KR20040029763A - Method for transmitting/receiving packet in Hybrid ARQ system - Google Patents

Abstract

PURPOSE: A method for transmitting/receiving a packet in a hybrid automatic repeat request(HARQ) system is provided to identify whether a received packet is a new packet by increasing the number of bits of an ARQ(Automatic Repeat Request) identifier sequence number. CONSTITUTION: According to the method for transmitting a packet in a hybrid automatic repeat request system, a sub packet identifier is transmitted together with an automatic repeat request identifier when transmission information is transmitted in a plurality of sub packets. The automatic repeat request identifier uses an automatic repeat request identifier sequence number, and a specific value among the sub packet identifier values is used only when a new sub packet is transmitted.

Description

Method for transmitting / receiving packet in Hybrid ARQ system}

The present invention relates to a method for transmitting and receiving a packet in a hybrid automatic retransmission request system, and more particularly, to a method for transmitting and receiving a packet in a hybrid automatic retransmission request system capable of easily determining whether a received subpacket is a new subpacket or a retransmitted subpacket. will be.

In general, a hybrid automatic repeat request (hereinafter, referred to as HARQ) scheme is used for packet transmission for a mobile communication system.

In other words, the HARQ method combines an automatic repeat request (ARQ) method and forward error correction (FEC) to improve reliability and efficiency in data transmission in a communication system. Way.

The ARQ scheme improves reliability by requiring the receiver to retransmit the same information until the information initially transmitted to the receiver is received without error. The FEC scheme uses an error correction code to receive an error generated by the channel environment. This is the way to calibrate.

If the channel environment is always good and there are fewer errors in the sent information, the ARQ method is enough. However, if the channel environment is bad, the frequency of the error in the sent information is increased, thus requiring retransmission. It will also increase the number of times.

This lowers the data throughput of the system. Therefore, it is proposed to use FEC together with ARQ and this is HARQ scheme.

One type of HARQ method is the use of incremental redundancy (hereinafter abbreviated as IR), which initially transmits encoded information with a high coding rate and lowers the coding rate whenever it is requested to retransmit. It sends the extra bits added afterwards and combines them with the already sent information to decode them. The bits that are retransmitted at this time are bits that complement the previously sent packet, so that you can benefit from combining and gradually reduce the coding rate with each retransmission, thus adaptively redundancy depending on the channel environment. ) Can be reduced.

Incremental Redundancy (IR) includes Synchronous Incremental Redundancy (SIR), Asynchronous Incremental Redundancy (AIR), and Asynchronous and Adaptive Incremental Redundancy (AAIR).

SIR is a method of encoding and repeating information to be transmitted (encoder packet) to configure one encoded packet, and configuring the encoded packet into sub-packets having a fixed size from the encoded packet and transmitting them at periodic times.

AIR encodes and repeats information to be transmitted (encoder packet) to form one encoded packet, and then configures each packet to be transmitted at aperiodic intervals by configuring subpackets having a fixed size from the encoded packet. The transmission time of the subpacket is determined by the scheduler.

AAIR forms one encoded packet by encoding and repeating information (encoder packet) to be transmitted, and configures the encoded packet into variable subpackets from the encoded packet and transmits them in aperiodic manner. Is determined by the channel state, available power, available Walsh, the number of Walsh codes, and the like, and the transmission time of each subpacket is determined by the scheduler.

In the case of using the HARQ scheme, the receiver performs the following operations.

If a receiver receives a NEW subpacket while waiting for a new (hereinafter referred to as NEW) subpacket, it attempts decoding with that subpacket. So if the decoding succeeds, it sends an ACK to the transmitter and waits for the next NEW subpacket.

However, if the receiver fails to decode the NEW subpacket, it sends a NACK to the transmitter, stores the received NEW subpacket, and waits for a retransmission (hereinafter referred to as CONTINUE) subpacket.

When the receiver receives the CONTINUE subpacket while waiting for the CONTINUE subpacket, the receiver attempts decoding by combining the previously stored NEW subpacket and the received CONTINUE subpacket.

If the decoding succeeds, it sends an ACK to the transmitter and waits for the next NEW subpacket.

However, if the decoding fails, it sends a NACK to the transmitter, stores the received CONTINUE subpacket, and continues to wait for the CONTINUE subpacket.

At this time, the receiving end waits for the CONTINUE subpacket. When the receiving end receives the NEW subpacket, the receiving end gives up decoding the stored encoder packet and attempts to decode the new encoder packet using the newly received NEW subpacket.

So if the decoding succeeds, it sends an ACK to the transmitter and waits for a NEW subpacket.

However, if decoding fails, the process of sending a NACK to the transmitting end, storing the received NEW subpacket, and then waiting for the CONTINUE subpacket is repeated.

In addition, if the receiving end waits for the NEW subpacket and receives the CONTINUE subpacket, the receiving end discards the received CONTINUE subpacket and sends an ACK to the transmitting end. Next, the receiving end waits for the NEW subpacket to come.

As described above, in order for the receiving end using the HARQ scheme to operate normally, the receiving end must accurately determine whether the corresponding subpacket is a NEW subpacket or a CONTINUE subpacket.

A 1xEV-DV (CDMA2000 1x Evolution Data Voice) system uses a field called AI_SN (ARQ Identifier Sequence Number) to determine whether a corresponding subpacket is a NEW subpacket or a CONTINUE subpacket. That is, each time a new encoder packet is transmitted, the AI_SN value toggles from '0' to '1' or from '1' to '0'.

Then, the receiving end compares the AI_SN value of the subpacket received immediately with the AI_SN value of the corresponding subpacket, and if the compared AI_SN value is the same, the corresponding subpacket is determined to be a CONTINUE subpacket, and if it is different (toggled), the corresponding subpacket. Is determined as a NEW subpacket.

Hereinafter, a packet transmission / reception method using an AR_Identifier Sequence Number (AI_SN) in a hybrid automatic retransmission request (HARQ) system according to the prior art will be described.

1 is a view for explaining a packet transmission and reception method in a hybrid automatic retransmission request system according to the prior art, Figure 2 is a view for explaining a problem in packet transmission and reception in a hybrid automatic retransmission request system according to the prior art.

In the hybrid automatic retransmission request system shown in FIG. 1, a packet transmission / reception method using an ARQ Identifier Sequence Number (hereinafter abbreviated as AI_SN) has been described as an automatic retransmission request identification method.

In the hybrid automatic retransmission request system according to the prior art, as shown in Fig. 1, when the encoder packet changes from a to b, the corresponding AI_SN is toggled from '0' to '1', and the encoder packet changes from b to c. When the AI_SN is toggled from '1' to '0'. However, when the encoder packet is not changed and an additional sub packet CONTINUE is retransmitted for the same encoder packet, that is, A (b, '1') is sent from the transmitting end to the receiving end as shown in FIG. AI_SN maintains the same value for the case where the decoding for 1 ') fails and a NAK signal is transmitted to the transmitter. Here, ACID shown in the figure is an ARQ CHannel Identifier, control is a control channel, data is data, and NAK is NACK.

As described above, only AI_SN is currently used to determine whether the corresponding sub packet is a NEW sub packet or a CONTINUE sub packet. However, if only one bit of AI_SN is used, the following problem may occur.

That is, an example that may occur when only one bit of AI_SN is used in FIG. 2 is illustrated.

As shown in FIG. 2, a sub-packet of a, which is the first encoder packet, is transmitted by the transmitting end. In this case, AI_SN for the corresponding sub-packet is '0'. The receiver successfully decodes the subpacket of encoder packet a and transmits an ACK.

The transmitting end receives the ACK and transmits the second encoder packet, sub packet A (b, '1'). Since the encoder packet is changed from a to b, the AI_SN for the corresponding sub packet is toggled to '1'. It can be seen that.

However, as shown in the figure, not only did a control channel receive a decoding channel, but also a decoding error occurred, indicating that an ACK or NAK could not be transmitted to a transmitter (decoding error, mis-interpreted as an ACK).

In this case, the transmitting end should determine that the corresponding sub packet is NAK. However, as shown in FIG. 2, there is a case in which the transmitting end misjudges ACK. As a result, the transmitting end detects the sub-packet A of the third encoder packet (A (c, '0')). Sending. At this time, since the encoder packet is changed from b to c, the AI_SN for the corresponding sub packet is toggled to '0'.

However, the receiving end determines that the packet before receiving the encoder packet c is a because the control information for the encoder packet b has not been received. The subpacket is determined as the first CONTINUE subpacket of A (a, '0'). Therefore, the receiving end previously sent an ACK and was waiting for the NEW subpacket. Since the CONTINUE subpacket was received, the receiving end abandons decoding of the received subpacket A (c, '0'), and forcibly sends the ACK to the transmitting end. There is a problem that the sender loses the encoder packet c sent by the transmitter.

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and in the case of using a specific subpacket as a new subpacket or using an automatic retransmission request identification serial number as an automatic retransmission request identifier, the number of bits of the automatic retransmission request identification serial number is increased. The present invention provides a packet transmission / reception method in a hybrid automatic retransmission request system capable of easily identifying whether a received packet is a new packet.

According to one aspect of the present invention, when the transmission information is composed of a plurality of sub-packet and transmitted, the sub-packet is included in the sub-packet along with the automatic retransmission request identifier.

Preferably, the automatic retransmission request identifier uses an automatic retransmission request identification serial number, and a specific value of the sub packet identifier values is used only when transmitting a new subpacket.

According to another aspect of the present invention, when the transmission information is configured by transmitting a plurality of subpackets, the automatic retransmission request identifier assigned to the subpacket is configured by a plurality of bits to previously set the automatic retransmission request identifier of the new subpacket. Set it differently from the automatic retransmission request identifier.

Preferably, the automatic retransmission request identifier is repeated in the set order for the plurality of bits.

According to another aspect of the present invention, the received subpacket is a new subpacket according to the automatic retransmission request identifier of the subpacket or the subpacket identifier transmitted together with the automatic retransmission request identifier for the plurality of received subpackets. It is determined whether the packet is a continuous packet or a sub packet.

Preferably, when only the automatic retransmission request identifier is used for decoding the received subpacket, the automatic retransmission request identifier is configured with a fixed bit value among a plurality of bits, and when the automatic retransmission request identifier and the subpacket identifier are used. Is the case where the automatic retransmission request identifier is one bit and a specific value ('00') of the sub packet identifier is included.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

1 is a view for explaining a packet transmission and reception method in a hybrid automatic retransmission request system according to the prior art

2 is a view for explaining a problem in packet transmission and reception in a hybrid automatic retransmission request system according to the prior art;

3 is a diagram illustrating a packet transmission and reception method in a hybrid automatic retransmission request system according to a first embodiment of the present invention.

4 is a diagram illustrating a packet transmission and reception method in a hybrid automatic retransmission request system according to a second embodiment of the present invention.

Hereinafter, a method of transmitting and receiving a packet in a hybrid automatic retransmission request system according to the present invention will be described with reference to the accompanying drawings.

3 is a view for explaining a packet transmission and reception method in a hybrid automatic retransmission request (HARQ) system according to a first embodiment of the present invention.

First, according to the first embodiment of the present invention, as shown in FIG. 3, a specific subpacket having an SP_ID of '00' is set as a NEW subpacket, and a subpacket having an SP_ID of '00' is not used as a retransmission subpacket. Suggest ways to prevent it.

That is, a fixed bit value is used as a NEW subpacket, and only subpackets having SP_IDs of '01', '10', and '11' can be used as retransmission subpackets. In this case, the receiving end may determine whether the corresponding sub packet is a NEW sub packet or a CONTINUE sub packet using the SP_ID as well as the automatic retransmission request identifier (for example, AI_SN). That is, the sub packet having the SP_ID of '00' A new sub packet is determined.

Therefore, when transmitting the first (NEW) subpacket of a new encoder packet, the transmitting end should transmit a subpacket having SP_ID of '00', and when AI_SN is used as an automatic retransmission request identifier, the AI_SN value should be toggled.

For example, in FIG. 2, even after receiving the first subpacket of the third encoder packet c, the corresponding subpacket was determined to be a CONTINUE subpacket, and the encoder packet c was lost by abandoning decoding of the corresponding subpacket and forcibly transmitting an ACK.

However, as shown in FIG. 3, when the SP_ID is used to determine the NEW and CONTINUE of the sub packet together with the automatic retransmission request identifier, since the SP_ID is '00', it can be determined that the first sub packet of the third encoder packet c is a new sub packet. It is possible to successfully decode encoder packet c.

4 is a diagram illustrating a packet transmission and reception method in a hybrid automatic retransmission request system according to a second embodiment of the present invention.

In the second embodiment of the present invention, the automatic retransmission request identifier used in 1 bit is composed of a plurality of bits. For example, when AI_SN is used, the method of increasing AI_SN to 2 bits is used.

In this case, if the auto-request request identifier is increased to 2 bits, the available values are '00', '01', '10', and '11', and each time a new encoder packet is transmitted, '00' → '01' → '10' → Repeat '11' → '00' → '01'.

The receiving end compares the received automatic retransmission request identifier of the corresponding subpacket with the automatic retransmission request identifier of the immediately received subpacket, and if it is the same, determines the corresponding subpacket as a CONTINUE subpacket, and if it is different, the corresponding subpacket is determined as a NEW subpacket. . By using the 2-bit auto-request request identifier, the problem that can occur when AI_SN is used as 1-bit as the auto-request request identifier can be solved.

In other words, even if the ACK or the NAK for the second encoder packet is not transmitted as shown in FIG. 4, the transmitter transmits the value of the auto retransmission request identifier of the third encoder packet as '10'.

At the receiving end, the value of the auto retransmission request identifier corresponding to the sub packet of the third encoder packet, which is the corresponding sub packet, is '10', and the value of the auto retransmission request identifier corresponding to the sub packet of the first encoder packet determined as the immediately preceding sub packet is '00'. ', It is possible to determine that the first subpacket of the third encoder packet c is a new subpacket so that it can be successfully decoded without giving up decoding on the encoder packet c.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

As described above, according to the present invention, when one of a method of using a specific subpacket only for the first (NEW) subpacket and a method of increasing an automatic retransmission request identifier to 2 bits is used, the receiving side receives an ACK or NAK ( NACK) is not transmitted, but if the sender misjudges it as an ACK, it is possible to prevent loss of an encoder packet for a new subpacket transmitted.

Claims (6)

The packet transmission method in a hybrid automatic retransmission request system, characterized in that when the transmission information consists of a plurality of subpackets and transmits the transmission information including the subpacket identifier and the automatic retransmission request identifier. The hybrid automatic retransmission request system according to claim 1, wherein the automatic retransmission request identifier uses an automatic retransmission request identification serial number, and a specific value of the sub packet identifier values is used only when transmitting a new subpacket. How to send a packet in. In case of transmitting the transmission information by configuring a plurality of subpackets, the automatic retransmission request identifier assigned to the subpacket is composed of a plurality of bits to set the automatic retransmission request identifier of the new subpacket differently from the previously transmitted automatic retransmission request identifier. Packet transmission method in a hybrid automatic retransmission request system, characterized in that for transmitting. 4. The method of claim 3, wherein the automatic retransmission request identifier is repeated in the set order for the plurality of bits. The received subpacket is a new subpacket or a contiguous subpacket according to a plurality of received subpackets according to an automatic retransmission request identification serial number of the subpacket or a subpacket identifier of a subpacket transmitted together with the automatic retransmission request identifier. Packet receiving method in a hybrid automatic retransmission request system, characterized in that determining whether the packet. 6. The method of claim 5, wherein when the decoding of the received subpacket uses only the automatic retransmission request identification serial number, the automatic retransmission request identification serial number is configured by a fixed bit value among a plurality of bits. In the case of using the identification sequence number and the sub packet identifier, the automatic retransmission request identification number is one bit, and when the specific value ('00') is included in the sub packet identifier, the hybrid automatic retransmission request system is characterized in that Packet reception method.