JP2003218788A - Device and method for controlling transmission power during cell searching - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a communication terminal to easily make synchronous acquisition by suppressing an interference between channels during cell searching when communication is started or handed over. <P>SOLUTION: A PSCH generating section 101 generates first synchronous channel information. An SSCH generating section 102 generates second synchronous channel information. The generated two pieces of synchronous channel information are controlled for a transmission gain based on power information outputted from a control channel power control circuit 105. An SCH power adjusting circuit 202 periodically switches the transmission powers of synchronous channels to low or high levels. A multiplication circuit 201 multiplies a signal obtained by adding the first and second synchronous channels to each other by the output value of the SCH power adjusting circuit 202. Consequently, the synchronous acquisition performance of the communication terminal can be improved while the interference with another channel is suppressed during cell searching. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission power control apparatus and method in cell search of spread spectrum communication, and can be applied to, for example, a transmission power control apparatus and method for controlling transmission power of synchronization channel information.

[0002]

2. Description of the Related Art CDMA using spread spectrum communication
In a (Code Division Multiple Access) cellular system, a communication terminal needs to perform a so-called communication cell search for smoothly switching available cells at the time of power-on or cell switching (soft handover) accompanying movement. is there.

A three-step cell search method is used as a synchronization acquisition method in this cell search. The 3-step cell search method is the first step in which the first synchronization channel (P
Slot timing is detected using SCH (Primary Search CHannel) information. In the second stage, the scrambling code group is identified and the scrambling code timing is detected using the second synchronization channel (SSCH: Secondary Search CHannel) information. In the third stage, the common pilot channel (CPICH: Common P
ilot Channel information and primary common control physical channel (PC
CPCH: Primary Common Control Physical CHanne
l) The information is used to identify the scrambling code, and the communication terminal acquires synchronization with the base station. The first synchronization channel information and the second synchronization channel information are collectively referred to as synchronization channel (SCH) information or synchronization channel.

FIG. 5 is a block diagram showing a schematic configuration of a base station in conventional spread spectrum communication. In this figure, the PSCH generation unit 101 generates the first synchronization channel information. The SSCH generator 102 generates second synchronization channel information. Also, the PCCPCH generation unit 103
Generates primary common control physical channel information which is broadcast information. CPICH generation section 104 generates common pilot channel information. Control channel power adjustment circuit 1
05 outputs the power information of each control channel to the multiplication circuits 106-1 to 106-4, respectively. These multiplication circuits control the transmission gain for each control channel according to the power information of the control channel power adjustment circuit 105. The adder circuit 107 adds the first synchronization channel information and the second synchronization channel information. Further, the switch 108 switches and outputs the primary common control physical channel information and the synchronization channel information for each time. The adder 109 adds the signal in which the primary common control physical channel information and the synchronization channel information are time-multiplexed, and the common pilot channel information.
Then, the wireless transmission unit 110 performs predetermined wireless processing on the transmission signal and transmits the transmission signal to the communication terminal via the antenna 111.

FIG. 6 shows a channel multiplexing structure of a signal transmitted by a conventional base station. Sync channel (PSCH and SS
CH) and the transmission power of channels other than the synchronization channel are fixed for each base station as shown in FIG.

[0006]

However, if the power of the synchronization channel information is increased to facilitate the synchronization of the communication terminals, the amount of interference with other channels increases and the characteristics of the other channels deteriorate. . Further, if the power of the synchronization channel information is reduced in order to reduce the amount of interference, there is a drawback that the detection characteristics of the slot timing of the communication terminal deteriorate and the synchronization acquisition performance deteriorates.

The present invention has been made in view of the above points, and in the cell search at the start of communication or at the time of handover, interference between channels is suppressed, and a transmission power that enables a communication terminal to easily acquire synchronization. An object is to provide a control device and method.

[0008]

In order to solve such a problem, a transmission power control apparatus of the present invention includes a generation means for generating a synchronization channel for a communication terminal apparatus to synchronize with a base station apparatus, and transmission of the synchronization channel. A configuration is provided that includes power control means for controlling power and wireless transmission means for wirelessly transmitting the power-controlled synchronization channel.

With this configuration, the communication terminal device can easily perform synchronization acquisition while suppressing the amount of interference between channels.

In the transmission power control apparatus of the present invention, the power control means switches the transmission power between increase and decrease at a predetermined cycle.

According to this configuration, the transmission power of the synchronization channel is periodically changed, so that it is possible to improve the synchronization acquisition performance in the communication terminal device while suppressing interference with other channels.

The transmission power control apparatus of the present invention comprises a determination means for performing a threshold determination based on the determination information and controlling the power control means according to the result of the threshold determination, wherein the power control means comprises the determination. A configuration is adopted in which the transmission power is switched between increased and decreased by controlling the result.

According to this configuration, by controlling the transmission power of the synchronization channel based on the determination information, it is possible to make it easier for the communication terminal device to capture synchronization while suppressing interference with other channels.

In the transmission power control apparatus of the present invention, the determination means employs a configuration for performing threshold value determination between the number of communication lines used by the base station apparatus and a predetermined threshold value.

According to this structure, the transmission power of the synchronization channel is controlled based on the number of communication lines used by the base station apparatus, so that the communication terminal apparatus captures synchronization while suppressing interference with other channels. You can make it easier.

In the transmission power control apparatus of the present invention, the determination means adopts a configuration of performing a threshold determination between the number of communication terminals existing in the area of the base station apparatus and a predetermined threshold.

According to this structure, the transmission power of the synchronization channel is controlled based on the number of communication terminals existing in the area of the base station apparatus, so that the communication terminal apparatus can synchronize while suppressing interference with other channels. It can be easily captured.

In the transmission power control apparatus of the present invention, the determining means determines the threshold value of the ratio of the transmission power of all the individual channels transmitted by the base station apparatus to the transmission power of the signal transmitted by the base station apparatus and a predetermined threshold value. Adopt a configuration to do.

According to this structure, the transmission power of the synchronization channel is controlled based on the ratio of the transmission power of the signal transmitted by the base station device to the transmission power of all the individual channels transmitted from the base station device, thereby It is possible to make it easier for the communication terminal device to capture the synchronization while suppressing the interference given to the channel.

In the transmission power control apparatus of the present invention, the determination means adopts a configuration of performing a threshold determination between the number of channelization codes used by the base station apparatus and a predetermined threshold.

According to this configuration, the transmission power of the synchronization channel is controlled based on the number of channelization codes used by the base station apparatus, so that the communication terminal apparatus synchronizes while suppressing interference with other channels. Can be easily captured.

In the transmission power control apparatus of the present invention, the determination means adopts a configuration of performing threshold determination between the total transmission power of the signal transmitted by the base station apparatus and a predetermined threshold.

According to this configuration, the transmission power of the synchronization channel is controlled based on the total transmission power of the signal transmitted by the base station device, so that the communication terminal device captures the synchronization while suppressing interference with other channels. You can make it easier.

The base station apparatus of the present invention has a configuration including any one of the transmission power control apparatuses described above. Also,
The communication terminal device of the present invention has a configuration for communicating with the above base station device.

With these configurations, the communication terminal device can easily perform synchronization acquisition while suppressing the amount of interference between channels.

In the transmission power control method of the present invention, a communication terminal device generates a synchronization channel for synchronizing with a base station device, controls transmission power of the synchronization channel, and wirelessly transmits the power-controlled synchronization channel. I decided to do it.

According to this method, the communication terminal device can easily perform synchronization acquisition while suppressing the mutual interference between channels.

[0028]

BEST MODE FOR CARRYING OUT THE INVENTION The gist of the present invention is to adaptively control the transmission power of synchronization channel information in cell search.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1) FIG.1 is a block diagram showing a schematic configuration of a base station according to Embodiment 1 of the present invention. However, in FIG. 1, parts common to FIG.
The same reference numerals are given and detailed description thereof is omitted.

W-C which is one of spread spectrum communication
In wideband CDMA (DMA), since base stations are asynchronous systems, it is necessary to identify a scrambling code (spreading code) and detect timing synchronization of the scrambling code during cell search. A three-step cell search is performed as one of the means for realizing this.

In the first step, the spread code reception timing is narrowed down using the first synchronization channel common to all base stations. In the second stage, the reception timing is determined using the second synchronization channel repeatedly arranged for each base station, and the spreading code is further narrowed down. In the third stage, a common pilot channel repeatedly arranged for each base is used to determine a spreading code and perform high-speed cell search.

In the first stage of cell search, the communication terminal
The correlation with the first synchronization channel information generated by the CH generation unit 101 is detected using a matched filter, the peak having the maximum correlation value is searched for, and the temporal reception position of the first synchronization channel is detected.

Since the received first synchronization channel information is transmitted from the base station in units of one slot, the reception position is determined from the chip timing in this one slot. In this cell search first step, the slot timings of all channels are detected.

At the second stage of the cell search, the communication terminal uses the result of the slot timing detection at the first stage as described above.
The frame timing of the channel transmitted by the base station is detected. That is, the communication terminal performs the correlation detection with the received signal with the spreading code forming the second synchronization channel generated by the SSCH generation unit 102 for each slot timing,
Correlation values are averaged over a fixed time. The scrambling code group is the combination with the largest obtained average value. In the process of detecting the scrambling code group, the frame timing is also detected at the same time.

Specifically, the communication terminal determines which second synchronization channel each slot corresponds to, based on the slot timing detected in the first step. In addition, S
The second synchronization channel generated by the SCH generation unit 102 is 2
It is represented by 56 chips and there are 16 types. Further, it is specified which scrambling code group corresponds to the combination of the second synchronization channels of 15 slots forming one frame. As a result, one group can be specified from 64 scrambling code groups in which 512 types of scrambling codes are grouped into 8 types, and the remaining 8 types of scrambling codes can be narrowed down.

At the third stage of cell search, the communication terminal
By using the common pilot channel information generated by the ICH generation unit 104 and the scrambling code group and the frame timing obtained in the second step, the only scrambling code is selected from the narrowed scrambling codes. To detect.

Since the common pilot channel generated by CPICH generating section 104 is a signal that is transmitted continuously in time without time multiplexing processing, partial correlation is performed by a method using partial correlation for each predetermined chip. Then, these are averaged at regular time intervals, and the code having the maximum average value is identified as the scrambling code of the base station to complete the cell search operation.

In this cell search operation, in each cell search step, the correlation value of the power value is obtained in any of the slot timing in the first step, the frame timing in the second step, and the scrambling code detection in the third step. To use. Therefore, the effect of the interference wave that affects the desired wave cannot be ignored.

As a method corresponding to this, in the present invention, the transmission levels of the first synchronization channel and the second synchronization channel are changed according to the transmission switching timing of the common pilot channel which is continuously transmitted in time. That is, the transmission power levels of the first synchronization channel and the second synchronization channel transmitted by time division multiplexing are changed by the SCH power adjustment circuit 202, and the transmission of the synchronization channel in self-transmission that becomes an interference wave for the desired wave of other communication. Change power over time.

FIG. 2 shows a frame structure of signal multiplexing when the transmission powers of the first synchronization channel and the second synchronization channel are changed according to the transmission timing of the common pilot channel.

FIG. 3 shows the internal structure of the SCH power adjustment circuit 202. The SCH power adjustment circuit 202 switches the transmission power of the synchronization channel between the low level L0 and the high level L1. The timer 301 measures the transmission switching timing of the common pilot channel, and controls the period during which L1 has a large power for SCH and the period during which L0 has a small power level for transmission. In this case,
The power level is not binary, and the transmission powers of the first synchronization channel and the second synchronization channel may be controlled stepwise by a plurality of power values. As a result, the SCH power adjustment circuit 202 controls the transmission power of the synchronization channel. The multiplication circuit 201 adds a signal obtained by adding the first synchronization channel and the second synchronization channel to the SCH power adjustment circuit 202.
Multiply with the output value of.

As described above, according to the transmission power control apparatus and method in the cell search according to the present embodiment, the power of the synchronization channel is temporally changed, so that the synchronization of communication terminals is suppressed while suppressing interference with other channels. The capture performance can be improved.

(Second Embodiment) In the first embodiment, the transmission power of the synchronization channel is controlled by the timer owned by the base station. In this embodiment, the number of lines with which the base station is communicating and the base station The number of communication terminals existing in the station area (hereinafter referred to as determination information) is detected, and the transmission power of the synchronization channel is controlled according to the detection result.

FIG. 4 is a block diagram showing a schematic configuration of the base station according to the second embodiment. 4, the same parts as those in FIG. 1 are designated by the same reference numerals, and the detailed description thereof will be omitted. The determination unit 401 makes a threshold determination based on the input determination information, and outputs a signal corresponding to the determination result to the SCH power adjustment circuit 402.

The SCH power adjustment circuit 402 includes a decision unit 4
The transmission power is switched to the low level or the high level based on the result of the threshold value judgment output from 01.

With respect to this operation, a case will be described in which the transmission power of the synchronization channel is controlled based on the number of lines used by the base station for communication as the determination information.
The base station detects the number of lines in communication in another functional unit (not shown), and uses the detected number of lines as the determination information to determine unit 40.
Output to 1. The determination unit 401 performs threshold determination on the number of input lines and a predetermined threshold. When the result of the determination is less than the threshold value, a control signal for increasing the transmission power of the synchronization channel transmitted to the target communication terminal is output to the SCH power adjustment circuit 402. This is because there are not many lines that are communicating with the base station, that is, other communication terminals that are communicating, so even if the transmission power of the synchronization channel that is transmitted to the target communication terminal is increased, there is no interference with other communication terminals. Because it is not big. On the other hand, when the determination result is equal to or more than the threshold value, the control signal for reducing the transmission power of the synchronization channel transmitted to the target communication terminal is the SCH power adjustment circuit 402.
Is output to. This is because there are many other communication terminals that are communicating with the base station, and unless the transmission power of the synchronization channel to be transmitted to the target communication terminal is reduced, the interference exerted on the other communication terminals increases.

Next, a case will be described in which the determination information is the number of communication terminals existing in the area of the base station (including communication and standby) and the transmission power of the synchronization channel is controlled based on this. The base station detects the number of communication terminals (including during communication and standby) existing in the area of its own station in another functional unit (not shown), and outputs the detected number of terminals to the determination unit 401 as determination information. The determination unit 401 performs threshold determination on the number of input terminals and a predetermined threshold. When the result of the determination is less than the threshold value, a control signal for increasing the transmission power of the synchronization channel transmitted to the target communication terminal is output to the SCH power adjustment circuit 402. This is because, taking into consideration other communication terminals that are communicating with the base station and communication terminals that are on standby, even if the transmission power of the synchronization channel to be transmitted to the target communication terminal is increased, there is no interference on other channels. Because it is not big. On the other hand, when the determination result is equal to or more than the threshold value, a control signal for reducing the transmission power of the synchronization channel transmitted to the target communication terminal is output to the SCH power adjustment circuit 402. This is because, considering other communication terminals that are communicating with the base station and communication terminals that are on standby, unless the transmission power of the synchronization channel to be transmitted to the target communication terminal is reduced, the interference on other channels is large. Because it will be.

Next, the case where the transmission power of the synchronization channel is controlled based on the determination information as the ratio of the transmission power of the dedicated channel to the transmission power of the signal transmitted by the base station (hereinafter referred to as the transmission power ratio) explain.

The signal transmitted by the base station is a signal (including a common channel) transmitted to all communication terminals existing in the area of the own station. The dedicated channel is data such as a voice signal or control signal transmitted to each communication terminal.
When controlling the transmission power of the synchronization channel for the target communication terminal, by obtaining the ratio of these transmission powers, it can be used as a criterion for determining whether or not to interfere with other channels.

The base station calculates the transmission power ratio in another functional unit (not shown), and outputs the calculated transmission power ratio to the judgment unit 401 as judgment information. The determination unit 401 performs threshold determination on the input transmission power ratio and a predetermined threshold. When the determination result is less than the threshold value, a control signal for increasing the transmission power of the synchronization channel for the target communication terminal is output to the SCH power adjustment circuit 402. This is because even if the transmission power of the synchronization channel is increased, the interference given to other channels is not large. On the other hand, when the result of the determination is greater than or equal to the threshold value, a control signal for reducing the transmission power of the synchronization channel for the target communication terminal is output to the SCH power adjustment circuit 402. This is because if the transmission power of the synchronization channel is not reduced, the interference given to other channels will increase.

Next, the case where the transmission power of the synchronization channel is controlled based on the number of channelization codes used by the base station as the determination information will be described.

The communication terminal needs to distinguish not only the base station transmitting a signal but also a plurality of channels transmitted from the same base station. For example, the base station transmits its own channel to the communication terminal, and each communication terminal needs to distinguish its own channel from all other channels transmitted by the base station. The orthogonal variable spreading factor code (OVSF: Orthog) is used for this function.
onal variable spreading factor) is used. This channelization code is spread with a channelization code different from each channel transmitted from the base station or the communication terminal.

From this fact, when controlling the transmission power of the synchronization channel for the target communication terminal, by detecting the number of channelization codes in use, it is possible to determine whether or not to interfere with other communication terminals. Can be That is, the transmission power of the synchronization channel is controlled by making a threshold determination between the number of channelization codes in use and a predetermined threshold.

The base station detects the number of channelization codes in use in another functional unit (not shown), and outputs the detected number to the determination unit 401 as determination information. The determination unit 401 performs threshold determination on the number of input channelization codes and a predetermined threshold. When the result of the determination is less than the threshold value, a control signal for increasing the transmission power of the synchronization channel transmitted to the target communication terminal is output to the SCH power adjustment circuit 402. This is because even if the transmission power of the synchronization channel to be transmitted to the target communication terminal is increased,
This is because the interference given to other channels is not large. On the other hand, when the determination result is equal to or more than the threshold value, a control signal for reducing the transmission power of the synchronization channel transmitted to the target communication terminal is output to the SCH power adjustment circuit 402. this is,
This is because unless the transmission power of the synchronization channel transmitted to the target communication terminal is reduced, the interference given to other channels will increase.

Next, the case where the transmission power of the synchronization channel is controlled based on the determination information as the total transmission power of the signal transmitted by the base station will be described. The base station detects the total transmission power of signals transmitted by the base station in another functional unit (not shown), and outputs the detected total transmission power to the determination unit 401 as determination information. The determination unit 401 performs threshold determination of the input total transmission power and a predetermined threshold. If the determination result is less than the threshold value, the control signal for increasing the transmission power of the synchronization channel to be transmitted to the target communication terminal is S
It is output to the CH power adjustment circuit 402. This is because, taking into consideration other communication terminals that are communicating with the base station and communication terminals that are on standby, even if the transmission power of the synchronization channel to be transmitted to the target communication terminal is increased, there is no interference on other channels. Because it is not big. On the other hand, when the result of the determination is greater than or equal to the threshold value, a control signal for reducing the transmission power of the synchronization channel transmitted to the target communication terminal is output to the SCH power adjustment circuit 402. This is because, taking into consideration other communication terminals that are communicating with the base station and communication terminals that are in standby, unless the transmission power of the synchronization channel to be transmitted to the target communication terminal is reduced, the interference on other channels is large. Because it will be.

As described above, according to the present embodiment, the transmission power of the synchronization channel for the target communication terminal is controlled based on the determination information, so that the interference with other channels is suppressed and the target communication terminal is suppressed. Can make it easier to capture synchronization.

In the present embodiment, the judgment information is the number of lines used by the base station, the number of communication terminals existing in the base station area, the transmission power ratio, the number of channelization codes being used by the base station, and The total transmission power of the signals transmitted by the base station is described above, but the present embodiment is not limited to this, and the number of communication terminals (the number of channels) communicating with the base station is detected or estimated. The transmission power of the synchronization channel for the target communication terminal may be controlled based on the transmission power.

In the transmission power control of the above-mentioned synchronization channel, when the number of communication lines is used as a reference, when the number of communication terminals in the base station area is used as a reference, and when the transmission power ratio is used as a reference, The case where the channelization code in use is used as a reference, and the case where the total transmission power of the signal transmitted by the base station is used as a reference has been described, but these may be arbitrarily combined.

Furthermore, although the synchronization channel has been described so far, the channel power of the PCCPCH may be controlled.

[0061]

As described above, according to the present invention,
Since the transmission power of the synchronization channel for synchronization acquisition is adaptively controlled, it is possible to improve the synchronization acquisition performance on the receiving side while suppressing the interference of other channels.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of a base station according to Embodiment 1 of the present invention.

FIG. 2 is a diagram showing a channel multiplexing structure of a signal transmitted by the base station according to the first embodiment of the present invention.

FIG. 3 is a schematic diagram showing an internal configuration of an SCH power adjustment circuit according to the first embodiment of the present invention.

FIG. 4 is a block diagram showing a schematic configuration of a base station according to Embodiment 2 of the present invention.

FIG. 5 is a block diagram showing a schematic configuration of a conventional base station.

FIG. 6 is a diagram showing a channel multiplexing structure of a signal transmitted by a conventional base station.

[Explanation of symbols]

101 PSCH generation unit 102 SSCH generation unit 103 PCCPCH generator 104 CPICH generation unit 105 Control channel power adjustment circuit 106-1 to 106-4, 201 multiplication circuit 107, 109 adder 108 switch 110 wireless transmitter 111 antenna 202, 402 SCH power adjustment circuit 301 timer 401 Judgment unit

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 5K022 EE01 EE13 EE21 EE36                 5K047 AA01 BB01 GG34 HH15 JJ06                       MM02                 5K067 AA03 CC10 DD25 DD30 EE02                       EE10 EE24 GG08 HH22 JJ32                       JJ70

Claims (11)

[Claims] 1. A generation means for generating a synchronization channel for a communication terminal device to synchronize with a base station device, a power control means for controlling transmission power of the synchronization channel, and a wireless transmission of the power-controlled synchronization channel. And a wireless transmission means for controlling the transmission power control device. 2. The transmission power control device according to claim 1, wherein the power control means switches between increasing and decreasing the transmission power at a predetermined cycle. 3. A determination unit that performs threshold value determination based on determination information and controls a power control unit according to a result of the threshold value determination, wherein the power control unit controls the transmission power by controlling the determination result. The transmission power control apparatus according to claim 1, wherein the transmission power control apparatus switches between increasing and decreasing. 4. The transmission power control apparatus according to claim 3, wherein the determination means determines a threshold value between the number of communication lines used by the base station apparatus and a predetermined threshold value. 5. The transmission power control apparatus according to claim 3, wherein the determination means determines a threshold value between the number of communication terminals existing in the area of the base station apparatus and a predetermined threshold value. 6. The determining means makes a threshold determination between a ratio of the transmission power of all dedicated channels transmitted by the base station device to the transmission power of a signal transmitted by the base station device and a predetermined threshold value. The transmission power control device according to claim 3. 7. The transmission power control apparatus according to claim 3, wherein the determination means determines a threshold value between the number of channelization codes used by the base station apparatus and a predetermined threshold value. 8. The transmission power control device according to claim 3, wherein the determination means makes a threshold determination between the total transmission power of the signal transmitted by the base station device and a predetermined threshold value. 9. A base station apparatus comprising the transmission power control apparatus according to any one of claims 1 to 8. 10. A communication terminal device, which communicates with the base station device according to claim 9. 11. A transmission characterized in that a communication terminal device generates a synchronization channel for synchronizing with a base station device, controls transmission power of the synchronization channel, and wirelessly transmits the power-controlled synchronization channel. Power control method.