JP2002164843A - Information transmission control method and base station in mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information transmission control method in a mobile communication system facilitating effective use of radio resources to the maximum extent when distributing identical information to a plurality of mobile stations. SOLUTION: In an information transmission control method provided in a base station for distributing information from the base station to a plurality of mobile stations via a radio channel, the directivity control of an antenna provided in the base station is performed so that transmission beams are directed toward each mobile station, in which the number of transmission beams is determined from the number of mobile stations receiving the distributed identical information. The identical information is multicast from the base station to each mobile station by the transmission beams generated by the directivity control.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for controlling information transmission at a base station in a mobile communication system, and more particularly, to information transmission when information is distributed from a base station to a plurality of mobile stations via a radio channel. It relates to a control method.

[0002] The present invention also relates to a base station that distributes information to mobile stations according to such an information transmission control method.

[0003]

2. Description of the Related Art Conventional mobile communication systems, for example, PD
In a mobile communication system such as the C (Personal Digital Cellular) system, when a base station transmits information to a plurality of mobile stations, it depends on the number of mobile stations regardless of whether the information is the same or not. The information transmission is performed by individually setting the wireless channels. Specifically, for example, as shown in FIG. 8, when distributing information to seven mobile stations a to g, the base station (BS) transmits a total of seven radio channels to the mobile stations a to g. Will be set.

[0004]

In the conventional information transmission control method as described above, the base station transmits the same information (for example, news information provided via the Internet) to a plurality of mobile stations. Also, in the case of transmission by a mobile station, it is necessary to individually set a radio channel with the mobile station. That is, although the base station transmits the same information, it is necessary to use radio channels for the number of mobile stations. For this reason, there is room for further improvement from the viewpoint of effective use of frequency resources.

Accordingly, a first object of the present invention is to provide an information transmission control method in a mobile communication system which makes it possible to use radio resources as effectively as possible when distributing the same information to a plurality of mobile stations. It is.

A second object of the present invention is to provide a base station that distributes information to a plurality of mobile stations according to such an information transmission control method.

[0007]

In order to solve the first problem, the present invention distributes information from a base station to a plurality of mobile stations via a radio channel, as described in claim 1. In the information transmission control method at the base station in the mobile communication system, the number of transmission beams determined based on the number of mobile stations receiving the same information is transmitted from the antenna of the base station to each mobile station. The directivity control of the antenna is performed, and the same information is multicast-transmitted from the base station to each mobile station using a transmission beam formed by the directivity control.

In such an information transmission control method, the same information is multicast-transmitted from the base station to each mobile station with the number of transmission beams determined based on the number of mobile stations receiving the same information distribution. Become so.

[0009] By multicasting the information from the base station, it is not necessary to individually set the radio channel with the mobile station receiving the information. In transmitting the information, the directivity of the antenna of the base station is controlled so that the number of transmission beams determined based on the number of the mobile stations is directed to each mobile station. It is possible to transmit information in a narrowed state. As a result, in an area that does not interfere with those transmission beams, it is possible to use the same wireless channel as that used above for the distribution of other information.

[0010] The number of transmission beams formed by the above directivity control need only be equal to or less than the number of mobile stations receiving the same information distribution. If the number of transmission beams is the same as the number of mobile stations, the transmission beam is directed individually to each mobile station.If the number of transmission beams is smaller than the number of mobile stations, each transmission beam is one or more. It is formed to go to a plurality of mobile stations.

[0011] In view of the fact that information is transmitted with a transmission beam that is narrowed as much as possible, the present invention provides the above-mentioned information transmission control method, in which the same information is distributed. When the number of receiving mobile stations is equal to or less than the maximum number of transmission beams that can be formed by the antenna, directivity control of the antenna is performed so that transmission beams individually directed to each mobile station are formed. can do.

According to a third aspect of the present invention, in each of the information transmission control methods, the number of mobile stations receiving the same information distribution is the maximum number of transmission beams that can be formed by the antenna. When the following predetermined number is exceeded, the directivity control of the antenna can be performed so that a single omnidirectional transmission beam toward each mobile station is formed.

The predetermined value is not particularly limited as long as it is equal to or less than the maximum number. However, from the viewpoint of minimizing a situation in which information is distributed using a single omnidirectional transmission beam, it is described in claim 4. As described above, the predetermined number is set to be the same as the maximum number of transmission beams that can be formed by the antenna.

From the viewpoint of providing the above-described information transmission control method in a mobile communication system capable of performing both unicast transmission and multicast transmission of information from a base station, the present invention provides a mobile communication system as described in claim 5. In the information transmission control method in each of the mobile communication systems,
It is determined whether information should be transmitted by multicast transmission or unicast transmission from the base station, and when it is determined that multicast transmission should be performed, a transmission beam formed by the directivity control is used. The same information can be configured to be multicast-transmitted from the base station to each mobile station.

In the information transmission control method according to the present invention, when it is determined that the information should be transmitted by unicast, the information is individually transmitted to a mobile station to receive the information. The directivity of the antenna is controlled so that a transmission beam directed toward the mobile station is formed, and information is unicast-transmitted from the base station to the mobile station using the transmission beam formed by the directivity control. be able to.

In order to solve the second problem, the present invention provides a base station for distributing information to a plurality of mobile stations via a radio channel, wherein the same information is distributed. Directivity control means for controlling the directivity of the antenna such that the number of transmission beams determined based on the number of mobile stations to be received is directed from the antenna of the base station to each mobile station, and the directivity control means Transmission control means for multicasting the same information from the base station to each mobile station using the transmission beam formed as described above.

[0017]

Embodiments of the present invention will be described below with reference to the drawings.

A mobile communication system to which the information transmission control method according to one embodiment of the present invention is applied is configured, for example, as shown in FIG.

Referring to FIG. 1, the mobile communication system includes:
For example, a PDC mobile communication system,
(Network) 10, base station 20, mobile station A30 to mobile station D33, content server 40, file server 5
0. The NW 10 is configured by an exchange device or the like, and the content server 40 provides various contents, for example, information contents such as stock quotes and news feeds from a contents trader. The file server 50 is used as an FTP file server. The base station 20 transmits the information received from the content server 40 or the file server 50 via the NW 10 to the mobile station A30.
-Plays a role of transmitting to the mobile station D33. Mobile station A3
0 to the mobile station D33 process the information received from the base station 20 according to a predetermined application.

The base station 20 includes a content server 40
Alternatively, “multicast transmission (multipoint communication)” for transmitting information from the file server 50 to mobile stations (hosts) belonging to a multicast group, and information transmission to only specific mobile stations (base station and mobile station) Is 1
It has two transmission modes and “unicast transmission” for performing a one-to-one session), and performs control processing of the transmission directivity of the base station 20 antenna in accordance with the above transmission modes.

The base station 20 is configured, for example, as shown in FIG.

[0022] In FIG. 2, the base station 20, transmission and reception branching unit 20 _1, the radio unit 20 ₂ and the antenna directivity control section 2
0 ₃ consists of the radio unit 20 ₂ receiving unit 21 and the transmission section 2
And a 2, also the antenna directivity control unit 20 _3, a reception processing unit 23, arrival direction estimation processing unit 24, transmission directivity control unit 25 and the group central management unit 26. Radio frequency signal transmitted from the mobile station, first, after being demultiplexed into signal reception band transceiver wave portion 20 ₁ of the base station 20, it is input to the reception section 21 of the radio unit 20 _2. Receiver 21
Performs frequency conversion and demodulation processing on the received radio frequency signal and outputs the result to the reception processing unit 23. Reception processing unit 2
The A / D converter 3 converts the received signal into a digital signal, and outputs the digital signal to the arrival direction estimation processing unit 24 and the transmission directivity control unit 25.

The direction-of-arrival estimating unit 24 includes a receiving unit 2
Signal parameters such as the arrival direction, power level, and propagation delay time of the arriving wave are extracted from the digital signal received from the transmission digital signal 3 and transmitted to the transmission directivity control unit 25. The signal parameters are used when the transmission directivity control unit 25 forms a transmission beam. The method of estimating the direction of arrival of a mobile station transmission wave performed by the direction-of-arrival estimation processing unit 24 includes, for example,
A beam scanning method (eg, Beamformer method) that scans the direction of arrival of an incoming wave by scanning the main beam or a null scanning method that searches for the direction of arrival of an incoming wave by scanning nulls (eg, eigenvalues of the correlation matrix of the array input) MUSIC based on expansion: MUltipl
e SIgnal Classification method) is used.

The transmission directivity control unit 25 includes a reception processing unit 23
Based on the type information of the transmission mode (for example, representing the type of transmission mode such as unicast communication or multicast communication) output from the mobile station and the arrival direction information from the arrival direction estimation processing unit 24, Transmission directivity control is performed so that the main beam is directed. Specifically, the weight calculation of the antenna element is performed so that the main beam is directed to the corresponding mobile station, and the weight is output to the transmission unit 23. Further, the transmission directivity control unit 25 performs omnidirectional transmission according to the number of mobile stations.

The transmitter 22 is performed with a predetermined modulation processing and frequency conversion processing, and outputs the transmission and reception branching unit 20 ₁ performs such power combining and amplification based on the weight.
The transmission power at transceiver wave portion 20 ₁ was filtered (transmission band) is emitted into the space is fed to the antenna.

Here, the base station 2 of this mobile communication system
An example in which “unicast transmission” and “multicast transmission” are performed to the mobile station at 0 will be described with reference to FIG.

1. In the case of unicast transmission, the base station 20 places a list (data file list) of data files and the like provided from the file server 50 in a predetermined field of the perch channel, and places the mobile station A 30 in the wireless zone. To D33. The mobile station A30 refers to the data file list provided by the perch channel, and if there is a data file desired to be downloaded, the user of the mobile station A30 performs a selection operation to acquire the data file, and 20, a data acquisition request signal is transmitted. Upon receiving the data acquisition request signal, the base station 20 individually sets up a radio link with the mobile station and transfers the requested information to the mobile station A30.

2. In the case of multicast transmission, the base station 20 places a list of information provided from the content server 40, for example, a program list relating to a news program or the like in a predetermined field of the perch channel, and sets the mobile stations A30 to Broadcast to D33. The base station 20 previously describes in the program list the radio frequencies used for information distribution of programs (economic news, stock-related news, etc.). When a user selects a program to be received, for example, a program A, the mobile station can automatically tune to a radio frequency which distributes the program A to receive information distribution.
In the base station 20, the mobile station B3 registered in the group (multicast group A) in which the distribution of the program A is desired.
1 to the mobile station D33 (see FIG. 1) by multicast transmission of the same program A using the corresponding radio frequency.

As described above, the base station has a transmission mode such as "unicast transmission" or "multicast transmission".

Next, a process for controlling the transmission directivity of the antenna of the base station 20 for each of the above-described transmission modes, that is, “unicast transmission” and “multicast transmission” will be described.

The transmission directivity control processing of the base station 20 antenna is performed, for example, according to the processing procedure shown in FIG.

[0032] In FIG. 3, antenna directivity control section 20 ₃ of the transmission directivity control unit 25 of the base station 20 receives the reception signal from the reception processing unit 23, the address information included in the received signal, for example, With reference to the IP address, it is determined whether the information distribution request from the mobile station is “unicast transmission” or “multicast transmission” (S1). For example, the discrimination processing performed in (S1) is based on the IPv4 I
If the P address includes a multicast address such as class D, "multicast transmission" is used. Otherwise, for example, if the IP address is a class A to C,
"Unicast transmission".

The number of mobile stations (M) registered in each multicast group will be described as being centrally managed (see FIG. 4) by the centralized group management unit 26 of the base station 20. In FIG. 4, the central management table 54 includes a program name () provided for each multicast group (), an IP address () of the program information, and a mobile station ID () belonging to each multicast group.
Represents The mobile station described in the mobile station ID column indicates a mobile station participating in the multicast group. For example, three mobile stations 5, 11, and 25 are participating in the multicast group A (FIG. 4). The mobile stations in parentheses in the mobile station ID column in FIG. 4 indicate mobile stations that have joined the multicast group A on the way (corresponding to B. Second Embodiment to be described later).

Also, the following two embodiments will be described as embodiments of "multicast transmission".

A. First Embodiment In a mode in which a content provider newly establishes a multicast group to distribute new information content, and performs multicast transmission for mobile stations participating in the group.

B. Second Embodiment A mode in which a new mobile station is added to an existing multicast group to perform multicast transmission.

Returning to FIG. 3, the transmission directivity control unit 25
In the determination process (S1), when a determination result of “unicast transmission” is obtained (in S1), the transmission directivity control unit 2
5 performs transmission processing (S2) by directivity control. Specifically, it is as follows.

The transmission directivity control unit 25 is required to form a transmission beam such that the main beam is directed to the mobile station A 30 that has requested “unicast transmission” based on the arrival direction information from the arrival direction estimation processing unit 24. Calculate the weight of the appropriate antenna. Transmitter 22, and outputs the the weights based on forming a radio frequency signal by performing power combining and amplifying the transceiver wave unit 20 _1. And this radio frequency signal is
Is radiated into space is fed to the antenna via the transmission and reception branching unit 20 ₁ (see FIG. 5).

As described above, in the case of “unicast transmission”, the directivity of the transmission antenna is controlled so that the transmission beam is directed only to mobile station A. Therefore, transmission to another user can be suppressed.

When the transmission directivity control unit 25 determines that the transmission is the “multicast transmission” in the first embodiment (S2) in the above-described determination processing (S1), the transmission directivity control unit 25 performs the next processing (S2).
3), the number (M) of mobile stations that have made a registration request to a newly established multicast group (for example, multicast group A) is larger than the number of transmission beams (K) that can be generated by the antenna of the base station. Or not (Equation K>
= M? ) Is determined (S3). Transmission directivity control unit 25
Refers to the centralized management table provided by the group centralized management unit 26 and acquires information on the number (M) of mobile stations registered in the multicast group A. In this case, it is assumed that the number of mobile stations registered in the multicast group A is three (mobile station IDs: 5, 11, and 25) (see FIG. 4). When the number of transmission beams (K) that can be generated by the transmission antenna of the base station 20 is defined as “5”,
In the above processing (S3), the number of transmission beams (K) that can be generated by the antenna is “5”, and the number (M) of mobile stations B31 to D33 belonging to the multicast group A is “3”. 5> = 3, and the result of the determination processing (S3) is “YES”.

Accordingly, the transmission directivity control unit 25 performs a transmission process (S2) by directivity control in the same manner as in the case of the "unicast transmission". In this case, the direction-of-arrival estimation processing unit 24 acquires the direction-of-arrival information for three mobile stations. The transmission directivity control unit 25 controls each of the mobile stations B31 to D based on the arrival direction information of these three mobile stations.
The weight calculation of the antenna necessary for the transmission beam formation is performed so that the transmission beam is directed to 33. Then, the thus obtained weight is sent to the transmitter 22, after the power combining and amplification was performed based on the weights, the antenna via the transmission and reception branching unit 20 ₁ is a radio frequency signal Powered. In the antenna, the transmission beam is transmitted to each mobile station B31 to B31.
The light is radiated in the direction of the mobile station D33 (see FIG. 6).

Further, in the case of the second embodiment of the multicast transmission, the other four mobile stations (mobile station IDs: (28), (42), (56),
When there is a participation request from (71)) and these four mobile stations are additionally registered in the multicast group A, the number of registered mobile stations becomes "7" and is generated by the transmitting antenna of the base station 20. The number of transmission beams (K) that can be transmitted exceeds “5” (NO in S3). In such a case, the transmission directivity control unit 25 performs a process for performing non-directional transmission (S4) without performing directivity control of the antenna,
For example, a control signal is generated so that transmission is performed from the omnidirectional antenna, and is transmitted to the transmission unit 22. Then, the transmitting unit 22 drives the non-directional antenna based on the control signal, so that the non-directional radio wave is radiated into the space, and the mobile station 1 to the mobile station 7 receive the same information. (See FIG. 7). In this case, each of the mobile stations 1 to 7 is tuned to a radio frequency for omnidirectional beam transmission.

As described above, when performing multicast transmission to mobile stations whose number is equal to or less than the number of transmission beams that can be generated by the antenna of the base station 20, each of the mobile stations B31 to B31
The directivity of the antenna is controlled so that the transmission beam whose beam is narrowed is directed to the mobile station 33D, and information is transmitted by multicast. As a result, other users (mobile stations)
Therefore, it is possible to suppress transmission of transmission radio waves that cause interference to the user, so that the same wireless channel can be used for distribution of other information in a region that does not interfere with a transmission beam.

On the other hand, when performing multicast transmission,
When the number of mobile stations is larger than the number of transmission beams that the antenna of the base station 20 can generate, multicast transmission is performed using an omnidirectional antenna without performing directivity control of the antenna. In other words, even when the same information is distributed to mobile stations exceeding the number of transmission beams that can be generated by the base station 20 antenna, by performing multicast transmission using the omni-directional antenna, radio communication with each mobile station is possible. There is no need to use a line. That is, one radio channel may be assigned to mobile stations receiving the same information. As a result, the number of radio channels used by the base station 20 can be reduced and frequency resources can be used effectively.

Further, the transmission directivity control process of the antenna in the case of “multicast transmission” of the second embodiment can be performed in the same procedure as in the case of “multicast transmission” of the first embodiment. Embodiment 2
Is a case where a new mobile station joins the multicast group transmitted by the directivity control on the way. In such a case, first, the mobile station that wants to join the way to the base station wants to join the multicast group A. , Ie, a participation request signal. Base station 2
0, the transmission directivity control unit 25 receiving the participation request signal stores the ID {(2
8), (42), (56), (71)} are sequentially added (see FIG. 4). The transmission directivity control unit 25 refers to this centralized management table and determines whether to perform directivity control transmission or non-directional transmission in the same manner as described above (S3). Thereafter, the processing (S2 or S4) is performed according to the above-described procedure.

In the description of the present embodiment, a base station used in a PDC mobile communication system is assumed.
Even in the base station of the MA (Code Division Multiple Access) system, the transmission directivity of the antenna can be controlled by performing the above-described processing (the flowchart of FIG. 3).
In this case, the calculation of the weight for controlling the transmission directivity of the antenna in the base station of the CDMA system is performed, for example, by despreading the reception signal obtained for each mobile station user by the reception processing unit 24 on the signal. There is a method to derive it based on it. If the transmission directivity control unit 25 performs the transmission directivity control processing of the base station antenna using the weights derived as described above, the beam is directed toward the corresponding mobile station in the same manner as in the case of the base station of the PDC system described above. Since the transmission directivity of the antenna is controlled so that the transmission beam whose beam is narrowed is directed, frequency resources can be used effectively.

In the above example, the antenna directivity control unit 2
0 ₃ corresponds to the directional control means, the function of the radio unit 20 ₂ correspond to the transmission control unit. Further, the processing in S3 in FIG. 3 corresponds to the determination means, and the processing in S1 corresponds to the transmission method determination means.

[0048]

As described above, according to the first to sixth aspects of the present invention, when information is multicast-transmitted from the base station, the radio channel is connected to the mobile station receiving the information distribution. There is no need to set them individually between. In transmitting the information, the directivity of the antenna of the base station is controlled so that the number of transmission beams determined based on the number of the mobile stations is directed to each mobile station. It is possible to transmit information in a narrowed state. As a result, in an area that does not interfere with those transmission beams, it is possible to use the same wireless channel as that used above for the distribution of other information. Therefore, it becomes possible to use frequency resources more effectively when distributing the same information to a plurality of mobile stations.

Further, according to the present invention as set forth in claims 7 to 12, it is possible to provide a base station that distributes the same information to a plurality of mobile stations in accordance with the information transmission control as described above.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of a mobile communication system to which an information transmission control method according to an embodiment of the present invention is applied.

FIG. 2 is a diagram showing a configuration example of a base station in the mobile communication system shown in FIG.

FIG. 3 is a flowchart illustrating an example of a processing procedure when performing transmission directivity control of a base station antenna.

FIG. 4 is a diagram illustrating an example of management of a multicast group managed by a base station.

FIG. 5 is a diagram illustrating an example of a transmission beam state in which the transmission directivity of a base station antenna is controlled (when unicast transmission is performed).

FIG. 6 is a diagram illustrating an example of a transmission beam state (when multicast transmission is performed) in which the transmission directivity of a base station antenna is controlled.

FIG. 7 is a diagram illustrating an example of a state where a non-directional beam is transmitted by a base station antenna (when multicast transmission is performed).

FIG. 8 is a diagram schematically illustrating a case where a base station and a mobile station perform communication by individually setting a wireless channel according to a conventional communication method.

[Explanation of symbols]

Reference Signs List 10 NW (network) 20 Base station 20 ₁ Transmitting / receiving branching unit 20 ₂ Radio unit 20 ₃ Antenna pointing control unit 21 Receiving unit 22 Transmitting unit 23 Reception processing unit 24 Arrival direction estimation processing unit 25 Transmission directivity control unit 26 Group centralized management Units 30 to 33 Mobile station A to mobile station D 40 Content server 50 File server

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Narumi Umeda 2-1-1-1, Nagatacho, Chiyoda-ku, Tokyo F-term in NTT DoCoMo, Inc. (reference) 5K067 AA41 CC14 EE02 EE10 EE16 EE22 KK02

Claims (12)

[Claims] An information transmission control method in a base station in a mobile communication system for distributing information from a base station to a plurality of mobile stations via a wireless channel, the method comprising the steps of: The directivity control of the antenna is performed such that the number of transmission beams determined in the direction from the antenna of the base station to each mobile station, and the same information is transmitted by the transmission beam formed by the directivity control. An information transmission control method for performing multicast transmission from a base station to each mobile station. 2. An information transmission control method in a mobile communication system according to claim 1, wherein when the number of mobile stations receiving the same information distribution is equal to or less than the maximum number of transmission beams that can be formed by said antenna, An information transmission control method for controlling the directivity of the antenna so that a transmission beam individually directed to a mobile station is formed. 3. An information transmission control method in a mobile communication system according to claim 1, wherein the number of mobile stations receiving distribution of the same information is equal to or less than the maximum number of transmission beams that can be formed by said antenna. An information transmission control method in which the directivity of the antenna is controlled such that a single omni-directional transmission beam directed to each mobile station is formed when the transmission beam exceeds the threshold. 4. The information transmission control method according to claim 3, wherein the predetermined number is set to be equal to the maximum number of transmission beams that can be formed by the antenna. 5. An information transmission control method in a mobile communication system according to claim 1, wherein it is determined whether the information should be transmitted from the base station by multicast transmission or unicast transmission. An information transmission control method, wherein when it is determined that transmission should be performed, the same information is multicast-transmitted from the base station to each mobile station using a transmission beam formed by the directivity control. 6. An information transmission control method in a mobile communication system according to claim 5, wherein when it is determined that said information should be transmitted by unicast, said transmission is individually directed to a mobile station to receive said information. An information transmission control method, wherein directivity of the antenna is controlled so that a beam is formed, and information is unicast-transmitted from the base station to the mobile station using a transmission beam formed by the directivity control. 7. A base station for distributing information to a plurality of mobile stations via a radio channel, wherein a number of transmission beams determined based on the number of mobile stations receiving the same information are transmitted by an antenna of the base station. Directivity control means for controlling the directivity of the antenna so as to go to each mobile station, and the same information is multicast from the base station to each mobile station using a transmission beam formed by the directivity control means. A base station having transmission control means for transmitting. 8. The base station according to claim 7, wherein it is determined whether the number of mobile stations receiving the same information distribution is equal to or less than a predetermined number equal to or less than the maximum number of transmission beams that can be formed by the antenna. A decision unit, wherein the directivity control unit transmits to each mobile station individually when the decision unit determines that the number of mobile stations receiving the same information distribution is equal to or less than the predetermined number. A base station that controls the directivity of the antenna so that a beam is formed. 9. The base station according to claim 7, wherein
The directivity control means, when it is determined by the determination means that the number of mobile stations receiving the same information distribution exceeds the predetermined number, a single non-directional transmission beam toward each mobile station A base station that controls the directivity of the antenna so that the antenna is formed. 10. The base station according to claim 9, wherein the predetermined number is set to be equal to the maximum number of transmission beams that can be formed by the antenna. 11. The base station according to claim 7, further comprising a transmission method determining unit for determining whether the information should be transmitted by multicast transmission or unicast transmission, and When the determination unit determines that the transmission should be performed by multicast transmission, the transmission control unit performs multicast transmission of the same information from the base station to each mobile station using the transmission beam formed by the directivity control unit. Base station. 12. The base station according to claim 11, wherein, if the transmission method determination means determines that the information should be transmitted by unicast, the directivity control means transmits the information to a mobile station to receive the information. A base station which controls the directivity of the antenna so as to form individually directed transmission beams, and unicast-transmits information to the mobile station using the transmission beam formed by the directivity control means.