KR100595241B1 - How to Send Rate Change Messages for Reverse Channels - Google Patents

Abstract

The present invention relates to a method of transmitting a rate change message to a mobile station in a soft handover region, the method comprising: measuring, at a base station, received power of a reverse channel for forward packet transmission; A method for transmitting a rate change message comprising determining whether to transmit a rate change message using a previous measurement result and transmitting a rate change message of the reverse channel according to the determination result. Even in a link imbalance state, there is an effect that the reception states of the R-CQICH and the R-ACKCH can be maintained well.

Packet transmission, link imbalance, R-ACHCH, R-CQICH, rate change message

Description

Method for Transmitting Rate Change Message for Reverse Channel

1 is a reverse link state transition diagram in accordance with the present invention.

2 is a flowchart illustrating a method of transmitting a rate change message according to the present invention.

The present invention relates to a rate change message transmission method applied to packet transmission in mobile communication, and more particularly, to a rate change message transmission method for a reverse channel state indication channel and a reception success channel.

In a mobile communication system, a channel required for forward packet transmission includes a reverse-channel quality indicator channel (R-CQICH) and a reverse-acknowledge channel (R-CQICH). ACKCH ').

The R-CQICH is used as a channel for informing a base station of a downlink channel state. In mobile communication, the channel environment changes according to the movement of the terminal position, and the modulation and coding methods are changed to suit the channel state in each situation. In other words, when the channel state is good, channel coding is performed so as to have less information redundancy (high coding rate). On the other hand, if the channel condition is not good, channel coding is performed to have more information redundancy (lower coding rate).

As described above, in order to appropriately change the modulation scheme and the coding scheme according to the change of the channel state, information on the current channel state is required. The forward channel condition is measured at the mobile station and delivered to the base station via R-CQICH. In addition, through the R-CQICH, information regarding a serving sector from which base station the mobile station receives packet data is transmitted.

Meanwhile, the R-ACKCH transmits information on whether a received packet has been successfully decoded to a mobile station when a hybrid automatic repeat request (HARQ) is applied in downlink packet transmission. This channel is for In the mobile communication system to which the HARQ method is applied, the mobile station decodes the received packet and checks whether there is an error, and according to the test result, an acknowledgment signal (ACK) or a negative acknowledgment (NACK). Feed back the signal to the base station.

When the base station receives the ACK signal, a new packet is transmitted. When the base station receives the NACK signal, the packet is retransmitted. The mobile station has a diversity gain or coding gain by combining and decoding the retransmitted packet and the first transmitted packet. The ACK / NACK signal transmitted from the mobile station to the base station is transmitted to the base station through the R-ACKCH.

When the terminal is in a soft handover state, the sector in which the state of the forward channel is determined to be the best among the active sectors is determined as a serving sector, and is determined through the R-CQICH. Information about the serving sector and the state of the channel is transmitted to the base station. On the other hand, the R-ACKCH transmits a successful reception of the packet to the base station.

In a soft handover state the mobile station receives a power control command from all valid sectors. Receiving a DOWN command from at least one of the plurality of effective sectors reduces the overall system load by reducing the transmit power. Due to this power control method, the mobile station follows the transmit power command transmitted from the sector with the best reverse channel state among the active sectors.

Thus, a case may occur where a sector having the best forward channel state and a sector having the best reverse channel state are different. That is, although the sector having the best forward channel state is determined as the serving sector, a case may be received when receiving a power control command from the sector having the best reverse channel state. In this case, as the reverse channel condition receives a transmit power down command from a good sector, it reduces the transmit power of the R-CQICH and the R-ACKCH. However, since the reverse channel state of the actual serving sector is not good, there is a problem that the channel state information transmitted through the R-CQICH channel and the information on whether the packet reception transmitted through the R-ACKCH can be stably received cannot be stably received. Occurs. This situation is called Link Imbalance. In the link imbalance state, since information through the R-CQICH and the R-ACKCH is not transmitted stably, there is a problem in that the packet transmitted in the forward direction cannot be stably transmitted.

The present invention has been proposed to solve the above problems, and an object thereof is to provide a method for transmitting a rate change message for stable reception of an R-CQICH and an R-ACKCH even under a link imbalance.

In order to achieve the above object, the present invention provides a method of transmitting a rate change message to a mobile station in a soft handover region, the method comprising: measuring, at a base station, a received power of a reverse channel for forward packet transmission; And determining whether to transmit a rate change message by using the measurement result and a measurement result before a predetermined time, and transmitting the rate change message of the reverse channel according to the determination result.

Meanwhile, the present invention provides a method of transmitting a rate change message to a mobile station in a soft handover region, the method comprising: measuring, at a base station, a reception power of a reverse channel for forward packet transmission; Determining whether to stop the forward packet transmission using, and if the determination result, if continuing to transmit the packet, determining whether to transmit a rate change message and according to the determination result, the reverse direction Sending a rate change message of the channel.

The above objects, features and advantages will become more apparent from the following detailed description taken 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 the link imbalance, the serving sector cannot correctly receive information on channel quality and information on whether packet reception is successful through the R-CQICH and the R-ACKCH. Therefore, packet transmission using the information cannot be performed stably. In this case, a repetition factor of the R-CQICH and the R-ACKCH may be increased through a rate change message, which is one of signaling messages. That is, when information on channel quality and information on whether packet reception is successful is not transmitted stably, the information is repeatedly transmitted to allow the base station to receive the information.

If the base station determines that a link imbalance condition (a state in which the R-CQICH and R-ACKCH cannot be stably received) has occurred in a mobile station, it transmits a rate change message to the mobile station. However, if the mobile station is in a link imbalance, it is also difficult to transmit the rake change message. That is, since the base station cannot correctly receive the channel state information transmitted through the R-ACKCH, the rate message transmitted in the forward direction cannot be stably transmitted.

Therefore, when the terminal is in the soft handover state, even if no link imbalance occurs, the base station can increase the repetition coefficients of the R-CQICH and the R-ACKCH by transmitting a rate change message. However, if the repetition coefficients of the R-CQICH and the R-ACKCH increase, the report on the forward channel state and the packet acknowledgment information is delayed, thereby reducing the throughput of the terminal. Therefore, a rate change message should be transmitted when it is determined that the information reported from the terminal is not being stably received.

Therefore, a variable for determining whether it is time to send the rate change message is needed. Such a variable may be defined as in Equation 1.

In Equation 1, d _cqi (k) refers to a variable for determining a link state at time k. Α is a value between 0 and 1, and is an update index for d _cqi (k), and Val _cqi is a value indicating whether information received from the current R-CQICH is valid information. Val _cqi has a value of 1 when r _cqich > gamma _cqi and a value of 0 when r _cqich <gamma _cqi . Where r _cqich is the energy of the received R-CQICH and γ _cqi is a predetermined threshold.

1 is a reverse link state transition diagram in accordance with the present invention. Referring to FIG. 1, a link state according to the present invention may be represented by a lock state 11, a rate change state 12, and an unlock state 13. The criterion for transitioning the states is determined by the d _cqi (k).

That is, using d _cqi (k), a link state may be defined as follows. That is, when the d _cqi (k) value is equal to or greater than the first reference value, the state transitions to the locked state 11 (14). The locked state means a state in which the R-CQICH and the R-ACKCH are stably received.

On the other hand, when the d _cqi (k) value is less than the first reference value, the state changes to the Rate Change State 12 (15). The rate change state 12 means a state of transmitting a rate change message because the state of the terminal is changing. The rate change state 12 is maintained when it is below the first reference value and above the second reference value.

If the d _cqi (k) value is less than the second reference value, the state transitions to the Unlock State 13 (16). In the non-fixed state, since information received from the R-CQICH and the R-ACKCH is not valid information, data transmission to the terminal is stopped. When the d _cqi (k) value becomes equal to or higher than the second reference value, the state transitions to the rate change state 12 (17).

2 is a flowchart illustrating a method of transmitting a rate change message according to the present invention. First, the base station continuously measures the transmission power of the R-CQICH and the R-ACKCH transmitted from the mobile station (S21). It is determined whether to transmit a rate change message using the measured value and the previously measured value (S22). In this case, it may be determined whether to transmit a rate change message using Equation 1. If deemed necessary, a rate change message is sent to the mobile station to increase the repetition coefficient (S23).

On the other hand, in the process of transmitting the rate change message, as a result of measuring the transmission power of the R-CQICH and R-ACKCH, the service is stopped if it is less than the reference value. Then, it waits until the transmission power of the R-CQICH and the R-ACKCH is greater than or equal to the reference value.

As described above, in the present invention, the rate change state is defined before the reverse channel state becomes an unfixed state, that is, a state in which information transmitted from the R-CQICH and the R-ACKCH cannot be correctly received. In the rate change state, a rate change message is transmitted to the mobile station, and the mobile station increases the repetition factor according to the received rate change message. On the other hand, in the non-fixed state, if the state of the reverse channel gradually becomes good, the rate change message is transmitted, thereby reducing the repetition coefficient of the signal transmitted from the mobile station.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the 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 the effect of maintaining the reception state of the R-CQICH and R-ACKCH well, even in a link imbalance state.

Claims (9)

A method of transmitting a rate change message to a mobile station in a soft handover area, Measuring, at the base station, the received power of the reverse channel for forward packet transmission; Determining whether to transmit a rate change message by using the measurement result and a measurement result before a predetermined time; And Transmitting a rate change message of the reverse channel according to the determination result Rate change message transmission method comprising a. The method of claim 1, The reverse channel is a reverse channel status indicator channel (R-CQICH; Reverse-Channel Quality Indicator Channel (R-CQICH)) and a reverse reception success confirmation channel (R-ACKCH) characterized in that the reverse-acknowledge channel (R-ACKCH) transmission method. The method of claim 2, And the rate change message includes repetition factor information of the reverse channel. The method of claim 3, wherein Determining whether to send the rate change message,

Calculating a value; And Determining whether to transmit a rate change message according to a comparison result of the d _cqi (k) value and a predetermined reference value; Rate change message transmission method comprising a. (d _cqi (k) is a variable corresponding to the received power of the reverse channel at time k, α is a value between 0 and 1, which is an update index for d _cqi (k), and Val _cqi is currently received from R-CQICH) Val _cqi is 1 for r _cqich > γ _cqi , 0 for r _cqich <γ _cqi , r _cqich is the energy of the received R-CQICH, and γ _cqi is A predetermined threshold The method of claim 4, wherein and if the value of d _cqi (k) is less than or equal to the reference value, determining that the rate change message is to be sent. A method of transmitting a rate change message to a mobile station in a soft handover area, Measuring, at the base station, the received power of the reverse channel for forward packet transmission; Determining whether to stop the forward packet transmission using the measurement result; Determining whether to transmit a rate change message when continuing packet transmission; And Transmitting a rate change message of the reverse channel according to the determination result Rate change message transmission method comprising a. The method of claim 6, The method for determining whether to stop the packet transmission and whether to transmit the rate change message, characterized in that the determination is made using the measurement result and the previous measurement result. The method of claim 7, wherein And if the received power value of the reverse channel is equal to or greater than a first reference value, determine to continue the forward packet transmission. The method of claim 8, And if the received power value of the reverse channel is less than or equal to a second reference value, determine to transmit the rate transfer message. (2nd reference value> 1st reference value)

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