JP3705749B2 - Wireless transmission apparatus and wireless transmission method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention CDMA communication system Used in wireless Transmitter and Wireless transmission method About.
[0002]
[Prior art]
CDMA (Code Division Multiple Access) has been developed as a multiple access method used for the next generation mobile communication method. In this CDMA cellular system, it is necessary to perform a cell search for initial synchronization establishment work when a mobile station is turned on, cell switching (handover) associated with movement, and the like.
[0003]
Regarding the cell search method in this CDMA cellular system, Higuchi, Sawahashi, Adachi et al. "Fast cell search method using long code mask in asynchronous cellular network between DS-CDMA base stations" IEICE Technical Report RCS96-122, 1997-01) As described in the above, there is a method for detecting the timing and type of the long code by masking the long code of the downlink control channel and performing correlation detection on the masked portion with a short code common to each cell. Proposed.
[0004]
In this scheme, the transmitting side (base station) searches for symbols spread with a short code (CSC) common to each cell and symbols spread with a long code group identification short code (GIC) corresponding to the long code of each cell. The code is multiplexed and transmitted to the long code mask part as a search code (search code), and the receiving side (mobile station) detects the timing based on the short code common to each cell and then uses the long code group identification short code to By limiting the long code candidates to be searched by the identification unit and further specifying a long code specific to the cell from the long code candidates, a high-speed cell search is realized.
[0005]
In addition, when the transmission side is provided with a plurality of transmission antennas per sector and the control channel signal is spread with different short codes and transmitted in parallel from each of the plurality of antennas, fading fluctuation (particularly during low-speed movement) due to the transmission diversity effect. ) And shadowing, and control channel signal reception characteristics can be improved.
[0006]
In general, in parallel transmission, the long code uses the same code between multiple antennas, and the transmission power considers interference with other channels and other cells, and when transmitting with one power with one antenna, If the number of antennas is two, transmission is performed at 0.5 and 0.5. At this time, the reception characteristics for each antenna deteriorates as much as the transmission power from each antenna becomes weak. However, on the receiving side, a diversity effect can be achieved by combining a plurality of transmission signals, and finally the reception characteristics Improvement can be achieved.
[0007]
[Problems to be solved by the invention]
However, in the cell search method, if the same search code is transmitted simultaneously from a plurality of antennas, the number of matched filters does not increase on the receiving side, but reception characteristics deteriorate due to independent fading fluctuations. On the other hand, if a different short code (search code) is used as in the control channel, code shortage occurs, reception characteristics deteriorate due to an increase in the number of matched filters on the receiving side and an increase in interference (cross-correlation between search codes), etc. Issue arises.
[0008]
The present invention has been made in view of such a point, and even when a control channel signal is transmitted in parallel from a plurality of antennas on the transmission side, it is possible to prevent deterioration of reception characteristics due to fading fluctuations in a cell search on the reception side. , Can prevent degradation of reception characteristics due to increased number of matched filters and increased interference wireless Transmitter and Wireless transmission method The purpose is to provide.
[0009]
[Means for Solving the Problems]
In a wireless communication system, a technique of performing transmission in parallel from a plurality of antennas (parallel transmission) has been studied. This parallel transmission includes all transmission methods in which transmission is simply performed in parallel from a plurality of antennas, regardless of the transmission order and timing of transmission signals and the spreading code. Recently, it has been studied to introduce an orthogonal transmission diversity system (OTD) using a plurality of antennas in a CDMA wireless communication system. This technique is a technique for effectively improving reception characteristics by a transmission diversity effect.
[0010]
Accordingly, the present inventors have focused on introducing parallel transmission technology for cell search in a CDMA cellular system, and have found that reception characteristics are improved by a transmission diversity effect, and have reached the present invention. Thereby, it becomes strong against fading fluctuation (particularly during low-speed movement) and shadowing, and reception characteristics can be improved.
[0011]
Furthermore, the present inventors have found that the OTD technique is applied to a control channel, for example, a perch channel, to exhibit a diversity effect and improve reception characteristics, and thus the present invention has been achieved. Thereby, the cell radius (cover area) at the time of the same transmission power can be expanded, and interference with other channels due to reduction of perch channel transmission power in the same area can be suppressed.
[0012]
That is, the gist of the present invention is to transmit search codes by switching from a plurality of antennas when transmitting a control channel (CCH) for inserting and transmitting a search code in parallel from a plurality of antennas (TSDT: Time- Switched Transmit Diversity).
[0013]
Specifically, the search code transmission antenna is switched so that the search code is transmitted from only one antenna in an instant. In this case, the switching may be periodic or random. That is, only the search code is transmitted by TSTD. When the search code is transmitted by multiplexing a plurality of codes, there are a method of always multiplexing and transmitting from the same antenna, and a method of transmitting from different antennas. For the same antenna transmission, it is necessary when one code is used to detect the other data-modulated code.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Of the present invention wireless The transmitter is A wireless transmission device used in a CDMA communication system, wherein a first antenna and a second antenna that transmit control channels in parallel, and a control channel transmitted from the first antenna or a control transmitted from the second antenna Multiplexing means for multiplexing both the first search code and the second search code used for cell search at the same timing on the channel; and a control channel for multiplexing the first search code and the second search code. Switching means for switching in a predetermined switching pattern between a control channel transmitted from one antenna and a control channel transmitted from the second antenna; The Have Take the configuration.
[0015]
Of the present invention wireless In the above configuration, the transmission device is Said Switching means is The control channel on which the first search code and the second search code are multiplexed is alternately switched between the control channel transmitted from the first antenna and the control channel transmitted from the second antenna. Take the configuration.
[0016]
According to these configurations, the control channel is strong against fading fluctuation (particularly when moving at a low speed) and shadowing due to the transmission diversity effect, and not only can the reception characteristics be improved, but also the switching transmission diversity with respect to the search code. The effect is exhibited, and it becomes strong against fading fluctuation, particularly fading fluctuation and shadowing at low speed movement, and reception characteristics on the receiving side are improved.
[0032]
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
(Embodiment 1)
First, parallel transmission will be described with reference to FIG. FIG. 1 is a block diagram showing a configuration of an apparatus that performs parallel transmission in the base station apparatus according to Embodiment 1 of the present invention. In this apparatus, transmission data is modulated by a plurality of (two in the figure) data modulation units 101 and 102, spread modulated by spread modulation units 103 and 104, and placed on a carrier wave by radio transmission circuits 105 and 106, and an antenna. 107 and 108 are transmitted.
[0033]
Next, generation of a long code mask will be described with reference to FIG. FIG. 2 is a block diagram showing a configuration of an apparatus that generates a long code mask in the base station apparatus according to Embodiment 1 of the present invention. In this apparatus, the control channel signal is data-modulated by the data modulation circuit 201, and the data modulated by the multiplier 203 is multiplied by the short code SC 0 and the long code LCj previously multiplied by the multiplier 202.
[0034]
A short code CSC (first search code) and a group identification code GICj (second search code) are added to the portion to be masked in the control channel signal. The short code CSC and the group identification code GICj are appropriately switched by the switch 205 in accordance with the mask control signal 206 having a pulse waveform shown in the figure, and added as a mask to the control channel signal.
[0035]
Next, the transmission apparatus of this Embodiment is demonstrated using FIG. FIG. 3 is a block diagram showing a configuration of a transmission apparatus in the base station apparatus according to Embodiment 1 of the present invention.
[0036]
This transmission apparatus is capable of two systems of parallel transmission, data modulation circuits 301 and 302 that perform data modulation on the control channel signal, multipliers 304 and 306 that multiply the modulated signal by a specific code, Multipliers 303 and 305 for multiplying the code LCj (scrambling code) and the short codes SC0 and SC1, respectively, a search code multiplexing unit for generating a search code, and a switch 309 for switching a search code multiplexing destination 310.
[0037]
As shown in FIG. 6, the search code multiplexing unit mainly includes an adder 307 that adds the short code CSC and the group identification code GICj, and a switch 311 that multiplexes the added code as a mask to any control channel signal. It is configured.
[0038]
Next, the operation of the transmission apparatus having the above configuration will be described.
Control channel signals are input to data modulation circuits 301 and 302, respectively, and subjected to data modulation processing. Multipliers 303 and 305 multiply the long code LCj and the short codes SC0 and SC1. The thus-multiplied long code LCj and short code SC0 are multiplied by the multiplier 304 on the output of the data modulation circuit 301, and the long code LCj and short code SC1 are multiplied by the multiplier 306 on the output of the data modulation circuit 302. .
[0039]
For example, in the base station apparatus provided with this transmission apparatus, the long code LCj is assigned differently in each base station. Further, as described above, the control channel signal is doubly spread by the long code LCj and the short code SC. For this reason, a common short code group can be used in each base station.
[0040]
On the other hand, in the search code multiplexing unit, the short code CSC and the group identification code GICj are added by the adder 307 and multiplexed on one of the control channel signals by switching the switch (TSW) 308. Switching of the switch 308 is controlled by a transmission antenna switching control signal 311.
[0041]
In the switches (SW0) 309 and (SW1) 310, the switches are turned on at a predetermined timing, and the short code CSC and the group identification code GICj are multiplexed on the control channel signal at that timing.
[0042]
Therefore, when the switch TSW308 is turned on at the timing of the waveform in FIG. 3, that is, when the multiplexing destination is selected, the switches SW0 and SW1 are turned on at the timing of the waveform in FIG. The short code CSC and the group identification code GICj are multiplexed. The switches SW0 and SW1 are controlled by a mask control signal 312. That is, the switches SW0 and SW1 are controlled so that the short code CSC and the group identification code GICj are multiplexed on one of the control channel signals at a specific timing.
[0043]
By controlling in this way, the search code is multiplexed as masks 801 and 901 as shown in FIGS. Here, FIG. 8 is a diagram showing a state in which the search code and the control channel signal are time-multiplexed. In this case, different short codes or the same short codes can be used for the control channel signal and the mask. FIG. 9 is a diagram showing a state where the search code and the control channel signal are code-multiplexed. In this case, it is necessary to use different short codes for the control channel signal and the mask.
[0044]
As shown in FIG. 8, when the search code and the control channel signal are time-multiplexed, they do not overlap at the same time, so that the short code can be shared, and when the search code and the control channel signal are code-multiplexed, Although it is necessary to prepare a new short code for the search code, multiplex processing and search code transmission power control can be performed independently of the control channel.
[0045]
In this embodiment, as shown in FIG. 6, the search code multiplexing unit switches the search code multiplexing destination so that a plurality of codes (two in this case) are multiplexed in synchronization with the control channel signal. A case of a configuration (a configuration in which a search code is transmitted from the same antenna) is described. In such a configuration, if one code is used for channel estimation as a known signal, data modulated using the channel estimation result can be used even when data modulation is performed on other codes. Can be detected.
[0046]
The search code multiplexing unit is configured as shown in FIG. 7, that is, the search code multiplexing destination is switched so that a plurality of codes are independently multiplexed on the control channel signal (search codes are transmitted from different antennas). Configuration). That is, the search code multiplexing unit includes a switch 701 for switching the multiplexing destination of the short code CSC independently, a switch 702 for switching the multiplexing destination of the group identification code GICj, and an adder for adding the short code CSC and the group identification code GICj. The structure provided with 703,704 may be sufficient. The switches 701 and 702 are controlled by a transmission antenna switching control signal.
[0047]
In such a configuration, since mask multiplexing can be performed at various timings, variations in mask multiplexing can be increased. Also, even when the search code transmission power is stronger than the control channel transmission power, it is possible to prevent a plurality of search codes from being transmitted from the same antenna at the same time, thereby reducing the peak factor required in the transmission amplifier. be able to.
[0048]
According to the transmission apparatus of the present embodiment, the search code transmission antenna is switched, and the search code is transmitted from only one antenna instantaneously. In this case, the switching may be periodic or random. That is, only the search code is transmitted by TSTD. However, search code transmission power is controlled independently of the control channel.
[0049]
As a result, a transmission diversity effect is exhibited, and it becomes strong against fading fluctuations, particularly fading fluctuations and shadowing during low-speed movement, and reception characteristics on the receiving side are improved. Also, according to the transmission apparatus of the present embodiment, the number of correlators such as matched filters required for cell search can be reduced on the reception side, and the apparatus configuration can be simplified while improving reception characteristics. Can do.
[0050]
Note that the transmission diversity of the control channel and the transmission diversity of the search code are different, and the obtained effect and the required reception characteristics are different, so the search code transmission power is independent of the control channel transmission power control. It is thought that it is controlled by. For example, even when the control channel is transmitted with half (0.5) power by two parallel transmissions, the search code may be transmitted with the same power (1) as when one is used.
[0051]
(Embodiment 2)
In this embodiment, a case where OTD, which is one aspect of parallel transmission, is employed will be described. FIG. 4 is a block diagram showing a configuration of an apparatus that performs OTD in Embodiment 2 of the present invention. In this apparatus, transmission data is parallel-converted into a plurality of systems (two systems in the figure) by a serial / parallel converter 401, the transmission data is data-modulated by data modulators 402 and 403, and spread modulators 404 and 405 respectively. The signal is spread-modulated and transmitted on the carrier wave by the wireless transmission circuits 406 and 407 via the antennas 408 and 409.
[0052]
Next, the transmission apparatus of this Embodiment is demonstrated using FIG. FIG. 5 is a block diagram showing a configuration of a transmission apparatus in the base station apparatus according to Embodiment 2 of the present invention.
[0053]
This transmission apparatus is capable of two systems of parallel transmission, a serial / parallel converter 501 for serial / parallel conversion of a control channel signal, and a data modulation circuit 502 for performing data modulation on a control channel (for example, perch channel) signal. 503, multipliers 505 and 507 for multiplying the modulated signal by a specific code, multipliers 504 and 506 for respectively multiplying the long code LCj and the short codes SC0 and SC1, and a search code for generating a search code A multiplexing unit and switches 510 and 511 serving as switching means for switching a search code multiplexing destination are provided.
[0054]
The search code multiplexing unit mainly includes an adder 508 that adds the short code CSC and the group identification code GICj, and a switch 509 that multiplexes the added code as a mask to any control channel signal.
[0055]
Next, the operation of the transmission apparatus having the above configuration will be described.
The control channel signal is serial / parallel converted in the serial / parallel converter 501 and input to the two data modulation circuits 502 and 503 to be subjected to data modulation processing. Multipliers 504 and 506 multiply the long code LCj and the short codes SC0 and SC1. The thus-multiplied long code LCj and short code SC0 are multiplied by the output of the data modulation circuit 502 by the multiplier 505, and the long code LCj and short code SC1 are multiplied by the output of the data modulation circuit 503 by the multiplier 507. .
[0056]
For example, in a base station device provided with this transmission device, the long code LCj is assigned differently in each base station. Further, as described above, the control channel signal is doubly spread by the long code LCj and the short code SC. For this reason, a common short code group can be used in each base station.
[0057]
On the other hand, in the search code multiplexing unit, the short code CSC and the group identification code GICj are added by the adder 508, and are multiplexed on one of the control channel signals by switching the switch (TSW) 509. Switching of the switch 509 is controlled by a transmission antenna switching control signal 513.
[0058]
Further, the switch (SW0) 510 and the switch (SW1) 511 are turned on at a predetermined timing, and the short code CSC and the group identification code GICj are multiplexed on the control channel signal at that timing.
[0059]
Therefore, when the switch TSW 509 is turned on at the timing of the waveform in FIG. 5, that is, when the multiplexing destination is selected, the switches SW0 and SW1 are turned on at the timing of the waveform in FIG. The short code CSC and the group identification code GICj are multiplexed. The switches SW0 and SW1 are controlled by a mask control signal 512. That is, the switches SW0 and SW1 are controlled so that the short code CSC and the group identification code GICj are multiplexed on one of the control channel signals at a specific timing. By controlling in this way, the search code is multiplexed as masks 801 and 901 as shown in FIGS.
[0060]
In the present embodiment, as shown in FIG. 5, the search code multiplexing unit switches the search code multiplexing destination so that a plurality of codes (two in this case) are multiplexed in synchronization with the control channel signal. Although the case of a configuration is described, as in the first embodiment, the configuration shown in FIG. 7, that is, the search code multiplexing destination is switched so that a plurality of codes are independently multiplexed on the control channel signal. It may be a configuration. This configuration will be described in detail in Embodiment 3.
[0061]
According to the transmission apparatus of the present embodiment, the search code transmission antenna is switched, and the search code is transmitted from only one antenna instantaneously. In this case, the switching may be periodic or random. That is, only the search code is transmitted by TSTD.
[0062]
In this case, since the amount of transmission data is reduced to a fraction of the number of antennas due to parallel transmission, when transmitting in the same band, the spreading factor can be increased to several times that of the antenna. For example, if the number of antennas is 64 and the diffusion is 64 times, the number of antennas is 128 and the diffusion is 128 times. Therefore, even if the transmission power of each antenna is reduced to a fraction of the number of antennas due to parallel transmission, the basic characteristics of each antenna are the same as when one antenna is used.
[0063]
In addition, according to the transmission apparatus of the present embodiment, serial / parallel converted signals are transmitted from different antennas through different paths, so burst errors and the like are compared with the case of transmission with one antenna. Degradation due to concentration errors during low-speed fading and slow fluctuations in received power due to trees and building shadows can be reduced.
[0064]
The transmitting apparatus according to the present embodiment is particularly effective when the signals transmitted from the respective antennas are detected on the receiving side, and then subjected to parallel / serial conversion, and then error correction decoding is performed.
[0065]
Furthermore, according to the transmission apparatus of the present embodiment, the number of correlators such as matched filters required for cell search can be reduced on the reception side, and the apparatus configuration can be simplified while improving reception characteristics. be able to.
[0066]
Note that the transmission diversity of the control channel and the transmission diversity of the search code are different, and the obtained effect and the required reception characteristics are different, so the search code transmission power is independent of the control channel transmission power control. It is thought that it is controlled by. For example, even if the control channel is transmitted with half (0.5) power by two OTDs, the search channel may be transmitted with the same power (1) as when one is used.
[0067]
(Embodiment 3)
In this embodiment, a case will be described in which transmission diversity is performed so that a short code (CSC) and a short code (GICj) are not simultaneously transmitted from the same antenna.
[0068]
In a CDMA wireless communication system, it is conceivable that the search code transmission power is stronger than the control channel transmission power. At this time, when a plurality of search codes are switched and transmitted so as to be multiplexed in synchronization with one control channel, extremely high transmission peak power is required at the transmission timing of the search code. In order to satisfy this requirement, an expensive power amplifier with a large dynamic range is required. For this reason, it is desired to reduce the peak factor required in the transmission amplifier of the transmission apparatus.
[0069]
In the present embodiment, a case will be described in which OTD, which is an aspect of parallel transmission, is adopted as a control data transmission method. The transmission apparatus according to this embodiment will be described with reference to FIG. FIG.10 is a block diagram showing a configuration of a transmission apparatus in the base station apparatus according to Embodiment 3 of the present invention. The transmission apparatus shown in FIG. 10 is a combination of the transmission apparatus shown in FIG. 5 and the switching unit configuration shown in FIG.
[0070]
That is, this transmission apparatus is capable of two-system OTD transmission, and performs data modulation for a serial / parallel converter 501 for serial / parallel conversion of a control channel signal and a control channel (for example, perch channel) signal. Circuits 502 and 503, multipliers 505 and 507 for multiplying a modulated signal by a specific spreading code, multipliers 504 and 506 for multiplying a long code LCj and short codes SC0 and SC1, respectively, and a search code. A CSC generator for generating a short code CSC, a GICj generator for generating a group identification code GICj that is also a search code, switches 701 and 702 that are switching means for switching search code multiplexing destinations, and a spread-modulated signal And search code switching Ji (SW0) 510, and a (SW1) 511.
[0071]
Next, the operation of the transmission apparatus having the above configuration will be described.
The control channel signal is serial / parallel converted in the serial / parallel converter 501 and input to the two data modulation circuits 502 and 503 to be subjected to data modulation processing. Multipliers 504 and 506 multiply the long code LCj and the short codes SC0 and SC1. The thus-multiplied long code LCj and short code SC0 are multiplied by the output of the data modulation circuit 502 by the multiplier 505, and the long code LCj and short code SC1 are multiplied by the output of the data modulation circuit 503 by the multiplier 507. .
[0072]
For example, in a base station device provided with this transmission device, the long code LCj is assigned differently in each base station. Further, as described above, the control channel signal is doubly spread by the long code LCj and the short code SC. For this reason, a common short code group can be used in each base station.
[0073]
On the other hand, the short code CSC and the group identification code GICj are switched at specific timings by the switches (TSW) 701 and 702 that are switched in conjunction with each other, whereby the short code CSC and the group identification code GICj are transmitted from different antennas. Therefore, the multiplexing destination is controlled so that the search codes transmitted from the respective antennas are always replaced.
[0074]
The switches (SW0) 510 and (SW1) 511 are turned on at a predetermined timing, and the short code CSC and the group identification code GICj are multiplexed on the control channel signal at the same timing.
[0075]
Therefore, when the switches (TSW) 701 and 702 are turned on at the timing of the waveform in FIG. 10, that is, when CSC is selected as the SW0 side and GICj is selected as the multiplexing destination, the switches SW0 and SW1 are selected. Is turned ON at the timing of the waveform in FIG. 10, and the short code CSC and the group identification code GICj are multiplexed on the control channel signal.
[0076]
The switches TSW 701 and 702 are controlled by a transmission antenna switching control signal 705, and the switches SW0 and SW1 are controlled by a mask control signal 512. That is, the switches SW0 and SW1 are controlled to multiplex the short code CSC and the group identification code GICj on one of the control channel signals at a specific timing, and the switches TSW701 and 702 have a search code multiplexed on each control channel. It is controlled to be replaced every time.
[0077]
An example of the multiplexed signal when the above operation is performed is shown in FIG. In FIG. 11, it is assumed that the control channel is transmitted using 0th (TS0) and 8th (TS8) as CCH slots in a 10 ms frame composed of 16 slots. In TS0 and TS8, CSC and GICj are transmitted from two antennas A and B, and CSC is switched from A → B → A, and GISj is switched from B → A → B. Has been sent.
[0078]
According to the transmission apparatus of the present embodiment, each search code is transmitted from a different antenna at each transmission timing, so that a transmission diversity effect can be obtained. Also, even when the search code transmission power is stronger than the control channel transmission power, it is possible to prevent a plurality of search codes from being transmitted from the same antenna at the same time, thereby reducing the peak factor required in the transmission amplifier. be able to.
[0079]
When the short code CSC and the short code GICj are transmitted from different antennas, it is conceivable that the channel for transmitting the search code and the control channel are separate. This state is shown in FIGS.
[0080]
In the case shown in FIG. 12, antenna A transmits the short code CSC and the control channel signal by code multiplexing at TS0, and transmits the short code GICj and the control channel signal by code multiplexing at TS8.
[0081]
On the other hand, in the antenna B, the short code GICj and the control channel signal are code-multiplexed and transmitted when TS0, and the short code CSC and the control channel signal are code-multiplexed and transmitted when TS8.
[0082]
Even in such a code multiplex transmission mode, each search code is transmitted from a different antenna at each transmission timing, so that a transmission diversity effect can be obtained. Also, even when the search code transmission power is stronger than the control channel transmission power, it is possible to prevent a plurality of search codes from being transmitted from the same antenna at the same time, thereby reducing the peak factor required in the transmission amplifier. be able to.
[0083]
In the case shown in FIG. 13, the transmission form is code multiplexing, but the search codes CSC, GICj and the control channel signal are not multiplexed and transmitted. That is, the short codes CSC and GICj are transmitted from the antennas A and B alternately by TS0 and TS8, but the control channel signal is transmitted by TS3 and TS11. Thus, the present embodiment can also be applied to a system that employs a dynamic channel assignment method that increases the degree of freedom of channel arrangement.
[0084]
Thus, even when the transmission timing of the control channel signal is made variable and the degree of freedom of slot allocation is increased, each search code is transmitted from a different antenna for each transmission timing, so that a transmission diversity effect can be obtained. Also, even when the search code transmission power is stronger than the control channel transmission power, it is possible to prevent a plurality of search codes from being transmitted from the same antenna at the same time, thereby reducing the peak factor required in the transmission amplifier. be able to.
[0085]
The present invention is not limited to Embodiments 1 to 3 above, and can be implemented with various modifications.
[0086]
In the first to third embodiments, the case where different short codes are used for the short code SC to be multiplied with the long code and the short code CSC to be added to the group identification code GIC has been described. The same short code may be used for the short code SC to be multiplied with the code and the short code CSC to be added to the group identification code GIC.
[0087]
【The invention's effect】
As described above, in the transmission apparatus of the present invention, the control channel is strong against fading fluctuation (particularly during low-speed movement) and shadowing due to the transmission diversity effect by parallel transmission including OTD, and the reception characteristics can be improved. Further, the switching transmission diversity effect is also exerted on the search code, and it becomes strong against fading fluctuation, particularly fading fluctuation and shadowing during low-speed movement, and reception characteristics on the receiving side are improved.
[0088]
Further, according to the transmission apparatus of the present invention, it is possible to obtain a diversity effect without increasing the number of codes required for the search code per sector and without increasing the number of matched filters required for the search code on the receiving side. it can. Thereby, it is possible to improve the reception characteristics of the search code and improve the initial synchronization characteristics.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an apparatus that performs parallel transmission in a base station apparatus according to Embodiment 1 of the present invention;
FIG. 2 is a block diagram showing a configuration of an apparatus for generating a long code mask in the base station apparatus according to the above embodiment.
FIG. 3 is a block diagram showing a configuration of a transmitting apparatus in the base station apparatus according to the above embodiment
FIG. 4 is a block diagram showing a configuration of an apparatus that performs orthogonal transmission diversity in a base station apparatus according to Embodiment 2 of the present invention;
FIG. 5 is a block diagram showing a configuration of a transmitting apparatus in the base station apparatus according to the above embodiment
FIG. 6 is an explanatory diagram illustrating a configuration of a search code multiplexing unit of the transmission device according to the first and second embodiments.
FIG. 7 is an explanatory diagram illustrating a configuration of a search code multiplexing unit of the transmission device according to the first and second embodiments.
FIG. 8 is a diagram for explaining timing for multiplexing a search code on a control channel in the first and second embodiments.
FIG. 9 is a diagram for explaining timing for multiplexing a search code on a control channel in the first and second embodiments.
FIG. 10 is a block diagram showing a configuration of a transmission apparatus in a base station apparatus according to Embodiment 3 of the present invention.
FIG. 11 is a diagram for explaining timing for multiplexing a search code on a control channel in the third embodiment;
12 is a diagram for explaining multiplexing timing when the control channel and the search code channel are code-multiplexed in the third embodiment. FIG.
FIG. 13 is a diagram for explaining multiplexing timing when the control channel and the search code channel are code-multiplexed in the third embodiment.
[Explanation of symbols]
101, 102 data modulation unit
103, 104 Spreading modulation unit
105, 106 wireless transmission circuit
201, 301, 302 Data modulation circuit
202, 203, 303 to 306 Multiplier
204,307 Adder
205, 308-310 switch
311 Transmission antenna switching control signal
312 Mask control signal
801,901 mask

Claims (6)

A wireless transmission device used in a CDMA communication system, comprising:
A first antenna and a second antenna for transmitting control channels in parallel;
Multiplexing means for multiplexing both the first search code and the second search code used for cell search on the control channel transmitted from the first antenna or the control channel transmitted from the second antenna at the same timing;
The control channel on which the first search code and the second search code are multiplexed is switched between a control channel transmitted from the first antenna and a control channel transmitted from the second antenna with a predetermined switching pattern. Switching means;
A wireless transmission device comprising: The switching means alternates a control channel on which the first search code and the second search code are multiplexed between a control channel transmitted from the first antenna and a control channel transmitted from the second antenna. Switch to
The wireless transmission device according to claim 1. The multiplexing means time-multiplexes the first search code and the second search code on the control channel ;
The wireless transmission device according to claim 1 . The multiplexing means code-multiplexes the first search code and the second search code on the control channel ;
The wireless transmission device according to claim 1 . A mobile communication base station apparatus comprising the radio transmission apparatus according to any one of claims 1 to 4 . A wireless transmission method used in a CDMA communication system, comprising:
A multiplexing step of multiplexing both the first search code and the second search code used for the cell search on either one of the control channels transmitted in parallel from the first antenna and the second antenna at the same timing;
The control channel on which the first search code and the second search code are multiplexed is switched between a control channel transmitted from the first antenna and a control channel transmitted from the second antenna with a predetermined switching pattern. Switching process;
A wireless transmission method comprising:

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