JP2001204064A - Mobile communication system and mobile communication base station - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily revise each channel frequency and each radiation area about a control channel and a plurality of communication channels managed in the unit of control channels. SOLUTION: In the case of forming the mobile communication system that sets up respective communications between a base station and plural mobile stations 4 through any of communication channels managed in the unit of control channels on the basis of control information sent/received between the base station 1 and the mobile stations 4 via the control channel 2, the channel frequency and the radiation area 6 of the control channel are revised according to an instruction from a channel control station 8. The channel frequency and the radiation area of the communication channel 3 managed in the unit of the control channels can autonomously be revised depending on the revision of the channel frequency and the radiation area of the control channel 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a mobile communication system and a mobile communication base station.

More specifically, the present invention specifies one of a plurality of communication lines based on control information exchanged between a base station and a mobile station via a control line, and specifies the communication line via the communication line. The present invention relates to a mobile communication system that establishes communication between the base station and the mobile station, and a mobile communication base station.

[0003]

2. Description of the Related Art In recent years, with the spread of mobile communication, usage trends within an area fluctuate greatly, and channel arrangements of base stations designed in advance are insufficient in channel resources, or conversely, depending on time zones. There are cases. In order to solve the shortage or surplus of channel resources, it is generally known that the frequency and the radiation area are changed for each single communication line by dynamic channel assignment. For example, in the digital car telephone system defined by the STD-27 series or the mobile satellite communication defined by STD-T49, the radiation area of the communication line (communication line) is distributed in order to disperse the traffic borne by the base station device. Can be changed.

With reference to FIG. 1, a conventionally known dynamic channel assignment process will be described.

A control line 2-1 and a communication line 3-1 are radiated from a base station 1-1 to a radiation area 6-1. The mobile station 4-1 existing in the radiation area 6-1 communicates with the base station 1-1 via the communication line 3-1. The communication line 3-1 is allocated based on control information exchanged between the mobile station 4-1 and the base station 1-1 via the control line 2-1.

In FIG. 1, if there is no available communication line to be allocated to the mobile station 4-2 in the radiation area 6-1, the line control station 8-1 has an empty line to allocate the communication line. Radiation area 6 for base station 1-2
-1 to radiate the wireless line 3-2,
The mobile station 4-2 communicates with the base station 1-2 via the wireless line 3-2. The communication line 3-2 is assigned based on control information exchanged between the mobile station 4-2 and the base station 1-1 via the control line 2-1.

On the other hand, a test station prepared for confirming the establishment of communication between a base station and a mobile station is generally installed for each base station within a radiation area of the base station. Therefore, in order to confirm the establishment of communication between a base station without a test station and a test station, the radiation area of the base station without a test station must be
Means such as moving a test station of another base station were required.

[0008] A conventional test station setting method will be described with reference to FIG.

[0009] The test station is installed in the radiation area of each base station. In the figure, a test station 5-1 communicates with a base station 1-1 via a communication line 3-1. The communication line 3-1 is connected to the test station 5- via the control line 2-1.
1 based on control information exchanged between base station 1-1 and base station 1-1. The remote monitoring station 7-1 is connected to the base station 1-
1 and that the communication between the test station 5-1 is established. Similarly, the test station 5-2 communicates with the base station 1-2 via the communication line 3-4. The communication line 3-4 is allocated based on control information exchanged between the test station 5-2 and the base station 1-2 via the control line 2-2. The remote monitoring station 7-1 monitors that communication between the base station 1-2 and the test station 5-2 is established.

[0010]

However, in order to cope with the suspension of the control line and a plurality of communication lines managed on a control line basis due to a failure of the base station or the like, the control line and the control line are required. It is necessary to change the channel frequency and the radiation area of a plurality of communication lines managed in units. In other words, in order to change the area design itself, it is necessary to change the table relating to the frequency semi-fixedly set in the base station or the upper station, and to execute this, a partial system There was a problem of stopping.

In view of the above, a first object of the present invention is to provide a mobile communication system capable of easily changing each channel frequency and radiation area for a control line and a plurality of communication lines managed on a control line basis. A system and a mobile communication base station are provided.

Further, a second object of the present invention is to make it possible to easily change a temporary area design even when a table relating to a frequency semi-fixedly set in a base station or an upper station exists. Accordingly, it is an object of the present invention to provide a mobile communication system and a mobile communication base station capable of performing communication even in an area where a control line and a communication line are disconnected.

It is a third object of the present invention to provide a mobile communication system and a mobile communication base station which enable a configuration in which one test station is installed for a plurality of base stations.

[0014]

In order to achieve the above object, the present invention according to claim 1 has a plurality of the present inventions based on control information exchanged between a base station and a mobile station via a control line. In a mobile communication system that specifies any one of communication lines and establishes communication between the base station and the mobile station via the communication line, changes a channel frequency and a radiation area of the control line and the communication line. Control means for performing the control.

According to a second aspect of the present invention, in the mobile communication system according to the first aspect, the communication line is one of a plurality of communication lines managed in units of the control line, and the control means includes: It is installed in the base station and changes the channel frequency and the radiation area of the control line and the communication line in response to an instruction from a line control station.

According to a third aspect of the present invention, in the mobile communication system according to the second aspect, the control means sets a channel frequency of the control line and the communication line in response to an instruction from the line control station. And a distribution unit for transmitting an output from the transmission unit to a specific radiation area.

According to a fourth aspect of the present invention, one of a plurality of communication lines is specified based on control information exchanged between a base station and a mobile station via a control line, and the communication line is specified via the communication line. In a mobile communication system that establishes communication between the base station and the mobile station, when the control line to be radiated from the base station and the radiation of the communication line managed in units of the control line are stopped, the control is performed. Line control means for radiating, from a base station other than the base station, another control line and a communication line managed in units of the control line from a line and a radiation area where radiation of the communication line is stopped. Having.

According to a fifth aspect of the present invention, in the mobile communication system according to the fourth aspect, the another base station responds to an instruction from a line control station and the other control line and the another control line. The transmission unit includes a transmission unit that sets a channel frequency of a communication line managed on a line basis, and a distribution unit that sends an output from the transmission unit to a radiation area where the radiation is stopped.

According to a sixth aspect of the present invention, one of a plurality of communication lines is specified based on control information exchanged between a base station and a mobile station via a control line, and the communication line is specified via the communication line. In a mobile communication system that establishes communication between the base station and the mobile station, the mobile communication system has the same function as a mobile station arranged in a specific radiation area among a plurality of radiation areas radiated by a plurality of base stations. And a test station having a function of monitoring the establishment of communication with the base station by the remote monitoring station, and a base station in a radiation area where the test station is not located. Means for radiating a control line and a plurality of communication lines managed in units of the control line to an area where the test station is located, wherein a base station and a test station in a radiation area where the test station is not located Check the establishment of communication between

According to a seventh aspect of the present invention, one of a plurality of communication lines is specified based on control information transmitted and received between a base station and a mobile station via a control line, and A mobile communication base station of a mobile communication system for establishing communication between the base station and the mobile station, the mobile communication base station including means for changing a channel frequency and a radiation area of the control line and the communication line.

According to an eighth aspect of the present invention, in the mobile communication base station according to the seventh aspect, the means, in response to an instruction from a line control station, the channel frequency of the control line and the communication line and the Change the radiation area.

According to a ninth aspect of the present invention, in the mobile communication base station according to the seventh aspect, the means sets a channel frequency of the control line and the communication line in response to an instruction from a line control station. A transmitting unit; and a distribution unit configured to transmit an output from the transmitting unit to a specific radiation area.

According to a tenth aspect of the present invention, one of a plurality of communication lines is specified based on control information exchanged between a base station and a mobile station via a control line, and the communication line is specified via the communication line. A mobile communication base station of a mobile communication system that establishes communication between the base station and the mobile station, a control line to be radiated from another base station, and communication managed in units of the control line. When the radiation of the line is stopped, a means for radiating a control line and a communication line managed in units of the control line to a radiation area of the other base station is provided.

[0024] According to an eleventh aspect of the present invention, in the mobile communication base station according to the tenth aspect, the means is managed in units of the control line and the control line in response to an instruction from a line control station. A transmission unit for setting a channel frequency of a communication line, and a distribution unit for transmitting an output from the transmission unit to a radiation area where the radiation is stopped.

According to a twelfth aspect of the present invention, one of a plurality of communication lines is specified based on control information exchanged between a base station and a mobile station via a control line, and A mobile communication base station of a mobile communication system that establishes communication between the base station and the mobile station, having the same function as a mobile station in a radiation area radiated by another base station,
A test station having a function of monitoring the establishment of communication with the base station by a remote monitoring station is arranged, and if the test station is not located in its own radiation area, its own control line And means for radiating a plurality of communication lines managed in units of the control lines to the area where the test station is located,
Confirm the establishment of communication with the test station.

[0026]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A mobile communication system according to the present invention comprises a plurality of communication systems managed on a control line basis based on control information exchanged between a base station and a mobile station via a control line. In a mobile communication system that establishes communication with each of the base station and the plurality of mobile stations via any of the lines, it is possible to change the channel frequency and the radiation area of the control line by an instruction from the control station, The communication line managed on a control line basis changes the channel frequency and the radiation area autonomously in response to the change of the channel frequency and the radiation area of the control line.

Here, when the control line to be radiated from the base station and the communication line managed on a control line basis become impossible to radiate and the communication within the radiation area becomes impossible, From the base station that was radiating the control line and the communication line managed in control line units for the radiated area other than the radiated area where the communication became impossible other than the station,
By radiating a control line and a communication line managed on a control line basis to the radiation area in which the communication is disabled, communication in the radiation area in which the communication is disabled is enabled.

Also, one test station is installed for a plurality of base stations having different normal radiation areas, and for a base station having no test station in the normal radiation area, the test is performed in the normal radiation area. By radiating the control line and the communication line to the radiation area of the base station having the station, it is possible to confirm the establishment of communication between the test station and the base station.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 3 shows an overall configuration example of a mobile communication system to which the present invention is applied. In the figure, base stations 1-5
Has an apparatus configuration shown in FIG. From this base station 1-5, control line 2-5 and communication line 3
-5 is radiated to the radiation area 6-5.

Mobile station 4-4 located in radiation area 6-5
Communicates with the base station 1-5 via the communication line 3-5. The communication line 3-5 is allocated based on control information exchanged between the mobile station 4-4 and the base station 1-5 via the control line 2-5.

Here, from the base station 1-6 to the radiation area 6-
The description will be made assuming a case where the radiation of the control line 3-6 and the communication line 3-6 with respect to No. 6 stops and communication between the base station 1-6 and the mobile station 4-5 becomes impossible. In this case, the line control station 8-4 controls the base station 1-5 so that the mobile station 4-5 existing in the radiation area 6-6 performs communication via the base station 1-5. It gives an instruction to change the channel frequency and the radiation area of the line.

Then, the base station 1-5 becomes the line control station 8-4.
In accordance with the instruction, the existing control line 2-5 is changed to the control line 2-7 shown in FIG. According to this change, the communication line 3-5 is also changed to the communication line 3-7.

According to this change, the mobile station 4-5 is connected to the base station 1
-5 via the communication line 3-7. The communication line 3-7 is allocated based on control information exchanged between the mobile station 4-5 and the base station 1-5 via the control line 2-7.

A base station 1-7 exists.
7, the control line 2-8 and the communication line 3-8 are radiated to the radiation area 6-5, and when there is no radiation of the control line 2-5 to the area 6-5 from the base station 1-5. Also, the mobile station 4-4 existing in the area 6-5 can communicate with the base station 1-7 via the communication line 3-8. The communication line 3-8 is connected to the control line 2-8.
Is assigned based on control information transmitted and received between the mobile station 4-4 and the base station 1-7 via the.

It is also possible to easily provide a route via a communication satellite between the base stations 1-5, 1-6, 1-7 and the mobile stations 4-4, 4-5.

Next, an example of setting up a test station according to the present embodiment will be described with reference to FIG. In this figure, test station 5
-3 is installed in the radiation area 6-6 of the base station 1-6. Then, the base station 1-6 and the test station are connected by the control line 2-6 via the communication line 3-6 allocated based on control information exchanged between the test station 5-3 and the base station 1-6. Communication between 5-3 is performed. The establishment of this communication is monitored by the remote monitoring station 7-2.

In order to confirm the establishment of communication with the mobile station of the base station 1-5 having no test station 5-3, the line control station 8-4 transmits a control line to the base station 1-5. Give instructions to change channel frequency and radiated area. The base station 1-5 follows the instruction of the line control station 8-4,
8 (see FIG. 3) is changed to the control line 2-7 shown in FIG. In accordance with this change, the communication line 3-8 (see FIG. 3) is also changed to the communication line 3-7.

Thus, the test station 5 is controlled by the control line 2-7.
-3 and a base station 1-5 via a communication line 3-7 allocated based on control information exchanged between the base station 1-5.
5 and the test station 5-3. The establishment of this communication is monitored by the remote monitoring station 7-2.

Next, an example of the configuration of the transmitting / receiving device of the base station 1-5 will be described with reference to FIG.

The transmitting and receiving antennas 9-1 and 9-2 are composed of the antenna duplexers 11-1 and 11-2, the distributor 10, and the coupler 16 respectively.
Are coupled to a multi-channel transmitter 12 capable of processing a plurality of channels and a multi-channel receiver 13 capable of processing a plurality of channels. The distributor 10 distributes a plurality of channels radiating to the radiation area 6-5 (see FIG. 3) and a plurality of channels radiating to the radiation area 6-6 (see FIG. 3).

The transmitting / receiving antennas 9-1 and 9-2 have directivity. That is, the transmitting / receiving antenna 9-1 performs downlink transmission to the radiation area 6-5 and reception of uplink from the mobile station 4-4 existing in the radiation area 6-5. The other transmitting / receiving antenna 9-2 performs downlink transmission to the radiation area 6-6 and reception of uplink from the mobile station 4-5 existing in the radiation area 6-6.

The control unit 14 controls channel allocation for the mobile stations 4-4 and 4-5. For this reason, the multi-channel transmitter 12 and the multi-channel receiver 13
4 and an interface unit 15 to receive control from an upper station (not shown) (circuit control station 8).

An instruction to change the channel frequency and the radiation area of the control line from the line control station 8-4 is sent to the control unit 14.

Next, an example of changing each channel frequency and radiation area will be described below.

The control unit 14 controls the radiation areas 6-5 and 6-6.
And the offset frequency f with respect to the control line area frequencies fb1 and fb2.
c, offset frequencies ft1, ft2,..., ftn for the respective frequencies fc + fb1, fc + fb2 of the n communication lines managed in units of control lines are provided as a channel table (not shown).

The distributor 10 has two band pass filters 17-1 and 17-2. The passbands of the two bandpass filters do not overlap. One band-pass filter 17-1 is connected to the transmitting / receiving antenna 9-1 via the antenna duplexer 11-1, and the other band-pass filter 1
7-2 is connected to the transmission / reception antenna 9-2 via the antenna sharing device 11-2.

The frequency of the control line radiated to the radiation area 6-5 is fc + fb1, and the frequency of the communication line is fc + ft
1 + fb1,..., Fc + ftn + fb1. The control line and all communication lines are within the range fc1 to fc2 within the range that can pass through the bandpass filter 17-1. Here, fc can be changed so as not to interfere with a channel radiated from another base station to area 6-5.

Similarly, the frequency of the control line radiated to the radiation area 6-6 is fc + fb2, and the frequency of the communication line is f
c + ft1 + fb2,... fc + ftn + fb2. The control line and all the communication lines are in the range fc3 to fc4 within the range that can pass through the filter 17-2. Further, fc can be changed so as not to interfere with the channel radiated from another base station to area 6-6.

When changing the radiation destination of the control line and communication line radiated to the radiation area 6-5 to the radiation area 6-6, the line control station 8-4 notifies the control unit 14 of the instruction, and The unit 14 sets the frequency of the control line to fc + fb2 and the frequencies of the n communication lines to fc + ft1 + fb2,.
An instruction to change to ftn + fb2 is sent, and the multi-channel transmitter 12 performs this.

When the radiation area is changed from area 6-5 to area 5-6, a control line for changing the radiation area so as not to interfere with the channel radiated from another base station to radiation area 6-6. And when changing the channel frequency of the communication line, the line control station 8-4 gives an interference to a channel radiated from another base station so that the control line and all communication lines fall within the range of fc3 to fc4. The control unit 14 is notified of the destination frequency fca so as not to be changed. Then
The control unit 14 sets the frequency of the control line to fca + fb2 and the frequencies of the n communication lines to fca + ft1 + fb2,..., Fca for the multi-channel transmitter 12.
+ Ftn + fb2, and the multi-channel transmitter 12 performs this.

[0052]

As described above, according to the present invention, it is possible to easily change each channel frequency and radiation area for a control line and a plurality of communication lines managed on a control line basis. That is, according to the present invention, it is possible to easily change the temporary area design. This enables communication even in an area where the control line and the communication line are cut off. Also, one for a plurality of base stations
A system configuration in which one test station is installed can be realized.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a conventionally known dynamic channel assignment process.

FIG. 2 is an explanatory diagram showing an example of a conventional test station installation.

FIG. 3 is a diagram illustrating a configuration example of a mobile communication system to which the present invention has been applied.

FIG. 4 is a diagram showing an example of installation of test stations in the mobile communication system shown in FIG.

FIG. 5 is a block diagram illustrating a configuration example of a transmission / reception device of a base station to which the present invention has been applied.

[Explanation of symbols]

 Reference Signs List 1 base station 2 control line 3 communication line 4 mobile station 5 test station 6 radiation area 7 remote monitoring station 8 line control station 9 transmission / reception antenna 10 distributor 11 antenna duplexer 12 multi-channel transmitter 13 multi-channel receiver 14 control unit 15 Interface section 16 Coupler 17 Band pass filter

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Mikito Sugino 2-10-1 Toranomon, Minato-ku, Tokyo Inside NTT Mobile Communication Network Corporation (72) Inventor Masahiro Inoue Toranomonji, Minato-ku, Tokyo F-term (reference) within NTT Mobile Communication Network Co., Ltd. 5K042 AA06 CA02 CA13 DA11 EA01 FA11 JA01 NA03 5K067 AA26 AA42 DD34 EE02 EE10 EE12 EE16 EE62

Claims (12)

[Claims] 1. A method for identifying one of a plurality of communication lines based on control information transmitted and received between a base station and a mobile station via a control line, and connecting the base station and the mobile station via the communication line. A mobile communication system for establishing communication with a mobile communication system, comprising: control means for changing a channel frequency and a radiation area of the control line and the communication line. 2. The mobile communication system according to claim 1, wherein said communication line is one of a plurality of communication lines managed in units of said control line, and said control means is installed in said base station. A mobile communication system for changing channel frequencies and the radiation area of the control line and the communication line in response to an instruction from a line control station. 3. The mobile communication system according to claim 2, wherein the control unit sets a channel frequency of the control line and the communication line in response to an instruction from the line control station. A mobile communication system comprising: a distribution unit that transmits an output from a transmission unit to a specific radiation area. 4. A method for identifying one of a plurality of communication lines based on control information transmitted and received between a base station and a mobile station via a control line, and the base station and the mobile station via the communication line. In a mobile communication system for establishing communication between the control line and the communication line to be radiated from the base station and when the radiation of the communication line managed in units of the control line is stopped, the radiation of the control line and the radiation of the communication line For the radiated area where is stopped, from another base station other than the base station, another control line and a line control unit that radiates a communication line managed in units of the control line. Mobile communication system. 5. The mobile communication system according to claim 4, wherein said another base station is managed in units of said another control line and said other control line in response to an instruction from a line control station. A mobile communication system comprising: transmission means for setting a channel frequency of a communication line; and distribution means for transmitting an output from the transmission means to a radiation area where the radiation is stopped. 6. A method for identifying one of a plurality of communication lines based on control information transmitted and received between a base station and a mobile station via a control line, and the base station and the mobile station via the communication line. In a mobile communication system that establishes communication with, having the same function as a mobile station located in a specific radiation area among a plurality of radiation areas radiated by a plurality of base stations,
A test station having a function of monitoring the establishment of communication with the base station by a remote monitoring station; and a control line of the base station for a base station in a radiation area where the test station is not located. And a means for radiating a plurality of communication lines managed in units of the control line to the area where the test station is located, between the base station and the test station in a radiation area where the test station is not located. A mobile communication system characterized by confirming the establishment of communication. 7. A method for identifying one of a plurality of communication lines based on control information transmitted and received between a base station and a mobile station via a control line, and the base station and the mobile station being connected via the communication line. A mobile communication base station of a mobile communication system for establishing communication between the mobile communication base station and a mobile communication base station, comprising: means for changing a channel frequency and a radiation area of the control line and the communication line. 8. The mobile communication base station according to claim 7, wherein said means changes a channel frequency and said radiation area of said control line and said communication line in response to an instruction from a line control station. A mobile communication base station characterized by the following. 9. The mobile communication base station according to claim 7, wherein: the transmitting unit sets channel frequencies of the control line and the communication line in response to an instruction from a line control station; A distributing means for transmitting an output from the means to a specific radiation area. 10. A communication system according to claim 1, wherein one of the plurality of communication lines is specified based on control information transmitted and received between the base station and the mobile station via the control line, and the base station and the mobile station are specified via the communication line. A mobile communication base station of a mobile communication system that establishes communication with a control line to be radiated from another base station, and radiation of a communication line managed in units of the control line is stopped. In this case, the mobile communication base station includes means for radiating a control line and a communication line managed in units of the control line to a radiation area of the another base station. 11. The mobile communication base station according to claim 10, wherein said means, in response to an instruction from a line control station, changes a channel frequency of said control line and a communication line managed in units of said control line. A mobile communication base station comprising: transmitting means for setting; and distributing means for transmitting an output from the transmitting means to a radiation area where the radiation is stopped. 12. A communication system according to claim 1, wherein one of the plurality of communication lines is specified based on control information transmitted and received between the base station and the mobile station via the control line, and the base station and the mobile station are specified via the communication line. A mobile communication base station of a mobile communication system that establishes communication with the base station, has the same functions as a mobile station in a radiation area radiated by another base station, and has a remote monitoring station that communicates with the base station. When a test station having a function for monitoring the establishment of communication is arranged, and the test station is not located in its own radiation area,
Means for radiating a plurality of communication lines managed by the own control line and the control line unit to the service area of the test station, and confirming establishment of communication with the test station. Mobile communication base station.