KR100379461B1 - Power control method for interfrequency hand-off - Google Patents

Abstract

The present invention relates to a power control method for frequency handoff that performs efficient power control for a mobile station during handoff between base stations using different frequencies during operation of a base station having multiple frequencies in a code division multiple access (CDMA) mobile communication system. It is about. The power control method for inter-frequency handoff according to the present invention includes the steps of the mobile station setting the first compression mode for inter-frequency handoff and measuring the frequency of the adjacent base station during the transmission gap time secured accordingly; As the frequency is measured, the mobile station sets a predetermined recovery period and transmits pilot information and a power control command during the set predetermined recovery period to stabilize power; and as the power stabilizes, the mobile station selects a second compression mode. By setting and compressing the data that was not transmitted during the recovery period, it is possible to prevent data transmission loss and transmission delay, thereby providing a stable quality communication service to the user.

Description

Power control method for interfrequency hand-off

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to mobile communications, and more particularly to a frequency hand that performs efficient power control for a mobile station during handoff between base stations using different frequencies during base station operation with multiple frequencies in a code division multiple access (CDMA) mobile communication system. A power control method for off.

In general, hand off is a function of continuously maintaining a call between a mobile station and a base station when the mobile station in the call moves out of the area of the serving base station to another adjacent base station area.

In the current CDMA mobile communication system, softer hand-off, soft hand-off, and hard hand-off are performed. In more detail, the softer handoff occurs when moving between sectors with the same frequency and the same frame offset value in the base station, and the soft handoff occurs when moving with the same frequency and the same frame offset value between adjacent base stations. Off occurs when the frame offset is changed during the movement between adjacent base stations, when the frequency is changed, or when moving to another switching system.

Here, in the case of interfrequency hand-off between neighboring base stations using different frequencies, the mobile station cannot continue using the assigned call path and thus needs to newly set another call path. In this case, when the mobile station executes using one receiver, a frequency switching process of converting a current frequency into a corresponding frequency is necessary in order to measure another frequency in use by a neighboring base station.

However, in this frequency switching process, transmission of data such as voice packets is interrupted, so the mobile station performs a compressed mode for compressing and transmitting data in order to prevent communication quality degradation.

1 is a diagram illustrating a data transmission structure in a handoff between frequencies according to the prior art.

Referring to FIG. 1, a mobile station sets a compression mode in inter-frequency handoff to compress data to be transmitted during one frame, transmit data in a short time, and measure a frequency of a neighbor base station during the remaining time, that is, a transmission gap ( Transmission gap) In order to implement such a compression mode, the mobile station uses a method of puncturing data or reducing a spreading factor (SF).

For example, if the spread rate is 64, the mobile station reduces it to 32 to compress the data transmitted during one frame. Sent during a frame And the rest During the frame, it is used as the transmission gap to measure the frequency. In this case, the mobile station does not transmit any data in the transmission gap state and only measures the frequency of the neighboring base station.

In the present invention, attention is directed to a power control method during inter-frequency handoff, and as described above, pilot information and a power control command (TPC) are not transmitted between a mobile station and a base station in a transmission gap period set during inter-frequency handoff. Therefore, normal power control for the mobile station is not performed for a certain period after the transmission gap period. That is, since the channel environment changes during a certain period after the transmission gap period, the difference between the target signal-to-noise ratio (SIR) and the received signal-to-noise ratio (SIR) increases, so that the mobile station can perform normal power control during the period after the transmission gap period. There is no error in data transmission.

Therefore, in order to overcome such unstable power control in the compression mode, the mobile station sets a recovery period during the next frame after the transmission gap, and during the recovery period, two of the power control steps applied in the normal mode are used. The power control step of 2 × ΔTPC is applied. After the recovery period, power control is performed by applying the same power control step of? TPC as in the normal mode.

However, considering the conventional power control method in the compression mode during the inter-frequency handoff, since no data is transmitted during the transmission gap period in the compression mode, power control optimized for the channel is not performed, and thus, for a predetermined period after the transmission gap. There is a problem that a data transmission loss occurs.

To this end, in the conventional handoff between frequencies, a predetermined recovery period is set after the compression mode, and during this recovery period, twice as much power control steps as the normal mode are applied, but the optimized power control is similarly performed during the recovery period. The loss of data transmission is inevitable.

Therefore, in the conventional CDMA mobile communication system, there is a problem in that a stable communication service cannot be provided when handing off frequencies.

Accordingly, an object of the present invention has been made in view of the above-described problems of the prior art, and is an inter-frequency hand that performs power control optimized to prevent data transmission loss during inter-frequency handoff in a CDMA mobile communication system. To provide a power control method for the off.

According to an aspect of the present invention for achieving the above object, the power control method for inter-frequency handoff is a mobile station to set the first compression mode for inter-frequency handoff and adjacent during the transmission gap time secured accordingly. Measuring a frequency of a base station; stabilizing power by setting a predetermined recovery period and transmitting pilot information and a power control command during the set predetermined recovery period as the frequency is measured; And by setting the second compression mode, the mobile station compresses and transmits data that has not been transmitted during the recovery period.

Advantageously, a larger power control step (ΔTPC) is applied to stabilize the power than when the mobile station is in normal mode during the recovery period, and the mobile station compresses data by reducing the spreading rate (SF).

1 is a diagram illustrating a data transmission structure in a handoff between frequencies according to the prior art;

2 is a view showing a data transmission structure in the inter-frequency handoff according to the present invention.

3 is a flow chart illustrating an inter-frequency handoff method according to the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The present invention proposes a power control method for inter-frequency handoff that prevents data transmission loss by performing optimized power control during inter-frequency handoff in a CDMA mobile communication system.

To this end, in the present invention, the power control mode is set to perform the optimized power control according to the changed channel environment after the compression mode for frequency measurement of the adjacent base station. In this power control mode, the mobile station sets the recovery period and the compressed data transmission period separately, and performs optimized power control to prevent data transmission loss due to unstable power control after the compression mode.

Accordingly, the mobile station according to the present invention transmits the first compressed data for measuring the frequency of the adjacent base station in the hand-off between frequencies and the second compressed data for preventing data transmission loss after the compression mode.

2 is a diagram illustrating a data transmission structure during hand-off between frequencies according to the present invention.

2, a mobile station according to the present invention sets a normal mode, a compression mode, and a power control mode.

Here, the normal mode is a mode in which the mobile station normally transmits / receives data such as a base station and a voice packet before performing the inter-frequency handoff, and the compression mode is a time when the mobile station can measure the frequency of the adjacent base station when the inter-frequency handoff is performed. That is, this mode is a mode in which the first compressed data 200 is transmitted by compressing data to secure a transmission gap, and the power control mode is a power control optimized to prevent data transmission loss due to a change in channel environment after the compression mode. Mode and then transmits the second compressed data 202 accordingly.

In more detail, the power control mode sets the power control mode after the compression mode and again sets the power control mode to the recovery period and the compressed data transmission period. The mobile station transmits only the pilot information and the power control command (TPC) 201 to measure the signal-to-noise ratio (SIR) of the channel changed after the compression mode during the recovery period, and accordingly, optimizes power control according to channel environment during the recovery period. Conduct. Therefore, the mobile station does not transmit any data other than the pilot and power control command (TPC) 201 during the recovery period. This recovery period can be set variably according to the channel situation, but in the embodiment of the present invention Set to frame.

If the power control according to the channel environment is stabilized during the recovery period, the mobile station compresses the data that was not transmitted during the recovery period during the compressed data transmission period and transmits the second compressed data 202. Compared with the prior art, the present invention considers that the data transmitted in the conventional recovery period is lost due to the instability of the power control, and stabilizes the power control as much as possible by performing power control only without transmitting data during the recovery period. In this case, the data is compressed after the data that has not been transmitted in the recovery period and the subsequent data during the compressed data transmission period. Therefore, no transmission loss of data occurs during the recovery period.

In this way, the data can be compressed and transmitted in the compressed data transmission period by allowing the mobile station to reduce the spread rate (SF). In other words, if the spreading factor (SF) is 64 during the recovery period, reduce it to 32. Compresses and transmits data during the frame.

On the other hand, during the recovery period of the power control mode according to the present invention, assuming that the power control step applied in the normal mode is ΔTPC, a power control step of 2 × ΔTPC is applied. This is to more quickly stabilize the power control which is unstable by the compression mode. Here, the size of the power control step applied during the recovery period may be adjusted according to the channel situation.

3 is a flowchart illustrating an inter-frequency handoff method according to the present invention.

Referring to FIG. 3, when an inter-frequency handoff occurs as the mobile station moves to an adjacent base station (or cell) using different frequencies (S300), the mobile station may use a compressed mode to measure the frequency of the adjacent base station. ) Compresses and transmits data during the frame, The frame is used as a transmission gap (S301 and S302). In this compression mode, the mobile station reduces the spread rate (SF) and compresses and transmits the data accordingly. That is, if the spread rate (SF) in the normal mode is 64, the mobile station reduces it to 32. Compresses and transmits frame length data The frame length is used as the transmission gap.

In this compression mode, since the pilot information and the power control command (TPC) for power control are not transmitted, unstable power control is performed after the compression mode according to the channel environment change during the compression mode period.

Therefore, the mobile station sets the power control mode after the compression mode and secures a recovery period of a predetermined time (S303). During this recovery period, the mobile station transmits only pilot information and a power control command (TPC) without transmitting data to perform channel environment measurement, that is, measurement of signal-to-noise ratio (SIR) and thus power control (S304). At this time, the applied power control step is 2 × DELTA TPC and the diffusion rate SF is applied in the same manner as in the normal mode.

On the other hand, the transmission gap period and recovery period used in the compression mode can be variably adjusted according to the channel environment, but in the embodiment of the present invention, the transmission gap is set to have the same size.

When the power control is stabilized during the recovery period, the mobile station again decreases the spread rate (SF), compresses data not transmitted during the recovery period and data to be transmitted later, and transmits the second compressed data for the remaining frame period except the recovery period. (S305). At this time, in the embodiment of the present invention, the recovery period is equal to the transmission gap. Frame period and the second compressed data is transmitted accordingly. Set to frame. Therefore, the power control mode is set to one frame.

In this way, after one frame of the compression mode and one frame of the power control mode, the mobile station increases the spreading rate SF and returns to the normal mode (S306).

As described above, according to the power control method for inter-frequency handoff according to the present invention, a communication service of stable quality is provided to a user by preventing data transmission loss and transmission delay caused by power control instability for a certain period after the compression mode. Has the effect of providing.

Claims (3)

The mobile station setting the first compression mode for inter-frequency handoff and measuring the frequency of the neighbor base station during the transmission gap time secured accordingly; As the frequency is measured, the mobile station sets a predetermined recovery period and transmits pilot information and a power control command during the set predetermined recovery period to stabilize power; And the mobile station sets a second compression mode to compress and transmit data not transmitted during the recovery period as the power is stabilized. The method of claim 1, wherein in the stabilizing step of the power control, And the mobile station stabilizes power by applying a larger power control step (ΔTPC) than in the normal mode during the recovery period. The method of claim 1, wherein in the setting of the second compression mode, And the mobile station compresses the data by reducing the spread rate (SF).