JPH1013326A - Radio communication system, base station, mobile terminal and radio communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To save power consumption in a mobile terminal. SOLUTION: A communication able area between a base station 1 and a mobile terminal 2 consists of plural cells 4, the base station 1 is provided with an antenna 6 capable of operating a beam 5 for the respective cells 4 and the base station 1 successively operates the beam 5 of the antenna 6 for the cells 4 so as to execute control communication with the mobile terminal 2. Thus, the gain of the antenna 6 is largely obtained as compared with a conventional manner, the transmission power of the mobile terminal 2 is lowered in this result and the transmission power of the mobile terminal is restrain so that power consumption is saved.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication system, a base station, a mobile terminal and a radio communication method applied to mobile communication such as a cellular system.

[0002]

2. Description of the Related Art In a wireless communication system such as a cellular system,
A range called a location registration area is set, and when the mobile terminal moves to a different location registration area due to movement, location registration is performed to grasp the approximate location of the mobile terminal. One location registration area usually corresponds to a plurality of cells. The “cell” here refers to a communication area covered by one base station.

A transmission signal from a mobile terminal in a location registration area can be received by any of the base stations in the area. Also, if a simultaneous call is made to the location registration area in which the location of the mobile terminal has been registered, the called terminal can be detected.

[0004] In such a system, it is required to reduce the power consumption by suppressing the transmission power of the mobile terminal. For this purpose, it is conceivable to use an antenna with a high gain in the base station.

[0005] However, when a cell is constituted by an antenna having a high gain, the diameter of the cell becomes small. Therefore, an area equivalent to an area of a radio communication system constituted by using an antenna having a low gain is used by using an antenna having a high gain. In order to cover, more cells need to be deployed, which requires more base stations. And
This means that the number of base stations included in one location registration area is increased, and a long time is required for outgoing / incoming call control.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances.

[0007] A first object of the present invention is to provide a system capable of reducing the power consumption by suppressing the transmission power of a mobile terminal.

A second object of the present invention is to provide a system capable of reducing the number of base stations.

A third object of the present invention is to provide a system capable of shortening the time for outgoing / incoming call control.

A fourth object of the present invention is to provide a system capable of realizing wireless communication for a mobile terminal in a moving state without deteriorating transmission efficiency.

[0011]

In order to solve the above-mentioned problems, in the system of the present invention, a communication area in which communication is possible between a base station and a mobile terminal comprises a plurality of cells. Further, the base station has an antenna capable of operating a beam for each cell. Then, the base station performs control communication including communication timing in location registration or information communication in cell units with the mobile terminal by sequentially operating the beam of the antenna for each cell, and based on the communication timing. Information communication is performed with the mobile terminal.

The "cell" in the present invention does not correspond one-to-one with a base station. That is, a plurality of cells correspond to one base station. However, it is also possible that a plurality of cells correspond to a plurality of base stations, for example, two to twenty.

The operation of the beam of the antenna with respect to the cell means, for example, that the beam of the beam antenna whose gain and directionality can be changed is directed to the cell, and the reception field strength of the mobile terminal in the cell is equal to or higher than a predetermined value. Say.
The direction of the directivity includes the radial direction and the phase direction in the polar coordinate system. However, it is also possible to use either the radial direction or the phase direction in the polar coordinate system. Varying the gain is particularly required when varying the beam in the phase direction in the polar coordinate system. When the beam is shaken far, a higher gain is required to make the reception electric field strength of the mobile terminal equal to or higher than a predetermined value, and when the beam is shaken close, the reception electric field intensity is equal to or higher than the predetermined value. Because a wider beam or lower gain is required. However, the gain can be fixed.

[0014] Location registration on a cell-by-cell basis means, for example, that the location registration of a mobile terminal in a base station is updated to a new cell each time the mobile terminal moves and becomes present in a different cell. Further, the communication timing in information communication refers to, for example, at what time timing a call signal is exchanged between the base station and the mobile station.

The control communication includes, for example, communication for outgoing / incoming calls in addition to communication timing in location registration and information communication in units of cells.

Here, in the conventional radio communication system which is composed of a base station and a plurality of mobile terminals, performs radio communication between the base station and the mobile terminal and suppresses the transmission power of the mobile terminal, the antenna gain of the base station is Must be raised. When a cell is constituted by an antenna having a high gain, the diameter of the cell is reduced. Therefore, in order to cover an area equivalent to an area of a wireless communication system configured using an antenna with a low gain with an antenna with a high gain, it is necessary to arrange more cells.

When a terminal is called, a general call is made to an area generally called a location registration area. That is, the area where the simultaneous calling is performed is the location registration area. Location registration is performed when the mobile terminal moves to a different location registration area. The base station
A rough position is grasped by the position registration from the mobile terminal.

In the radio communication system for suppressing the transmission power of the mobile terminal, the direction of the directivity of the antenna of the base station must be set to the cell in which the mobile terminal exists when transmitting and receiving the mobile terminal. Therefore, the base station must know a position finer than the position of the mobile terminal obtained by the position registration. In other words, in such a wireless communication system, the diameter of the cell is small, and the position of the mobile terminal must be frequently detected in order to cope with the movement of the mobile terminal.

However, if the position of a mobile terminal is frequently detected, the number of transmissions of the mobile terminal required for position detection increases, which is disadvantageous in terms of power consumption of the mobile terminal. on the other hand,
If the position detection is suppressed, the position of the mobile terminal becomes unknown, and the delay time during communication increases.

The signals required for position detection are control signals other than information signals transmitted between the base station and the mobile terminal. If the number of signals required for position detection increases, the transmission efficiency deteriorates. I do. In other words, in a wireless communication system that suppresses the transmission power of a terminal, because the diameter of the cell is small, the terminal frequently moves between cells, and the terminal position can be determined without lowering the transmission efficiency of the moving terminal. The problem is whether to do it. Furthermore, in a wireless communication system that suppresses the transmission power of a terminal, when transmitting a mobile terminal, the direction of the directivity of the base station antenna must be set to the cell where the mobile terminal is located. The problem is whether the base station finds the calling terminal without lengthening the time.

Therefore, in the present invention, a communication area in which communication is possible between a base station and a mobile terminal includes a plurality of cells, and the base station has an antenna capable of operating a beam for each cell. The base station is characterized in that the antenna beam is sequentially operated for each cell to perform control communication with the mobile terminal.

That is, since the beam of the antenna of the base station is sequentially operated in each cell, the mobile terminal located at an arbitrary position can be transmitted to the cell where the mobile terminal is located within a certain period of time. Since the setting is made, the wireless communication itself becomes possible.

In addition, a mobile terminal frequently moves from one cell to another due to a small cell diameter. However, since the identifier of the called terminal can be transmitted in all cells during a periodic beam operation, a general terminal is used. It is possible to achieve the same effect as simultaneous paging for a location registration area in a wireless communication system.

Further, since the presence of the calling terminal and the position of the calling terminal can be detected by sequentially operating the antenna beam to the cell, the number of communications required for detecting the position of the mobile terminal can be reduced. In addition, wireless communication can be realized for a moving terminal without deteriorating the transmission efficiency.
Further, by receiving the signal from the base station, the mobile terminal can know that the directivity of the antenna is in the direction of the own terminal.

According to a second aspect of the present invention, there is provided a base station capable of communicating with a mobile terminal within a communication area including a plurality of cells, and capable of operating a beam for each of the cells. Antenna, and sequentially operate the beam of the antenna for each of the cells within a first period, and operate the beam of the antenna to a specific cell within a second period, or Performing control communication including communication timing in position registration and information communication in a unit of cell between the antenna operating means for sequentially operating and the mobile terminal within the first period, and performing the communication within the second period Communication means for performing information communication with the mobile terminal based on timing.

A mobile terminal according to a third aspect of the present invention is a mobile terminal capable of communicating with a base station having a communication area composed of a plurality of cells, and an identifier signal for specifying the cell from the base station. And means for receiving a signal indicating communication timing in information communication, and means for performing information communication with the base station at a timing based on the received signal indicating communication timing, and further comprising: The terminal according to the present invention includes means for transmitting a location registration signal distinguished on a cell-by-cell basis to the base station when the received identifier is different from the identifier of a cell up to then.

The identifier is, for example, an ID.

The base station and the mobile terminal according to claim 2-4 are applicable to, for example, the wireless communication system according to claim 1.

According to a fifth aspect of the present invention, a control communication is performed between a base station and a mobile terminal by sequentially operating a beam of an antenna of a base station for a plurality of cells, and the control communication is performed based on the control communication. The information communication is performed between the base station and the mobile terminal at the timing when the beam is directed to the mobile terminal.

[0030]

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

FIG. 1 is a diagram for explaining an outline of a radio communication system according to the present invention.

In FIG. 1, 1 is a base station, and 2 is a mobile terminal. This base station 1 can communicate with the mobile terminal 2 within the communication area 3. The communication area 3 includes a plurality of cells 4, 4,..., And the base station 1 has an antenna 6 capable of operating a beam 5 for each cell 4.

FIG. 2 shows an example of cell arrangement according to the present invention.

In FIG. 2, the communication area 3 has a maximum distance of 100 m and an angle of 60 degrees from the base station 1, for example. Then, by changing the beam 5 of the antenna 6 of the base station 1, that is, the direction and the gain of the directivity of the antenna 6, the cells are arranged so that the received electric field strength becomes equal to or more than a predetermined value in all of the communication areas 3. . Here, the communication area 3 is composed of, for example, 201 cells. Further, in order to make the reception electric field strength equal to or more than the predetermined value in all the cells 4 in the communication area 3, the antenna gain for the cells 4 far from the base station 1 is set high. On the other hand, base station 1
Is closer to the base station 1 in the cell 4 closer to
Since the propagation loss is smaller than that of a distant cell, the antenna gain is set small. Each cell is assigned a unique number (4 ₁ to 4 _n ), and ₁ to _n are the numbers of cells added to a signal transmitted from the base station 1 to the mobile terminal 2 at the time of cell scanning described later. Matches the number.

FIG. 3 is a diagram showing a configuration of a frame of a transmission / reception signal between the base station 1 and the mobile terminal 2.

As shown in FIG. 3, one frame includes a cell scan period 7 and a communication timing allocation period 8 as a period for performing control communication, and an information communication period 9 as a period for performing information communication.

In the cell scan period 7, in order to register a location between the base station 1 and the mobile terminal 2, detect a terminal call, and notify a terminal call, the antenna beam for each cell is sequentially operated, that is, cell scan is performed. Will be Cell scan period 7
Is determined from the allowable values of the call connection delay and the communication delay. Reducing the delay time can be achieved by shortening the interval between cell scans, but this is a trade-off with transmission efficiency. If the cell scan period 7 is fixed and scanning is performed periodically, the mobile terminal 2 can receive signals only at the time of scanning, and can perform intermittent reception with a shorter reception period. Therefore, this contributes to lower power consumption of the mobile terminal 2.

The calling terminal transmits a terminal calling request to the base station 1 when scanning a cell. Since the base station 1 knows to which cell the antenna beam is directed, it can know the position of the calling terminal. The mobile terminal 2 exists in an arbitrary cell (position) in the area, and moves from one cell to another by moving. However, the position can be grasped by performing scanning. The base station 1 having received the terminal call request,
In the communication timing assignment period 8, a communication timing is assigned to the calling terminal. Then, in the information communication period 9, information communication is performed between the call requesting terminal or the called terminal and the base station 1 based on the communication timing. For example, in the communication timing assignment period 8, the base station 1
Assigns the period A in the information communication period 9 as communication timing to the mobile terminal 2 that made the call,
During the period A, the beam of the antenna 6 of the base station 1 is directed to the cell where the mobile terminal 2 that has made the call exists. Then, information communication is performed between the mobile terminal 2 and the base station 1.

FIG. 4 shows details of the cell scan period 7.

As shown in FIG. 4, the cell scan period 7
Is, for example, n (n = the number of cells, 2 in the example of FIG. 2)
Composed of the beam duration 10 ₁ to 10 _n of 01 pieces).
The base station 1 sets the beam of the antenna 6 of the base station 1 in the direction of each of the cells 4 ₁ to 4 _n in each of the beam periods 10 ₁ to 10 _n (see FIG. 2). For example, in the beam period 10 ₁ , the beam of the antenna 6 is set in the direction of the cell 4 ₁ , and in the beam period 10 ₂ , the beam of the antenna 6 is set in the cell 4 ₁
Set ₂ direction, the beam period ₁₀₃ is set to the antenna beam 6 in the direction of the cell 4 _3. Also,
In each of the beam periods 10 ₁ to 10 _n , the base station 1
And a reception period Rx during which the base station 1 receives a control signal from the mobile terminal 2.

[0041] Then, the base station 1 first, the beam of the antenna 6 is set in the direction of the cell 4 ₁ in the beam period 10 ₁ at the time of cell scan cell 4 in the transmission period Tx
A control signal is transmitted to _one mobile terminal 2. Cell 4
_When receiving the control signal from the base station 1, the mobile terminal 2 existing in ₁ transmits the control signal to the base station 1 during the reception period Rx. Hereinafter, the same operation is sequentially performed on each cell.

In the radio communication system for suppressing the transmission power of the mobile terminal, the transmission from the mobile terminal is not transmitted to the base station unless the direction of the beam of the antenna of the base station is set to the position where the mobile terminal exists. According to the invention, the mobile terminal 2
If the received electric field strength at the time of receiving the transmission signal from the base station 1 is equal to or greater than the threshold (or equal to or greater than the reception sensitivity), the beam direction of the antenna 6 of the base station 1 is set to the position where the mobile terminal 2 is located Judge that This allows wireless communication with the base station 1 even if the transmission power of the mobile terminal 2 is suppressed. Also, if the cell scan period 7 is provided periodically at regular intervals, the mobile terminal 2 does not need to constantly monitor the signal from the base station 1. Further, since the above-described cell scan is performed on all the cells 4 in the communication area 3, even if the mobile terminal 2 is located at an arbitrary position in the communication area 3, the wireless communication with the base station 1 is performed. It becomes possible.

FIG. 5 shows a format of a control signal transmitted from base station 1 to mobile terminal 2 during transmission period Tx.

As shown in FIG. 5, the control signal 11 transmitted from the base station 1 includes an ID 12 indicating a cell scan, a cell number 13, a base station ID 14, and an ID 1 of a called terminal.
., And other information 16 are included. From these pieces of information, the mobile terminal 2 can know the type of information transmitted from the base station 1, the cell, and the number of the base station. Further, since the base station 1 does not know the detailed position of the mobile terminal 2, the ID 15 of the called terminal is transmitted to all cells at the time of cell scanning. That is, the same effect as the simultaneous calling can be obtained by setting the control signal to a signal format as shown in FIG. The called terminal with the matching ID 15 transmits to the base station 1 when the received electric field strength at the time of receiving the control signal from the base station 1 is equal to or greater than the threshold. Thereby, the base station 1 grasps the position of the mobile terminal 2. The called terminal whose ID is included in the signal transmitted from the base station 1 at the time of the cell scan receives the channel assignment signal in the communication timing assignment period 8 after the cell scan.

FIG. 6 shows an example of a channel assignment signal in the communication timing assignment period 8.

As shown in FIG. 6, the channel assignment signal 17 includes an ID 18 indicating the channel assignment signal,
A cell number 19, a base station ID 20, an ID 21 of a mobile terminal to which a channel is to be allocated, information 22 on communication timing, and other information 23 are included. Mobile terminal 2
Can know from the communication timing information 22 at which timing in the information communication period 9 communication should be performed with the base station 1.

Next, an example of a format of a control signal transmitted from the mobile terminal 2 to the base station 1 during the reception period Rx will be described with reference to FIG.

In the radio communication system for suppressing the transmission power of the mobile terminal, the direction of the beam of the antenna 6 of the base station 1 must be set to the cell where the mobile terminal is located. In the present invention, the calling terminal transmits a calling request in a cell scan that is periodically performed. The call requesting terminal transmits the control signal 24 shown in FIG. 7 to the base station 1 if the received electric field strength when the signal from the base station 1 is received at the time of the cell scan is equal to or greater than the threshold value. Control signal 2 transmitted from calling terminal
4 includes an ID 25 indicating a call request, a terminal ID 26, and other information 27. With this control signal transmitted from the mobile terminal 2, the base station 1
D, The position of the mobile terminal 2 is grasped. The mobile terminal 2 that has made the call request receives the channel assignment signal 17 after the cell scan.

Next, an example of the format of the control signal transmitted from the called terminal at the time of cell scanning will be described with reference to FIG.
The terminal incoming call is generally transmitted to the mobile terminal by a general call. In a wireless communication system that suppresses the transmission power of a mobile terminal, the direction of the beam of the antenna of the base station must be set in the cell where the mobile terminal exists. In the present invention, the called terminal is transmitted in a cell scan that is periodically performed. Control signal 11 transmitted from base station 1
Contains the ID 15 of the called terminal. The mobile terminal 2
The control signal 11 shown in FIG. 8 is transmitted from the mobile terminal 2 to the base station 1 at the time of cell scanning when the control signal 11 from the base station 1 is received and the signal contains the ID of the own terminal. The control signal 28 transmitted from the called terminal to the base station 1 includes an ID 29 indicating an incoming call response, an ID 30 of the called terminal, and other information 31. Based on the control signal 28 transmitted from the mobile terminal 2, the base station 1 grasps the position of the mobile terminal. The called terminal receives the channel assignment signal 17 after the cell scan.

Next, an example of the format of a control signal transmitted from the mobile terminal 2 to the base station 1 when a cell is moved during cell scanning will be described with reference to FIG.

The mobile terminal 2 can know which cell the own terminal is in from the control signal 11 of FIG. 5 transmitted from the base station 1. Then, the mobile terminal 2 saves this position information (cell ID), compares it with the cell ID of the control signal 11 transmitted thereafter, and when it differs from the stored cell ID, The control signal 32 is transmitted to the base station 1. The control signal 32 includes an ID 33 indicating location registration, an ID 34 of the terminal, and other information 35. The base station 1 can know the position of the mobile terminal 2 by this control signal, and performs position registration for each cell.

FIG. 10 is a block diagram showing the configuration of the base station 1.

As shown in the figure, the base station 1 includes an antenna system 37 and a control circuit 38 for controlling these components, in addition to a modulation / demodulation circuit 36 for performing data modulation / demodulation. The antenna system 37 changes the direction of the beam of the antenna 6 under the control of the antenna 6 and the control circuit 38.
That is, it has a beam variable circuit 39 for changing the direction and the gain of the directivity of the antenna 6.

FIG. 11 shows an example of the antenna 6 in the antenna system 37.

As shown in FIG. 11, the antenna 6 is formed by arranging, for example, rectangular patches 41 on a dielectric substrate 40 in a vertical and horizontal direction. Power is supplied to each patch 41 from each power supply unit 42. Then, the beam variable circuit 39 varies the beam by changing the amplitude and phase of the signal applied to each power supply unit 42. For example, such a technique for changing the beam of the antenna is described in "1996 IEICE General Conference B-107 planar multi-beam array antenna.
GHz band 12 sector antenna ".

The control circuit 38 controls the beam of the antenna 6 and controls the transmission and reception in the modulation / demodulation circuit 36. FIG. 12 shows the control flow.

As described above, in the wireless communication system according to the present invention, the position of the mobile terminal 2 is detected by scanning the cell (steps 1201 and 1202). Cell scanning is performed at the timing shown in FIG. That is, the base station 1 first changes the directivity and gain of the antenna 6, bi - sets the beam in a direction corresponding to the cell number 4 _1, beam period in FIG. 4 from the base station 1 10 ₁
The signal of the format shown in FIG. 5 is transmitted at the timing of Tx. Calling terminal that has received the signal, the called terminal, location registration terminal sends the format of the signal of FIG. 7-9 at the timing of the beam duration 10 ₁ of Rx in FIG. Thereby, the position of the mobile terminal 2 is grasped. The base station 1 further sets the beam of the antenna 6 in the direction corresponding to the next cell number, and thereafter repeats the same.

When the cell scanning is completed, the base station 1
Can recognize the cell number where the connection requesting terminal exists. The communication timing is assigned to the connection requesting terminal (steps 1203 to 1206). In the communication timing assignment, first, the beam of the antenna 6 is set in the direction corresponding to the cell in which the terminal A is present (step 1203), and thereafter, the communication timing is notified (step 1204).
Hereinafter, similar notification is made to the terminals B, C,... (Steps 1205 to 1206).

When the communication timing assignment is completed,
The process proceeds to the specific terminal communication in the information communication period 9 in FIG. 4 (steps 1207 to 1209). In specific terminal communication,
The antenna beam is set in the direction corresponding to the cell number where terminal A is located (step 1207), and thereafter communication with A is performed (step 1208). At the communication timing notified to the terminal B, the communication with the terminal A is terminated, the beam of the antenna is set in the direction corresponding to the cell number where the terminal B is located (step 1209), and the communication with the terminal B is established. The process starts (step 1210). At the cell scan timing, the base station 1 performs the control flow shown in FIG. 12 again.

Next, an example of the mobile terminal 2 will be described with reference to FIG.

The mobile terminal 2 comprises a transmitting / receiving antenna 51, a duplexer 52, a power amplifier 53, a modulator 54, a demodulator 55, a baseband circuit 56, and a control circuit 57. In the wireless communication system according to the present invention, the mobile terminal 2
Is characterized by knowing that the beam of the antenna 6 of the base station 1 is at the position where the mobile terminal 2 is present by receiving a signal from the base station 1, and the transmission and reception timings are time-divided. .

The signal received by the antenna 51 is input to the demodulator 55 by the duplexer 52. The output of the demodulator 55 is input to the baseband circuit 56, where error detection and error correction are performed, and the output is converted into a bit string. At the time of transmission, error correction coding is performed in the baseband circuit 56 and input to the modulator 54 for modulation.
The output of the modulator 54 is input to a power amplifier 53, amplified to a desired power, passed through a duplexer 52,
It is radiated from the antenna 51.

The control circuit 57 turns on / off the power amplifier 53, modulator 54, and demodulator 55 to reduce power consumption. That is, the circuit is operated only during the cell scanning period. Further, the control of the entire terminal is performed by the control signal obtained by the baseband circuit 56.

FIG. 14 shows a control flow of the control circuit 57.

The mobile terminal 2 operates the transmission / reception unit before the cell scan timing (start-up time of the transmission / reception unit) (step 1401), and prepares a system capable of receiving a signal from the base station 1. When the base station 1 periodically performs cell scanning, the terminal can operate the transmitting / receiving unit only during cell scanning, which contributes to lower power consumption.

When the calling terminal, the called terminal, and the location registration terminal receive the cell scan signal from the base station 1 at the time of cell scanning (step 1402), they transmit to the base station 1. That is, when the mobile terminal 2 requests a call (step 1403), the mobile terminal 2 sends a call request signal in the format shown in FIG. 7 (step 1404), and shifts to receiving a communication timing assignment signal (step 1405). If the mobile terminal 2 re-receives the cell scan signal from the base station 1 and retransmits the request signal to the base station 1 during the cell scan period, the cell having a good communication state Can be registered.

The control signal 11 shown in FIG.
(Step 1406), the mobile terminal 2 sends out a call response signal of the format shown in FIG. 8 (step 1407), and shifts to receiving a communication timing assignment signal (step 1407). Step 1405). Also in this case, if the mobile terminal 2 is within the cell scan period, the mobile station 2 re-receives the cell scan signal from the base station 1 and retransmits it to the base station 1, so that the communication state is good. It becomes possible to register in the cell. After receiving the communication timing assignment signal, the mobile terminal 2 performs information communication with the base station 1 (step 1408).
On the other hand, if the mobile terminal 2 is different from the previously received base station ID (step 1409), the mobile terminal 2 determines that it is necessary to update the location registration area, and sends the location registration signal shown in FIG. (Step 1410). Then, the mobile terminal 2 that does not receive the communication timing assignment signal
The transmission / reception unit is suspended until the next cell scan timing (step 1411).

The above-described embodiment shows an example of the present invention, and the present invention can be variously modified and implemented within the scope of the technical idea.

For example, channels are continuously allocated to each mobile terminal (A, B, C in FIG. 3) during the information communication period in FIG. 3, but channels are allocated for each slot as shown in FIG. It is also possible. For example, the information communication period is divided into equally spaced slots,
BCABC... Can be sequentially assigned. This is because, in the cell scan, the terminal call is notified to the base station and the terminal is notified to the terminal, so that the mobile terminal can receive the communication timing assignment signal after the cell scan. is there.

In FIG. 4, cell scanning is performed continuously for all cells in the area.
As shown in FIG. 16, scanning of all cells may not be performed at one time in one cell scan, but may be performed in a divided manner. At the time of cell scanning, the line is occupied by the control signal. Therefore, by dividing the scanning of the cell, the waiting time during communication can be reduced.

Furthermore, the assignment of communication timing also serves as a response signal from the base station to the mobile terminal, but this need not necessarily be provided after scanning the cell. For example, the communication timing may be allocated at a predetermined period after the cell scan, or the communication timing may be allocated within the cell scan period.

Further, as shown in FIG. 17, the number of scans of a specific cell may be different from the number of scans of another cell. The size of the cell differs depending on the directivity of the antenna, the gain of the antenna, and the installation conditions of the antenna. In a cell having a small diameter, the probability that the mobile terminal moves out of the cell increases. Therefore, it is effective to increase the number of scans only for such a cell.

The form of the antenna may be any other than that shown in FIG. 11, as long as it can change the beam, irrespective of a plane shape, a linear shape and the like.

[0074]

As described above, according to the present invention, the communication area in which communication is possible between the base station and the mobile terminal includes a plurality of cells, and the base station can operate a beam for each cell. It is assumed that the base station has an antenna, and the base station operates the antenna beam sequentially for each cell to perform control communication with the mobile terminal. As a result, the transmission power of the mobile terminal can be reduced, and more intermittent reception is also possible, thereby reducing the power consumption of the mobile terminal. Further, even if the cell is finely divided, it is not necessary to provide a base station for each cell, so that the number of base stations can be reduced. further,
Since the identifier of the called terminal can be transmitted in all cells at the time of beam operation, it is possible to achieve the same effect as simultaneous paging to a location registration area in a general wireless communication system, and it is possible to shorten the time required for call control. In addition, the sequential operation of the antenna beam to the cell makes it possible to detect the presence of the calling terminal and to detect the position of the calling terminal, thereby reducing the number of communications required for detecting the position of the mobile terminal and moving. Wireless communication can be realized for the terminal without deteriorating the transmission efficiency.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining an outline of a wireless communication system according to the present invention.

FIG. 2 is a diagram showing an example of a cell arrangement according to the present invention.

FIG. 3 is a diagram showing a configuration of a frame of a wireless communication system according to the present invention.

FIG. 4 is a diagram showing a frame configuration at the time of cell scanning according to the present invention.

FIG. 5 is a diagram illustrating a format of a signal transmitted from a base station during cell scanning according to the present invention.

FIG. 6 is a diagram illustrating a format of a signal transmitted from a base station during a communication timing allocation period according to the present invention.

FIG. 7 is a diagram showing a format of a signal transmitted from a calling terminal during cell scanning according to the present invention.

FIG. 8 is a diagram illustrating a format of a signal transmitted from a called terminal during cell scanning according to the present invention.

FIG. 9 is a diagram illustrating a format of a location registration signal transmitted from a mobile terminal during cell scanning according to the present invention.

FIG. 10 is a diagram showing a configuration of a base station according to the present invention.

FIG. 11 is a diagram showing a configuration of a base station antenna according to the present invention.

FIG. 12 is a diagram showing a control flow of the base station according to the present invention.

FIG. 13 is a diagram showing a configuration of a mobile terminal according to the present invention.

FIG. 14 is a diagram showing a control flow of the mobile terminal according to the present invention.

FIG. 15 is a diagram showing another example of the frame according to the present invention.

FIG. 16 is a diagram showing another example of the frame according to the present invention.

FIG. 17 is a diagram showing another example of the frame according to the present invention.

[Explanation of symbols]

 Reference Signs List 1 base station 2 mobile terminal 3 communication area 4 cell 5 beam 6 base station antenna

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical display location H04B 7/26 110A

Claims (5)

[Claims] 1. A communication area in which communication is possible between a base station and a mobile terminal comprises a plurality of cells, wherein the base station has an antenna capable of operating a beam for each of the cells, The beam is sequentially operated for each of the cells to perform control communication including communication timing in cell-based location registration or information communication with the mobile terminal, and perform communication with the mobile terminal based on the communication timing. A wireless communication system for performing information communication between them. 2. A base station capable of communicating with a mobile terminal in a communication area including a plurality of cells, comprising: an antenna capable of operating a beam for each cell; An antenna operation means for sequentially operating the antenna beam for each of the cells, operating the antenna beam for a specific cell within a second period, or sequentially operating for each of the cells, Within the first period, control communication including communication timing in position registration or information communication is sequentially performed in units of cells with the mobile terminal, and communication with the mobile terminal is performed within the second period based on the communication timing. And a communication means for performing information communication between the base stations. 3. A mobile terminal capable of communicating with a base station having a communication area including a plurality of cells, comprising: an identifier signal for specifying the cell from the base station; and a signal indicating communication timing in information communication. And a means for performing information communication with the base station at a timing based on a signal indicating the received communication timing. 4. The mobile terminal according to claim 3, wherein when the received identifier is different from an identifier of a cell up to that time, a location registration signal that is distinguished for each cell to the base station. A mobile terminal, further comprising: 5. A control communication is performed between a base station and a mobile terminal by sequentially operating a beam of an antenna of the base station for a plurality of cells, and the beam is directed to the mobile terminal based on the control communication. A wireless communication method, wherein information communication is performed between a base station and a mobile terminal at a predetermined timing.