JPH10256971A - Radio communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a directional antenna whose receiving quality is deteriorated from being selected as a new directional antenna for communication by measuring the receiving quality of the plural directional antennas of a radio terminal and selecting the new directional antenna for communication based on the measure result. SOLUTION: A signal from a base station 32 is received by a directional antenna 311b, and a bit error ratio is measured by a reception signal bit error ratio measuring equipment 313. When the measured bit error ratio is deteriorated below a constant threshold value, and the deterioration of the bit error ratio is continued even after the lapse of a constant time, a mobile station 31 judges that diversity switching in the base station 32 fails, and the directional antenna for communication for the mobile station 31 is switched from the antenna 311b to one of directional antennas 311a and 311c-311f based on the measured result being at the measured reception level by controlling a directional antenna for communication selection switch 312 by a directional antenna selection switch controlling part 316.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a radio communication system for improving transmission quality by performing antenna diversity communication using a sector antenna including a plurality of directional antennas. In particular, the present invention relates to a digital high-speed wireless communication system for reducing deterioration of communication quality due to movement or rotation of one wireless terminal.

[0002]

2. Description of the Related Art Conventionally, in a digital radio communication system using antenna diversity, a sector antenna composed of about two or three directional antennas has been often used.

However, it is effective to use a directional antenna having a narrower beam in order to secure stable communication quality even on a propagation path in which multiple reflections are likely to occur. Inevitably, it is necessary to use a sector antenna having many directional antennas. Also, in order to secure stable communication quality even on a propagation path where shadowing caused by blocking the communication path by people or vehicles is likely to occur or a height pattern generated by reflected waves from the ground or ceiling is remarkable. It is easy to prepare multiple propagation paths in which quality degradation due to shadowing and height pattern is unlikely to occur at the same time.When transmitting and receiving between two terminals, at least one of the terminals must be spatially spaced. It becomes necessary to provide a plurality of sector antennas, and it becomes necessary to provide more and more directional antennas.

For this reason, in a digital high-speed wireless communication system in which a mobile terminal (hereinafter referred to as a mobile station) and a base station need to have sector antennas having many directional antennas, the base station requires a plurality of sector antennas. Can transmit and receive diversity, but for mobile stations, because it is necessary to reduce the size of the device to make it easier to carry or move,
Desirably, there is only one sector antenna. However, when the angle at which the mobile station looks at the base station changes due to the rotation and movement of the mobile station, it becomes difficult to reduce the deterioration of the communication quality only by the diversity at the base station. Therefore, it is necessary to switch the communication directional antenna in the mobile station as a means for compensating for the deterioration of the communication quality due to the change in the angle at which the mobile station looks at the base station.

[0005] The applicant has proposed a "digital high-speed radio apparatus".
(Japanese Patent Application No. 8-75405) proposes such a technique. This technique will be described. This digital high-speed radio apparatus has _Nr groups (FIGS. 8 and 9) shown in FIGS.
The mobile station 1 including one sector antenna 11 constituted by six directional antennas in FIG.
In the wireless communication with the base station 2 using the four sector antennas 21, 22, 23, and 24 constituted by the base directional antennas, the communication directional antenna 11d of the mobile station
, A part of the received signal is a directional antenna 11c arranged near the communication directional antenna 11d,
11e, respectively.
A new directional antenna for communication is selected and switched from the directional antennas 11c, 11b, and 11e based on the quality of the signals received in c, 11d, and 11e.

[0006]

This method is characterized in that a criterion for selecting a new directional antenna for communication of a mobile station is only a reception level, and a radio wave for transmitting a signal has a wide band for high-speed transmission. In this case, there is a problem that a directional antenna whose reception quality is high but reception quality is degraded due to a large in-band deviation may be selected as a new directional antenna for communication.

[0007] Further, no measures have been taken for the case where the directional antenna for communication points in a direction different from that of the base station which is a normal partner when the mobile station rotates, and interferes with another base station. The problem remained.

According to the present invention, in a wireless communication system in which one terminal having a plurality of sector antennas and a terminal having a single sector antenna perform diversity communication, a directional antenna whose reception quality is degraded is newly transmitted. It is an object of the present invention to provide a wireless communication system that is not selected as a directional antenna for use. Another object of the present invention is to provide a wireless communication system that does not interfere with another base station when the mobile station rotates.

[0009]

SUMMARY OF THE INVENTION The present invention measures the reception quality of a plurality of directional antennas of a wireless terminal when the reception quality of the directional antenna for communication of a wireless terminal sector antenna is deteriorated. The most main feature is to select a new directional antenna for communication based on the result. In the prior art, the selection of a new directional antenna for communication considers the detection of a unique word of a received signal, and the wireless terminal stops transmission until a new directional antenna for communication is determined. The points are different.

[0010] That is, a first aspect of the present invention, M group formed directional antenna N _C group (N _C is a natural number) (M is a plural number) and a radio base station having a sector antenna,
N _r groups (N _r is a natural number) and a radio terminal having a sector antenna consisting of directional antennas, the radio base station, one of a sector antenna of the sector antenna of said M groups In a wireless communication system including means for selecting a directional antenna as a diversity switching destination candidate and switching the selected directional antenna to perform diversity communication with the wireless terminal, the wireless terminal includes the N _r -based A first switch for selecting one of the directional antennas as a communication directional antenna, a second switch for selecting one of the N _r directional antennas for reception quality measurement, Monitoring means for measuring the reception quality of the received signal guided by the switch, and switching and controlling the first switch based on the measurement result of the monitoring means, and Control means for performing switching control, wherein the control means is capable of maintaining the reception quality even if the reception quality degradation continues for a predetermined time and the radio base station switches over to a new directional antenna for communication. If the directional antenna cannot be compensated for, a means for selecting one directional antenna based on the reception quality measurement result of the N _r directional antennas and switching it as a communication directional antenna is included.

[0011] With this, when the reception quality of the directional antenna for communication deteriorates in the radio terminal and the deterioration is not improved by the diversity switching in the radio base station,
Diversity communication can be performed by selecting a new directional antenna for communication based on the reception quality of a plurality of antennas of the wireless terminal.

According to a second aspect of the present invention, the wireless terminal includes a first switch for selecting one of the Nr-based directional antennas as a communication directional antenna; Monitoring means guided by the switch for measuring the reception quality of the received signal; and control means for controlling switching of the first switch based on the measurement result of the monitoring means, wherein the control means deteriorates the reception quality. Is continued for a predetermined period of time and the radio base station switches the new directional antenna for communication even if the deterioration of the reception quality cannot be compensated even after the lapse of the time, the N _r directional antennas are sequentially switched. It is characterized by including means for measuring the reception quality, selecting one directional antenna, and switching as a directional antenna for communication.

As a result, the number of switches used in the wireless terminal can be reduced, the device configuration and control can be simplified, and the wireless terminal can be downsized.

It is preferable that the control means includes means for starting switching of the directional antenna for communication and stopping signal transmission until switching to a new directional antenna for communication. This can prevent interference with other wireless base stations, especially when the wireless terminal moves and the expected angle from the wireless terminal to the wireless base station rotates. Contributes to the suppression of interference with stations.

Further, when the communication quality deteriorates and the switching of the communication directional antenna is started,
The wireless terminal control means includes means for sequentially switching the M sector antennas each time transmission and reception is performed, and the control means of the wireless terminal performs the N _r transmission and reception with the communication antenna of the wireless base station every n (n ≧ M) times. Means for sequentially switching the base directional antennas may be included.

Further, the radio base station includes means for sequentially switching the M sector antennas for each transmission and reception when the switching of the communication directional antenna is started due to the deterioration of the communication quality. The control means of the terminal transmits n for one directional antenna by the radio base station.
Means for switching to the directional antennas corresponding to the following order after measuring the reception quality of the signals for the first time, and each of the N _r directional antennas completes the reception of the signal for the n times transmitted by the base station. A means for repeating reception of the signal n times by each of the directional antennas when none of the reception qualities of the N _r × n signals satisfy the predetermined threshold value;
Means for switching the directional antenna that has received the signal with the highest reception quality as a new directional antenna for communication when the reception quality of any of the N _r × n signals satisfies a predetermined threshold value; Means for resuming signal transmission after the switching of the communication directional antenna is completed.

[0017] This makes it possible to measure the quality of all the radio communication paths composed of a combination of the omni-directional antennas of the radio terminal and all the antennas of the radio base station, and to determine the appropriate quality according to the rotation of the radio terminal. It is possible to switch to a directional antenna for communication.

[0018]

An embodiment of the present invention will be described below with reference to the drawings. In this embodiment, one side for performing diversity communication is expressed as a mobile station, and the other side is expressed as a base station. However, since the present invention is applied to diversity communication between two wireless terminals, the wireless terminal is fixed. Or mobile. The following embodiment will be described as an example applied to a case where one wireless terminal is movable.

The digital high-speed wireless communication apparatus according to the embodiment of the present invention is a wireless communication system including one or a plurality of base stations and one or a plurality of mobile stations. In this wireless communication system, the base stations do not communicate even if they are synchronized, and the mobile stations do not communicate. Also, a base station can communicate with multiple mobile stations simultaneously, but a mobile station cannot communicate with multiple base stations simultaneously.

In the following embodiment, an example of communication between a single base station and a single mobile station will be described. When a single base station communicates with a plurality of mobile stations simultaneously, it is assumed that a plurality of communications between a single base station and a single mobile station occur simultaneously and independently of each other.

[0021]

FIG. 1 shows a configuration example of a digital high-speed wireless communication system according to a first embodiment of the present invention. In this wireless communication system, a mobile station 31 and a base station 32 are shown. The mobile station 31 has directional antennas 311a, 311b, 311
c, 311d, 311e, 311f, 6 groups (Nr = 6)
Antenna 3 composed of directional antennas
And the base station 32 includes four (M = 4) sector antennas 32 with six (N _C = 6) directional antennas.
1, 322, 323, and 324.

Here, in the first embodiment, four sector antennas 321 composed of six directional antennas,
A base station 32 having 322, 323, and 324, and six directional antennas 311a, 311b, 311c, and 311;
d, 311e, 311f
The base station 32 selects and selects one directional antenna of one of the four sector antennas 321, 322, 323, and 324 as a diversity switching destination candidate. In a wireless communication system including a sector antenna control unit 325 as means for performing diversity communication with the mobile station 31 by switching the provided directional antenna, the mobile station 31 includes six directional antennas 311a, 311b, 311c, 311d,
Communication directional antenna selection switch 31 for selecting one communication directional antenna from 311e and 311f
2 and one of the six directional antennas 311a to 311f are selected by a directional antenna selection switch 314 for measuring a reception level and a directional antenna selection switch 314 for measuring a reception level. In addition, a reception level measuring device 315 which is monitoring means for measuring the reception quality of a reception signal, and a communication directional antenna selection switch 31
2, a bit error rate measuring device 313 for measuring the bit error rate of the received signal,
5. The directional antenna selection switch control unit 31 as a control unit for switching and controlling the communication directional antenna selection switch 312 and the reception level measurement directional antenna selection switch 314 based on the measurement result of the bit error rate measurement unit 313.
6 and the directional antenna selection switch control unit 316
If the deterioration of the reception quality cannot be compensated for after the deterioration of the reception quality continues for a predetermined time and the base station 32 switches the new communication directional antenna, the six directional antennas 311a Means for selecting one directional antenna based on the reception quality measurement results of .about.311f and switching it as a directional antenna for communication.

The operation of the first embodiment will be described.

The base station 32 operates as a sector antenna controller 32.
5, sector antennas 321, 322, 323,
Each of the directional antennas 324 includes one directional antenna at the diversity switching destination (in the example of FIG.
1e, 322f, 323a, 324a)
Diversity transmission / reception with the mobile station 31 is performed by switching the communication antenna of the base station 32 between the diversity switching destination directional antennas 321e, 322f, 323a, and 324a.

The mobile station 31 normally fixes a directional antenna for communication in diversity transmission / reception with the base station 32. Here, the directional antenna for communication of the mobile station 31 is set to 3
11b. The signal transmitted from the base station 32 is received by the directional antenna 311b, and the bit error rate of the signal is measured by the received signal bit error rate measuring device 313. At the same time, the directional antennas 311a, 311b, 311c, 311d, and 311 are transmitted from the base station 32.
e, the reception level of the radio wave carrying the signal arriving at 311f is sequentially measured by the reception level measuring device 315 by controlling the reception level measurement directional antenna selection switch 314 by the directional antenna selection switch control unit 316. The measurement result is output to the directional antenna selection switch control unit 316. When the measured bit error rate deteriorates below a certain threshold value and the deterioration continues, the mobile station 31 waits for the diversity switching of the communication antenna in the base station 32 for a certain time. If the bit error rate of the received signal continues to deteriorate even after the fixed time has elapsed, the mobile station 31 considers that the diversity switching in the base station 32 has not succeeded, and the directional antenna for communication of the mobile station 31. From the directional antenna 311b to the directional antennas 311a, 311c, 311d, 311
e, 311f, based on the measurement result of the measured reception level, the directional antenna selection switch control unit 316 controls the directional antenna selection switch for communication 312 to perform switching.

In the first embodiment, when the bit error rate of a signal received by the directional antenna for communication deteriorates in the mobile station and the deterioration is not improved by the diversity switching in the base station, a plurality of antennas of the mobile station are By selecting the reception level, a new communication directional antenna can be selected from other directional antennas of the mobile station.

[0027]

Embodiment 2 Next, Embodiment 2 of the present invention will be described with reference to FIG.

In the second embodiment, four sector antennas 421, 422, and 42 are constituted by six directional antennas.
3 and 424, and six (N _r is a natural number) directional antennas 411a, 411b, 411c,
A mobile station 34 provided with a sector antenna 411 composed of 411d, 411e, and 411f;
Are four sector antennas 421, 422, 423, 4
24, one of the sector antennas of one of the sector antennas is selected as a diversity switching destination candidate, and the sector antenna control unit 4 as means for performing diversity communication with the mobile station 41 by switching the selected directional antenna.
25, the mobile station 41 has 6
Communication directional antenna selection switch 41 for selecting one communication directional antenna from among the plurality of directional antennas
2, a reception bit error rate measurement device 414 and a reception level measurement device 415 connected to the communication directional antenna selection switch 412 via a hybrid 413, and a reception bit error rate measurement device 414 and a reception level measurement device 415. And a directional antenna selection switch control section 416 for controlling the directional antenna selection switch for communication 312 based on the measurement result of the directional antenna. If the deterioration of the reception quality cannot be compensated for even after the time for switching the new communication directional antenna at the station 42 has elapsed, the six directional antennas are sequentially switched and the reception quality is measured. Means for selecting a directional antenna and switching as a communication directional antenna is included.

The operation of the second embodiment will be described.

The base station 42 operates as a sector antenna controller 42.
5, sector antennas 421, 422, 423, 4
24, one diversity switching destination directional antenna (in FIG. 2, directional antenna 421e,
422f, 423a, and 424a), and diversity communication is performed with the mobile station 41 by switching the communication antenna of the base station 42 between the diversity switching destination directional antennas 421e, 422f, 423a, and 424a.

The mobile station 41 normally fixes a directional antenna for communication in diversity transmission / reception with the base station 42. Here, the directional antenna for communication of the mobile station 41 is set to 4
11b. The signal transmitted from the base station 42 is received by the directional antenna 411b, the bit error rate of the signal is measured by the received signal bit error rate measuring device 414, and the measurement result is sent to the directional antenna selection switch control unit 416. Is output. When the measured bit error rate has deteriorated below a certain threshold value and the deterioration has continued, the mobile station 41 waits for diversity switching of the communication antenna in the base station 42 for a certain time. When the bit error rate continues to deteriorate even after the fixed time has elapsed, the mobile station 4
1 assumes that the diversity switching in the base station 42 has not been successful, and sets the directional antenna for communication of the mobile station 41 to the directional antennas 411a, 411b, 411c,
411d, 411e, and 411f are sequentially switched to switch from the directional antenna 411b to the directional antenna 411a,
Among the 411b, 411c, 411d, 411e, and 411f, the measured reception level of the signal transmitted from the base station 42 is measured by the reception level measuring device 415, and based on the measurement result, the directional antenna selection switch control unit is controlled. 416 switches by controlling the communication directional antenna selection switch 412.

In the second embodiment, when the bit error rate of the signal received by the directional antenna for communication is deteriorated in the mobile station and the deterioration is not improved by the diversity switching in the base station, the reception by the plurality of antennas of the mobile station is performed. By measuring the level, a new directional antenna for communication can be selected from other directional antennas of the mobile station. Further, since the number of switches used in the mobile station is smaller than that in the first embodiment, the mobile station device and its control are simplified, which can contribute to downsizing of the device.

[0033]

Third Embodiment Next, a third embodiment will be described with reference to FIG.
The third embodiment is different from the second embodiment in that the reception quality measuring device is one of the reception level measuring devices 513.
That is, the mobile station 51 according to the third embodiment includes the directional antennas 511a, 511b, 511c, 511d, and 511.
e, a sector antenna 511 composed of six directional antennas 511f, a communication directional antenna selection switch 512, a reception level measuring device 513, and a directional antenna selection switch control unit 514. Base station 5
Reference numeral 2 denotes sector antennas 521, 522, and 52 each including six directional antennas as in the first and second embodiments.
3 and 524, and a sector antenna control unit 525.

The operation of the third embodiment will be described.

The base station 52 operates as a sector antenna controller 52.
5, sector antennas 521, 522, 523,
524, each one of the diversity switching destination directional antennas (the directional antenna 521 in FIG. 3).
e, 522f, 523a, and 524a), and performs diversity transmission and reception with the mobile station 51 by switching the communication antenna of the base station 52 between the diversity switching destination directional antennas 521e, 522f, 523a, and 524a. .

The mobile station 51 normally fixes a directional antenna for communication in diversity transmission / reception with the base station 52. Here, the directional antenna 51 for communication of the mobile station 51 is used.
1b. The signal transmitted from base station 52 is received by directional antenna 511b, the reception quality of this signal is measured by reception level measuring device 513, and the measurement result is output to directional antenna selection switch control unit 514. When the reception level, which is the measured reception quality, deteriorates below a certain threshold and the deterioration continues, the mobile station 51
Waits for diversity switching of the communication antenna in the base station 52 for a certain period of time. When the reception quality continues to deteriorate even after the fixed time has elapsed, the mobile station 51 regards that the diversity switching in the base station 52 has not succeeded, and directs the directional antenna for communication of the mobile station 51 to the directional antenna. Antennas 511a, 511b, 511c, 511d,
511e, 511f are sequentially switched, and each directional antenna 511a, 511 of the signal transmitted from the base station 52 is transmitted.
b, 511c, 511d, 511e, 511f, the reception quality is measured by the reception level measuring device 513, and based on the measurement result, the directional antenna selection switch control unit 51
Reference numeral 4 designates a directional antenna for communication from a directional antenna 511b to a directional antenna 511a, 511c, 511d,
The communication directional antenna selection switch 512 is controlled to switch to any one of 11e and 511f.

The third embodiment is configured as described above. When the quality of the signal received by the directional antenna for communication is deteriorated in the mobile station and the deterioration is not improved by the diversity switching in the base station, the mobile station moves. By measuring the reception quality of a plurality of antennas of the station, a new directional antenna for communication can be selected from other directional antennas of the mobile station. In this embodiment, since only one reception quality measuring device is used in the mobile station, there is an advantage that the apparatus and control of the mobile station can be simplified.

[0038]

Embodiment 4 Next, as Embodiment 4, an antenna switching control method in a mobile station will be described with reference to FIG. FIG.
Shows this antenna switching algorithm.

As shown in FIG. 4, the mobile station determines a new directional antenna for communication after the switching of the directional antenna for communication of the mobile station is started, and ends the switching of the directional antenna for communication. Until the transmission, the transmission to the base station communicating with the mobile station is stopped.

In the communication between the mobile station and the base station, when the communication antenna of the mobile station is switched, the possibility that the communication directional antenna of the mobile station points in the direction of another base station is taken into consideration. By stopping transmission from the mobile station, interference with another base station can be prevented.

[0041]

Embodiment 5 Next, as Embodiment 5, an antenna switching control method in a mobile station and a base station will be described with reference to FIGS. FIG. 5 shows a communication directional antenna switching operation algorithm in the mobile station, and FIG. 6 shows a communication directional antenna switching operation algorithm in the base station.

As shown in the algorithm shown in FIG. 5, the mobile station transmits a signal transmitted from the base station for each directional antenna from the start to the end of the switching of the directional antenna for communication of the mobile station by n. Times (n ≧ MM: the number of sector antennas of the base station) and measures the reception quality. During that time, the base station switches the communication antenna every transmission and reception as shown in the algorithm shown in FIG. If this is performed for all the directional antennas of the mobile station, the quality of the radio communication path composed of a combination of all the antennas of the base station and the omnidirectional antenna of the mobile station can be measured at the mobile station. .

Incidentally, in FIG. 5, sct is the communication directional antenna number of the mobile station, i0 denotes the initial value of the sct a (1, 2, one of N _r). Also,
In FIG. 6, ant indicates the number of the sector antenna to which the directional antenna for communication of the base station belongs, and j0 indicates the initial value (any of 1, 2,..., M) of ant.

[0044]

Embodiment 6 Next, an antenna switching control method in a mobile station will be described with reference to FIG. 7 as Embodiment 6. FIG. 7 shows a communication directional antenna switching operation algorithm in the mobile station.

In switching the directional antenna for communication, the mobile station receives a signal transmitted from the base station for each directional antenna n times (n ≧ M, M: the number of antennas of the base station) and receives the signal. Measure quality. During this time, the base station switches the communication antenna for each transmission as in the fourth embodiment. By performing this for all the directional antennas of the mobile station, it is possible to measure all the qualities of the wireless communication path including the combination of all the antennas of the base station and the omnidirectional antennas of the mobile station. The directional antenna of the mobile station corresponding to the highest quality measurement among these is set as the new directional antenna for communication of the mobile station, and the switching of the directional antenna for communication of the mobile station is completed.
However, if none of the measured qualities satisfies a certain threshold, the measurement of the reception quality in all the directional antennas of the mobile station is performed again. With the above control, the mobile station can appropriately switch the communication directional antenna according to the rotation of the mobile station and the like.

[0046]

With the above arrangement, the present invention provides a mobile station in which the bit error rate of a signal received by a directional antenna for communication is deteriorated and the deterioration is not improved by diversity switching in a base station. By measuring the reception levels of a plurality of antennas of the mobile station, it is possible to select a new communication directional antenna from other directional antennas of the mobile station.

Further, the present invention provides a method for controlling the number of directional antennas of a mobile station and the number of directional antennas of the base station when the communication quality deteriorates due to the rotation of the mobile station in a communication transmission path between the mobile station and the base station. The mobile station has a machine that measures the quality of the number of transmission paths equal to the product of the number of antennas it has, and selects a transmission path suitable for communication between the mobile station and the base station from those transmission paths. , A new directional antenna for communication of the corresponding mobile station can be determined.

Further, according to the present invention, in the communication between the mobile station and the base station, when the directional antenna for communication of the mobile station is switched, the directional antenna for communication of the mobile station can point in the direction of the base station. By stopping transmission from the mobile station in consideration of performance, it is possible to prevent interference with the base station.

[Brief description of the drawings]

FIG. 1 is a configuration diagram schematically illustrating a base station and a mobile station according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram schematically illustrating a base station and a mobile station according to a second embodiment of the present invention.

FIG. 3 is a configuration diagram schematically illustrating a base station and a mobile station according to a third embodiment of the present invention.

FIG. 4 is a diagram illustrating an antenna switching algorithm of a mobile station according to a fourth embodiment of the present invention.

FIG. 5 is a diagram illustrating an antenna switching algorithm of a mobile station according to a fifth embodiment of the present invention.

FIG. 6 is a diagram showing an antenna switching algorithm of a base station according to a fifth embodiment of the present invention.

FIG. 7 is a diagram illustrating an antenna switching algorithm of a mobile station according to a sixth embodiment of the present invention.

FIG. 8 is a configuration diagram schematically showing a conventional base station and a mobile station.

FIG. 9 is a diagram illustrating a conventional mobile station sector antenna.

[Explanation of symbols]

1, 31, 41, 51 mobile station 2, 32, 42, 52 base station 11 mobile station sector antenna 21, 22, 23, 24 base station sector antenna 11a, 11b, 11c, 11d, 11e, 11f mobile station sector antenna Directional antennas 321, 322, 323, 324, 421, 422, and 4 to be configured
23, 424, 521, 522, 523, 524 base station sector antennas 311a, 311b, 311c, 311d, 311e,
311f Directional antenna constituting a mobile station sector antenna 312, 412, 512 Directional antenna selection switch for communication 313, 414 Received bit error rate measuring device 314 Directional antenna select switch for reception level measurement 315, 415, 513 Reception level measurement 316, 416, 514 Directional antenna selection switch control unit 325, 425, 525 Sector antenna control unit 413 Hybrid

Claims (5)

[Claims] And 1. A N _C group (N _C is a natural number) the radio base station having a sector antenna of the M group consisting of directional antennas (M is plural), N _r groups (N _r is a natural number) A wireless terminal having a sector antenna composed of a directional antenna, wherein the wireless base station selects one directional antenna of one of the M sector antennas as a diversity switching destination candidate A wireless communication system comprising means for performing diversity communication with the wireless terminal by switching a selected directional antenna, wherein the wireless terminal is configured to direct one of the N _r directional antennas to a communication directional antenna. a first switch for selecting the sex antenna, said a second switch for selecting one of the directional antennas N _r groups for reception quality measurement, is guided to the second switch, the reception quality of the received signal Monitoring means for measuring, and control means for switching and controlling the first switch based on a measurement result of the monitoring means and for switching and controlling the second switch, wherein the control means is capable of reducing degradation of reception quality. If the deterioration of the reception quality cannot be compensated for even after the predetermined time has elapsed and the radio base station switches the new communication directional antenna, the reception quality measurement result of the N _r directional antennas A wireless communication system comprising means for selecting one directional antenna based on the directional antenna and switching as a directional antenna for communication. M group consisting of directional antennas wherein N _C group (N _C is a natural number) (M is a plural number) and a radio base station having a sector antenna, N _r groups (N _r is a natural number) A radio terminal having a sector antenna composed of a directional antenna, wherein the radio base station switches one directional antenna from among the N _C directional antennas of the M sector antennas to a diversity switching destination. In a wireless communication system including means for selecting a candidate and performing diversity communication with the wireless terminal, the wireless terminal may select one of the Nr directional antennas as a communication directional antenna. A switch, a monitor guided to the first switch, and measuring reception quality of a received signal; and a control unit for switching and controlling the first switch based on a measurement result of the monitor, The control unit is configured to, when the deterioration of the reception quality continues for a predetermined time and the deterioration of the reception quality cannot be compensated for even after a lapse of time for switching the new directional antenna for communication in the radio base station, the _Nr. A wireless communication system comprising means for sequentially switching a base directional antenna, measuring the reception quality thereof, selecting one directional antenna, and switching as a communication directional antenna. 3. The wireless communication according to claim 1, wherein the control means includes means for starting switching of the directional antenna for communication and stopping signal transmission until switching to a new directional antenna for communication. method. 4. The wireless base station includes: means for sequentially switching M sector antennas for each transmission and reception when switching of a communication directional antenna is started due to deterioration of communication quality; The wireless communication system according to claim 3, wherein the control means of the terminal includes means for sequentially switching the N _r directional antennas every n (n ≧ M) times of transmission / reception with the communication antenna of the wireless base station. 5. The wireless base station includes means for sequentially switching M sector antennas for each transmission and reception when switching of the communication directional antenna is started due to deterioration of communication quality, control means of the terminal, after measuring the reception quality of the n times of signals above for one directional antenna radio base station is sent, and means for switching the directional antennas corresponding to the next order, the n _r group If each of the directional antennas has completed the reception of n signals transmitted by the base station and none of the reception qualities of the N _r × n signals satisfy a predetermined threshold value, Means for repeating reception of signals n times by a directional antenna, and directivity receiving the signal with the highest reception quality when the reception quality of any of the N _r × n signals satisfies a predetermined threshold. Antenna And means for switching the Do communication directional antenna, wherein after switching the communication directional antenna has ended, the radio communication method of claim 3 further comprising a means for resuming the transmission of signals.