JPH10256962A - Radio communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a mobile station to simultaneously communicate with plural base stations and to attain stable communication by selecting a base station identification code and an antenna beam identification code stored corresponding to a small area in which the mobile station is positioned, and transmitting this through the base station. SOLUTION: A service area formed of base stations 1a-1c is divided like a grid so that one area unit(control unit) 6 for controlling a communication path can be obtained. A mobile switchboard receives the present position of a mobile station through a base station 1, and updates the present position when the calling of the mobile station is absent. When the calling of the mobile station is present, plural communication paths stored in a communication path data base are selected by referring to the latest present position updated unit then or the present position transmitted at the same time as the calling. For example, when the mobile station is present in the control unit 6(2, 2), the mobile switchboard selects 1a-4c and 1b-4f as the candidates of the communication path. In this case, the mobile switchboard assigns the same frequency and same timing channels to the base stations 1a and 1b, and starts communication.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a radio communication system. In particular, the present invention relates to macro diversity in which a base station forms a base station area with a plurality of antenna beams and a mobile station communicates with a plurality of base stations to enable stable communication.

[0002]

2. Description of the Related Art FIG.
FIG. 3 is a diagram for explaining the conventional macro diversity system shown in FIG. In the figure, 1 is a base station, 2 is a mobile station, and 3 is a mobile switching center.

The operation will be described with reference to the drawings. Wireless base station 1
a to 1c constantly transmit base station information including a base station identification code on a downlink control channel. The mobile station 2 periodically receives signals transmitted by the radio base stations 1a to 1c, and obtains an average value of the reception levels of those signals.

When a mobile station 2 makes a call, a call signal is transmitted to the base station having the highest reception level among these base stations 1a to 1c. At this time, the call request signal transmitted by the mobile station 2 includes the radio base station identification codes of the second and subsequent reception levels. Similarly, when the mobile station 2 receives an incoming call, the mobile station 2 transmits a response signal to the radio base station having the highest reception level. At this time, the call request signal includes the radio base station identification codes of the second and subsequent reception levels.

[0005] The mobile switching center 3 that has received the signal of the mobile station 2 via the radio base station selected by the mobile station 2 allocates a channel for communication between the mobile station 2 and a plurality of base stations. A plurality of radio base stations transmit the same information on the assigned channel. On the other hand, the signal transmitted by the mobile station 2 is
Signals received by a plurality of radio base stations and received information such as a reception level and a bit error rate are sent to the mobile switching center. The mobile switching center 3 selects a signal having the highest quality from the received signals received from the plurality of radio base stations in consideration of the received information. By doing so, the mobile station can always perform diversity communication with a plurality of radio base stations in a good communication state, so that a decrease in the reception level due to fading and shadowing can be prevented and good communication quality can always be obtained. Can be

[0006]

In the conventional macro diversity system as described above, the base station uses an omni antenna, and consideration is given to the case where the base station forms a base station area using a plurality of antenna beams. I haven't. Since the base station uses an omni antenna, it is relatively easy to periodically receive the signals of the base stations in the surrounding zones and calculate the average of the reception levels of those signals. When using the antenna beam of the above, it is necessary to observe the average reception level for each antenna beam for the base station in the surrounding zone, and there is a problem that the measurement takes time.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a system to which macro diversity is applied when a base station uses a plurality of antenna beams.

[0008]

A radio communication system according to the present invention has a base station forming a base station area by a plurality of antenna beams, and a plurality of base stations communicate with one mobile station. In a wireless communication system for performing stable communication, a mobile station having a means for determining a current position of a mobile station, a means for transmitting the obtained current position information, and a base station having a service area formed by a plurality of antenna beams. Dividing the service area covered by the plurality of base stations into a plurality of small areas, and corresponding to the small areas, an identification code of a base station communicable from the small area and an antenna beam identification of the communicable base station. A database storing a code, receiving the location information of the mobile station via the communicable base station, and The position of the moving station to select a communicable base station identification code and antenna beam identification code of the small area, and a mobile switching center to transmit via the base station corresponding the selected communication path.

In the radio communication system according to the present invention, when the mobile switching center selects a communication path from the communication path database, the mobile switching center stores the communication path corresponding to a small area adjacent to the small area to which the mobile station belongs. The base station identification code and the antenna beam identification code are also selected and transmitted to the mobile station via the base station.

In the wireless communication system according to the present invention, the mobile station has means for obtaining information on a moving direction together with a current position, and means for transmitting the obtained current position information and moving direction information. The station receives the information via the base station, selects a communication area in the small area where the mobile station belongs and the small area to which the mobile station belongs from the database based on the information, based on this information, and via the base station Send.

Further, in the wireless communication system according to the present invention, the database has one or more communication paths for the small area by theoretical calculation or actual measurement on radio wave propagation.

In a wireless communication system according to the present invention, in the wireless communication system according to the first aspect, the base station transmits a base station identification code and an antenna beam identification code for each antenna beam; A means for observing the communication quality of each antenna beam for each base station in the vicinity, and a base station identification code and an antenna beam determined to be able to communicate with the current position with respect to the base station communicating based on the observation result. An identification code is notified, and the database is updated with the notified base station identification code and antenna beam identification code.

[0013] Further, in the radio communication system according to the present invention, in order for the system to know the location of the mobile station, location registration information such as a location area for performing a simultaneous call is registered in a visitor location register, and the mobile station is registered with the mobile station. In the case of an incoming call, in a wireless communication system that performs a general call in a registered location area, the registration information is the current location of the location area and the mobile station. One or more communication paths are obtained using the database on the small area, and a paging signal is transmitted through the determined communication path.

[0014] In the wireless communication system according to the present invention, in the wireless communication system according to claim 6, one or more communication paths are established using a communication path database relating to a small area adjacent to the registered small area. Then, a paging signal is transmitted through the determined communication path.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. FIG. 1 is a conceptual diagram showing a base station forming a base station area by a plurality of antenna beams. In the figure, 1 is a base station, 4a, 4b,..., 4 is an antenna beam, 5 is a base station area, and a plurality of antenna beams 4a.
４4h.

FIG. 2 shows a macro diversity system according to the first embodiment of the present invention. In the figure, 1a-1
c is a base station, 2 is a mobile station, 3 is a mobile switching station, 4 is an antenna beam, and the base station 1 shows antenna beams 4a to 4h as shown in FIG. 5a to 5c are formed by antenna beams 4a to 4h in the base station area. Reference numeral 6 denotes a control unit divided into a grid, and reference numeral 7 denotes a communication path database.

The service area formed by the base stations 1a to 1c is divided into small areas, each of which is one area unit for controlling a communication path (hereinafter, referred to as a control unit). Although the control unit 6 is illustrated as being divided in a lattice shape in the figure, it can be a control unit having an arbitrary shape and size. In order to identify the area of each control unit, identification information such as 6 (2, 1), 6 (2, 2),... Further, it is assumed that the mobile station 2 has means for obtaining the current position. As a means to determine the current position,
It has a precision with which it is possible to determine which of the control units 6 it is in. For example, a system such as a GSP (Groval Positioning System) can be used. The mobile station 2 notifies the current position to the base station 1 at the time of calling or periodically. The mobile switching center 3 receives the current position of the mobile station 2 via the base station 1, and updates the current position when there is no call from the mobile station 2. When there is a call from the mobile station 2, the plurality of mobile stations stored in the communication path database 7 are referred to by referring to the latest current position updated so far or the current position transmitted at the same time as the call. Select a communication path. For example, mobile station 2
Exists in the control unit 6 (2, 2), the mobile switching center 3
Selects 1a-4c and 1b-4f as communication channel candidates. In this case, mobile switching center 3 has base stations 1a and 1
The channel having the same frequency and the same timing is assigned to b, and communication is started.

Here, the communication path database 7 will be described. FIG. 3 is a diagram showing the communication path database 7.
The communication path database 7 stores a plurality of communicable base station identification codes and antenna beam identification codes in correspondence with each of the control units 6 that divide the service area into a grid. For example, the control unit 6 (2, 1) is
Since the antenna unit 4 is covered by the antenna beam 4c of the base station 1a and the antenna beam 4d of the base station 1a, 6 (2, 1) for distinguishing the control unit 6 of the communication channel database 7 includes:
1a-4c and 1b-4d are stored. Similarly, the identification code of the base station to be covered and the antenna beam identification code are stored corresponding to the other control units 6. Here, for example, when the mobile station 2 exists in the control unit 6 (2, 2), the control unit 6 is determined from the received current position of the mobile station.
It turns out that you are within (2, 2). Looking at 6 (2, 2) in the communication path database 7, the antenna beam 4c of the base station 1a and the antenna beam 4f of the base station 1b are indicated as communication path candidates with which communication is possible. The mobile switching center 3 selects the communication paths 1a-4c, 1b-4g from the control unit 6 (2, 2) of the communication path database 7, and transmits the selected communication paths to the base stations 1a, 1b. The base station 1a receives the communication channel information 1a-4
c is transmitted on the transmission signal. Also, the base station 1b
The communication path information 1b-4g of the received base station identification code and antenna beam identification code is transmitted in a transmission signal.
The mobile station 2 measures the magnitudes of the received signals of the base stations 1a and 1b and communicates with the base station having the larger received signal. Do.

Although it has been described that the control unit 6 can have an arbitrary shape and size, FIG. 4 shows a case where the size of the control unit is further reduced as compared with FIG. The control unit 6, which is a control unit, is a control unit that stores the antenna beam 4c of the base station 1a as a communication path. Similarly, control units that can communicate as communication paths are stored for communication paths composed of other base stations and antenna beams.

Embodiment 2 In the first embodiment, a plurality of communication paths are obtained from the communication path database relating to the control unit to which the current location of the mobile station belongs. However, as shown in FIG. May be determined. For example, when the current position of the mobile station 2 belongs to the control unit 6 (2, 2), the communication paths indicated by thick lines in FIG. 5, that is, the antenna beams 4a, 4b, 4c, 4d of the base station 1a and the base station 1b The antenna beams 4e, 4f, and 4g of the base station 1c and the antenna beams 4a and 4h of the base station 1c are set as communication channel candidates.

Embodiment 3 In the first embodiment, the mobile station notifies the base station of the current position, and obtains a plurality of communication paths from the communication path database relating to the control unit to which the current position of the mobile station belongs. It is also possible to have a means for determining the moving direction, inform the base station of the current position and the moving direction, and obtain a plurality of communication paths using a communication path database relating to the current position and the moving direction as shown in FIG. For example, if the current position of the mobile station is the control unit 6 (2, 2)
, And when the moving direction is the direction of the control unit 6 (3, 2), the communication path indicated by the bold line in FIG. 6, that is, the base station 1a
The antenna beams 4c and 4d of the base station 1b and the antenna beam 4f of the base station 1b and the antenna beam 4h of the base station 1c are set as communication channel candidates.

Embodiment 4 The communication path database as shown in FIG. 3 can be obtained from data obtained by theoretical calculation on radio wave propagation. For example, in the literature (Masaki Kaji, "
Propagation Loss Estimation System for Outdoor Radio Transmission with Low Antenna Height "1994 IEICE Autumn Conference, SB-1-1)
The reception voltage and the service area can be estimated by the method shown in FIG. Further, a service area can be set by estimating the reception voltage. Using these methods, 1
More than one communication path can be provided.

Embodiment 5 In the fourth embodiment, the communication path database is obtained by theoretical calculation or actual measurement. However, the database may be updated by notification from the mobile station. In FIG. 7, a base station 1 periodically transmits a base station identification code and an antenna beam identification code using a downlink signal. For example, the downlink signal transmitted by the base station 1a using the antenna beam 4c includes 1a as the base station identification code and 4c as the antenna beam identification code.
The downlink signal transmitted by the antenna beam 4f includes 1b as the base station identification code and 4f as the antenna beam identification code. The mobile station 2 has means for observing the communication quality for each antenna beam for each base station in the vicinity. For example, the mobile station 2 has the antenna beam 4 of the base station 1a.
If it is determined that communication is possible between the base station 1b and the downlink signal by the antenna beam 4f of the base station 1b, the mobile station notifies the base station of the base station identification code and the antenna beam identification code that can communicate with the current position. The communication path database can be updated by adding a communication path to the communication path database or deleting an unused communication path based on the current position, the base station identification code, and the antenna beam identification code notified from the mobile station.

Embodiment 6 FIG. FIG. 8 shows a sixth embodiment, in which 1 is a base station, 2 is a mobile station, 3 is a mobile switching station, 4 is an antenna beam, 7 is a communication path database, 11 is a fixed network switching station, 8 is a visitor location register (VLR), 9 is a home location register (HLR), and 10 is a general call area. Information that the mobile station 2 is in the paging area 10 is also transmitted to the HLR 9. Conventional VLR 8 is mobile station 2
Is registered in the location area 10, but in the present invention, registration of the current position is added. In the case of an incoming call to a mobile station, the fixed network exchange 7 inquires the HLR 9 in order to find the location of the mobile station. As a result of the inquiry, a communication path is formed with the mobile switching center 3 that manages the paging area 10. Next, the mobile switching center 3 inquires the VLR 8 of the current location where the mobile station is registered. next,
One or more communication paths are obtained using the communication path database 6 relating to the control unit to which the current position of the mobile station belongs, and a paging call is transmitted using the obtained communication path.

[0025]

Since the present invention is configured as described above, it has the following effects.

The mobile station obtains its current position and transmits it. The mobile switching center receives this current position information via the base station, and based on this information, determines the service area of the base station by a plurality of antennas. The service area formed by a plurality of base stations is divided into small areas, and a mobile station is located from a database in which a base station identification code and an antenna beam identification code are stored in association with each small area. Since the base station identification code and the antenna beam identification code stored corresponding to the small area are selected and transmitted via the corresponding base station, the mobile station can communicate with a plurality of base stations simultaneously, The probability of being unable to talk is reduced, and stable communication can be performed.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram of a base station forming a base station area by a plurality of antenna beams according to the present invention.

FIG. 2 is a diagram showing a macro diversity system according to the first embodiment of the present invention.

FIG. 3 is a diagram showing a communication path database of the present invention.

FIG. 4 is a diagram illustrating a communication path database according to the present invention.

FIG. 5 is a diagram showing a communication path database according to Embodiment 2 of the present invention.

FIG. 6 is a diagram showing a communication path database according to Embodiment 3 of the present invention.

FIG. 7 is a diagram illustrating downlink channel information according to Embodiment 5 of the present invention.

FIG. 8 is a diagram showing a wireless communication system according to a sixth embodiment of the present invention.

FIG. 9 is a diagram illustrating a configuration of a conventional wireless communication system.

[Explanation of symbols]

1 base station, 2 mobile station, 3 mobile switching center, 4
Antenna beam, 5 base station areas, 6 control units,
7 channel database, 8 visitor location register, 9 home location register, 1
0 Paging area, 11 Fixed network exchange.

Claims (7)

[Claims] A wireless communication system having a base station forming a base station area by a plurality of antenna beams and performing stable communication by communicating with one mobile station by a plurality of base stations. A mobile station having a means for obtaining a current position and a means for transmitting the obtained current position information; a base station having a service area formed by a plurality of antenna beams; and a plurality of service areas covered by the plurality of base stations. A database storing a communication path indicated by an identification code of a base station capable of communicating from the small area and an antenna beam identification code of the base station capable of communicating from the small area, divided into small areas. Receiving the location information of the mobile station via the communicable base station, and from the database the small area where the mobile station is located Wireless communication system characterized by comprising a mobile switching center selects a communicable base station identification code and antenna beam identification code, and transmits via the base station corresponding the selected communication path. 2. The mobile switching center, when selecting a communication path from the database, a base station identification code and an antenna beam identification code stored corresponding to a small area adjacent to the small area to which the mobile station belongs. Also select
The wireless communication system according to claim 1, wherein the signal is transmitted to a mobile station via the base station. 3. The mobile station has means for obtaining information on a moving direction together with a current position, and means for transmitting the obtained current position information and moving direction information. The mobile switching center transmits the information via the base station. And selecting a communicable communication path in the small area to which the mobile station belongs and in the moving direction from the database based on the information, and transmitting the communication path via the base station. 1
A wireless communication system as described. 4. The wireless communication system according to claim 1, wherein the database has one or more communication paths for the small area based on theoretical calculation or actual measurement on radio wave propagation. 5. The wireless communication system according to claim 1, wherein the base station transmits a base station identification code and an antenna beam identification code for each antenna beam, and the mobile station transmits an antenna beam for each peripheral base station. Having a means for observing the communication quality for each, notifies the base station that performs communication based on the observation result a base station identification code and an antenna beam identification code that have determined that communication is possible with the current position, And updating the database with the base station identification code and the antenna beam identification code. 6. In order for the system to know the location of the mobile station, location registration information such as a location area for performing a simultaneous call is registered in a visitor location register, and is registered in the case of an incoming call to the mobile station. In a wireless communication system that performs a paging call in a location area, the registration information is the current location of the location area and the mobile station, and in the case of an incoming call to a mobile station, stores a database relating to the registered small area. A wireless communication system comprising: determining one or more communication paths by using the communication path; and transmitting a paging signal through the determined communication paths. 7. The wireless communication system according to claim 6, wherein one or more communication paths are obtained by using a communication path database relating to a small area adjacent to the registered small area, and the obtained communication paths are used simultaneously. A wireless communication system for transmitting a call signal.