KR101025049B1 - Apparatus and method for transmission of retransmission packet in communication system by using H-ARQ - Google Patents

Abstract

The present invention is to provide a retransmission packet transmission apparatus and a method in a communication system using the H-ARQ method, the retransmission to the extent that the error does not occur by the H-ARQ when an error occurs in the initial transmission packet retransmission A packet scheduler configured to set a power and then select one of the remaining users, and perform packet scheduling to determine a transmission power to be applied to data of a new user; A plurality of extension code combiners for receiving an output of the packet scheduler and combining extension codes; A plurality of power combiners each receiving outputs of the plurality of extension code combiners and combining the powers determined by the packet scheduler; Including a summing unit for summing the outputs of the plurality of power combiner unit and transmits, when the transmission error occurs in the transmission packet in the communication system using the H-ARQ method to simultaneously transmit the new user data with the retransmission packet to improve the overall throughput It can be improved.

Description

Apparatus and method for transmission of retransmission packet in communication system by using H-ARQ}

1 is a block diagram of a communication system using a general H-ARQ scheme,

2 is a block diagram of an apparatus for transmitting a retransmission packet in a communication system using a conventional H-ARQ scheme.

3 is a flowchart illustrating a retransmission packet transmission method in a communication system using a conventional H-ARQ scheme.

4 is a block diagram of an apparatus for transmitting a retransmission packet in a communication system using the H-ARQ scheme according to the present invention.

5 is a flowchart illustrating a retransmission packet transmission method in a communication system using the H-ARQ scheme according to the present invention.

Explanation of symbols on the main parts of the drawings

100: packet scheduler 110: code selection unit

120: retransmission packet power calculation unit 130: new user selection unit

140: new user transmission power calculation unit 210 ~ 240: extension cord coupling unit

310 to 340: power coupling unit 400: summing unit

The present invention relates to a communication system using a hybrid automatic retransmission query (H-ARQ) method, in particular, when a transmission error occurs in a transmission packet in a communication system using the H-ARQ method simultaneously with retransmission packet and new user data An apparatus and method for retransmitting a packet in a communication system using an H-ARQ scheme suitable for transmitting to improve overall throughput.

In general, H-ARQ is a method in which forward error correction (FEC) and ARQ are combined to improve packet data transmission efficiency. FEC can correct the data to a certain extent even if there is an error in the data to be transmitted, and ARQ is a method of retransmitting data that failed to be transmitted. Therefore, when the receiver fails to recover the packet, the receiver requests retransmission to the sender and combines the retransmitted data with the stored data before decoding to achieve better performance.

In the 3rd Generation Partnership Project (3GPP), High Speed Downlink Packet Access (HSDPA) technology is a packet-only method added to the downlink for high-speed packet transmission, and adaptive modulation and coding (AMC) and H-ARQ are used to increase transmission efficiency. Use the method.

Therefore, HS-DSCH (High Speed Downlink Shared Channel) used for packet transmission in HSDPA does not apply power control, and always checks the state of the transmission channel every cycle of packet transmission to select the optimal modulation and coding. Transmit with the same transmit power.

1 is a block diagram of a communication system using a general H-ARQ scheme.

Here, reference numeral 10 denotes a terminal for allowing a user to use a communication system, 20 denotes a base station connected to the terminal 10 to perform signal processing, and 30 denotes a control station for controlling the base station 20.

The base station 20 has a packet scheduler.

Thus, data is asynchronously transmitted from the base station 20 to the terminal 10 in a downlink according to a packet scheduler's decision, and a response signal is synchronously transmitted to the uplink within a predetermined time.

The response signal indicates whether the packet is recovered by the receiving side H-ARQ, and based on this information, the packet scheduler determines whether the packet is retransmitted.

2 is a block diagram of a retransmission packet transmission apparatus in a communication system using a conventional H-ARQ scheme.

As shown therein, a packet scheduler 21 for performing packet scheduling; An extension code combining unit (22) for combining the output of the packet scheduler (21) with the extension code; It is composed of a power combiner 23 for combining and outputting the output of the extension code combiner 22 and the High Speed Downlink Packet Access (HSDPA) power.

3 is a flowchart illustrating a retransmission packet transmission method in a communication system using a conventional H-ARQ scheme.                         

As shown in the drawing, the terminal 10 receives channel quality indicator (CQI) information measured by using a common pilot channel (CPICH) from the base station 20 through a high speed-dedicated physical control channel (HS-DPCCH). Step ST1; After the reception, the base station 20 performs a step of determining and transmitting modulation (Quadrature Phase Shift Keying (QPSK) or 16 Quadrature Amplitude Modulation (16QAM)) and a coding rate suitable for the channel state (ST2).

The operation of the prior art configured as described above will be described in detail with reference to the accompanying drawings.

First, HSDPA's HS-DSCH (High Speed-Dedicated Signaling Logical Channel) selects MCS (Modulation and Coding Set) suitable for the current channel state by using CQI (Channel Quality Indicator) information. By using the implemented scheme to ensure the performance of the HS-DSCH.

Here, the HS-DSCH has a structure of transmitting with a constant transmission power regardless of the channel state.

Therefore, when the terminal 10 transmits the CQI information measured using the Common Pilot Channel (CPICH) to the base station through the HS-DPCCH (High Speed Dedicated Control Channel), the base station may have a modulation method (QPSK or 16QAM) suitable for the channel state. The coding rate is determined and transmitted.

The packet having an error in transmission by the H-ARQ method is retained at the receiving end and then decoded by combining with the retransmitted packet.                         

However, this conventional technology has the following problems.

That is, when an error occurs, the H-ARQ passes through the channel decoder in combination with the retransmitted packet data without discarding the packet data. Therefore, when transmitting a retransmission packet, the MCS that transmitted the original packet must be selected and sent regardless of the current channel state known by the CQI. In this case, the base station uses all of the power allocated to the HS-DSCH. When the retransmission packet is combined with the packet having an error in the initial transmission, the probability of error is remarkably reduced, and thus, when all the power allocated to the HS-DSCH is used for transmission during the error packet retransmission, power may be wasted.

Accordingly, the present invention has been proposed to solve the above-mentioned general problems, and an object of the present invention is to provide new user data with a retransmission packet when a transmission error occurs in a transmission packet in a communication system using the H-ARQ method. The present invention provides a retransmission packet transmission apparatus and method in a communication system using an H-ARQ scheme that can simultaneously transmit to improve overall throughput.

Retransmission packet transmission apparatus in a communication system using the H-ARQ method according to an embodiment of the present invention to achieve the above object,

If an error occurs in the initial transmission packet and retransmits, it sets the retransmission power enough that the error does not occur by H-ARQ, selects one of the remaining users, and decides the transmission power to be applied to the new user's data. A packet scheduler for performing packet scheduling; A plurality of extension code combiners for receiving an output of the packet scheduler and combining extension codes; A plurality of power combiners each receiving outputs of the plurality of extension code combiners and combining the powers determined by the packet scheduler; The technical configuration is characterized in that it comprises a summing unit for transmitting the sum of the output of the plurality of power combiner.

Retransmission packet transmission method in a communication system using the H-ARQ method according to an embodiment of the present invention to achieve the above object,

A first step of setting retransmission power such that an error does not occur by the H-ARQ when an error occurs in the initial transmission packet and retransmits; A second step of selecting one of the remaining users after the first step and determining a transmission power to be applied to data of the new user; And a third step of multiplexing the retransmission packet and the new user data after the second step with the extension code, applying the respective powers, and transmitting the sum.

Hereinafter, an embodiment according to the present invention, an apparatus for transmitting a retransmission packet in a communication system using the H-ARQ scheme, and a method thereof will be described with reference to the accompanying drawings.

4 is a block diagram of an apparatus for transmitting a retransmission packet in a communication system using the H-ARQ scheme according to the present invention.

As shown in the figure, if an error occurs in the initial transmission packet and retransmission occurs, the retransmission power is set so that the error does not occur by H-ARQ, and then one of the remaining users is selected and applied to the new user's data. A packet scheduler 100 for performing packet scheduling to determine transmission power to be performed; A plurality of extension code combiners 210 to 240 for receiving the output of the packet scheduler 100 and combining the extension codes; A plurality of power combiners 310 to 340 which receive outputs of the plurality of extension code combiners 210 to 240, respectively and combine the powers determined by the packet scheduler 100; It includes a summing unit 400 for summing and transmitting the output of the plurality of power combiner (310 ~ 340).

The packet scheduler 100 includes: a code selector 110 which selects a spreading code and provides extension codes to the plurality of extension code combiners 210 to 240; A retransmission packet power calculator 120 that calculates retransmission packet power and provides power 1 to the first power combiner 310 among the plurality of power combiners 310 to 340; A new user selector which selects a new user and outputs the packet scheduler 100 to second to Nth extension code combiners 220 to 240 among the plurality of extension code combiners 210 to 240 ( 130); The second to N th power combiners 320 to 340 are received from the plurality of power combiners 310 by receiving the retransmitted packet power calculated by the retransmission packet power calculator 120 and calculating the transmit power of a new user. And a new user transmit power calculator 140 for supplying power 2 to power N, respectively.

The new user transmit power calculation unit 140 calculates the transmit power of the new user and sets the power allocated to the new user so that the power allocated to the retransmission packet does not exceed the power allocated to the HS-DSCH. It is characterized by.

5 is a flowchart illustrating a retransmission packet transmission method in a communication system using the H-ARQ scheme according to the present invention.

As shown therein, when an error occurs in the initial transmission packet and retransmission, a first step (ST11) (ST12) of setting the retransmission power such that the error does not occur by the H-ARQ at the receiving end; A second step (ST13) of selecting one of the remaining users after the first step and determining transmission power to be applied to data of the new user; And a third step (ST14 to ST16) of multiplexing the retransmission packet and the new user's data with the extension code after the second step, applying the respective powers, and then adding them together.

In the second step, when the transmission power to be applied to the new user's data is set, the power allocated to the new user does not exceed the power allocated to the HS-DSCH when combined with the power allocated to the retransmission packet. It is done.

An apparatus for transmitting a retransmission packet and an operation of the method in a communication system using the H-ARQ scheme according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First of all, the present invention is to improve overall throughput by simultaneously transmitting new user data together with retransmission packets when a transmission error occurs in a transmission packet in a H-ARQ communication system.

Therefore, in order to implement the present invention, the base station 20 calculates a code selector 110, a retransmission packet power calculator 120, a new user selector 130, and a new user transmit power from the packet scheduler 100 of the transmitter. Add section 140. In addition, the extension cord coupling unit 210 to 220 and the power coupling unit 310 to 340 are set in plural numbers.

Thus, in the packet scheduler 100, the code selector 110 designates a spreading code. By specifying the spreading code as described above, the extension code is provided to the plurality of extension code coupling units 210 to 240.

In addition, the retransmission packet power calculator 120 calculates the transmission power of the retransmission packet and provides power 1 to the first power combiner 310 among the plurality of power combiners 310 to 340.

In addition, the new user selector 130 selects a new user. The new user is selected so that the output of the packet scheduler 100 is provided to the second to Nth extension code combining units 220 to 240 among the plurality of extension code combining units 210 to 240.

In addition, the new user transmit power calculator 140 calculates the power transmitted to the new user. Thus, the new user transmission power calculator 140 receives the retransmission packet power calculated by the retransmission packet power calculator 120, calculates the transmission power of the new user, and selects second to second powers from the plurality of power combiner 310. The N power combiners 320 to 340 supply power 2 to power N, respectively. The new user transmit power calculation unit 140 calculates the transmit power of the new user and sets the power allocated to the new user so as not to exceed the power allocated to the HS-DSCH when the power allocated to the retransmission packet is combined.                     

The plurality of extension code combiners 210 to 240 receive the output of the packet scheduler 100 and combine the extension codes. Thus, the first extension code combiner 210 multiplies the output of the packet scheduler 100 by the extension code 1 selected by the code selector 110 and outputs the output to the first power combiner 310. In addition, the second to Nth extension code combiners 220 to 240 multiply the extension code 2 to the extension code N selected by the code selector 110 with the value selected and output by the new user selector 130, respectively. To the N-th power combiner 320 to 340.

In addition, the plurality of power combiners 310 to 340 receive the outputs of the plurality of extension code combiners 210 to 240, respectively, and combine the powers determined by the packet scheduler 100. Thus, the first power combiner 310 multiplies the output of the first extension code combiner 210 by the power 1 calculated by the retransmission packet power calculator 120 and outputs the multiplier 400 to the adder 400. Also, the second to Nth power combiners 320 to 340 may convert the power 2 to power N calculated by the new user transmit power calculator 140 and the outputs of the second to Nth extension code combiners 220 to 240. Each of them is multiplied and output to the adder 400.

In addition, the adder 400 adds and transmits the outputs of the plurality of power combiners 310 to 340.

Referring to the operation flow of the present invention as follows.

First, the packet scheduler 100 of the base station 20 determines whether an error occurs in the initial transmission packet and needs to be retransmitted (ST11).

Therefore, when an error occurs in the initial transmission packet and needs to be retransmitted, the retransmission packet power calculation unit 120 of the packet scheduler 100 at the receiving end of the base station 20 retransmits the error such that the error does not occur by H-ARQ. The power is set (ST12).

The new user selector 130 selects one of the remaining users to increase throughput.

Then, the new user transmit power calculator 130 determines the transmit power to be applied to the data of the new user.

At this time, the power allocated to the new user calculated by the new user transmit power calculator 130 should be set so as not to exceed the power allocated to the HS-DSCH when it is combined with the power allocated to the retransmission packet (ST13).

Then, the retransmission packet and the new user data are combined and multiplexed by the plurality of extension code combining units 210 to 240 as extension codes (ST14).

Then, each power is applied to the plurality of power combiners 310 to 330 and then multiplied by the outputs of the plurality of extension cord combiners 210 to 240 to multiplex them (ST15).

The signal combined with the extension code and the power is added and transmitted by the adder 400 (ST16).

As described above, the present invention improves the overall throughput by simultaneously transmitting new user data together with retransmission packets when a transmission error occurs in a transmission packet in a communication system using the H-ARQ scheme.

Although preferred embodiments of the present invention have been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the apparatus for transmitting a retransmission packet in the communication system using the H-ARQ method and the method together with the retransmission packet when a transmission error occurs in the transmission packet in the communication system using the H-ARQ method By simultaneously sending new user data, the overall throughput is improved.

Since the communication system using the H-ARQ receives the initial error packet and the retransmission packet in combination, the initial transmission error is set high. Therefore, about 10% of frequent retransmission packets are generated. According to the present invention, the power remaining in the retransmission can be used efficiently to increase the throughput, which can reduce the average delay felt by the user. Will bring.

Claims (5)

If an error occurs in the initial transmission packet and retransmits, it sets the retransmission power enough that the error does not occur by H-ARQ, selects one of the remaining users, and decides the transmission power to be applied to the new user's data. A packet scheduler for performing packet scheduling; A plurality of extension code combiners for receiving an output of the packet scheduler and combining extension codes; A plurality of power combiners each receiving outputs of the plurality of extension code combiners and combining the powers determined by the packet scheduler; Including a summation unit for transmitting the sum of the output of the plurality of power combiner, The packet scheduler may include a code selector configured to select a spreading code and provide an extension code to the plurality of extension code combiners; A retransmission packet power calculator for calculating retransmission packet power and providing power 1 to a first power combiner among the plurality of power combiners; A new user selector configured to select a new user and provide an output of the packet scheduler to second to Nth extension code combiners among the plurality of extension code combiners; And receiving a retransmission packet power calculated by the retransmission packet power calculation unit, calculating a transmission power of a new user, and supplying power 2 to power N to the second to Nth power combining units from the plurality of power combining units, respectively. A user transmission power calculation unit, Retransmission packet transmission apparatus in a communication system using the H-ARQ method, characterized in that the transmission power of the new user is set not to exceed the power allocated to the HS-DSCH when combined with the power allocated to the retransmission packet. delete delete A first step of setting retransmission power such that an error does not occur by the H-ARQ when an error occurs in the initial transmission packet and retransmits; A second step of selecting one of the remaining users after the first step and determining a transmission power to be applied to data of the new user; And a third step of multiplexing the retransmission packet and the new user's data after the second step with an extension code, applying the respective powers, and then adding the powers together. In the second step, when the transmission power to be applied to the data of the new user is determined, the power allocated to the new user does not exceed the power allocated to the HS-DSCH when summed with the power allocated to the retransmission packet. Retransmission packet transmission method in a communication system using the H-ARQ method. delete

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