JP2001189687A - Communication control method, mobile communication system, base station and mobile station - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication control method in a mobile communication system for satisfying the desired communication service quality of a mobile station while using effectively the transmitting power resources or facility resources. SOLUTION: In this communication control method that is available when the communication of information is carried out between a base station and a mobile station in a mobile communication system, the selective switching is carried out between a 1st communication means with which the base station performs the communication of information with the mobile station via an antenna having the fixed directivity and a 2nd communication means with which the base station performs the communication of information with the mobile station via an antenna whose directivity is variable for tracking the mobile station according to a requested transmission rate of information and the state of a radio transmission line set between the mobile station and the base station.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication control method in a mobile communication system, and more particularly, to a communication control method for controlling a communication mode between a mobile station and a base station according to a required information transmission rate. The present invention relates to a control method. The present invention
Further, the present invention relates to a mobile communication system, a base station, and a mobile station to which such a communication control method is applied.

[0002]

2. Description of the Related Art In a cellular mobile communication system, a plurality of base stations for performing wireless communication with a mobile station are installed in a communication service area, and each base station can perform wireless communication with the mobile station. Cells (wireless zones) in a wide range. A mobile station located in a cell receives various communication services (call, data distribution, etc.) by performing wireless communication with a base station of the cell.

In recent years, there has been a demand for faster information transmission between mobile stations and base stations. When high-speed information transmission is performed, assuming that the transmission method is the same and the transmission conditions such as the antenna gain are the same, more transmission power is required. This means that, when trying to transmit information at a higher speed with limited transmission power, the radio coverage area of each base station, that is, the radius of the cell, becomes smaller. When wireless communication is performed between a base station and a mobile station using a higher frequency, propagation loss increases. Therefore, conditions for a wireless communication range (cell) with the mobile station in high-speed information transmission are strict. Become.

[0004]

In the above situation, in order to provide a stable communication service to a user of a mobile station by a mobile communication system capable of high-speed transmission of information, it is necessary to increase transmission power. Alternatively, without increasing the transmission power, more base stations are installed in the communication service area, and the communication service area is covered by many smaller cells.

[0005] However, when the mobile station is located relatively close to the base station, information can be transmitted at a high speed between the base station and the mobile station even with relatively small transmission power. In addition, depending on the type of information (for example, voice information), it may be possible to provide a communication service of sufficient quality without necessarily performing high-speed transmission.
Considering these situations, simply increasing the transmission power in each base station does not result in efficient use of power resources in the system.

[0006] Further, even if many base stations are to be installed in a communication service area, especially in an urban area, there are many restrictions on installation locations, and it is difficult to install base stations at desired positions in a fine manner. . And, as mentioned above,
Because there may be cases where communication services of sufficient quality can be provided without necessarily performing high-speed transmission, even if many base stations are finely arranged, those base stations are not necessarily used effectively. Absent.

[0007] Therefore, a first object of the present invention is to provide a mobile communication system capable of efficiently using transmission power resources and equipment resources while satisfying the quality of communication service required by a mobile station. The purpose is to provide a control method. A second object of the present invention is to provide a mobile communication system to which such a communication control method is applied.

[0008] A third object of the present invention is to provide a base station in a mobile communication system to which such a communication control method is applied. Further, a fourth object of the present invention is to provide a mobile station in a mobile communication system to which such a communication control method is applied.

[0009]

In order to solve the above-mentioned first problem, according to the present invention, information communication is performed between a base station and a mobile station in a mobile communication system. In the communication control method, the base station moves using an antenna having a fixed directivity according to the required information transmission rate and the state of the wireless transmission path between the mobile station and the base station. A first communication means for performing information communication with the station, and a second communication means for performing information communication with the mobile station by the base station using an antenna whose directivity is variable so as to track the mobile station. It is configured to switch.

In such a communication control method, the first communication means performs information communication between the base station and the mobile station using an antenna having a fixed directivity, and the second communication means includes: Since information communication is performed between the base station and the mobile station using an antenna whose directivity is variable so as to track the mobile station, under the same transmission power, the second communication means is The first communication means can perform information communication with a mobile station farther from the base station. By switching between the first communication means and the second communication means based on the required communication speed and the state of the wireless transmission path between the base station and the mobile station, the quality of various communication services can be improved. Can be transmitted.

The state of the wireless communication path between the mobile station and the base station includes the distance between the mobile station and the base station (the distance of the wireless transmission path), the state of reflection at an obstacle, and the attenuation of radio waves. The state, the interference state of radio waves from other communication nodes, and the like can be represented by, for example, a signal reception level, a signal error rate, an interference wave reception level (reception CIR: Carrier Interference Ratio), and the like.

Further, the fixed directivity, which is the characteristic of the antenna used in the first communication means, includes so-called non-directionality. As described in claim 2, in the communication method, a mobile station measures a reception level of a perch channel from a base station, and a measurement result is a radio transmission path between the mobile station and the base station. It can be configured to be used as a state.

[0013] From the viewpoint of concretely providing a condition for switching between the first communication means and the second communication means, the present invention provides a communication control method comprising: When the state of the wireless transmission path between the mobile station and the base station is better than the state of the wireless transmission path, which is a predetermined reference for the required information transmission rate condition, the first communication means Is selected, and when the state of the wireless transmission path between the mobile station and the base station is not better than the state of the reference wireless transmission path, the second communication means is selected. Furthermore, the first communication means and the second communication means can be configured to be switched.

[0014] In order to provide an antenna of the first communication means specifically, according to the present invention, in each of the communication control methods, an antenna of the first communication means is provided. Is configured to use an antenna that fixedly forms a communication area with a mobile station according to transmission power. More specifically, according to the present invention, as described in claim 5, in each of the communication control methods,
An omni antenna or a sector antenna can be used as an antenna that fixedly forms a communication area with a mobile station according to transmission power.

In addition, from the viewpoint of specifically providing an antenna of the second communication means, the real name invention according to the sixth aspect of the present invention, in the above-mentioned respective communication control methods, The antenna can be configured to use an Adaptive Array Antenna (AAA). In order to solve the second problem, the present invention provides a mobile communication system for performing information communication between a base station and a mobile station as described in claim 7. A base station comprising: a first communication unit for performing information communication with a mobile station using an antenna having a fixed directivity; and Second communication means for performing information communication with the mobile station using an antenna whose directivity is variable so as to track the information, the required information transmission speed, and the movement measured by the transmission path state measurement means. It is configured to have switching control means for selectively switching between the first communication means and the second communication means based on the state of the wireless transmission path between the station and the base station.

Further, in order to solve the third problem, the present invention provides a base station used in a mobile communication system for performing information communication between a base station and a mobile station. In the first communication means for performing information communication with the mobile station using an antenna having a fixed directivity, and information communication with the mobile station using an antenna whose directivity is variable so as to track the mobile station A second communication means for performing;
A transmission unit for selectively switching between the first communication unit and the second communication unit based on a required information transmission rate and a state of a wireless transmission path between the mobile station and the base station. It is composed of

Furthermore, in order to solve the fourth problem, the present invention is used in a mobile communication system for performing information communication between a base station and a mobile station, as described in claim 19. In the mobile station, a transmission path state measuring means for measuring a state of a radio transmission path between the base station and the base station, a measurement result of the transmission path state measuring means, and a fixed transmission rate based on a required information transmission rate. A first communication means for performing information communication between the base station and the mobile station using an antenna having a directivity, and moving with the base station using an antenna whose directivity is variable so as to track the mobile station. A communication method determining means for determining which of the second communication means for performing information communication with the station should be selected, and the first communication means or the second communication means determined by the communication method determining means. Information between the base station and the mobile station Configured such communication is made.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. A cell configuration in a mobile communication system provided with a composite cell switching control method according to an embodiment of the present invention is, for example, as shown in FIG. In FIG. 1, a plurality of base stations 11, 12, 13, 14, 15, and 16 are installed in a communication service area. In FIG. 1, only six base stations are shown for convenience.

Each of the base stations 11, 12, 13, 14, 15,
Reference numeral 16 constitutes a microcell C1 serving as a wireless communication area in which high-speed transmission of information at a predetermined transmission power can be performed via a normal antenna (for example, an omni antenna or a sector antenna). In this case, the cell radius of the microcell C1 that enables wireless communication at a high transmission rate is generally small, and only the microcell C1 of each of the base stations 11, 12, 13, 14, 15, and 16 provides a communication service. The entire area cannot be covered. However, when wireless communication of information is performed at a relatively low transmission rate, the cell radius of the microcell C1 increases, and each microcell C1 can cover the entire communication service area.

Each of the base stations 11, 12, 13, 14, 15,
Reference numeral 16 further forms an AAA cell C2 serving as a wireless communication area that can be performed via a high gain antenna having a mobile station tracking function, for example, an adaptive array antenna. When this adaptive array antenna is used, the directivity (radio wave beam) can be narrowed, so that a relatively wide range of mobile stations can be tracked with limited transmission power. Therefore, the AAA cell C2 is wider than the macro cell C1, and the communication service area that could not be covered by the micro cell C1 at the time of high-speed information transmission is covered by the AAA cell C2 formed by each base station.

Since the transmission rate required for the control channel is generally not as high as that of a high-speed communication channel, the wireless communication range (control cell) of the control channel is required.
Is relatively wide. In this example, the wireless communication range of each base station in the wireless channel corresponds to the microcell C1 having a large cell radius formed at the time of low-speed transmission of information, and can continuously cover the communication service area. I do.

The above base stations 11, 12, 13, 14, 1
5 and 16 are configured, for example, as shown in FIG. 2, a base station includes a control unit 100, an antenna array 101, a transmission / reception distributor 102, a weight control / multiplication unit 10
3 (for reception signal), weight control / multiplication section 104 (for transmission signal), switch 110, demodulation circuit 111, decoding circuit 1
12, a modulation circuit 113, an encoding circuit 114, a transmission / reception distributor 120, a transmission / reception distributor 130, a demodulation circuit 131, a decoding circuit 132, a modulation circuit 133, and an encoding circuit 134.

The above array antenna 101, transmission / reception distributor 1
02, the weight control / multiplication units 103 and 104 are AAA
It is used when performing high-speed information transmission with a mobile terminal in the cell C2 (AAA cell system). Weight control / multiplication section 103 uses a pilot signal unique to the mobile station,
A weight for each antenna element of the array antenna 101 is determined according to a predetermined adaptive weight determination algorithm, and a received signal is generated by multiplying a signal from each antenna element by a corresponding weight. The weight for each antenna element determined by the weight control / multiplication unit 103 (for a reception signal) is notified to the weight control / multiplication unit 104 (for a transmission signal) in real time. The received signal generated by the weight control / multiplication unit 103 is sequentially supplied to a demodulation circuit 111 and a decoding circuit 112 via a switch 110, and the received information signal obtained by the demodulation and decoding processing is transmitted to the control unit 100. Supplied to

Weight control / multiplication section 104 (for a transmission signal) multiplies the transmission signal by each weight notified from weight control / multiplication section 103 (for a reception signal), and applies each signal obtained as a result to an antenna. The signal is transmitted from the corresponding antenna element of the array 101. The transmission information signal from the control unit 100 is sequentially supplied to the encoding circuit 114 and the modulation circuit 113, and the transmission signal obtained by the encoding and modulation processing is transmitted to the weight control / multiplication unit 104 via the switch 110. Supplied.

The transmission / reception distributor 120 transmits and receives signals via, for example, an omni antenna, and is used to communicate with a mobile station in the microcell C1 (microcell system). The signal received by the omni antenna is transmitted to the demodulation circuit 111 via the transmission / reception distributor 120 and the switch 110.
The signals are sequentially supplied to the decoding circuit 112. These demodulation circuits 11
1. The received information signal obtained by the processing in the decoding circuit 112 is supplied to the control unit 110. Further, a transmission signal from the control unit 100 is sequentially supplied to the encoding circuit 114 and the modulation circuit 113. The transmission signal obtained by each of the encoding and modulation processes is transmitted to the transmission / reception distributor 12 via the switch 110.
0 and transmitted from the omni antenna.

The transmission / reception distributor 130 is used, for example, for transmitting / receiving a control channel signal via an omni antenna (control cell system). The control signal received by the antenna is transmitted to the demodulation circuit 1
31 and are sequentially supplied to the decoding circuit 132. The control channel information subjected to the demodulation and decoding processes is supplied to the control unit 100 as a reception information signal. Further, a control signal from the control unit 100 is sequentially supplied to the encoding circuit 134 and the modulation circuit 133. Then, the control signal obtained in each of the encoding and modulation processes is supplied to the transmission / reception distributor 130 and transmitted from the antenna.

The switch 110 is a transmission / reception system (AA) to be operated for the mobile station according to an instruction from the control unit 100.
(A cell system or micro cell system). The details of the switching control of the switch 110 by the control unit 100 will be described later. The communication unit of the control cell system (the transmission / reception distributor 130, the demodulation circuit 131, the decoding circuit 1
32, the modulation circuit 133, and the encoding circuit 134) can be replaced by a microcell communication unit (transmission / reception distributor 120, demodulation circuit 111, decoding circuit 112, modulation circuit 113, and encoding circuit 114). In FIG. 2, amplifiers used in both the transmission system and the reception system are omitted.

A mobile station that performs wireless communication with a base station in a communication service area is configured, for example, as shown in FIG. In FIG. 3, the mobile station includes a control unit 200 and a transmission / reception distributor 201 for transmitting and receiving signals via an antenna.
, Demodulation circuit 202, decoding circuit 203, modulation circuit 20
4. It has an encoding circuit 205. The signal received via the antenna is transmitted to the demodulation circuit 20 via the transmission / reception distributor 201.
2. It is sequentially supplied to the decoding circuit 203. Demodulation circuit 20
2. The received information signal obtained by the demodulation and decoding processing in the decoding circuit 203 is supplied to the control unit 200. Also, the transmission information signal from the control unit 200 is
, And the transmission signal obtained by the processing is transmitted from the antenna via the transmission / reception distributor 201.

In FIG. 3, amplifiers used in both the transmission system and the reception system are omitted. A communication procedure between the mobile station and the base station will be described.
When information transmission is performed by activation from the mobile station, communication is performed between the mobile station and the base station according to, for example, the procedure shown in FIG.

In FIG. 4, a mobile station (MS) selects a micro cell C1 or an AAA cell C2. The selection of this cell is performed as follows. Each base station (B
In S), as shown in FIG. 5, the perch channel cell is transmitted at a constant transmission power in the control cell communication unit described above. The mobile station (MS) scans a perch channel from a surrounding base station (BS) under the control of the control unit 200 and sequentially measures its reception level (S1).
1). Then, the base station of the perch channel having the highest level among the measured reception levels is determined as the base station of the cell in which the mobile station is located (S12). The process of determining the base station of the cell in which the mobile station is located is performed under predetermined conditions, such as at fixed time intervals, regardless of whether the mobile station is in a standby state or in a communication state.

Thereafter, as shown in FIG. 6, the mobile station (MS) that has received the broadcast information transmitted from the determined base station (BS) through the perch channel is the microcell included in the broadcast information. A threshold value S serving as a switching condition between C1 and AAA cell C2 is obtained (S13). This threshold value S differs depending on the quality of communication services related to information to be transmitted and received. For example, the threshold value S1 in the case where information that requires high-speed transmission of information such as image information is transmitted and received is a relatively large value. Also, the threshold value S2 is relatively small when information such as call information that can maintain a relatively high communication quality without transmitting at a particularly high speed is transmitted and received.

As described above, the mobile station (MS) that has acquired the threshold value for the switching condition between the micro cell C1 and the AAA cell C2.
Measures the reception level R of the perch channel from the base station of the cell in which the mobile station is located (S14), and based on the comparison result between the reception level and the obtained threshold value S, the micro cell C1 and the AAA cell C2 is selected (S15). When the reception level S is equal to or higher than the threshold value R (R1 or R2), the micro cell C1 is selected. On the other hand, if the reception level S is smaller than the threshold R (R1 or R2), A
The AA cell C2 is selected. When transmitting information at high speed,
Since the threshold value S1 is a relatively large value, the microcell C1 is not selected unless the reception level R becomes a relatively high level. That is, when the state of the wireless transmission path between the mobile station (MS) and the base station (BS) is relatively good (when the mobile station is relatively close to the base station), the microcell C
1 is selected. On the other hand, when it is not necessary to transmit information at high speed, the threshold value S2 becomes a relatively small value.
Even if the reception level R is a relatively low level, the micro cell C1 is selected. That is, even if the condition of the wireless transmission path between the mobile station (MS) and the base station (BS) is not so good (even if the mobile station is located relatively far from the base station), the microcell C1 can be used. Selected.

On the other hand, the threshold value S (S1 or S1
2) When the condition of the wireless transmission path between the mobile station (MS) and the base station (BS) is relatively poor with reference to (when the mobile station is located relatively far from the base station based on the above criteria) ), The AAA cell 2 is selected. Returning to FIG.
As described above, the mobile station (MS) uses the microcell C
1 or the selection of the AAA cell C2, the mobile station (MS) uses the control channel to transmit the transmission signal and the radio status report signal to the base station (B) of the cell determined to be located.
S). The radio status report signal includes the selected cell type (micro cell C1 or AAA cell C2).
Including information.

The control unit 100 of the base station (BS) receiving these transmission signal and radio status report signal on the control channel.
(See FIG. 2) generates a switching control signal for the switch 110 based on the information of the selected cell type included in the radio status report signal, and uses the switching control signal to generate the switching control signal.
Is performed (S21). When the microcell C1 is selected in the mobile station (MS), the transmission / reception distributor 120, which is a communication unit of the microcell system, uses the demodulation circuit 1
11 and the modulation circuit 113 so that the switch 1
10 switches the connection.

As described above, the communication unit (communication channel)
Is selected, the selected communication unit (A
The transceiver of the AA cell system or the micro cell system is activated (S22). Then, a signal including the communication channel designation information is transmitted from the base station (BS) to the mobile station using the control channel. At this time, when a communication unit of the AAA cell system is selected, the mobile station (MS) is notified of a communication channel and also information (eg, a pilot signal of the mobile station) required for operation of the active array.

The mobile station (MS) having received the communication channel designation information from the base station (BS) activates a receiver for the designated communication channel (S3). Then, a synchronization signal is transmitted to the base station (BS) to establish reception synchronization on the communication channel. The base station (BS) establishes reception synchronization on the communication channel based on the synchronization signal received from the mobile station (MS) (S23).

In this state, the mobile station (MS) and the base station (B)
Communication for information transmission with S) is performed at a predetermined transmission power. For example, when performing high-speed information transmission, if the mobile station (MS) is located in the microcell C1 shown in FIG. 1, the base station (BS) communicates with the base station (BS) using the microcell communication unit. High-speed transmission of information is performed between the mobile station (MS) and the mobile station (MS) at a predetermined transmission power. When the mobile station (MS) is located outside the microcell C1, the AAA cell communication unit of the base station (BS) is required for the operation of the adaptive array under the control of the control unit 100. The mobile station (MS) is tracked by controlling the adaptive array antenna (controlling the weight of the antenna element) based on information (such as a pilot signal unique to the mobile station), and the mobile station (MS) is controlled at the predetermined transmission power. (MS) and high-speed information transmission.

Further, for example, when the mobile station (MS) is located in the AAA cell C2 in the high-speed transmission shown in FIG. Is because the microcell C1 is relatively wide,
The mobile station (MS) has its relatively wide micro cell C1
The mobile station (MS) and the base station (BS) can transmit information at a relatively low speed at a predetermined transmission power, respectively, by the microcell communication unit of the base station (BS). Do.

Further, when information transmission is performed by an incoming call to the mobile station, communication is performed between the mobile station and the base station according to, for example, the procedure shown in FIG. In FIG.
A paging call is made from the base station (BS) into the control cell. At that time, the mobile station (MS) in which the mobile station in the control cell receives the paging call and detects that the call is directed to its own station selects the macro cell C1 or the AAA cell as described above. (S1). And
The mobile station (MS) has a micro cell C1 and an AAA cell C
After making any one of the selections 2, the incoming call response and the radio status report signal are transmitted to the base station (BS) through a predetermined control channel. Thereafter, the same negotiation as described above is performed between the mobile station (MS) and the base station (BS). Then, using the selected communication channel, the mobile station (MS) and the base station (BS) that have received the incoming call each transmit information at the transmission rate required at a predetermined transmission power to the base station (BS). This is performed using a microcell communication unit or an AAA cell communication unit in the BS).

In the above-described example, when high-speed information transmission is performed, the mobile station is located relatively close to the base station, and the condition of the radio transmission path between the mobile station and the base station is relatively good (reception). In a situation where the level is relatively high), the base station uses a microcell communication unit having an omni antenna, and the base station and the mobile station perform information communication at predetermined transmission power. On the other hand, in a situation where the mobile station is located relatively far from the base station and the condition of the radio transmission path between the mobile station and the base station is relatively poor (a situation where the reception level is relatively low), the base station is not adaptive. Using a communication unit of an AAA cell system having an array antenna, the base station and the mobile station perform information communication at a predetermined transmission power. Further, when transmitting information at a relatively low speed, even if the mobile station is located relatively far from the base station, the base station uses a microcell communication unit having an omni antenna to perform predetermined transmission. The base station and the mobile station perform information communication using power.

Therefore, according to the above-described example, even if the base station is finely installed in the communication service area or the information transmission is not performed at a high transmission power so that the high-speed transmission of information is always supported, the request can be made. Information transmission in a micro-cell communication unit having an omni antenna and an AA having an adaptive array antenna
By switching between information transmission in the A-cell communication unit, information communication from the base station to the mobile station at a predetermined transmission power becomes possible.

In the above example, the mobile station acquires the threshold value S, which is a reference for switching between the micro cell C1 and the AAA cell C2, from the broadcast information from the base station. Any other method may be used as long as such information serving as a reference can be known in response to the above.
In the above example, the mobile station determines the micro cell C1 and the AAA cell C2. However, the reception level of the perch channel of each base station measured by the mobile station is transmitted to the base station of the cell in which the mobile station is located. Then, the base station can determine the micro cell C1 and the AAA cell C2.

[0043]

As described above, according to the first to sixth aspects of the present invention, the required communication speed and
By switching the first communication means and the second communication means based on the state of the radio transmission path between the base station and the mobile station, information transmission satisfying various communication service qualities is possible. Becomes That is, in a mobile communication system,
It is possible to provide a communication control method capable of satisfying the quality of communication service required by a mobile station while efficiently using transmission power resources and equipment resources.

According to the present invention as set forth in claims 7 to 13, it is possible to provide a mobile communication system to which the above communication control method is applied. Claim 14
According to the present invention as set forth in any of (1) to (18), it is possible to provide a base station in a mobile communication system to which the above communication control method is applied. Further, claims 19 and 2
According to the present invention described in Item No. 0, a mobile station in a mobile communication system to which the above communication control method is applied can be provided.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an example of a cell configuration of a mobile communication system to which a communication scheme according to an embodiment of the present invention is applied.

FIG. 2 is a block diagram illustrating a configuration example of a base station.

FIG. 3 is a block diagram illustrating a configuration example of a mobile station.

FIG. 4 is a sequence diagram illustrating an example of a processing procedure when information transmission is performed by transmission from a mobile station.

FIG. 5 is a flowchart showing a procedure for determining a base station of a serving cell by a mobile station.

FIG. 6 shows a micro cell C1 and an AAA cell C2 in a mobile station.
5 is a flowchart illustrating a procedure for making a determination.

FIG. 7 is a sequence diagram illustrating an example of a processing procedure when information is transferred at the time of an incoming call to a mobile station.

[Explanation of symbols]

 11, 12, 13, 14, 15, 16 base station 100 control unit 101 antenna array 102 transmission / reception distributor 103 weight control / multiplication unit (for reception signal) 104 weight control / multiplication unit (for transmission signal) 110 switch 111 demodulation Circuit 112 Decoding circuit 113 Modulation circuit 114 Encoding circuit 120 Transmission / reception distributor 130 Transmission / reception distributor 131 Demodulation circuit 132 Decoding circuit 133 Modulation circuit 134 Encoding circuit 200 Control unit 201 Transmission / reception distributor 202 Demodulation circuit 203 Decoding circuit 204 Modulation circuit 205 Code Conversion circuit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yasushi Yasushi 2-10-1 Toranomon, Minato-ku, Tokyo NTT Mobile Communications Network Co., Ltd. (72) Inventor Yoshinori Sato Toranomonji, Minato-ku, Tokyo F-term (reference) in NTT Mobile Communication Network Co., Ltd. 10-10-1

Claims (20)

[Claims] 1. A communication control method for performing information communication between a base station and a mobile station in a mobile communication system, comprising: a transmission rate of required information; and a radio transmission path between the mobile station and the base station. According to the state, the first communication means that the base station performs information communication with the mobile station using an antenna having a fixed directivity, and an antenna whose directivity is variable so as to track the mobile station. A communication control method in which a base station selectively switches between a second communication unit for performing information communication with a mobile station using the base station. 2. The communication control method according to claim 1, wherein a reception level of the perch channel from the base station is measured by the mobile station, and the measurement result is used as a radio transmission path between the mobile station and the base station. A communication control method used as a state. 3. The communication control method according to claim 1, wherein a condition between a mobile station and a base station is determined based on a state of a radio transmission path which is a predetermined reference for a required information transmission rate condition. When the state of the wireless transmission path is good, the first communication means is selected, and the state of the wireless transmission path between the mobile station and the base station is higher than the state of the reference wireless transmission path. A communication control method in which the first communication unit and the second communication unit are switched so that the second communication unit is selected when the condition is not good. 4. The communication control method according to claim 1, wherein an antenna for fixedly forming a communication area with a mobile station according to transmission power is used as an antenna of said first communication means. Communication control method. 5. The communication control method according to claim 4, wherein an omni antenna or a sector antenna is used as an antenna for fixedly forming an area communicable with the mobile station according to the transmission power. 6. The communication control method according to claim 1, wherein an adaptive array antenna is used as an antenna of said second communication means. 7. A mobile communication system for performing information communication between a base station and a mobile station, comprising: a transmission path state measuring means for measuring a state of a radio transmission path between the mobile station and the base station; The base station communicates information with the mobile station using an antenna having a fixed directivity, and the mobile station communicates with the mobile station using an antenna whose directivity is variable so as to track the mobile station. A second communication means for performing communication, a transmission rate of required information, and the first transmission rate based on a state of a wireless transmission path between the mobile station and the base station measured by the transmission path state measuring means. A mobile communication system, comprising: a switching control unit that selectively switches between the communication unit and the second communication unit. 8. The mobile communication system according to claim 7, wherein said transmission path state measuring means is provided in a mobile station. 9. The mobile communication system according to claim 8, wherein said transmission path state measuring means measures a reception level of a perch channel of the base station as a state of a radio transmission path between the mobile station and the base station. A mobile communication system having a receiving level measuring unit that performs the measurement. 10. The mobile communication system according to claim 7, wherein the switching control means determines a state of a wireless transmission path which is a predetermined reference corresponding to a required transmission rate condition of information. When the state of the wireless transmission path measured by the wireless transmission path state measuring means is good, the first communication means is selected, and the state of the wireless transmission path measured by the wireless transmission path state measuring means is changed. A mobile communication system wherein the second communication means is selected when the condition is not better than the condition of the reference wireless transmission path. 11. The mobile communication system according to claim 7, wherein the antenna of the first communication means is an antenna for fixedly forming an area communicable with a mobile station according to transmission power. Mobile communication system. 12. The mobile communication system according to claim 11, wherein the antenna for fixedly forming a communication area with the mobile station according to the transmission power is an omni antenna or a sector antenna. 13. The mobile communication system according to claim 7, wherein an antenna of said second communication means is an adaptive array antenna. 14. A base station used in a mobile communication system for performing information communication between a base station and a mobile station, wherein first communication for performing information communication with the mobile station using an antenna having a fixed directivity. Means, a second communication means for performing information communication with the mobile station using an antenna whose directivity is variable so as to track the mobile station, a transmission rate of required information, and a communication between the mobile station and the base station. A base station comprising: a switching unit that selectively switches between the first communication unit and the second communication unit based on a state of a wireless transmission path between the first and second communication units. 15. The base station according to claim 14, wherein said switching control means sets said radio transmission path state to a predetermined reference radio transmission path state corresponding to a required information transmission rate condition. If the state of the wireless transmission path measured by the measuring means is good, the first communication means is selected, and the state of the wireless transmission path measured by the wireless transmission path state measuring means is the reference radio. A base station that selects the second communication means when the state is not better than the state of the transmission path. 16. The base station according to claim 14, wherein the antenna of the first communication means is an antenna for fixedly forming an area communicable with a mobile station according to transmission power. . 17. The base station system according to claim 16, wherein the antenna that fixedly forms a communication area with the mobile station according to the transmission power is an omni antenna or a sector antenna. 18. The base station according to claim 14, wherein the antenna of said second communication means is an adaptive array antenna. 19. A mobile station used in a mobile communication system for performing information communication between a base station and a mobile station, a transmission line state measuring means for measuring a state of a radio transmission line between the base station and the mobile station. The first communication means in which the base station performs information communication with the mobile station using an antenna having a fixed directivity, based on the measurement result in the transmission path state measurement means and the transmission rate of the requested information, A communication method determining means for determining which of a second communication means for performing information communication with the mobile station by the base station using an antenna whose directivity is variable so as to track the mobile station; A mobile station configured to perform information communication between the base station and the mobile station by the first communication means or the second communication means determined by the communication method determination means. 20. The mobile station according to claim 19, wherein said communication mode determination means measures said transmission path condition from a state of a radio transmission path which is a predetermined reference for a transmission rate condition of required information. When the state of the wireless transmission path measured by the means is good, the first communication means is selected, and the state of the wireless transmission path measured by the transmission path state measuring means is the reference wireless transmission. A mobile station which determines to select the second communication means when the condition is not better than the road condition.