JP3851202B2 - Wireless communication apparatus and wireless communication method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a base station radio communication apparatus (base station apparatus) applicable to a broadband radio access system, and in particular, the base station side transmits and receives data to and from a plurality of mobile stations using a plurality of basic channels. The present invention relates to a wireless communication apparatus and a wireless communication method applicable to a communication system.
[0002]
[Prior art]
Hereinafter, a conventional wireless communication apparatus will be described. FIG. 8 is a diagram showing a basic configuration of a conventional wireless communication apparatus, 101 is a physical layer (PHY) unit, Is medium Is a body access control (MAC) unit, 103 is a transmission / reception buffer (EC) unit, and 104 is a radio resource management unit.
[0003]
Here, the operation of the conventional wireless communication apparatus will be described. The PHY unit 101 converts upper layer control information and user information into a format called a burst. At this time, the converted information is transmitted and received between the base station and the mobile station. For example, when an orthogonal frequency division multiplexing (OFDM) modulation scheme is used, an appropriate transmission mode is selected to provide appropriate communication quality according to the propagation environment such as the distance of the mobile station to the base station and interference conditions. The
[0004]
The MAC unit 102 determines a station that performs communication, a transmission amount, and the like based on the buffer states of the base station and the mobile station, and controls the PHY unit 101. For example, when a time division multiplexing method in which the base station performs centralized control is used as the MAC protocol, the MAC unit 102 of the base station uses a predetermined allocation request amount or a data amount of a transmission buffer addressed to each terminal. Further, based on the allocation request amount calculated from the data amount of the transmission buffer of each terminal notified from each terminal, the usage method of the channel in the time axis direction is determined, and the transmission / reception of information is managed. On the other hand, the MAC unit 102 of the mobile station transmits and receives information using the time permitted by the base station.
[0005]
The EC unit 103 accumulates data until transmission / reception is completed. For example, when data management is performed for each user connection, the transmission buffer of the EC unit 103 accumulates data for each user connection, reports the amount of data accumulated to the MAC unit 102, and follows transmission control. Send data. On the other hand, the reception buffer confirms the received data, and requests retransmission if there is a transmission error.
[0006]
Radio resources management Unit 104 sets the transmission mode in the basic channel for MAC unit 102.
[0007]
Next, transmission / reception management by the MAC unit 102 will be described. FIG. 9 is a diagram illustrating a frame configuration described in, for example, the standard “ARIB STD-T70” of the Japan Radio Industry Association. In FIG. 9, the horizontal axis represents time, and the MAC unit 102 controls the line type, communication station, transmission amount, and the like for each time unit called a frame. Here, BCH (Broadcast CHannel) represents a line for transmitting broadcast information from the base station to each mobile station, and FCH (Frame CHannel) represents a line for broadcasting the frame structure, and band allocation information Shows the frame structure. The MAC scheduler on the mobile station side operates according to the broadcasted frame structure. DownLink is a period in which a downlink for transmitting user connection data from the base station to each mobile station is arranged. Further, UpLink is a period in which an uplink for transmitting user connection data from each mobile station to the base station is arranged. An RCH (Random CHannel) is a random access line for transmitting control information from the mobile station to the base station when no uplink is assigned to the mobile station. An ACH (Access Feedback CHannel) is a line for transmitting a response to the RCH in the previous MAC frame.
[0008]
FIG. 10 is a diagram illustrating a plurality of basic channels managed by the base station. In FIG. 10, the horizontal axis indicates frequency, each trapezoid indicates a basic channel, and the shaded portion indicates a plurality of basic channels managed by a base station. In this example, the base station includes three basic channels. I use it. Usually, a wireless communication device is designed for transmission within a frequency band called a basic channel. For example, “Technical conditions for a broadband mobile access system using a quasi-millimeter wave band frequency” by the Information and Communication Council As can be seen from the above report, a method for realizing wideband transmission by using a band obtained by bundling a plurality of basic channels has been studied.
[0009]
[Problems to be solved by the invention]
However, in the above-described conventional wireless communication device, for example, in a communication system in which a base station uses a plurality of basic channels in order to increase the amount of transmission data, when a plurality of mobile stations are connected to the base station, each basic channel The propagation status of each mobile station varies. That is, the conventional wireless communication apparatus has a problem that it does not consider the difference in propagation status among a plurality of basic channels.
[0010]
In addition, when the mobile station moves at high speed or when the surrounding situation of the mobile station fluctuates, the propagation situation of each basic channel assigned to each mobile station varies individually. Therefore, for example, when the base station uses a plurality of basic channels unconditionally as described above, as a whole system than when a basic channel with good propagation status is selected for each mobile station, There was a problem that the amount of transmitted data was reduced.
[0011]
In addition, when all the basic channels are received as described above when there is a small amount of communication data, there is a problem that power consumption increases as compared with the case where a specific basic channel is used.
[0012]
The present invention has been made in view of the above. For example, even when a plurality of basic channels are used, a wireless communication device capable of improving transmission efficiency of the entire system and reducing power consumption, and An object is to obtain a wireless communication method.
[0013]
[Means for Solving the Problems]
In order to solve the above-described problems and achieve the object, the wireless communication apparatus according to the present invention is a base station-side wireless communication apparatus capable of communicating with a plurality of mobile stations using a plurality of basic channels. A mapping control means that operates and dynamically changes, for example, a basic channel used by a user connection belonging to each mobile station according to the propagation status of each mobile station (a radio resource management unit 4, a mapping in the embodiment described later) Equivalent to unit 5).
[0014]
The wireless communication apparatus according to the next invention further includes medium access control (MAC) means (corresponding to the MAC unit 2) as many as the number of basic channels, and transmits in units of channels based on a predetermined allocation request amount. It is characterized by managing the amount of data.
[0015]
In the radio communication apparatus according to the next invention, the mapping control means sets / updates the basic channel and the number of basic channels that can be transmitted / received by negotiation with each mobile station, and based on the determination result, the mapping control means Alternatively, radio resource management means (corresponding to the radio resource management unit 4) that sets a correspondence relationship with a plurality of medium access control means in a predetermined management table, and the user connection based on the management table to the medium access control means Mapping processing means for mapping (corresponding to the mapping unit 5).
[0016]
In the wireless communication apparatus according to the next invention, the management table manages the predetermined allocation request amount, the address where data is stored, and the value used for transmission / reception scheduling processing corresponding to each user connection. Management table, a second management table for managing the transmission mode used in the basic channel corresponding to each user connection or each user, and the first management table and the second management unit for each medium access control means. And a third management table in which the parameters of the management table are associated with each other.
[0017]
In the radio communication apparatus according to the next invention, the mapping control means selects a basic channel corresponding to a user connection in order of favorable propagation environment, the selected channel is the basic channel capable of transmission and reception, and the selected basic channel. When the usage rate does not exceed a predetermined value, the use of the selected basic channel is determined, and when the determined number of basic channels satisfies the number of basic channels, the user connection and the medium access control means are It is characterized by mapping.
[0018]
In the wireless communication method according to the next invention, a base station that can communicate with a plurality of mobile stations using a plurality of basic channels selects a basic channel corresponding to a user connection in the order of favorable propagation environment. When the channel selection step and the selected channel are basic channels that can be transmitted and received negotiated with the mobile station, and the usage rate of the selected basic channel does not exceed a predetermined value, the use of the selected basic channel is determined. When the basic channel determination step and the determined number of basic channels satisfy the number of basic channels negotiated with the mobile station, predetermined medium access control (MAC) corresponding to the user connection and the determined basic channel And a mapping processing step for mapping the portion.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a wireless communication apparatus and a wireless communication method according to the present invention will be described below in detail with reference to the drawings. The present invention is not limited to the embodiments.
[0020]
Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration of a wireless communication apparatus (base station apparatus) according to the present invention. In FIG. 1, 1 is a physical layer (PHY) unit corresponding to transmission / reception using a plurality of basic channels, 2 is a medium access control (MAC) unit corresponding to a plurality of basic channels, and 3 is for each user connection. , 4 is a radio resource management unit, and 5 is a mapping unit.
[0021]
Here, the basic operation of the wireless communication apparatus of the present embodiment configured as described above will be described. The PHY unit 1 converts upper layer control information and user information into a format called a burst. Therefore, the converted information is transmitted and received between the base station and the mobile station. The PHY unit 1 of the present embodiment may have a configuration including a plurality of PHY units corresponding to conventional basic channels, or a configuration capable of processing a plurality of basic channels collectively.
[0022]
The MAC unit 2 determines a communication target station, a transmission amount, and the like based on the buffer states of the base station and the mobile station, and controls the PHY unit 1. Here, as many MAC units as the number of basic channels are provided. As the MAC protocol, for example, when a time division multiplexing system in which the base station performs centralized control is used, the MAC unit 2 of the base station assigns a predetermined amount of allocation or a data amount of a transmission buffer addressed to each terminal and each terminal. Based on the allocation request amount calculated from the data amount of the transmission buffer notified from, the usage method of the channel in the time axis direction is determined, and the transmission and reception of information is managed. On the other hand, the MAC unit 2 of the mobile station transmits and receives information using the time allowed for the base station.
[0023]
The EC unit 3 accumulates data until transmission / reception is completed. For example, when managing data for each user connection, the transmission buffer of the EC unit 3 accumulates data for each user connection, reports the amount of data accumulated to the MAC unit 2, and the MAC unit 2 Data is transmitted according to the transmission control. On the other hand, the reception buffer confirms the received data and requests retransmission if there is a transmission error.
[0024]
The radio resource management unit 4 determines the basic channel and the number of basic channels that can be transmitted and received through negotiation with each mobile station. For example, the mobile station always reports to the base station the individual transmission mode of the basic channel assumed to be used, while the base station obtains information on the propagation environment between each mobile station From the possible basic channels, basic channels having good propagation environments are selected by the number of basic channels. Further, the mapping unit 5 is controlled to make the EC unit 3 correspond to the selected basic channel, and the transmission mode in each basic channel is set for the MAC unit 2.
[0025]
The mapping unit 5 notifies the corresponding MAC unit 2 of information related to each user connection of the EC unit 3 in accordance with control from the radio resource management unit 4. Examples of information shown to the MAC unit 2 may include, for example, an allocation request amount, an address of stored data, a transmission mode, a required communication quality, and the like regarding each user connection.
[0026]
Next, characteristic operations of the wireless communication apparatus according to the present embodiment will be described in detail with reference to the drawings. FIG. 2 is a diagram illustrating a frame configuration of a plurality of basic channels managed by a plurality of MAC units. In FIG. 2, the horizontal axis represents time, and communication is performed using, for example, three basic channels (f1, f2, and f3). BCH (Broadcast CHannel) represents a line for transmitting broadcast information from the base station to each mobile station. FCH (Frame CHannel) represents a line for broadcasting the frame structure, and indicates the frame structure by band allocation information. Therefore, the MAC unit on the mobile station side operates according to the broadcasted frame structure. DownLink represents a period in which a downlink for transmitting user connection data from the base station to each mobile station is arranged. Further, UpLink represents a period in which an uplink for transmitting user connection data from each mobile station to the base station is arranged. Further, RCH (Random CHannel) represents a random access line for transmitting control information from the mobile station to the base station when no uplink is assigned to the mobile station. An ACH (Access Feedback CHannel) is a line for transmitting a response to the RCH of the previous MAC frame.
[0027]
Note that transmission / reception in each basic channel is managed by the corresponding MAC unit 2, and the MAC unit 2 controls a communication target station, a transmission amount, and the like for each time unit called a frame.
[0028]
FIG. 3 is a diagram for explaining the plurality of basic channels. FIG. 3 shows an example where the horizontal axis represents frequency and there are six basic channels. In FIG. 3, 6 is a basic channel defined by a specific center frequency and frequency bandwidth, 7 (blacked portion) is three basic channels (f1, f2, f3) used by the base station, Reference numeral 8 denotes a line representing the state of the propagation environment regarding each mobile station. Here, the larger the value of the line 8, the better the propagation environment, and it is expressed that the state of the propagation environment is different for each mobile station.
[0029]
FIG. 4 is a diagram illustrating user connection mapping processing by the mapping unit 5. In FIG. 4, the horizontal axis is the frequency, and the base station uses a plurality of basic channels (f1, f2, f3). The vertical axis is time, and mapping processing is performed in units of periods such as frames. MT1, MT2 and MT3 indicate user connections belonging to each mobile station. In a section where user connections belonging to a plurality of mobile stations are entered, communication using a plurality of user connections is performed in a time division manner. Each user connection is mapped to a basic channel based on the propagation status of each mobile station within the range of a plurality of basic channels that can be used by the base station (basic channels that can be transmitted and received and the number of basic channels).
[0030]
FIG. 5 is a diagram illustrating an example of a table managed by the mapping unit 5. In the management table related to the user connection, the allocation request amount represents an allocation request amount related to the data amount stored in the EC unit 3 or an allocation request amount set when the user connection is established. The data address represents a memory address where data is stored, and is related to a user connection in the downlink direction in the base station. The other parameters represent values used by the MAC unit 2 for transmission / reception scheduling processing such as required communication quality of the corresponding user connection. In FIG. 5, for convenience of explanation, the downlink direction or the uplink direction is not distinguished, but the uplink direction and the downlink direction are actually distinguished.
[0031]
Further, in the transmission mode management table of FIG. 5, the transmission mode used in the basic channel corresponding to each user connection is managed. Here, the transmission mode means a combination of a modulation method and an error correction method, and an appropriate transmission mode is selected depending on the propagation environment and the required communication quality. However, although FIG. 5 shows an example in which management is performed for each user connection for convenience of explanation, the present invention is not limited to this and may be managed for each mobile station. As for the transmission mode, for example, the base station may select an appropriate transmission mode, or the mobile station may request an appropriate transmission mode.
[0032]
Further, the management table for the MAC unit 2 managed by the mapping unit 5 indicates information related to the user connection handled by the MAC unit 2. For example, two user connections b and d are associated with MAC # n (n is an integer) in the MAC unit 2, and each MAC # n uses the information related to the two user connections to correspond to the basic channel. Manage the time of sending and receiving. When the user connection is mapped to a plurality of MAC units 2, the value of the allocation request amount is a value distributed to the plurality of MAC units 2.
[0033]
FIG. 6 is a diagram illustrating an example of a message sequence related to negotiation between a basic channel that can be transmitted and received and the number of basic channels. The basic channel that can be transmitted and received is a basic channel that the mobile station can simultaneously transmit and receive, and the radio resource management unit 4 negotiates with the mobile station (steps S1 and S2). For example, the negotiation is performed when there is a mobile station that cannot simultaneously transmit / receive using a plurality of basic channels that can be used by the base station, or when transmission / reception is performed using a specific basic channel when the amount of data to be communicated is small. The number of basic channels is the number of basic channels necessary for communication that can be specified according to the amount of communication data, and the radio resource management unit 4 updates with the mobile station as needed (steps S3 and S4). . For example, the base station selects as many basic channels as the number of basic channels from the basic channels that can be simultaneously transmitted and received by the mobile station.
[0034]
FIG. 7 is a flowchart illustrating mapping control performed by the radio resource management unit 4. First, the radio resource management unit 4 uses the transmission mode management table described with reference to FIG. 5 to select a basic channel corresponding to each user connection in the order of good propagation environment (step S11).
[0035]
Next, it is determined whether or not the selected channel is the basic channel capable of transmission / reception (see FIG. 6) (step S12). For example, when the selected channel is other than the basic channel capable of transmission / reception (No in step S12), the basic channel is selected again. On the other hand, when the selected channel is a basic channel that can be transmitted and received (step S12, Yes), the selected basic channel of It is determined whether the usage rate is smaller than a predetermined threshold (step S13). At this time, if it is larger (step S13, No), the basic channel is selected again, and if it is smaller (step S13, Yes), use of the selected basic channel is determined (step S14).
[0036]
Next, the determined number of basic channels is compared with the number of basic channels (see FIG. 6) (step S15). If the number of basic channels is less than the required number (step S15, No), the above process is repeated. If it is satisfied (Yes in step S15), the user connection is associated with the MAC unit 2, and the result is set in the mapping unit 5 (see step S16, FIG. 5).
[0037]
Thus, in the present embodiment, the base station-side radio communication device that can communicate with a plurality of mobile stations using a plurality of basic channels uses the basic channel used by the user connection belonging to each mobile station, The configuration is such that it dynamically changes according to the propagation status of each mobile station. As a result, each user connection can be mapped to a basic channel according to the propagation environment, that is, an appropriate basic channel can be selected for each user connection, so the base station uses multiple basic channels unconditionally as before. The transmission speed of the entire system can be improved as compared with the case of doing so.
[0038]
In the present embodiment, the MAC units 2 corresponding to the number of basic channels are provided, and the transmission data amount is managed in units of basic channels based on a predetermined allocation request amount. Thereby, since the transmission / reception processing of each basic channel can be executed in parallel, high-speed communication using more basic channels can be realized.
[0039]
Further, in the present embodiment, the radio resource management unit 4 sets / updates the basic channel and the number of basic channels that can be transmitted / received by negotiation with each mobile station, and based on the determination result, the radio resource management unit 4 Alternatively, the correspondence relationship with the plurality of MAC units 2 is set in a predetermined management table, and the mapping unit 5 maps the user connection to the MAC unit 2 based on the management table. Thereby, for example, even a mobile station that does not have the ability to simultaneously transmit and receive a plurality of basic channels can perform communication. In addition, even when the amount of data to be communicated is small, communication can be performed using a specific basic channel, so that the base station consumes more than when using a plurality of basic channels unconditionally. Electric power can be reduced. In addition, since unnecessary use of basic channels can be avoided, the power consumption can be reduced compared to the conventional case where a base station uses multiple basic channels unconditionally, and more efficient use of frequencies is possible. it can.
[0040]
In the present embodiment, a management table for managing a predetermined allocation request amount corresponding to each user connection, an address where data is stored, a value used for transmission / reception scheduling processing, and each user connection or each A configuration has a management table for managing a transmission mode used in a basic channel corresponding to a user, and a management table in which each parameter is associated with each MAC unit 2 unit. Thereby, the mapping process between the user connection and the MAC unit 2 can be reliably executed.
[0041]
Further, in the present embodiment, the radio resource management unit 4 selects the basic channel corresponding to the user connection in the order of good propagation environment, the selected channel is a transmittable / receiveable basic channel, and the usage rate of the selected basic channel If the selected basic channel does not exceed the predetermined value, the use of the selected basic channel is determined. If the determined number of basic channels satisfies the basic channel number, the user connection and the MAC unit 2 are mapped. As a result, each user connection can be mapped in order from the basic channel with good propagation environment, that is, an appropriate basic channel can be selected for each user connection, so the base station uses multiple basic channels unconditionally as before. The transmission speed of the entire system can be improved as compared with the case of doing so.
[0042]
【The invention's effect】
As described above, according to the present invention, the base station-side radio communication apparatus capable of communicating with a plurality of mobile stations using a plurality of basic channels sets the basic channel used by the user connection belonging to each mobile station. The configuration is such that it dynamically changes according to the propagation status of each mobile station. As a result, each user connection can be mapped to a basic channel according to the propagation environment, that is, an appropriate basic channel can be selected for each user connection, so the base station uses multiple basic channels unconditionally as before. As compared with the case where it does, there exists an effect that the radio | wireless communication apparatus which can improve the transmission rate as the whole system can be obtained.
[0043]
According to the next invention, the MAC means for the number of basic channels is provided, and the transmission data amount is managed for each channel based on a predetermined allocation request amount. Thereby, since transmission / reception processing of each basic channel can be executed in parallel, there is an effect that it is possible to obtain a wireless communication apparatus capable of realizing high-speed communication using more basic channels.
[0044]
According to the next invention, the radio resource management means sets / updates the basic channel and the number of basic channels that can be transmitted / received by negotiation with each mobile station, and based on the determination result, the user connection and the single or plural The correspondence with the MAC unit is set in a predetermined management table, and the mapping processing unit maps the user connection to the MAC unit based on the management table. Thereby, for example, there is an effect that it is possible to obtain a wireless communication apparatus capable of performing communication even if the mobile station does not have the ability to simultaneously transmit and receive a plurality of basic channels. In addition, even when the amount of data to be communicated is small, communication can be performed using a specific basic channel, so that the base station consumes more than when using a plurality of basic channels unconditionally. There is an effect that a wireless communication device capable of reducing power can be obtained. Further, since unnecessary use of the basic channel can be avoided, there is an effect that a wireless communication apparatus that can effectively use the frequency can be obtained.
[0045]
According to the next invention, a first management table for managing a predetermined allocation request amount corresponding to each user connection, an address where data is stored, a value used for transmission / reception scheduling processing, and each user connection or The second management table for managing the transmission mode used in the basic channel corresponding to each user, and the third management table in which each parameter is associated with each MAC means unit. Thereby, there is an effect that it is possible to obtain a wireless communication apparatus capable of reliably executing the mapping process between the user connection and the MAC unit.
[0046]
According to the next invention, the radio resource management means selects the basic channel corresponding to the user connection in the order of good propagation environment, the selected channel is a transmittable / receiveable basic channel, and the usage rate of the selected basic channel is a predetermined value. When the basic channel selected is not exceeded, the use of the selected basic channel is determined. When the determined number of basic channels satisfies the basic channel number, the user connection and the MAC unit are mapped. As a result, each user connection can be mapped in order from the basic channel with good propagation environment, that is, an appropriate basic channel can be selected for each user connection, so that the wireless communication apparatus capable of improving the transmission speed as a whole system can be obtained. There is an effect that it can be obtained.
[0047]
According to the next invention, the step of selecting the basic channel corresponding to the user connection in the order of favorable propagation environment, and the selected channel is a transmittable / receiveable basic channel and the usage rate of the selected basic channel does not exceed a predetermined value. Determining the use of the selected basic channel, and mapping the user connection to a predetermined MAC unit corresponding to the determined basic channel when the determined number of basic channels satisfies the number of basic channels; ,including. As a result, each user connection can be mapped in order from the basic channel with a good propagation environment, that is, an appropriate basic channel can be selected for each user connection, so that the transmission speed can be improved as a whole system. .
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a wireless communication apparatus according to the present invention.
FIG. 2 is a diagram illustrating a frame configuration of a plurality of basic channels managed by a plurality of MAC units.
FIG. 3 is a diagram for explaining a plurality of basic channels.
FIG. 4 is a diagram illustrating user connection mapping processing by a mapping unit;
FIG. 5 is a diagram illustrating an example of a table managed by a mapping unit.
FIG. 6 is a diagram illustrating an example of a message sequence related to negotiation between a basic channel capable of transmission and reception and the number of basic channels.
FIG. 7 is a flowchart illustrating mapping control by a radio resource management unit.
FIG. 8 is a diagram illustrating a basic configuration of a conventional wireless communication apparatus.
FIG. 9 is a diagram showing a conventional frame configuration.
FIG. 10 is a diagram illustrating a plurality of basic channels managed by a base station.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Physical layer (PHY) part, 2 Medium access control (MAC) part, 3 Transmission / reception buffer (EC) part, 4 Radio resource management part, 5 Mapping part.

Claims (3)

In a radio communication device on the base station side that can communicate with a plurality of mobile stations using a plurality of basic channels,
Set / update basic channels and the number of basic channels that can be transmitted / received by negotiation with each mobile station, and dynamically change the basic channels used by user connections belonging to each mobile station according to the propagation status of each mobile station and mapping control means,
Medium access control (MAC) means for managing the amount of transmission data in units of basic channels based on a predetermined allocation request amount for the plurality of basic channels;
With
In the mapping control means,
Select the basic channel corresponding to the user connection in the order of good propagation environment,
When the selected channel is the transmittable / receiveable basic channel and the usage rate of the selected basic channel does not exceed a predetermined value, the use of the selected basic channel is determined,
When the number of basic channels determined to be used satisfies the number of basic channels, the user connection and single or plural medium access control means corresponding to the basic channel are mapped. Wireless communication device. The mapping control means includes
Be subjected to the mapping process, pre-Symbol the correspondence between the user connection and the single or plurality of medium access control means, and be set to a predetermined management table,
The predetermined management table is:
A first management table for managing the predetermined allocation request amount corresponding to each user connection, an address where data is stored, and a value used for transmission / reception scheduling processing;
Corresponding to each user connection or the user, and a second management table for managing the transmission mode to be used in the fundamental channel,
A third management table in which each parameter of the first management table and the second management table is associated with the medium access control unit;
The wireless communication apparatus according to claim 1 , further comprising: In a base station side wireless communication method capable of communicating with a plurality of mobile stations using a plurality of basic channels,
A basic channel selection step for selecting a basic channel corresponding to a user connection in order of good propagation environment;
A basic channel determination step for determining use of the selected basic channel when the selected channel is a transmittable / receiveable basic channel negotiated with the mobile station and the usage rate of the selected basic channel does not exceed a predetermined value; ,
If the determined number of basic channels satisfies the number of basic channels negotiated with the mobile station, the user connection and a predetermined medium access control (MAC) unit corresponding to the determined basic channel are mapped. Mapping process steps;
A wireless communication method comprising:

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