KR101122079B1 - Method for Transmitting ACK/NACK Signal and Determining ACK/NACK in Uplink Pack Transmission - Google Patents

Abstract

The present invention provides a method for transmitting an ACK / NACK signal for a packet transmitted on an uplink, the method comprising: receiving a packet transmitted from a mobile station, decoding the packet, and determining whether the reception is successful; Transmitting an acknowledgment (ACK) signal or a failing signal (NACK) signal according to the determination result, allocating and transmitting different transmission powers of the reception success signal and the reception failure signal, and controlling higher layer transmission power of the NACK signal. The present invention relates to a method for transmitting or receiving a received signal, comprising the step of turning on and off by the method. The method for efficiently operating a system by optimizing downlink ACK / NACK transmission power according to a reception quality request of each signal has an effect. have.

Mixed Automatic Retransmission Request (HARQ), Receive Success, Enhanced Data Channel

Description

A method for transmitting an acknowledgment of a successful acknowledgment and a method of determining an acknowledgment of a successful acknowledgment in uplink packet transmission

1 is a diagram illustrating an embodiment of a method for allocating an acknowledgment (ACK / NACK) signal transmission power according to the present invention.

2 is a diagram illustrating another embodiment of a method for allocating ACK / NACK signal transmission power according to the present invention;

The present invention relates to a method for transmitting an acknowledgment (ACK / NACK) signal, and more particularly, when a packet is transmitted through an uplink enhanced data channel, a base station (Node-B) receives a packet, The present invention relates to a method of transmitting an acknowledgment grant (ACK / NACK) signal and a method of determining an acknowledgment of grant success in a mobile station receiving the same.

Currently, in 3GPP uplink, a hybrid automatic repeat request (HARQ) is performed on an enhanced-uplink dedicated channel (E-DCH), which is a channel for transmitting packets at high speed. Discussing the application of the technology.

When the HARQ is applied to the uplink, when a packet is decoded by the Node-B receiving the packet, a reception failure (hereinafter referred to as 'NACK') signal is received when there is an error, and when the packet reception is successful, reception ( A 'ACK' signal is transmitted to a user equipment (hereinafter referred to as 'UE'). Whether the reception was successful is transmitted through a 1-bit ACK / NACK channel. Upon receiving the NACK signal, the UE retransmits the previously transmitted packet, and the base station combines decoding information about the same packet previously received and decoding information about the retransmitted packet in various ways to improve reception performance of the retransmitted packet. do. In this case, the ACK / NACK signal is a 1-bit signal transmitted on the downlink and is usually not protected by channel coding or the like. Therefore, very large transmit power is required for the UE to receive it successfully.

In addition, in the HARQ scheme, the NACK signal having a higher need to be successfully transmitted among the ACK / NACK signals is used. The reason for this is as follows. If the UE incorrectly receives the ACK signal as the NACK signal, the Node B retransmits the packet already successfully received, and in this case, no big problem occurs. However, when the UE incorrectly receives the NACK signal as the ACK signal, it is determined that the packet is successfully transmitted to the Node B, and transmits the next packet. As a result, a packet in which a reception error occurs is no longer recovered at the physical layer, and is recovered because the recovery is performed at a higher layer, thereby causing a problem in that a transmission delay for the packet increases.

On the other hand, when the UE is moving at a high speed or in a soft handover state with a large number of Node Bs, the link state between the UE and Node B may be very poor, and in this case, an appropriate level of ACK / NACK reception performance may be achieved. The ACK / NACK transmit power (especially NACK transmit power) to obtain may be unrealistically large.

Considering all the above possibilities, it is necessary to make downlink ACK / NACK transmission power appropriately set according to the situation, but the 3rd Generation Project Partnership (3GPP) E-DCH system is still being designed, and the downlink ACK / NACK transmission method Is not yet defined.

The present invention has been proposed to solve the above problems, and provides an method for efficiently transmitting an ACK / NACK signal for uplink packet transmission and a method for determining the ACK / NACK of a received signal. have.

In order to achieve the above object, the present invention provides a method for transmitting an acknowledgment (ACK / NACK) signal for a packet transmitted on an uplink, comprising: receiving a packet transmitted from a mobile station, decoding the packet, Determining whether the reception is successful and transmitting an acknowledgment (ACK) signal or a failing signal (NACK) signal according to the determination result, and differently allocating transmission powers of the reception success signal and the reception failure signal. It is done by

The present invention also provides a method for determining an acknowledgment of receipt (ACK / NACK) for a packet transmitted on an uplink in a mobile station, wherein the mobile station transmits the packet on the uplink, and the mobile station transmits the packet to the transmitted packet. Determining whether the reception is successful, if the signal received through the ACK / NACK channel has a predetermined reference value or more, and determines that it is a successful reception (ACK), otherwise it is determined that the reception failure Is done.

Meanwhile, the present invention provides a method for transmitting an acknowledgment (ACK / NACK) signal for a packet transmitted on an uplink, the base station receiving information on an acknowledgment (ACK / NACK) signal transmission method from an upper layer. And receiving a packet transmitted from the mobile station, decoding the packet to determine whether the reception is successful, and transmitting an ACK signal or a NACK signal according to the determination result. And transmitting based on the signal transmission method received from the higher layer.

A method for determining an acknowledgment (ACK / NACK) of a packet transmitted on an uplink in a mobile station, the method comprising: transmitting a packet on an uplink by the mobile station and determining whether the mobile station has received an acknowledgment of the transmitted packet However, on the basis of the reference value information transmitted from the base station, if the transmission power of the signal received through the ACK / NACK channel has a predetermined reference value or more, it is determined as a reception success (ACK), otherwise the reception failure And determining (NACK).

The above-mentioned objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.                     

In accordance with the demand for high-speed uplink, a wireless mobile communication system is discussing a high-speed packet transmission scheme in uplink in which data is transmitted from a terminal to a base station, among which an enhanced-uplink dedicated channel (Enhanced-uplink Dedicated Channel); Hereinafter, 'E-DCH') is a representative example.

A mobile station (UE) transmits a packet at high speed through the E-DCH, and the base station Node B decodes the transmitted packet to determine whether reception is successful. According to the determination result, the base station transmits a physical layer reception success (hereinafter, 'ACK / NACK') signal, thereby performing a fast automatic repeat request (ARQ) operation.

At this time, the reception quality required for the reception success (hereinafter 'ACK') signal required by the system and the reception quality required for the reception failure (hereinafter 'NACK') signal may be different from each other. Therefore, it is necessary to set transmission power differently when transmitting an ACK signal and transmitting a NACK signal through the ACK / NACK channel.

Meanwhile, if necessary, it may be efficient to turn off transmission power (DTX) for the NACK signal and detect only the ACK signal through a threshold. Accordingly, in the present invention, the transmission power of the ACK signal and the NACK signal transmitted by the base station can be set differently, and the ACK / NACK signal transmission power parameter for not transmitting the NACK signal is defined.

In the ACK / NACK signal transmission, the transmission power of the ACK and NACK signal may be different. In general, a larger problem occurs when there is an error in the transmission of the NACK signal than when there is an error in the ACK signal, so that more power is required for the transmission of the NACK signal. Therefore, if the transmission power of the ACK and the NACK signal are transmitted in the same manner, the transmission power is lower than the transmission power required for the NACK signal, and the transmission power is higher than the transmission power required for the ACK signal.

Therefore, in transmitting the ACK / NACK signal, if the transmission power is set differently when transmitting the ACK signal and when transmitting the NACK signal, the ACK / NACK signal can be transmitted more efficiently.

1 is a diagram illustrating an embodiment of a method for allocating ACK / NACK transmission signal power according to the present invention. Referring to FIG. 1, a transmission power of a downlink ACK / NACK signal may be changed to be transmitted by a binary phase shift key (hereinafter, referred to as 'BPSK').

The UE may determine that an ACK is received when the received signal transmitted through the downlink ACK / NACK channel indicates a positive voltage and that a NACK is received when the negative signal indicates a negative voltage.

2 is a diagram illustrating another embodiment of a method for allocating ACK / NACK transmission signal power according to the present invention. Referring to FIG. 2, when a base station Node-B intends to transmit an ACK / NACK signal, a downlink channel environment may be poor, and thus power for ACK / NACK signal transmission may be insufficient. In such a case, it is necessary to guarantee the successful transmission of the NACK signal prior to the successful transmission of the ACK signal.

As described above, in order to ensure the successful transmission of the NACK signal, the base station Node-B can allocate transmit signal power as follows. That is, the transmission power is turned off for the NACK (DTX), and the signal can be transmitted with a constant power for the ACK. In addition, the UE may determine an ACK / NACK using a threshold. That is, the UE determines that an ACK is received when the received signal for the downlink ACK / NACK channel exceeds a predetermined threshold, and when it is not exceeded, the UE receives an NACK.

On the other hand, if a threshold for detecting ACK / NACK is set high enough on the UE side, even when power for ACK signal transmission is insufficient, the probability of successful transmission of the NACK signal can be guaranteed to a desired level.

The following is a first embodiment for efficiently setting the transmission power setting of the ACK / NACK signal according to the present invention.

In general, the transmission power of downlink-oriented channels for each UE may be determined as a power offset value for downlink dedicated physical data channel (DPDCH) transmission power. Therefore, even in the transmission of the ACK / NACK signal in the downlink, it is possible to determine the power of the ACK / NACK signal through the power offset value for the downlink DPDCH transmission power.

That is, the ACK / NACK transmission power may be determined differently by specifying parameters for the ACK / NACK transmission power between the Radio Network Controller (hereinafter, 'RNC') and the base station Node-B. That is, if PO _ACK is referred to as the power offset for downlink DPDCH during ACK signal transmission and PO _NACK is referred to as the power offset for downlink DPDCH during NACK signal transmission, ACK / NACK is transmitted by transmitting the parameters from the RNC to the base station. The transmission power of the signal can be controlled differently. For example, PO _NACK = 0 may be used when DTXing a NACK signal.

Preferably, when the ACK / NACK is received by the UE, the PO _ACK and PO _NACK values are selected so that the BPSK detection or threshold detection and the threshold detection can be selected when the threshold detection is performed. It must also be communicated to the side.

On the other hand, when transmitting the ACK / NACK signal to the UE in the soft handover state, it is possible to always DTX the NACK signal. That is, in allocating downlink ACK / NACK transmission power to a UE in soft handover state, PO _ACK is a power offset for downlink DPDCH during ACK transmission, and NACK transmission power is defined as 0 (off). Can be. Preferably, the PO _ACK value should also be delivered to the UE side so that the UE side can select an appropriate threshold for ACK / NACK reception.

The following is a second embodiment for efficiently setting the transmission power setting of the ACK / NACK signal according to the present invention.

The RNC informs Node B whether the NACK signal transmission power is off (DTX) in consideration of a soft handover state of each UE. For example, when the value of the variable (NACK_PW_OFF) received from the upper layer is 1, the NACK signal transmission power is 0, and when the variable value is 0, the NACK signal transmission power is determined by the RNC. Can be sent. The transmit power of the ACK / NACK signal is transferred from the RNC to the Node B.

In the above example, when the NACK signal transmission power is not 0, the transmission power determined by the RNC may be defined as one variable so that the transmission powers of the ACK signal and the NACK signal coincide to facilitate implementation. Can be. That is, the PO _{ACK / NACK} value may be defined as a power offset for the downlink DPDCH during ACK / NACK transmission. In this case, the PO _{ACK / NACK} value should also be delivered to the UE side so that the UE side can select an appropriate threshold for ACK / NACK reception.

On the other hand, for more efficient Node B power use, the transmission power of the ACK signal and the NACK signal may be defined as two independent variables and set independently of each other as follows. That is, as a power offset for the downlink DPDCH during the ACK transmission, as a power offset for the downlink DPDCH during PO _ACK value and, NACK transmission, it is possible to define the _NACK value PO, respectively. In this case, the PO _ACK value should also be transmitted to the UE side so that the UE side can select an appropriate threshold for ACK / NACK reception.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

The present invention has an effect that can efficiently operate the system by optimizing the downlink ACK / NACK transmission power according to the reception quality requirements of each signal.

Claims (16)

In the base station, in the method of transmitting a successful reception (ACK / NACK) signal for the packet transmitted on the uplink, Receiving transmission method information on the reception success (ACK / NACK) signal from an upper layer, the information on whether the transmission method information is transmitted in the first transmission method or the second transmission method and the Receiving step comprising the information on the transmission power for transmitting a successful reception (ACK / NACK) signal; Setting transmission power of the ACK / NACK signal of a packet received from a mobile station based on the received transmission scheme information; And Transmitting the reception success or failure (ACK / NACK) signal to the mobile station according to the set transmission power, The first transmission method transmits the reception success or failure (ACK / NACK) signal by a binary phase shift key (BPSK) method. In the second transmission scheme, a reception success (ACK) signal among the reception success (ACK / NACK) signals is transmitted with a specific power, and the reception failure (NACK) signal is turned off (DTX). How to send a successful signal. The method of claim 1, The transmission scheme information includes information on whether a handover state of the mobile station, How to send a successful signal. The method of claim 1, When the reception success status (ACK / NACK) signal is transmitted to the mobile station in the second transmission scheme, The mobile station comprising: If the transmit power of the ACK / NACK signal exceeds a specific threshold, it is determined as the ACK signal. If the transmission power of the reception success (ACK / NACK) signal does not exceed the specific threshold value is determined as the reception failure (NACK) signal, How to send a successful signal. The method of claim 1, When the reception success status (ACK / NACK) signal is transmitted in the first transmission scheme, The reception success (ACK) signal is transmitted with a positive voltage, The reception failure (NACK) signal is transmitted with a negative voltage, How to send a successful signal. The method of claim 4, wherein When the reception success status (ACK / NACK) signal is transmitted in the first transmission scheme, The base station comprises: Determining the transmission power of the reception success (ACK) signal among the reception success (ACK / NACK) signals to match the transmission power of the reception failure (NACK) signal, How to send a successful signal. The method of claim 4, wherein When the reception success status (ACK / NACK) signal is transmitted in the first transmission scheme, The base station comprises: Determining the transmission power of the reception success (ACK) signal of the reception success (ACK / NACK) signal independently of the transmission power of the reception failure (NACK) signal, How to send a successful signal. The method of claim 1, The information on the set transmission power is transmitted to the mobile station, How to send a successful signal. The method of claim 1, The transmission scheme information includes a power offset value for transmission power of a downlink specific dedicated channel. How to send a successful signal. The method of claim 8, The downlink specific dedicated channel is characterized in that the Dedicated Physical Data Channel (DPDCH), How to send a successful signal. delete delete delete delete delete delete delete

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