JPH05206933A - Radio channel allocation system - Google Patents

Abstract

PURPOSE:To reduce the number of the sensing times of a carrier and to improve reliability by giving the notice of the use situation of a radio channel between base stations in an interference area and permitting respective base stations to individually judge whether the radio channel can be used or not. CONSTITUTION:Respective interference stations BS1-BS6 give the notice of information of the radio channel which is used in the own station at a prescribed period or whenever a change occurs to the base station BS0 by links r1-r6 by the radio channels from the interference stations BS1-BS8 to the base station BS0. The base station BS0 generates a channel use situation table for judging the channel which can be used and the channel which cannot be used in the own station by the radio channel which is used in the own station and channel use information from the interference stations. Then, the allocation processing of the radio channel is executed based on the table. Thus, it becomes unnecessary to sense the carrier whenever the channel allocation processing is executed, and the processing is made efficient.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio channel allocation system in the field of radio communication such as a mobile communication system, and particularly when carrier sense is not performed or when carrier sense is performed, the number of times is minimized. The present invention relates to a wireless channel allocation method capable of increasing the reliability of channel allocation.

[0002] In a mobile radio communication system including a plurality of radio base stations and mobile stations, each mobile station can communicate via a base station by allocating a radio channel used for communication. You can do it.

As a radio channel allocation method in the field of wireless communication as described above, there is little need for carrier sense for investigating the use state of the radio channel, and by collecting information on the use state of the radio channel, the base station It is desired that the station be able to determine the available radio channels.

[0004]

2. Description of the Related Art Conventionally, each base station in a mobile radio communication system or the like carries out carrier sense for measuring the presence or absence of a received signal and the received signal strength in order to check the usage status of a wireless channel in a zone around the own station. Needed and needed the resources and labor for that.

Carrier sense in this case is for measuring the presence or absence of a received signal and the strength of the received signal.
There is a problem in that it is unavoidable to be affected by noise and fading contained in the received signal, and it has an uncertain factor.

Further, in the conventional method, the allocation of radio channels is performed centrally in the circuit control station. Therefore, there is a problem that the load on the circuit control station increases as the number of mobile stations increases.

The present invention is intended to solve such a problem of the prior art, and has a means for a radio base station to notify each other of the radio channels used by the radio base station. By collecting information on the wireless channel usage status of each wireless base station in the interference area to determine the wireless channel that can be used by the local station, the number of times of carrier sensing is reduced and the channel allocation It is an object of the present invention to provide a radio channel allocation method capable of increasing reliability.

[0008]

According to the radio channel allocation method of the present invention, in a radio communication system composed of a plurality of radio base stations and mobile stations, each radio base station is another radio base station within an interference area. Has a communication link with a specific wireless channel, and each wireless base station uses this communication link to exchange information about the wireless channel being used by the wireless base station. In the interference area including the station, a usable wireless channel is recognized, and the wireless channel is assigned to the own station based on the recognized wireless channel.

Further, according to the radio channel allocation method of the present invention, in a radio communication system composed of a plurality of radio base stations and mobile stations, each radio base station is locally connected to another radio base station within the interference area. Each wireless base station exchanges information about the wireless channel being used by the wireless base station by using a conventional wired network, and each wireless base station uses this communication link to interfere with each other. The wireless channels available in the area are recognized, and the wireless channels are allocated in the own station based on the recognized wireless channels.

Further, according to the radio channel allocation method of the present invention, in a radio communication system composed of a plurality of radio base stations, mobile stations and circuit control stations, each radio base station is connected to another radio base station within the interference area. By exchanging information about the radio channel being used by itself through the circuit control station, each radio base station recognizes the radio channel that can be used in the interference area including its own station. Based on the above, the wireless channel is allocated in the local station.

Further, according to the wireless channel assignment method of the present invention, in a wireless communication system composed of a plurality of wireless base stations and mobile stations, each wireless base station wirelessly broadcasts information on the wireless channel being used by itself. However, it determines that a specific wireless base station is within the interference area based on the reception level by receiving the broadcast from another wireless base station, and the wireless radio being used by the other wireless base station determined to be within the interference area. Based on the channel information, each radio base station recognizes a radio channel that can be used in an interference area including its own station, and based on this, assigns a radio channel in its own station.

In these cases, the radio channel allocation method of the present invention recognizes that each radio base station is in use in the interference area including its own station, and determines that the radio channel determined to be usable is the carrier. Radio channels are allocated based on the measurement result of the channel usage status obtained by performing the sensing.

[0013]

In the present invention, the base stations in the interference area notify each other of the use status of the radio channel, and each radio base station independently determines whether or not the radio channel can be used. Therefore, it is not necessary to perform carrier sense every time the channel allocation process is performed.

Also, when performing carrier sense, since the radio channel in the idle state is known in advance, the carrier sense only needs to be confirmed in the idle state. Therefore, the number of times is about 1 or 2 at the most. Will be

Further, since the radio channel to be assigned can be determined by the base station, the load on the circuit control station for performing the centralized control type channel assignment as in the prior art is eliminated.

[0016]

FIG. 1 shows an outline of an embodiment of the present invention, in which BS0 is one base station and BS1 to BS6 are base stations BS0 which are interfering stations and adjacent bases. It is a station. Each base station has its own area as a center and the zones within the circle shown as a service area, but each zone forms an interference zone by overlapping each other as shown in the figure. And

In this embodiment, the interference station BSi (i = 1 to 1)
6) a radio channel link r from the base station BS0
By i (i = 1 to 6), each interfering station BSi notifies the base station BS0 of the information on the wireless channel used by itself, every time a fixed period or a change occurs.

The base station BS0 determines the channel use status in order to determine the usable channel and the unusable channel based on the wireless channel used by itself and the channel use information from the interfering station. Create a table.

FIG. 2 shows a channel use status table in the interference area, which is a table BS0 to BS.
Reference numeral 6 denotes the usage status (State) of the wireless channel in each of the base stations BS0 to BS6, and the table BS0 represents the usage status of the wireless channel in the interference area centered on the base station BS0, where 0 is not present. Indicates use, 1
Indicates that it is in use.

Since the unused radio channel in the table BS0 indicates that the base station BS0 can use the channel, the base station BS0 efficiently performs the radio channel allocation process based on this table. be able to.

FIG. 3 shows an outline of another embodiment of the present invention, in which the same parts as those in FIG. Is a wired network link to.

Each of the interfering stations BS1 to BS6 uses the information of the radio channel used by itself as a link li (i).
= 1 to 6), the base station BS0 is notified whenever a fixed period or a change occurs. The procedure after this is the same as in the case of the embodiment shown in FIG. 1, and in the base station BS0, it is shown in FIG. 2, which shows the usage state of the radio channel in the interference region centered on the base station BS0. By creating a table corresponding to the channel usage status table BS0 , the wireless channel allocation process can be performed efficiently based on this table.

FIG. 4 shows still another embodiment of the present invention, in which the same components as those in FIG. 1 are designated by the same numbers, 11 is a line control station, and c0 to c6 are base stations BS0.
The links from BS6 to the line control station 11 are shown.

By the link ci (i = 0 to 6) from the base station BSi (i = 0 to 6) to the line control station 11, each interfering station keeps the information of the radio channel used by itself constant. The circuit control station shall be notified whenever a cycle or change occurs.

The line control station 11 creates a table as shown in FIG. 2 showing the usage status of the radio channel for each base station. The base station that needs to allocate the channel inquires of the channel control station about the radio channel usage status of the base station within the interference area of its own station, and creates a table corresponding to the channel usage status table BS0 shown in FIG. By doing so, wireless channel allocation processing can be efficiently performed based on this table.

FIG. 5 shows an outline of still another embodiment of the present invention, in which BS0 represents one base station,
BS1 to BS10 indicate other base stations, but a fixed interference area is not defined in advance for each base station.

Each base station broadcasts the information of the radio channel used in itself by a radio signal. The transmission power at this time is the maximum value of the transmission power when communicating with the mobile station. Then, each base station receives as many broadcasts as possible, and determines from the received signal strength whether or not they interfere with each other.

In the example shown in FIG. 5, the base stations BS1 to BS10 can receive the base station BS0, but it is the base stations BS1 to BS10 that cause interference exceeding the interference criterion.
It is BS6. Therefore, radio channel allocation is performed based on the channel information of all the base stations determined to interfere with each other and the channel usage status of the local station by the same procedure as in the case of the embodiment shown in FIG. You can

In the embodiment of FIG. 5, the interfering station is the base station BS1.
~ 6 BS6 stations, which will edit a channel usage table similar to that shown in Figure 2 for these, but with more or less interfering stations There is also. According to the embodiment of FIG. 5, it is not necessary to redefine the interfering station when the number of base stations is increased or the structure of buildings between base stations is changed, and each base station adapts to the change of environment. Can be dealt with.

FIG. 6 shows a channel use status table and a result of carrier sense in a specific embodiment of the present invention, in which the channel use in the interference region centered on the own station in the base station BS0. The situation table BS0 is shown, and it is assumed that such a table has already been prepared by the method shown in each of the above embodiments.

The base station BS0 performs carrier sense for the channels available on the table BS0 , confirms that there is no interference or is below the interference standard, and then allocates the channels to be used.

In FIG. 6, 2 in the upper row of the table BS0 .
The contents of the row show the channel usage in the interference region similar to that shown in FIG. The third level is the measurement result of interference (Intrfr) due to carrier sense.
X indicates interference, and O indicates no interference.

In the exemplary embodiment, the first available channel Ch. Carrier sense was first performed on # 3. For example, channel Ch. # Or mobile station utilizing a 3 entering the interference region, table B
After editing S0 , the channel Ch. Since # 3 is assigned, there is an interference signal above the reference value in this channel, so this channel cannot be assigned. Therefore, the following Ch. As a result of performing carrier sense on # 8, there is no interference, so this channel is determined as assignable.

As another method, carrier sense is applied to all available channels, the interference amount is obtained for all the channels, and the channels to be assigned are determined based on various channel assignment algorithms. You can also

[0035]

As described above, according to the present invention, the field of radio communication that requires radio channel allocation processing, such as a mobile radio system including a plurality of radio base stations and mobile stations. In the above, each base station does not need to perform carrier sense for a large number of channels each time channel allocation is performed, and even if carrier sense is performed, the number of times is very small, and the purpose of carrier sense is By increasing the reliability of channel assignment, it is not necessary to assign a wireless channel by carrier sense as in the conventional technique.

Further, in the present invention, since each base station autonomously grasps and manages the channel use information, it is possible to disperse the functions mainly performed by the line control station in the prior art. Therefore, it becomes possible to flexibly cope with the change and expansion of the form of the communication system.

[Brief description of drawings]

FIG. 1 is a diagram showing an outline of an embodiment of the present invention.

FIG. 2 is a diagram showing a channel usage status table in an interference area.

FIG. 3 is a diagram showing an outline of another embodiment of the present invention.

FIG. 4 is a diagram showing an outline of still another embodiment of the present invention.

FIG. 5 is a diagram showing an outline of still another embodiment of the present invention.

FIG. 6 is a diagram showing a channel usage status table and carrier sense results in a specific example of the present invention.

[Explanation of symbols]

 BS0 to BS10 radio base stations r1 to r6, l1 to l6, c0 to c6 link 11 circuit control station

Claims (5)

[Claims] 1. In a wireless communication system composed of a plurality of wireless base stations and mobile stations, each wireless base station has a communication link through a specific wireless channel with other wireless base stations within the interference area. Then, by exchanging information about the radio channel being used by each of the radio base stations using the communication link, each radio base station determines the radio channel that can be used in the interference area including the own station. A radio channel allocation method characterized by recognizing and allocating a radio channel in the local station based on the recognition. 2. In a wireless communication system composed of a plurality of wireless base stations and mobile stations, each wireless base station establishes a local wired network communication link with other wireless base stations within the interference area. Radio channels that the radio base stations can use within the interference area including their own stations by exchanging information about the radio channels being used by the respective radio base stations using the communication link. The wireless channel allocation method is characterized in that the wireless channel is allocated in the local station based on the recognition. 3. In a wireless communication system composed of a plurality of wireless base stations, mobile stations and circuit control stations, each wireless base station establishes the circuit control station with other wireless base stations in an interference area. By exchanging information about the radio channel being used by the own station via each, each radio base station recognizes the available radio channel in the interference area including the own station, and based on this, the radio channel at the own station A wireless channel assignment method characterized by performing the assignment of. 4. In a wireless communication system composed of a plurality of wireless base stations and mobile stations, each wireless base station wirelessly broadcasts information on a wireless channel being used by itself, and is transmitted from other wireless base stations. Is received, it is determined from the reception level that a specific wireless base station is within the interference area, and from the information of the wireless channels in use in other wireless base stations that are determined to be within the interference area, A radio channel allocation method characterized in that a base station recognizes a radio channel that can be used in an interference area including the self station and allocates a radio channel in the self station based on this. 5. The radio channel allocation method according to claim 1, wherein each radio base station recognizes that the radio base station is in use within an interference area including its own station,
A radio channel allocation method, characterized in that radio channels are allocated based on a measurement result of a channel usage condition obtained by performing carrier sense on the radio channel determined to be usable.