of a packet to be retransmitted, and the packet retransmission of the determined size is performed. It characterized in that it comprises a retransmission request unit for requesting.

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, an apparatus and method for requesting complex retransmission using a log likelihood ratio in a mobile communication system will be described.

Here, the mobile communication system may be applied to all types of wireless packet data systems supporting HARQ, and currently HSDPA (UMTS High-Speed Downlink) forcibly or selectively defining the use of the HARQ. Packet Access), CDMA2000 1x-EV-DO, CDMA2000 1x-EV-DV (Evolution in Data and Voice), IEEE 802.16e and the like can be used for all of course.

1 is a block diagram showing the configuration of a transmission and reception apparatus in a mobile communication system according to the present invention. In the transceiver, the transmitter includes a PDU determiner 100, a CRC inserter 101, an encoder 103, and a modulator 105. The receiver includes a demodulator 107, a decoder 109, The CRC checker 111 and the LLR value distribution checker 113 are configured.

Referring to FIG. 1, a transmitter is responsible for transmitting and retransmitting a user packet, and a receiver is responsible for receiving, soft combining, and transmitting an ACK / NACK signal.

First, the PDU determination unit 100 determines a data PDU (Packet Datagram Unit) for transmission, and outputs the determined transmission data to the CRC insertion unit 101. Here, after transmitting the data, when the ACK information for the data is received (flush) the data, when the LACK information for the data is received, the data is retransmitted, the NACK information for the data Retransmits only a predetermined size of the data when is received.

The CRC insertion unit 101 adds a predetermined cyclic error code (hereinafter referred to as a 'CRC') for error checking, and outputs the data to which the CRC is added to the encoder 103.

The encoder 103 encodes the data to which the CRC is added according to a predetermined code rate by using a predetermined encoding technique, and outputs the encoded bits to the modulator 105. In this case, the encoded bits are stored in a buffer for retransmission later. Here, the encoding scheme is a generalization of an encoding scheme for outputting information bits to be transmitted by encoding the input packet data, that is, systematic bits and error control bits of the information bits, that is, parity bits. The coding scheme includes turbo coding, convolutional coding, and the like. The coding rate determines a ratio of systematic bits and parity bits output from the encoder 103. For example, when the code rate is 1/2, which is a symmetric code rate, the encoder 103 outputs one systematic bit and one parity bit with respect to one bit input. As another example, when the coding rate is 3/4, which is an asymmetric coding rate, the encoder 103 outputs three systematic bits and one parity bit for three bits of input.

The modulator 105 maps the encoded bits input from the encoder 103 to predetermined symbols according to a predetermined modulation scheme and transmits the encoded bits to the receiver. For example, when the modulation scheme of the modulator 105 is 16QAM, the encoded bits are mapped to modulation symbols having a bit reliability pattern of [H H L L] in units of 4 bits.

The demodulator 107 demodulates the coded bits by demodulating the modulated data received through the physical channel according to a demodulation scheme corresponding to the modulation scheme used by the modulator of the transmitter.

The decoder 109 decodes demodulated data input from the demodulator 107 according to a predetermined decoding method and outputs desired reception bits to the CRC checker 111. In other words, it outputs a decision value for the input signal. In addition, reliability information of each input bit is generated, and the reliability information is output to the LLR value distribution checking unit 113. The reliability information may be represented by a log likelihood ratio (hereinafter, referred to as 'LLR') between a probability of decoding a correctness probability and an error probability.

The CRC checker 111 determines whether an error occurs in the received bits by checking a CRC added to the received bits decoded by the decoder 109, and determines the LLR value distribution checking unit 113. ) Here, when the retransmission data for the previous data is received, after soft combining the previous data and the retransmitted data stored in the buffer, and checks again whether the error occurs.

The LLR value distribution checking unit 113 transmits a response signal to the transmitter according to whether an error occurs in the received bits and LLR value distribution. In other words, when it is determined that no error occurs in the received bits, when the received bits are transmitted to a higher layer and when it is determined that an error occurs in the received bits, a predetermined LLR threshold is determined. ) To determine the size of the packet to be retransmitted by comparing the average of the LLR pdf or the absolute value for the packet, and then request the transmitter to retransmit the packet of the determined size.

2 is a flowchart illustrating a procedure of a method for requesting a combined retransmission using a log likelihood ratio in a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the receiver receives an HARQ packet in step 201, and proceeds to step 203 to decode the HARQ packet.

In step 205, the receiver performs a CRC check on the decoded HARQ packet. In step 207, the receiver checks whether a packet has a CRC error. If there is a CRC error in the packet in step 207, the receiver checks the LLR for the packet in step 209. That is, the reliability of the packet is measured through the distribution of the LLR value, and the flow proceeds to step 211 to compare the predetermined LLR threshold and the average of the LLR pdf or the absolute value of the packet to determine the size of the packet to be retransmitted. Decide

For example, the LLR value of the packet is checked to confirm its distribution, and when the distribution of the LLR value does not exceed a predetermined LLR threshold, the receiver retransmits only a predetermined size of the received packet. A non-acknoledge (NACK) signal, which is a response signal for requesting re-transmission, is transmitted to the transmitter. The predetermined size is, for example, half size. In addition, when the distribution of the LLR value exceeds a predetermined LLR threshold, the receiver transmits a LACK signal, which is a response signal for requesting re-transmission of the received packet, to the transmitter. At this time, the bits are stored in a buffer for combining with the encoded bits to be retransmitted.

In step 213, the receiver transmits a response signal of a predetermined bit to the transmitter through the loop, and requests retransmission of the packet along with the determined size of the retransmission packet, and returns to step 201 to receive the requested retransmission packet. . At this time, after decoding the retransmission packet, after combining the corresponding bits stored in the buffer with the retransmitted encoded bits, it is again checked whether a CRC error occurs. When the retransmission packet of the predetermined size is received, if a CRC error does not occur in the retransmission packet, an ACK signal may be transmitted to the transmitter to request retransmission of the remaining packets.

For example, when the response signal is set to 2 bits, the response signal transmitted to the transmitter through the loop loop according to the CRC error occurrence and the LLR check may be determined as shown in Table 1 below.

LLR inspection CRC 00 ACK success 01 LACK failure Received Packet Resend Request 10 11 NACK Resend Request of Predetermined Size of Received Packet

When there is no CRC error in the packet in step 207, the receiver transmits and processes the received bits to a higher layer, and sends an ACK (Acknowledge) signal, which is a response signal confirming reception of the received bits, to the transmitter. send. In this case, buffer initialization is performed to remove corresponding encoding bits from the buffer. The receiver then terminates the algorithm according to the invention.

In the embodiment according to the present invention, when the retransmission packet of the predetermined size is requested, for example, when the retransmission packet of the half size is requested, if the requested retransmission packet of the half size is detected without an error, If the remaining half size retransmission packet is requested, and if an error occurs in the requested half size retransmission packet, the half size retransmission packet can be requested again.

In another embodiment, when an error occurs in the requested 1/2 sized retransmission packet when the 1/2 sized retransmission packet is requested, 1/2, that is, 1/4 of the 1/2 sized retransmission packet A retransmission packet of size may be requested.

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, the present invention has the advantage of improving the HARQ signal detection convergence speed by reducing the number of retransmissions by requesting retransmission by varying a burst size according to decoding reliability in a mobile communication system.

Claims (7)

In a method of requesting a complex retransmission using a log likelihood ratio (hereinafter referred to as LLR) in a mobile communication system, When the packet is received, checking whether the received packet has an error; When the error occurs in the received packet, measuring the reliability of the packet using the LLR value of the packet; And comparing the reliability of the measured packet with an LLR threshold to determine a size of a packet to be retransmitted, and requesting a packet retransmission of the determined size. The method of claim 1, And when the reliability of the measured packet is less than the LLR threshold, determining the size of the packet to be retransmitted as a partial size of the received packet. The method of claim 2, The size of the packet is 1/2 the size of the received packet. The method of claim 1, And when the reliability of the measured packet is greater than the LLR threshold, the size of the packet to be retransmitted is determined by the size of the received packet. The method of claim 2, The packet retransmission of the determined size is requested using a NACK signal. The method of claim 4, wherein The packet retransmission of the determined size is requested using a LACK signal. In the composite retransmission request apparatus using a log likelihood ratio (hereinafter referred to as 'LLR') in a mobile communication system, When the packet is received, the decoder to decode the received packet according to a predetermined decoding method and output the received bits to the CRC check unit, calculates the LLR value of the received bits to the retransmission request unit; The CRC checker that checks whether an error occurs in the received packet when a packet is received; When an error occurs in the received packet, by comparing the LLR value and the LLR threshold of the calculated packet to determine the size of the packet to be retransmitted, and comprises a retransmission request unit for requesting the retransmission of the packet of the determined size Device characterized in that.

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