KR100954023B1 - Method for setting power of channel message, and communication system for the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a method for setting the power of a random access channel (RACH) message used for random access, and to a communication system therefor, the communication system being transmitted after a random access channel (RACH) preamble. Providing a method of setting a proper channel message power and a communication system for allocating power of a random access channel (RACH) message to an appropriate level, thereby reducing the power consumption of the mobile terminal, and also over-allocated power The invention minimizes the interference caused by the.

Random Access, Random Access Channel (RACH), Random Access Channel (AICH) Preamble, Random Access Channel (RACH) Messages

Description

Method for setting power of channel message, and communication system for the same}

1 illustrates transmission power of a random access channel (RACH) preamble and a message.

2 is a view showing a configuration example of a base station to which the present invention is applied.

3 is a view showing a configuration example of a mobile terminal to which the present invention is applied.

4 is a diagram illustrating a power setting procedure of a channel message according to an embodiment of the present invention.

TECHNICAL FIELD The present invention relates to a communication system, and more particularly, to a method for setting power of a random access channel (RACH) message used for random access and a communication system therefor.

In a code division multiple access (CDMA) system, when a mobile station attempts random access to the system side, it is a random access channel (hereinafter referred to as RACH). The preamble is transmitted with a series of increased powers, and the base station informs the detection of the RACH preamble through an Acquisition Indicator CHannel (hereinafter abbreviated as AICH). Accordingly, the mobile station transmits information for accessing the system side using a RACH message.

The conventional procedure for random access in the above existing CDMA system is described in more detail. Reference is made to FIG. 1.

1 is a diagram illustrating transmission power of a RACH preamble and a message.

When the mobile terminal attempts random access to the system side (base station), an open-loop power control method is used.

The mobile terminal initially sets the initial power of the RACH preamble to P ₀ [dB] at n = 0.

At this time, the initial power P ₀ [dB] is set based on the path loss measured between the mobile station and the base station.

The base station transmits a positive acknowledgment message to the mobile station when the preamble is detected while monitoring the preamble transmitted by the mobile station.

The mobile station increases the power of the preamble by a value of ΔP ₀ [dB] until the positive acknowledgment message (n = N) is received from the base station.

On the other hand, in order to receive a positive response from the base station in a short time, it is necessary to set a high value of ΔP ₀ [dB], which is a ramping power increase of the preamble.

The mobile station adds P _pm [dB] to the last preamble power at the time of receiving a positive acknowledgment message (n = N) to power the RACH message for transmitting information necessary for random access. Set. The P _pm value used at this time is a constant value which does not change.

In the related art described above, when a value of ΔP ₀ [dB], which is a ramping power increase of a preamble, is set high in order to receive a positive response from a base station in a short time, information necessary for random access is set. The power of the RACH message for transmitting the message is excessively allocated.

As a result, power consumption of the mobile station increases, and the interference of other mobile stations increases due to the excessively allocated power of the RACH message.

In addition, due to excessive allocation of RACH message power, the power of the dedicated channel (DCH) is also excessively set.

Disclosure of Invention An object of the present invention has been made in view of the above points, and a method for setting a power of a channel message suitable for allocating power of an RACH message transmitted after a RACH preamble to an appropriate level, and a communication system therefor. To provide.

According to an aspect of the present invention, there is provided a method for setting a power of a channel message according to the present invention. The mobile terminal transmits one preamble to a base station while increasing the power of the preamble by an increase in preamble ramping power. Detecting a preamble of an access channel (RACH); generating, by the base station, a predetermined offset value using the detected power of the preamble and a preset threshold value; and indicating that the base station captures the generated offset value. Including in a signature of a channel (AICH) and transmitting to the mobile station, and setting the power of a random access channel (RACH) message by the mobile station using an offset value included in the signature. It is done by.

A characteristic of a communication system for power setting of a channel message according to the present invention for achieving the above object is to detect a preamble of a random access channel (RACH), and compare the detected preamble with a predetermined threshold value. A base station including a preamble detector for generating an offset value, and a signature generator for transmitting a signature of an acquisition indication channel (AICH) including an offset value generated at the preamble detector; A preamble generator for transmitting at least one preamble of the random access channel (RACH) to the base station while increasing the power of the preamble by an increase in preamble ramping power, a signature detector for detecting the transmitted signature and an offset value included therein; A message power calculator configured to receive a power value of the preamble detected by the base station from the preamble generator and receive the offset value from the signature detector to calculate a message power of the random access channel (RACH); And a mobile station including a message generator for transmitting the message of the random access channel (RACH) to the base station at the calculated message power.

Other objects, features and advantages of the invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, a method of setting a power of a channel message and a communication system therefor according to the present invention will be described with reference to the accompanying drawings.

When the base station detects the preamble as the mobile station transmits the RACH preamble, the base station informs the mobile station of the difference between the power of the detected preamble and a preset threshold. That is, the base station of the present invention informs the information on how much the power of the detected preamble exceeds a preset threshold value through the AICH indicating whether or not the preamble is detected. Here, the threshold value preset in the base station is a minimum power value that allows the reception error to be less than or equal to the target value.

Accordingly, the mobile station sets the transmission power of the RACH message to an appropriate value using the received difference information.

The transmit power of the RACH message is set to an appropriate value irrespective of setting a high value of ΔP ₀ [dB], which is a ramping power increase of the preamble, for fast preamble detection.

That is, the mobile station may set the power of the RACH message lower than the preamble power last transmitted to the base station by receiving a response message allowing the random access from the base station through the AICH, or The power of the RACH message may be set higher than the last preamble power by a predetermined level. In more detail, the mobile station according to the present invention variably sets the power of the RACH message by using an offset value included in a signature received through the AICH.

Therefore, P _pm [dB] described in FIG. 1 has a variable value, and the P _pm [dB] value has a positive value or a negative value.

As another example, the mobile terminal of the present invention sets the P _pm [dB] value by the power corresponding to the block error rate (BLER) of the required RACH message. In addition, the configuration information of the RACH message power used in the mobile terminal is used to set the transmission power of the dedicated channel (DCH). The dedicated channel (DCH) is a dedicated physical data channel (DPDCH) and a dedicated physical control channel (DPCCH).

In other words, P _m-DPCCH (power of the DPCCH portion of the RACH message) and P _m-DPDCH (power of the DPDCH portion of the RACH message) of FIG. 1 are used for configuration.

2 is a diagram illustrating a configuration example of a base station to which the present invention is applied.

Referring to FIG. 2, the base station includes a RACH preamble detector 1 at a receiving end Rx and an AICH signature generator 2 at a transmitting end Tx.

The RACH preamble detector 1 detects the RACH preamble of the mobile terminal. At this time, the RACH preamble detector 1 compares the detected power of the RACH preamble with a preset threshold. The threshold value preset in the base station is a minimum power value that allows the reception error to be below the target value. However, the present invention is not limited to the minimum power value that allows the reception error to be less than or equal to the target value, and checks the state of the wireless environment based on information for measuring the wireless environment such as a reception error rate. Later, a value is used to set the power of the appropriate RACH message according to the state of the radio environment.

 The RACH preamble detector 1 calculates an offset value between the power of the detected RACH preamble and a preset threshold value through the comparison. That is, the RACH preamble detector 1 quantizes the power difference between the preset threshold value and the detected preamble, generates an offset value, and provides the offset value to the AICH signature generator 2.

The AICH signature generator 2 uses the signature and scrambling code of the preamble provided by the RACH preamble detector 1 and also uses the offset value provided by the RACH preamble detector 1. To generate the appropriate AICH signature.

Accordingly, in the present invention, the detected power of the RACH preamble and an offset value of a predetermined threshold value are included in the AICH signature transmitted from the base station to the mobile station. In other words, the offset value described above is encoded in the AICH signature, so that the mobile station decodes the offset value and uses it to set the power of the RACH message.

3 is a view showing a configuration example of a mobile terminal to which the present invention is applied.

Referring to FIG. 3, a mobile station includes a RACH preamble generator 10 and a RACH message generator 20 at a transmitting end Tx, and an AICH signature detector 30 at a receiving end Rx. The mobile terminal also includes a message power calculator 40.

The RACH preamble generator 10 generates a series of RACH preambles and reports the power to the message power generator 40.

The RACH message generator 20 generates a RACH message.

The AICH signature detector 30 of the receiving end Rx decodes the signature and offset values after receiving the AICH signature.

The message power calculator 40 determines the power of the RACH message from the decoded offset value and the power of the last transmitted preamble. That is, the message power calculator 40 calculates a power difference value between the power of the last transmitted preamble and the RACH message until the base station detects the preamble from the decoded offset value.

The calculated power difference value may be calculated higher than the power of the last transmitted preamble, while lower. That is, in the present invention, the transmission power of the RACH message is set regardless of the power of the preamble transmitted last.

According to an embodiment of the present disclosure, if the decoded offset value is a positive predetermined value, the message power calculator 40 subtracts the decoded offset value from the power of the last transmitted preamble. Set to the power of (message). Alternatively, if the decoded offset value is a predetermined negative value, the power of the RACH message is set by summing up the decoded offset value from the power of the last transmitted preamble.

4 is a diagram illustrating a power setting procedure of a channel message according to an embodiment of the present invention.

Referring to FIG. 4, the mobile station transmits the RACH preamble to the base station several times while increasing the power of the preambles by ΔP ₀ [dB], which is an increase in ramping power (S1).

The base station detects one RACH preamble (S2). The detected RACH preamble is hereinafter referred to as the last preamble.

The base station compares the power of the detected last preamble with a preset threshold value (S3). In this case, the threshold value used is a minimum power value that allows the reception error to be less than or equal to the target value, and the base station variably sets the threshold value based on the current reception state.

The base station quantizes the difference between the power of the last preamble and a preset threshold value through the comparison to generate one offset value (S4).

Subsequently, the base station encodes the AICH signature including the generated offset value and transmits the AICH signature to the mobile station (S5).

The mobile station decodes the received AICH signature and extracts an offset value included in the AICH signature (S6).

The mobile station uses the extracted offset value and the power value of the last preamble to set the power value of the RACH message to be transmitted later. At this time, the mobile station adds or subtracts the power value of the last preamble by the power indicated by the offset value to calculate the power value of the RACH message (S7).

The RACH message is transmitted to the base station at the calculated power value (S8).

Specific embodiments or embodiments made in the detailed description of the present invention are only for clarity of the technical content of the present invention, and should not be construed as limited to these specific embodiments by consultation, and the spirit of the present invention and the claims Various changes can be made within the scope.

According to the present invention described above, even if the value of the ramping power increase of the RACH preamble is set to a high value, since the excessive transmission power is prevented from being allocated to the RACH message, a positive response is quickly obtained from the base station. You can get Positive Ack. This reduces the call set-up time for random access.                     

In addition, since only the required power is allocated to the RACH message and the dedicated channels (DCHs), power consumption of the mobile station is reduced.

It also increases overall system capacity by minimizing interference from excessively allocated power.

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.

Claims (16)

Transmitting, by the mobile terminal, at least one preamble of the random access channel (RACH) to the base station while increasing the power of the preamble by the preamble ramping power increment; Detecting, by the base station, a preamble of a random access channel (RACH); Generating, by the base station, a predetermined offset value using the detected power of the preamble and a preset threshold value; Transmitting, by the base station, the generated offset value to a signature of an acquisition indication channel (AICH) to the mobile terminal; And setting, by the mobile terminal, power of a random access channel (RACH) message by using an offset value included in the signature.  The method of claim 1, wherein the threshold is variably set based on a reception state. 3. The method of claim 2, wherein the threshold is set to a minimum power value that causes a reception error to be less than or equal to a target value. The method of claim 1, wherein the offset value is generated by quantizing a difference between a power of the detected preamble and a preset threshold. 2. The method of claim 1, wherein the base station encodes the offset value into the signature. 6. The method of claim 5, wherein the mobile station decodes the offset value in the encoded signature. The method of claim 1, wherein the power of the random access channel (RACH) message is calculated by adding or subtracting the offset value to the power of the preamble detected by the base station. The method of claim 1, further comprising setting a power of a dedicated channel (DCH) used between the base station and the mobile station using the offset value. A preamble detector for detecting a preamble of a random access channel (RACH) and comparing the detected preamble with a preset threshold to generate a predetermined offset value; and a capture display channel comprising an offset value generated at the preamble detector ( A base station including a signature generator for transmitting a signature of an AICH; A preamble generator for transmitting at least one preamble of the random access channel (RACH) to the base station while increasing the power of the preamble by an increase in preamble ramping power, a signature detector for detecting the transmitted signature and an offset value included therein; A message power calculator configured to receive a power value of the preamble detected by the base station from the preamble generator and receive the offset value from the signature detector to calculate a message power of the random access channel (RACH); And a mobile station including a message generator for transmitting a message of the random access channel (RACH) to the base station at the calculated message power. 10. The communication system of claim 9, wherein the preamble detector presets a variable value based on a reception state to the threshold value. 11. The communication system of claim 10, wherein the threshold is set to a minimum power value that causes a reception error to be less than or equal to a target value. 10. The communication system of claim 9, wherein the preamble detector generates the offset value by quantizing the difference between the detected power of the preamble and the threshold value. 10. The communication system of claim 9, wherein the signature generator encodes an offset value provided from the preamble detector into a signature of the acquisition indication channel (AICH). 10. The communication system of claim 9, wherein the signature detector decodes the offset value in a signature received from the base station. 10. The system of claim 9, wherein the preamble generator reports the power of the preambles transmitted to the base station to the message power calculator. 10. The method of claim 9, wherein the message power calculator calculates the message power of the random access channel (RACH) by adding or subtracting the offset value provided from the signature detector to the power value of the preamble provided from the preamble generator. Communication system for setting the power of the channel message.

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