KR20150144968A - Channel selecting method for wireless access point and allocating method of wireless access points to ap group for channel selection - Google Patents

Abstract

A method (500) for selecting a wireless AP channel may include the following steps: multiple APs exchange a group preparation message including a traffic load information, and determine an AP group which includes a host AP, at least one support AP which is positioned as far as one hop from the host AP, and at least one boundary AP is positioned as far as one hop from the support AP (510); when the multiple support APs are in the AP group, the host AP determines a priority for performing the channel selection (520); according to the priority, the support AP selects a channel of itself (530); and the host AP finally selects a channel of itself (540).

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless access point, and more particularly, to a wireless access point,

The technique described below relates to a technique of assigning a channel to a wireless AP (access point) on a group basis.

The channel selection method of the wireless AP is divided into a centralized channel selection method and a dispersion-based channel selection method. In the centralized channel selection method, a separate central controller collects the traffic load information and the used channel information of the APs in the network to determine the used channel of the AP. The centralized channel selection method is easy to optimize the network performance because the central controller selects the AP channel based on the usage channel and traffic load information of all the APs in the network. However, in order to support the AP control of the central controller, a separate authentication and registration procedure is required for the central controller to recognize the AP. Also, in the centralized channel selection method, the load of the central controller for controlling the AP is increased as the number of APs increases.

The distributed channel selection method is a technique for determining its own use channel based on the channel information collected by the AP without a separate central controller. The existing distributed channel selection method is Least Congest Channel Selection (LCCS) and Client-Assisted Channel Assignment Optimization (CACAO).

In the LCCS scheme, the AP determines the number of APs using each channel through an identifier of an AP received for each channel. The AP then selects the channel that the least number of APs are using. In this scheme, the AP considers only the channel conditions it has measured. As a result, when a mobile node (MN) is located at an overlapping communication radius of APs as shown in FIG. 1, it is affected by interference from another AP 2 out of the search range of AP 1. Also, the LCCS scheme does not consider the actual utilization of the channel selected by the AP. Therefore, the AP can not use the channel used by the neighboring AP even if the number of the MNs connected to the neighboring AP is small and the channel utilization is low. Finally, since the LCCS scheme does not have a coordination procedure for channel change between APs, when a plurality of neighbor APs change channels at the same time, the APs can not find an optimal channel, and ping pong problems may occur.

The CACAO scheme is a technique for the AP to identify the traffic load situation of each channel based on the transmission information of the MN and to select the channel with the least traffic load. This scheme can prevent performance degradation due to hidden node interference by using measurement information of MN. In the CACAO scheme, the MN collects data rate information between the neighboring AP and the MN through snooping and reports it to the AP. The AP estimates the traffic load for each channel based on the information transmitted by the MN for each channel change period. 2 is an example in which the AP estimates the traffic load of the channel in the CACAO scheme. The AP estimates the sum of data rates of MNs using each channel as the traffic load of each channel. However, as shown in FIG. 2, when some MNs connected to the neighboring APs are out of their MN detection range, it is difficult for the AP to accurately know the traffic load information of the neighboring APs. In FIG. 2, AP1 has not been able to grasp the correct traffic load of AP2.

In the CACAO scheme, to prevent simultaneous channel change between neighboring APs, an AP performing a channel change sends a message requesting the neighboring APs to stop channel change in the current channel change period through its own MN. Neighboring APs that have received the message stop the channel change in the current channel change period and collect traffic load information in the next channel change period. This approach can take a long time to optimize the performance of the entire network because it limits the number of APs that change channels during one channel change period. Also, the CACAO scheme does not consider the channel change priority among the APs. Accordingly, an AP requiring a channel change may be restricted from changing its own channel due to a change in the channel of the neighboring APs.

U.S. Published Patent Application No. 2006-0072602 U.S. Pat. No. 8,150,955

In the following description, the wireless APs are set to a certain group based on the traffic information of each AP, and the channels are sequentially changed in the group.

The solutions to the technical problems described below are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

A channel selection method of a wireless AP is a method of selecting a channel by a plurality of APs exchanging a group preparation message including traffic load information so as to form one host AP, at least one supporting AP at a one-hop distance from the host AP, Determining one AP group including at least one boundary AP, determining a priority of a channel change for a plurality of APs by a host AP when a plurality of APs are supported in the AP group, In order, the supporting AP selects its own channel, and finally the host AP selects its own channel.

The step of determining the priority includes determining whether the number of neighboring APs using the same channel is the largest when the number of terminals connected to each of the supporting APs is greater than the number of terminals connected to the supporting APs If the number of terminals connected to the AP or the AP is the same and the number of the neighboring APs using the same channel is the same, the priority is determined in the order of the APs having the largest total number of terminals connected to the neighboring APs using the same channel.

A method of setting an AP group for selecting a channel of a wireless AP is a method of setting the number of APs in each AP of one of a plurality of APs, the number of APs using the same channel among neighboring APs, Exchanging a group preparation message including a number of terminals, determining a host AP that controls channel selection among a plurality of APs based on a group preparation message, and transmitting the channel selection preparation message to a neighboring AP Determining a corresponding AP as a supporting AP of the host AP when the AP receiving the channel selection preparation message is in the standby mode; determining whether the supporting APP is an identifier of the host AP, a number of neighbor APs of the host AP, The number of neighboring APs using the same channel as the host APs and the number of terminals connected to the neighboring APs using the same channel as the host APs of the neighboring APs of the host APs A case that receives a channel selection step and support messages that are sent to the neighbor AP of the AP AP AP supports other than the host is in the standby mode includes determining the AP to the AP boundary.

In the step of determining the host AP, if the AP having the largest number of neighboring APs and the number of neighboring APs are the same among the APs, the APs having the same number of the APs having the same number of the same channel, The number of terminals connected to the neighboring AP is determined to be the maximum AP as the host AP.

When the AP receives a channel selection preparation message from another group host AP, the number of neighboring APs is smaller than the number of neighboring APs in the host AP and other group host APs. If the number of neighboring APs is the same, Or if the number of neighboring APs is the same and the number of APs using the same channel is the same, a channel selection wait message is transmitted to the host AP having fewer terminals connected to the neighboring AP, and the host AP that has received the channel selection wait message switches to the standby mode .

If the AP receiving the channel selection supporting message is an AP supporting another group belonging to another group, the other AP supporting the information of the host AP included in the channel selection supporting message and the AP supporting the other group supporting AP If the number of neighboring APs is greater than that of other group host APs, the number of neighboring APs is the same, the number of APs using the same channel among neighboring APs is greater than the number of APs of neighboring APs, And the number of APs used by the same channel is the same, and the number of terminals connected to the neighboring AP is large, the AP is switched to the boundary AP for the group to which the host AP belongs.

The technique described below minimizes signal interference between the APs through a distribution-based channel selection. In addition, the following description mitigates the ping-pong phenomenon because only the APs included in the set group change the channel. Further, since the channel change is sequentially performed according to the priority in the set group, the channel change of one AP prevents the channel change of the neighboring AP from being restricted.

The effects of the techniques described below are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a diagram illustrating an interference situation of a terminal located in an overlapped communication area of an AP in the LCCS technique.
2 is a diagram illustrating a method of estimating a traffic load of a neighbor AP through an AP in a CACAO scheme.
3 is an example of a schematic flowchart of a method of setting an AP group for channel selection of a wireless AP.
4 is an example of one AP group.
Figure 5 is an example of a flow chart illustrating operations performed between APs to set up AP groups.
6 is an example of a flowchart of a channel selection method of a wireless AP.
FIG. 7 shows an example in which, in one AP group, the host AP determines the priority of channel selection for the supported AP.

The following description is intended to illustrate and describe specific embodiments in the drawings, since various changes may be made and the embodiments may have various embodiments. However, it should be understood that the following description does not limit the specific embodiments, but includes all changes, equivalents, and alternatives falling within the spirit and scope of the following description.

The terms first, second, A, B, etc., may be used to describe various components, but the components are not limited by the terms, but may be used to distinguish one component from another . For example, without departing from the scope of the following description, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

As used herein, the singular " include "should be understood to include a plurality of representations unless the context clearly dictates otherwise, and the terms" comprises & , Parts or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, components, components, or combinations thereof.

Before describing the drawings in detail, it is to be clarified that the division of constituent parts in this specification is merely a division by main functions of each constituent part. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. In addition, each of the constituent units described below may additionally perform some or all of the functions of other constituent units in addition to the main functions of the constituent units themselves, and that some of the main functions, And may be carried out in a dedicated manner. Accordingly, the presence or absence of each constituent element described in this specification should be interpreted as a function, and for this reason, the constitution of a technique described below is not limited to the above description, It can be different.

Also, in performing a method or an operation method, each of the processes constituting the method may take place differently from the stated order unless clearly specified in the context. That is, each process may occur in the same order as described, may be performed substantially concurrently, or may be performed in the opposite order.

The technique described below relates to a technique for selecting a channel that mitigates interference in a plurality of wireless APs in which a mobile node (MN) may be located in a superimposed area. A wireless AP can typically be a Wi-Fi AP. However, in addition to Wi-Fi, a technique described below may also be applied between APs using other communication protocols or communication techniques. For example, in a VANET required in a smart car system, interference may occur between a road side unit (RSU) installed near the road and an automobile, so that interference can be mitigated using different channels.

First, the terms and configurations used in the specification are explained. In the following description, an AP refers to a wireless AP. The traffic load information of the AP can be defined as the number of terminals connected to one AP. Each AP determines APs located in its own communication radius as neighboring APs, and defines a logical distance to a neighboring AP as a one-hop distance. The neighboring AP means a neighboring AP located at a single hop distance from a specific AP as a reference. An AP is connected to a communication session with a neighboring AP and periodically exchanges messages.

Hereinafter, a method 100 of setting an AP group for channel selection of a wireless AP and a channel selection method 500 of a wireless AP will be described in detail with reference to the drawings.

FIG. 3 is an example of a schematic flow diagram of a method 100 of setting up an AP group for channel selection of a wireless AP.

The AP operates by selecting one of a host AP (HAP), a supporting AP (SAP), a boundary AP (BAP) and a standby mode. All APs are initially in standby mode. The standby mode is a state in which there is no idle state and no AP group is included at the same time. The host AP, the supporting AP, and the boundary AP correspond to the APs constituting one AP group. The host AP, the supporting AP, and the border AP are classified according to the function of the AP, which can be regarded as the current operation mode of the specific AP.

A method 100 for establishing an AP group for channel selection of a wireless AP includes exchanging a group preparation message (110), determining a host AP performing channel selection control among a plurality of APs based on the group preparation message In step 120, the host AP transmits a channel selection preparation message to the neighboring AP 130. In step 130, when the AP receiving the channel selection preparation message is in the standby mode, A step 150 of the supporting APP transmitting a channel selection supporting message to a neighboring AP of the supporting AP excluding the host AP, and a step of determining the AP as a boundary AP when the AP receiving the channel selection supporting message is in the standby mode 160). In this case, one group includes one host AP, one AP and one AP, and one AP and one AP.

A plurality of APs exchange group preparation messages between neighboring APs (110). The group preparation message includes the number of neighboring APs, the number of APs using the same channel among the neighboring APs, and the number of terminals connected to the neighboring APs.

If the number of neighboring APs is equal to the number of neighboring APs, the number of APs having the largest number of APs using the same channel among the neighboring APs is equal to the number of neighboring APs, The number of terminals connected to the neighbor AP is determined to be the maximum AP as the host AP.

That is, in step 120, one AP is determined by sequentially applying (1) the number of neighboring APs, (2) the number of neighboring APs using the same channel, and (3) will be. For example, if AP1 and AP2 are adjacent to each other, (1) the number of neighboring APs is the same, and (2) the AP having a large number of neighboring APs using the same channel is a host AP. (3) If the number of neighboring APs using the same channel is the same, the AP having a larger number of terminals connected to the entire neighboring AP becomes the host AP. If the number of terminals connected to the neighbor AP is the same, one of AP1 or AP2 may be determined as the host AP.

When the host AP is determined, a channel selection preparation message is transmitted to its neighboring AP (130). If the AP receiving the channel selection preparation message is in the standby mode, the AP becomes a supporting AP of the host AP that transmitted the channel selection preparation message.

The first supporting AP may receive the channel selection preparation message from the second host AP belonging to another group after the first supporting AP of the first host AP becomes the AP according to the location of the AP. In this case, the first AP uses the host AP selection criterion to determine which one of the first host AP and the second host AP to use as the host AP. Since the first supporting APs are neighboring APs of the first host AP and the second host AP, a group preparation message has already been received from the first host AP and the second host AP.

Therefore, when the number of neighboring APs is equal to the number of neighboring APs among the first host AP and the second host AP, the number of APs having the same number of channels using the same channel is the same among the neighboring APs, The mobile station transmits a channel selection wait message to a host AP having a small number of terminals connected to the neighboring APs. Upon receiving the channel selection wait message, the host AP enters standby mode.

For example, the first supporting AP is currently a supporting AP of the first host AP, receives the channel selection preparation message from the second host AP, compares the first host AP with the second host AP according to the host selection criteria, If the host AP determines that the host AP is valid, the first supporting AP sends a channel selection wait message to the first host AP, and the first supporting AP becomes the supporting AP for the second host AP.

The supporting AP transmits a channel selection support message to its neighboring AP except its own host AP (150). The channel selection support message includes the identifier of the host AP, the number of neighboring APs of the host AP, the number of neighboring APs using the same channel as that of the host APs of the host APs, and the number of neighboring APs of the host APs And the number of terminals connected to the neighboring AP.

If the AP receiving the channel selection supporting message is in the standby mode, the AP is determined as the boundary AP (160). Unlike the host AP and the supporting AP, the border AP does not participate in the channel adjustment procedure. Through this, the boundary AP prevents the simultaneous channel change of neighboring APs not included in the AP group, thereby mitigating the ping pong phenomenon.

The AP receiving the channel selection support message may be a supporting AP already belonging to another AP group. For example, the first supporting AP of the AP group to which the first host AP belongs may receive the channel selection supporting message from the second supporting AP of another group to which the second host AP belongs.

In this case, the first supporting AP compares the first host AP with the second host AP using the host AP selection criterion.

The first supporting AP compares the information of the second host AP included in the channel selection supporting message with the information of the first host AP of the group to which the second host AP belongs so that the number of neighboring APs Or if the number of neighboring APs is the same, the number of APs using the same channel among the neighboring APs is the same, or the number of neighboring APs is the same, and the number of APs used by the same channel is the same, It is switched to the boundary AP of the belonging group.

4 is an example of one AP group. For example, FIG. 4 may be one of the AP groups determined through the method 100 of establishing an AP group for channel selection of the wireless AP of FIG. The host AP (HAP) acts as a controller for channel selection or channel change of the AP group to which it belongs. The host AP (HAP) determines the order (priority) for which of the supporting APs (SAP) in the same group to perform channel selection first, and the supporting AP (SAP) selects each channel . As described above, the BAP does not perform any operation in the channel selection process. The detailed channel selection process will be described later.

Figure 5 is an example of a flow chart illustrating operations performed between APs to set up AP groups. In FIG. 5, six APs (AP1, AP2, AP3, AP4, AP5 and AP6) are shown. Each AP is assumed to correspond to neighboring APs in order. FIG. 5 shows a series of processes performed by the APs. For convenience of explanation, the process numbers shown in FIG. 5 are assumed to be a sequence of operations. However, the operation of each AP is not necessarily performed in the order shown in Fig. 5, but may occur in another order or simultaneously. In FIG. 5, the expression HAP mode, SAP mode, or BAP mode means that the corresponding AP operates as HAP, SAP, or BAP, respectively.

First, a group preparation message is exchanged between neighboring APs (211). The group preparation message includes at least one of the number of neighboring APs, the number of APs using the same channel among neighboring APs, and the number of terminals connected to neighboring APs. In this way, each AP can know information and traffic load information of neighboring APs of neighboring APs at a single hop distance.

As described above, one AP is determined as the host AP (HAP) based on the number of neighboring APs, the number of APs using the same channel among neighboring APs, and the number of terminals connected to neighboring APs on a step-by-step basis. In FIG. 5, it is assumed that AP1 operates in HAP mode (221), AP3 operates in HAP mode (222), and AP6 operates in HAP mode (223).

The HAP sends a channel selection ready message to the neighboring APs (231, 233, 234, 237). AP2, which is the standby mode that received the channel selection preparation message transmitted by AP1, becomes the SAP mode (232). AP3 and AP5, which have received the channel selection preparation message transmitted by AP4, enter SAP mode (233, 234).

If the AP 6 transmits a channel selection preparation message to the AP 5, the AP 5, which is already in the SAP mode, compares AP 4 and AP 6 (237) using the host AP selection criteria. AP5 determines that AP4 is more compatible with the host selection criteria, and transmits a channel selection wait message to AP6 (238). Upon receiving the channel selection wait message, the AP 6 switches to the standby mode (239).

The supporting AP (SAP) transmits a channel selection support message to the neighboring AP except its own host AP. AP2 and AP3 are determined as supporting APs of different host APs and exchange channel selection support messages with each other (241, 242).

The SAP that receives the channel selection support message from SAP belonging to another group uses the host AP selection criteria to determine which of the host APs in each group conforms to the selection criteria. In FIG. 5, AP2 and / or AP3 compares AP1 and AP4, which are host APs, and determines that AP4 is more compatible with the host AP (243).

AP2 switches itself to the BAP of the group to which AP4 belongs (244), and transmits a channel selection wait message to AP1 which is its own host AP (245). Upon receiving the channel selection wait message, AP1 is switched to the standby mode (246).

In response to the channel selection support message 242, the AP 2, which has become the BAP, transmits a channel selection support acknowledgment message to the SAP AP 3 (247). The AP 3 transmits a channel selection preparation acknowledgment message to the AP 4 as the HAP in response to the channel selection preparation message 233 (248).

Meanwhile, the AP 5 operating in the SAP mode also transmits a channel selection support message to the AP 6 serving as the neighbor AP (251). Since the current AP6 is in the standby mode, the AP6 operates in the BAP mode after receiving the channel selection supporting message (252). Thereafter, the AP 6 transmits a channel selection support grant message to the AP 5 (253), and the AP 5 transmits a channel selection preparation approval message to the AP 4 (253). Finally, the AP 4 can confirm that its AP group has been set up (261). AP2, AP3, AP4, AP5, and AP6 form one AP group and operate according to their respective functions.

6 is an example of a flowchart for a channel selection method 500 of a wireless AP.

A channel selection method (500) of a wireless AP includes a plurality of APs exchanging a group preparation message including traffic load information to form one host AP, at least one supporting AP at a one-hop distance from the host AP, Determining (510) one AP group including at least one border AP at a distance, if the AP has a plurality of APs in the AP group, the host AP determines a priority of channel selection performance for the plurality of APs Step 520, a step 530 of the supporting AP selecting its channel in order of priority, and finally the step 540 of the host AP selecting the channel of its own.

The step 510 of selecting an AP group forms an AP group in the same manner as described with reference to FIG. 3 and FIG. Therefore, detailed description is omitted.

The host AP determines a priority (order) to perform channel selection for supporting APs belonging to the same group (520).

When the number of terminals connected to each supporting AP is the same as the number of terminals connected to the supporting AP for the plurality of supporting APs, the host AP accesses the AP having the maximum number of neighboring APs using the same channel or the supporting AP If the number of terminals is the same and the number of neighboring APs using the same channel is the same, priority is determined in AP order in which the total number of terminals connected to a neighboring AP using the same channel is the maximum.

That is, step 520 is a step of (1) the number of access terminals of the AP, (2) the number of neighboring APs using the same channel, and (3) the total number of terminals connected to all neighboring APs using the same channel To determine the priority.

FIG. 7 shows an example in which, in one AP group, the host AP determines the priority of channel selection for the supported AP. The number of access terminals for each of the supporting APs (SAP ₁ , SAP ₂ , SAP ₃ and SAP ₄ ), the number of neighboring APs using the same channel, and the total number of terminals connected to all neighboring APs using the same channel, Is the same as the lower table of FIG.

HAP first determines SAP ₂ having the highest number of access terminals as the highest priority based on the number of terminals connected to the SAP, and SAP ₁ having the lowest access terminal number as the lowest priority. SAP ₃ and SAP ₄ have lower priority than SAP _{2 and} higher priority than SAP ₁ .

Since SAP ₃ and SAP ₄ have the same number of connected terminals, the HAP uses the next step criteria to determine SAP ₄ with a higher number of neighboring APs using the same channel as the higher priority. In summary, SAP's priorities for performing channel selection are SAP ₂ > SAP ₄ > SAP ₃ > SAP ₁ .

When the priority is determined, the HAP sends a channel selection message to the SAP according to the priority. In one SAP, a channel having the smallest number of accesses by the UE from all its neighbor APs is selected as the channel of the AP, and a channel selection completion message is transmitted to the HAP when the selection is completed. The HAP that receives the channel selection completion message from one SAP transmits a channel selection message to the next priority SAP. When the channel selection for the SAP is completed by repeating this process for all the SAPs belonging to the same AP group, the HAP selects the channel having the smallest number of accesses from the terminals of all its neighboring APs as the channel of the HAP. Here, the channel selection may change the channel used by the current AP or may maintain the currently used channel in some cases.

It should be noted that the present embodiment and the drawings attached hereto are only a part of the technical idea included in the above-described technology, and those skilled in the art will readily understand the technical ideas included in the above- It is to be understood that both variations and specific embodiments which can be deduced are included in the scope of the above-mentioned technical scope.

Claims (14)

A method for selecting a channel in a wireless AP,
A plurality of APs exchanges a group preparation message including traffic load information to form one group of APs, at least one AP at a one-hop distance from the host AP, and at least one boundary AP Determining a group of APs including the AP group;
Determining, by the host AP, a priority order of performing a channel change for the plurality of APs when the AP has a plurality of the APs; And
Wherein the supporting AP selects its own channel in the order of priority, and finally the host AP selects its own channel. The method according to claim 1,
Wherein the group preparation message includes at least one of a number of neighboring APs, a number of APs using the same channel among the neighboring APs, and a number of terminals connected to the neighboring APs. The method according to claim 1,
The step of determining the AP group comprises:
Wherein the group preparation message includes the number of neighboring APs between APs of one of the plurality of APs, the number of APs using the same channel among the neighboring APs, and the number of terminals connected to the neighboring APs, ;
Determining a host AP that controls channel selection among the plurality of APs based on the group preparation message;
Determining that the AP, which has received the channel selection preparation message transmitted from the host AP to the neighboring AP, is a supporting AP; And
And determining that the AP is a boundary AP when the AP receiving the channel selection supporting message transmitted from the supporting AP to the neighboring AP is in the standby mode, The channel selection method of the wireless AP. The method of claim 3,
Wherein the determining of the host AP comprises: determining whether the number of APs having the largest number of APs is equal to the number of APs having the same number of APs, And determining the AP having the maximum number of terminals connected to the neighbor AP as the host AP when the number of APs using the channel is the same. The method of claim 3,
When the AP receives a channel selection preparation message from another group host AP, the AP uses the same channel among the neighbor APs when the number of the neighboring APs is equal to the number of the neighboring APs, When the number of APs having a smaller number of APs or the number of neighboring APs is the same and the number of APs using the same channel is the same, a channel selection wait message is transmitted to a host AP having a smaller number of terminals connected to the neighboring AP, A method of selecting a channel of a wireless AP for which a host AP switches to a standby mode. The method of claim 3,
The channel selection assistance message includes at least one of an identifier of a current host AP, a number of neighbor APs of the current host AP, a number of neighboring APs using the same channel as the current host AP among the neighboring APs of the current host AP, And a number of terminals connected to a neighboring AP using the same channel as the current host AP among the APs. The method according to claim 6,
If the AP receiving the channel selection supporting message is another group supporting AP belonging to another group, the other group supporting AP transmits information about the host AP included in the channel selection supporting message and the host AP If the host AP has a larger number of neighboring APs than the other group hosts, the number of neighboring APs is the same, and the number of APs using the same channel among the neighboring APs is greater than the number of APs of the neighboring APs When the number of APs used by the same channel is the same and the number of terminals connected to the neighboring AP is greater than the number of APs connected to the same AP, the switch is switched to the border AP of the group to which the host AP belongs. The method according to claim 1,
The step of determining the priority comprises:
When the AP has a maximum number of APs connected to the APs and a number of APs connected to the APs is the same for the plurality of APs, an AP having a maximum number of neighboring APs using the same channel, When the number of the terminals connected to the AP is the same and the number of the neighboring APs using the same channel is the same, the channel of the wireless AP determining the priority in the order of APs having the largest total number of terminals connected to the neighboring APs using the same channel How to choose. The method according to claim 1,
The step of selecting the channel
And the host AP sequentially transmits a channel selection message to the AP according to the priority order. The method according to claim 1,
The step of selecting the channel
The supporting AP selects a channel having the smallest number of terminals accessed from all its neighbor APs as a channel of the supporting AP, and the host AP allocates a channel having the smallest number of terminals accessed from all its neighbor APs to the host AP Of the wireless AP. Exchanging a group preparation message including the number of each neighboring AP among the APs of one of the plurality of APs, the number of APs using the same channel among the neighboring APs, and the number of terminals connected to the neighboring APs ;
Determining a host AP that controls channel selection among the plurality of APs based on the group preparation message;
The host AP sending a channel selection ready message to a neighboring AP;
Determining a corresponding AP as a supporting AP of the host AP when the AP receiving the channel selection ready message is in a standby mode;
The supported APP uses the same channel as the host AP among the neighbor APs of the host APs, the number of neighbor APs using the same channel as the host APs of the neighbor APs of the host APs, the number of neighbor APs of the host APs Transmitting a channel selection supporting message including the number of terminals connected to the neighbor AP to the neighboring APs of the supporting APs other than the host APs; And
And determining that the AP is a boundary AP when the AP receiving the channel selection supporting message is in a standby mode, wherein the host AP, the supporting AP, and the boundary AP select a channel of a wireless AP, How to set up an AP group for. 12. The method of claim 11,
Wherein the determining of the host AP comprises: determining whether the number of APs having the largest number of APs is equal to the number of APs having the same number of APs, And determining an AP having a maximum number of terminals connected to the neighbor AP as the host AP when the number of APs using the same channel is the same. 12. The method of claim 11,
When the AP receives a channel selection preparation message from another group host AP, the AP uses the same channel among the neighbor APs when the number of the neighboring APs is equal to the number of the neighboring APs, When the number of APs having a smaller number of APs or the number of neighboring APs is the same and the number of APs using the same channel is the same, a channel selection wait message is transmitted to a host AP having a smaller number of terminals connected to the neighboring AP, Wherein one host AP is configured to set up an AP group for channel selection of a wireless AP switching to a standby mode. 12. The method of claim 11,
The step of determining to the border AP
If the AP receiving the channel selection supporting message is another group supporting AP belonging to another group, the other group supporting AP transmits information about the host AP included in the channel selection supporting message and the host AP And the number of APs having the same number of neighboring APs and using the same channel among the neighboring APs or the number of neighboring APs is greater than the number of neighboring APs, The number of APs in the same channel is the same, and the number of terminals connected to the neighboring AP is greater than the number of APs in the same channel, the AP is switched to the border AP for the group to which the host AP belongs.

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