JP2003219478A - W-cdma portable telephone system and downlink scrambling code automatic allotting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce a discussion of designers for allotting codes and make an early allocating of an optimum downlink scrambling code for lowering the probability of interference, etc. <P>SOLUTION: Transmission band-pass filters 12 limit the bands of radio signals received from neighboring radio base stations by antennas 11 in a radio base station 10 and receivers 13 demodulate them. A code processor 14 processes their codes to identify the control channels of the neighboring radio base stations, thereby discriminating downlink scrambling codes of the neighboring radio base stations from the identified control channels. A base station controller 20 determines the downlink scrambling codes to be allotted to the radio base station 10, based on the discrimination result from the radio base station 10. <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 W-CDMA mobile phone system and a downlink scrambling code automatic allocation method for transmitting and receiving radio signals of a mobile phone in a wide band CDMA system.

[0002]

2. Description of the Related Art W-CDMA (Wideband)
Code Division Multiple Ac
access) is a type of CDMA mobile communication system. In a broad sense, this W-CDMA refers to all CDMA systems that use a wider band, but in many cases,
IMT-DS (In), which is one of the wireless interface standards defined by IMT-2000 (third generation mobile phone)
internationalMobile Telecom
communications-DirectSprea
It corresponds to the general name of d). Therefore, W-CDMA is
Also called DS-CDMA.

In this W-CDMA, there are a synchronous system in which time is synchronized between each sector (Cell) using an external timing source, and an asynchronous system in which synchronization between the sectors is not performed. In addition, such W-CD
In a mobile phone system (W-CDMA mobile phone system) using MA, each sector of a wireless base station is
Divided by spreading code.

In the synchronous system of W-CDMA, since synchronization performed between sectors can be controlled, a code is added to each sector except for the phase of the spreading code. That is, only one unique spreading code is used. On the other hand, in the asynchronous system, since there is no available time information, different spreading codes are given to each sector.

The spreading code that divides each sector by the W-CDMA mobile phone system is called "scrambling code". Conventionally, the designer has designed the allocation of downlink (radio base station → mobile phone) scrambling codes to radio base stations by simulating the areas covered by each sector and deriving the sector arrangement of the entire service area. Later, it was done so as not to overlap between the sectors.

[0006]

However, the conventional downlink scrambling code allocation method has the following problems. For example, the conventional assignment of downlink scrambling codes was done by the designer based on the design by desktop simulation, so until the downlink scrambling codes assigned are deployed and actually measured, interference etc. There was a problem that it was not possible to verify the occurrence of

If interference or the like occurs in the verification, the designer has to re-design, and the desktop design and the field verification may be repeated many times before the final decision of the downlink scrambling code. It was That is,
It took a considerable amount of time and labor to determine the downlink scrambling code.

Further, since the wireless base stations are sequentially added as the service area expands, the designer must
There is a problem that it is necessary to consider the appropriate allocation of the downlink scrambling code, which increases the load. In particular, since there are 512 scrambling codes, if all 512 must be searched when searching for a sector, it takes a very long time and a lot of trouble.

The present invention has been made to solve the above-mentioned problems, and it is possible to reduce the designer's work of examining code allocation, reduce the probability of occurrence of interference during verification, and more optimally It is an object of the present invention to provide a W-CDMA mobile phone system and a method for automatically allocating downlink scrambling codes, which can quickly allocate various downlink scrambling codes.

[0010]

In order to achieve this object, a W-CDMA mobile phone system according to claim 1 of the present invention comprises a plurality of radio base stations and a base station for controlling the plurality of radio base stations. In a W-CDMA mobile phone system having a control device, a radio base station includes an antenna that receives a radio signal from another radio base station, and a transmission band filter that limits the band of the radio signal from the antenna. A receiver for demodulating the radio signal from this transmission band filter,
A code processing unit that performs code processing on a radio signal from this receiver to specify a control channel of another radio base station, and determines a downlink scrambling code of each sector in the other radio base station from the specified control channel. The base station control device is configured to determine the downlink scrambling code of the radio base station based on the result of the discrimination from the code processing unit in the radio base station.

When the W-CDMA mobile phone system is configured as described above, the determination of the downlink scrambling code in the base station controller determines the downlink scrambling code of another radio base station measured (determined) by the radio base station. Therefore, it is possible to allocate the optimal downlink scrambling code and reduce the probability of occurrence of interference or the like in the verification.

By reducing the probability of occurrence of the interference or the like, the downlink scrambling code assigned to the radio base station can be determined at an early stage. Furthermore, since the downlink scrambling code is automatically assigned in the W-CDMA mobile phone system, it is possible to reduce the designer's work of examining the code assignment.

According to a second aspect of the W-CDMA mobile phone system, the receiver of the radio base station executes a demodulation process of the reception frequency band signal and the transmission frequency band signal from the peripheral radio base station. . If the W-CDMA mobile phone system has such a configuration, in addition to the demodulation processing function of the transmission frequency band signal that the receiver has conventionally,
Since the radio base station also has a demodulation processing function of the reception frequency band signal, the radio base station can execute the demodulation processing of the transmission signal of the mobile phone and the transmission signal from another radio base station. Therefore, in a radio base station that transmits and receives radio signals from a mobile phone, it becomes possible to determine the downlink scrambling code of each sector in another radio base station.

In the W-CDMA mobile phone system according to the third aspect of the present invention, the code processing unit of the radio base station executes code processing of the reception signal from the mobile phone and the transmission signal from the peripheral radio base station. is there. When the W-CDMA mobile phone system has such a configuration, the code processing unit performs the code processing of the received signal from the mobile phone, which is conventionally included, and also the function of performing the code processing of the transmission signal from the wireless base station. Therefore, the wireless base station can determine the downlink scrambling code of each sector in another wireless base station in addition to transmitting and receiving a wireless signal to and from the mobile phone.

A W-CDMA mobile phone system according to a fourth aspect of the present invention includes a radio having an antenna for receiving a radio signal from another radio base station and a transmission band filter for band limiting the radio signal from this antenna. The base station, a demodulation unit that receives and demodulates a radio signal from the transmission band filter of this radio base station, and the radio signal from this demodulation unit is code-processed to identify the control channel of another radio base station, and A code discriminating apparatus having a coding section for discriminating the downlink scrambling code of each sector in another radio base station from the identified control channel, and based on the discrimination result from this code discriminating apparatus, the downlink scrambling of the radio base station is performed. And a base station control device that determines a ring code.

If the W-CDMA mobile phone system is configured in this way, the code discriminating apparatus provided separately from the radio base station executes demodulation and code processing of radio signals, so that the radio base station Even when the wireless signal from the mobile phone is processed, the code determination device can determine the down scrambling code based on the wireless signal. Then, the base station control device automatically determines the downlink scrambling code of the radio base station (own base station) that has received the transmission signal of another radio base station, based on the discrimination result from the code discriminating device. You can

Further, in the W-CDMA mobile phone system according to the fifth aspect, the transmission band filter of the radio base station is composed of a high frequency filter. When the W-CDMA mobile phone system has such a configuration, the transmission band filter including the high-frequency filter can limit the band of the transmission signal from another wireless base station. The own base station) can automatically determine the downlink scrambling code of each sector in another radio base station based on the band-limited transmission signal.

Further, in the W-CDMA mobile phone system according to the sixth aspect, the base station control device obtains the downlink scrambling code used in another radio base station based on the result of the determination, and obtains this. The highest number among the numbers indicated by the downlink scrambling code is extracted, an arbitrary number is reserved from the higher number than the extracted number for the sector of the wireless base station, and the secured number is allocated to the wireless base station. In this configuration, the downlink scrambling code of the sector is used.

With the W-CDMA mobile phone system having such a configuration, the base station control device determines the downlink scrambling code different from the downlink scrambling code assigned to each sector in another radio base station. Can be assigned to the wireless base station (own base station) that has notified the. That is, an optimal downlink scrambling code capable of suppressing interference between sectors can be assigned to the own base station.

Further, in the downlink scrambling code automatic allocation method according to the present invention, a radio base station receives a radio signal from another radio base station, performs band limitation and demodulation of the received radio signal, and The radio signal is code-processed to identify the control channel of the other radio base station, and the downlink scrambling code of the other radio base station is discriminated from the identified control channel. This is a method of deciding the downlink scrambling code of the radio base station which has transmitted this determination result based on the determination result.

If the downlink scrambling code automatic allocation method is such a method, the downlink scrambling code of each sector in the own base station is determined based on the actual measurement of the radio signal from another radio base station. , More optimal downlink scrambling code allocation becomes possible. Therefore, the probability of occurrence of interference or the like in verification can be reduced.

By reducing the probability of occurrence of the interference or the like, the downlink scrambling code assigned to the radio base station can be determined at an early stage. Further, since the downlink scrambling code is automatically assigned, it is possible to reduce the designer's work of examining the code assignment.

[0023]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. First, the W-CD of the present invention
An embodiment of the MA mobile phone system will be described with reference to FIG. FIG. 1 is a configuration diagram showing the configuration of the W-CDMA mobile phone system of this embodiment.

As shown in the figure, the W-CDMA mobile phone system 1 includes a radio base station 10 (radio base stations 10a-1a).
0n) and the base station controller 20. Here, the radio base station 10 uses the antenna 1 as shown in FIG.
1 (antennas 11-1 to 11-n), transmission band filter 12 (transmission band filters 12-1 to 12-n), receiver 13 (receivers 13-1 to 13-n), and code processing unit 14 and a transmitter 15 (transmitters 15-1 to 15-n).

The antenna 11 receives a radio signal in each sector direction transmitted from another radio base station (radio base station other than the radio base station subject to automatic determination of the downlink scrambling code: peripheral radio base station). To receive. Since the antenna 11 is well known to those skilled in the art, detailed description thereof will be omitted.

The transmission band filter 12 limits the band of the radio signal from the antenna 11 and sends it to the receiver 13. The transmission band filter in the conventional radio base station is equipped with a transmission / reception shared device, and limits the respective bands of the transmission signal from the transmitter 15 and the reception signal from the antenna 11, and further performs separation / combination. It was

W-CDMA mobile phone system 1 of the present invention
The transmission band filter 12 in the wireless base station 10 is a high frequency filter for band limiting the wireless signal of the peripheral wireless base station received by the antenna 11. In addition,
When the transmission band filter 12 limits the band of the radio signal of the peripheral radio base station, the radio base station 10 is in the transmission stop state.

The receiver 13 demodulates the radio signal from the transmission band filter 12 and sends it to the code processor 14. That is, the receiver 13 demodulates the reception frequency band signal of the peripheral wireless base station (transmission signal of the mobile phone) and the signal of the transmission frequency band of the peripheral wireless base station.

The code processing unit 14 has a function of performing a code process on a received signal from a mobile phone and a function of performing a code process on a radio signal of a radio base station. Therefore, the code processing unit 1
4 performs code processing on the demodulated signal received from the receiver 13 and controls the control channel (control CH (C
PICH etc.)) is specified. Further, the downlink scrambling code of each sector in the peripheral base station is determined based on the specified control channel.

The downlink scrambling code is a code assigned to each sector in order to identify each sector. Then, the code processing unit 14 transfers (notifies) the determined downlink scrambling code (determination result) of each station to the base station control device 20, which is a higher-level device of the radio base station 10. The operation contents of the receiver 12 and the code processing unit 14 can be arbitrarily set by the user.

The base station control device 20 calculates a downlink scrambling code that does not interfere with the surrounding radio base stations based on the discrimination result from the radio base station 10 and recognizes it as the configuration data of the radio base station 10. In this base station controller 20, 512 downlink scrambling codes defined by the standard are stored as a table as shown in FIG.

Therefore, the base station controller 20 obtains the downlink scrambling code used in the neighboring radio base stations based on the discrimination result from the radio base station 10, and the number indicated by the obtained downlink scrambling code. The highest number is extracted, and an arbitrary number is reserved for the sector of the radio base station 10 from the numbers higher than the extracted number, and the secured number is used for the radio base station 10.
This is the downlink scrambling code for the sector.
That is, the base station controller 20 determines a code that does not match the downlink scrambling code notified from the radio base station 10 as the downlink scrambling code of the radio base station 10.

With such a configuration, the W-CD of the present invention
The MA mobile phone system has a function of observing a downlink scrambling code by actually measuring a control channel of a peripheral wireless base station and automatically calculating / determining a downlink scrambling code which is not affected by the downlink scrambling code for each sector. Can have.

Therefore, the area designer does not need to perform the complicated work of assigning the downlink scrambling code in consideration of restrictions such as interference and code repetition. Further, since it becomes possible to appropriately allocate the downlink scrambling code to each sector of the radio base station, it is possible to suppress the occurrence of interference at the time of verification or the like.

Further, since the receiver and the code processing unit used in the conventional radio base station have a function of measuring the downlink scrambling code of the peripheral radio base station,
There is no need to prepare a special device or system only for measuring the downlink scrambling code of the peripheral radio base station.

Next, the operation of assigning the downlink scrambling code in the base station controller will be described with reference to FIGS.
Will be described with reference to. FIG. 4 is a diagram showing a positional relationship between adjacent radio base stations and sectors. Since the downlink scrambling code is a code that identifies a sector (Cell), as shown in FIG.
It is necessary to assign a different code for each sector between 0a and 10b.

Therefore, the base station controller 20 for controlling and managing the radio base stations 10a and 10b, for example, uses the downlink scrambling code (each sector in the radio base station 10a for each sector indicated by the discrimination result notified from the radio base station 10a. The observed downlink scrambling code number of the radio base station 10b) is not assigned to the sector of the radio base station 10a.

That is, if the shaded numbers in the table of FIG. 3 are downlink scrambling code numbers (used numbers) used in the peripheral wireless base stations, the base station control device 20 determines that the numbers are already used. Use number as wireless base station 10
It is not assigned to each sector of a. Therefore, downlink scrambling code numbers other than the used numbers are assigned to each sector of the radio base station 10a.

There are many algorithms for selecting a number other than the already used number in the base station controller 20. For example, the largest number (old number) of the used numbers is extracted, and an arbitrary number is selected from the numbers higher than the extracted number of the wireless base station 10a (the wireless base station that has notified the determination result). There is one that secures the number of sectors and uses the secured number as the downlink scrambling code of the sector in the radio base station 10a.

By the way, in the radio base station 10 shown in FIG. 1, the receiver 12 has a demodulation function of a transmission signal of a peripheral radio base station, and the code processing section 14 has a code processing function of the transmission signal. Although it has these functions, a dedicated device (code discrimination device 3) that is independent of the wireless base station 10 and has these functions.
It can also be realized in 0). The configuration of the code discriminating device 30 is shown in FIG.

As shown in the figure, the code discrimination device 30
Has a demodulation unit 31 and an encoding unit 32. The demodulation unit 31 receives the transmission signal of the peripheral wireless base station from the transmission band filter 12 of the wireless base station 10 and executes the demodulation processing of this transmission signal. However, the demodulation unit 31 does not necessarily have to
It may not have the function of demodulating the reception frequency band signal of the peripheral wireless base station (transmission signal of the mobile phone).

The encoder 32 encodes the demodulated signal from the demodulator 31 to specify the control channel of the peripheral radio base station, and based on the specified control channel, the downlink scrambling of each sector in the peripheral radio base station. Determine the code. Then, this determination result is transmitted (notified) to the base station control device 20. However, the coding unit 32 does not necessarily have to have a function of coding the received signal from the mobile phone.

By providing the code discriminating device 30 independently of the radio base station 10 in the W-CDMA mobile phone system 1, the radio base station 10 can be used as a radio base station for normal radio signal transmission and reception. Therefore, the transmission signal of the peripheral wireless base station can be detected without stopping the normal operation. Therefore, for example, the wireless base station 1
When the surrounding environment changes, such as when a building is constructed after the installation of 0, it is possible to respond at any time.

However, the W-CDMA mobile phone system 1
When the code discrimination device 30 is provided in the wireless base station 10,
May or may not include the receiver 13 and the code processing unit 14. Further, in FIG. 5, the demodulation unit 31 of the code discriminating apparatus 30 receives the transmission signal of the peripheral wireless base station from one of the transmission band filters 12 of the wireless base station 10. However, the transmission signals of the peripheral wireless base stations can be received from a plurality of transmission band filters 12.

[0045]

As described above, according to the present invention, in the radio base station (own base station), the downlink scrambling code used in the peripheral radio base station is discriminated, and in the base station control device, Since the downlink scrambling code assigned to the base station is automatically determined based on the result of the determination, the designer's burden of designing the downlink scrambling code can be reduced.

Further, since the downlink scrambling code assigned by the own base station is determined based on the measured value of the downlink scrambling code used in the peripheral radio base station, the probability of occurrence of interference between sectors is reduced. As a result, a more optimal downlink scrambling code can be assigned to the own base station at an early stage.

Further, since the receiver and the code processing unit used in the conventional radio base station are configured to have the function of measuring the downlink scrambling code of the peripheral radio base station,
There is no need to prepare a special device or system only for measuring the downlink scrambling code of the peripheral radio base station.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a W-CDMA mobile phone system of the present invention.

FIG. 2 is a block diagram showing an internal configuration of a wireless base station in the W-CDMA mobile phone system of the present invention.

FIG. 3 is a table of downlink scrambling code numbers.

FIG. 4 is a diagram showing a positional relationship of sectors between adjacent radio base stations.

FIG. 5 is a block diagram showing configurations of a radio base station and a code discrimination device.

[Explanation of symbols]

1 W-CDMA mobile phone system 10 wireless base stations 11-1 to 11-n antenna 12-1 to 12-n transmission band filter 13-1 to 13-n receiver 14 Code processing unit 15-1 to 15-n transmitter 20 Base station controller 30 Code discriminator 31 Demodulator 32 encoder

Claims (7)

[Claims] 1. A W-CDM having a plurality of radio base stations and a base station controller for controlling the plurality of radio base stations.
A mobile phone system, wherein the radio base station includes an antenna for receiving a radio signal from another radio base station, a transmission band filter for band limiting the radio signal from the antenna, and a transmission band filter A receiver for demodulating the radio signal of, and a radio signal from the receiver is code-processed to identify a control channel of the other radio base station, and the control channel of the other radio base station is specified from the identified control channel. And a code processing unit that determines the downlink scrambling code of each sector, the base station control device, based on the result of the determination from the code processing unit in the radio base station, the downlink scrambling of the radio base station. A W-CDMA mobile phone system characterized by determining a ring code. 2. The W-CDMA according to claim 1, wherein the receiver of the radio base station executes demodulation processing of a reception frequency band signal and a transmission frequency band signal from the peripheral radio base station. Mobile phone system. 3. The code processing unit of the radio base station executes code processing of a reception signal from a mobile phone and a transmission signal from the peripheral radio base station.
Alternatively, the W-CDMA mobile phone system described in 2. 4. A radio base station having an antenna for receiving a radio signal from another radio base station, a transmission band filter for band limiting the radio signal from the antenna, and the transmission band of the radio base station. A demodulation unit that receives the radio signal from the filter and demodulates it, and the radio signal from the demodulation unit is code-processed to identify the control channel of the other radio base station, and the other control channel is identified from the identified control channel. On the basis of the result of the discrimination from the code discriminating device, which has a coding portion for discriminating the downlink scrambling code of each sector in the radio base station,
W-CD having a base station controller that determines a downlink scrambling code of the radio base station.
MA mobile phone system. 5. The transmission band filter of the radio base station comprises a high frequency filter.
The W-CDMA mobile phone system according to 2, 3, or 4. 6. The base station control device obtains a downlink scrambling code used in the other radio base station based on the result of the discrimination, and selects the most out of the numbers indicated by the obtained downlink scrambling code. A large number is extracted, and an arbitrary number is reserved for the sector of the radio base station from among the numbers higher than the extracted number, and the secured number is used as the downlink scrambling code of the sector in the radio base station. The method according to claim 1, wherein
The W-CDMA mobile phone system according to any one of 1. 7. A radio base station receives a radio signal from another radio base station, performs band limitation and demodulation of the received radio signal, and code-processes the radio signal to obtain a radio signal from the other radio base station. Identify the control channel, determine the downlink scrambling code of the other radio base station from the identified control channel, in the base station control device, based on the result of the determination from the wireless base station, the determination result A downlink scrambling code automatic allocation method characterized by determining a downlink scrambling code of a transmitting radio base station.