KR20160124428A - Method for managing a wireless environment configuration of ap using ac - Google Patents

Abstract

Disclosed is a computing technology, specifically, a technology related to a method for managing a wireless environment configuration of an access point (AP) by using an access controller (AC). According to an embodiment, the method for managing a wireless environment configuration of an AP by using an AC comprises the following steps. The AC and AP establish a mutually credible session, and the AP generates a configuration status request message including wireless environment information of a terminal device which communicates with a corresponding AP. The AP transmits the configuration status request message to the AC. The AC receiving the configuration status request message determines whether the AP is to use band steering, based on the wireless environment information of the terminal device included in the configuration status request message and generates a configuration status response message including band steering information. The AC transmits the configuration status response message to the AP.

Description

METHOD FOR MANAGING A WIRELESS ENVIRONMENT CONFIGURATION OF AP AP USING AC Using AC,

A technique related to a method for managing a wireless environment configuration of an access point (AP) using a computing technology, specifically an access controller (AC), is disclosed.

A wireless local area network (WLAN) or a wireless fidelity (WFI) communication scheme refers to a local area network capable of wireless Internet access within a certain distance using a radio wave or an infrared transmission method in a place where an access point (AP) Technology. Since the AP uses the session management function and the traffic control function of the terminal apparatus according to the LWAPP (Lightweight Access Point Protocol) protocol, it is necessary to manage the wireless environment configuration between the AP and the terminal apparatus for each AP There is an inconvenience.

In the meantime, Band Steering technology increases the number of terminals supporting both 5GHz (802.11an) and 2.4GHz (802.11g), and the terminal device using the existing 802.11g and the Dual Mode (5 GHz) & 2.4GHz) is proposed as an access management method for an access point (AP).

The proposed invention is directed to managing the wireless environment configuration of an AP using AC.

Another problem is to manage the configuration of the radio environment of the AP through control messages transmitted and received between the AC and the AP.

According to an aspect of the present invention, there is provided a method of managing a wireless environment configuration of an access point (AP) using an AC (Access Controller), the method comprising: Generating a Configuration Status Request message including radio environment information of a terminal device that communicates with the AP, transmitting a Configuration Status Request message to the AC, configuring a Configuration Status Request ) Determines whether the AP uses band steering based on wireless environment information of the terminal device included in the Configuration Status Request message, and transmits a configuration status response including the band steering information Status Response) message to the AP and the AC sends a Configuration Status Response message to the AP. .

According to another aspect, the information communication between the AC and the AP may be performed in accordance with a wireless access point configuration specification, CAPWAP (Control And Provisioning of Wireless Access Points) protocol.

According to another aspect, in the step of generating a Configuration Status Response message, the AC determines whether the AP uses band steering based on wireless environment information of the terminal device included in the Configuration Status Request message And a setting value for deriving the connection setting of the terminal device to a specific frequency band and a setting value for deriving the load balancing so as to maintain the connection of the terminal device evenly for each frequency band in use And generate a Configuration Status Response message based on the included band steering information. In this case, the set value for disabling the band steering may be information for permitting the connection to the frequency band in which the terminal apparatus first tried to connect.

According to another aspect of the present invention, there is provided a method of managing a wireless environment of an access point (AP) using an AC (Access Controller), comprising: establishing a session in which an AC and an AP mutually trust each other; (Configuration Update Request) message according to the result of the monitoring, and AC sends a Configuration Update Request message to the AP.

According to another aspect, in the step of generating a configuration update request message, the AC monitors the radio environment of the AP and transmits a Configuration Update Request including frequency band availability information according to the result, Message and generates a configuration update request message including frequency band use information indicating that the corresponding frequency band is not used when an interference phenomenon occurs at a predetermined value or more in a specific frequency band as a result of the monitoring Step.

According to another aspect, the step of generating a configuration update request message comprises the step of the AC monitoring the radio environment of the AP, determining the radio strength of the AP according to the result, And may generate a Configuration Update Request message. In this case, in the step of generating a Configuration Update Request message, a Configuration Update Request message is generated based on the output intensity information of the frequency band including the frequency band for adjusting the output intensity and the output intensity to be adjusted Can be generated. Alternatively, in the step of generating a configuration update request message, the wireless environment configuration management of the AP using the AC that automatically determines the wireless strength of the AP in consideration of at least one of the deployment information of the AP and the deployment information of the terminal device Way.

According to another aspect, in the step of generating a configuration update request message, the AC monitors the radio environment of the AP, and according to the result, the channel of the frequency band currently operated by the AP is changed into a channel with less radio interference And generating a Configuration Update Request message including channel change information of a frequency band to be changed. In this case, in the step of generating a configuration update request message, a configuration update request is generated based on the channel change information of the frequency band including at least one of the channel information of the frequency band to be changed and the bandwidth information of the channel to be changed Update Request message.

According to another aspect of the present invention, there is provided a method for managing a radio environment of an access point (AP) using an AC (Access Controller), comprising: establishing a session in which an AC and an AP mutually trust each other; A station configuration request (Station Configuration Request) including connection release information for monitoring traffic information of a terminal device that is connected to the terminal, and for disconnecting the connection of the terminal device when the traffic of the terminal device exceeds a predetermined traffic, Message and an AC sends a Station Configuration Request message to the AP. In this case, in the step of generating the station configuration request message, the station configuration request message is generated based on the connection release information including at least one of the connection denial mode, the connection denial duration, the address of the terminal device, (Station Configuration Request) message.

According to the present invention, the wireless environment configuration of the AP can be managed using the AC.

Further, the wireless environment configuration of the AP can be managed through the control message transmitted / received between the AC and the AP.

1 is a general configuration diagram of a wireless environment system using AC and AP according to an embodiment.
2 is a flowchart illustrating an initial process of configuring a wireless environment between an AC and an AP according to an exemplary embodiment of the present invention.
3 is a diagram illustrating an example of a structure of a control message according to an exemplary embodiment of the present invention.
4 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to an exemplary embodiment of the present invention.
5 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment.
6 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention.
7 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention.
FIG. 8 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention.
9 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. These drawings and the embodiments are merely examples for explaining the invention, and the technical scope thereof is not limited or changed. It should also be appreciated that variations and modifications obvious to a person skilled in the art are possible within the scope of the technical idea of the proposed invention based on these examples.

1 is a general configuration diagram of a wireless environment system using AC and AP according to an embodiment.

1, a wireless environment system using an AC and an AP according to an aspect includes an AC (Access Controller) 20-1, 20-2, ..., 20-k, an AP (Access Point) 30-1- 1, ..., 30-1-m1, 30-2-1, ..., 30-2-m2, 30-k-1, ..., 30-k-ml. The wireless environment system using the AC and AP according to another aspect may be implemented by the management server 10 and / or the terminal devices 40-1-1-1, ..., 40-1-1-n1, 40-2-m2-1, ..., 40-2-m2-n2, 40-k-mk-1, ..., 40-k-mk-mnk.

The management server 10 manages a plurality of ACs 20-1, 20-2, ..., 20-k, and the ACs are divided into a plurality of groups and managed by the APs 30-1-1, 1-m1, 30-2-1, ..., 30-2-m2, 30-k-1, ..., 30-k-ml. The APs 30-1-1 to 30-1-m1 and 30-2-1 to 30-2-m2 and 30-k-1 to 30-k- 40-2-1, ..., 40-2-m2-n2, 40-k-1, 40-2-1, mk-1, ..., 40-k-mk-mnk.

The management server 10 is connected to the ACs 20-1, 20-2, ..., 20-k by a wired or wireless network. For example, the wireless network may be a mobile communication network or a wireless Internet network (Wifi). The management server 10 provides a function of storing and distributing data for information management. Specifically, AC and AP information is stored and managed. Here, the management server 10 may include an information database in which information necessary for system operation is stored, and a middle ware that connects and relays external devices and databases.

The AC (Access Controller) 20 communicates with one or more APs (Access Points) connected to the AC. The ACs 20-1, 20-2, ..., 20-k are APs 30-1-1, ..., 30-1-m1, 30-2-1, ..., 30-2- -1, ..., 30-k-ml) in a wired or wireless network. For example, the wireless network may be a mobile communication network or a wireless Internet network (Wifi).

An AP (Access Points) 30 communicates with one or more terminal devices connected to the AP. Alternatively, APs (Access Points) 30 may communicate with one or more terminal devices requesting access to the APs.

The terminal device 40 supports the wireless Internet service of the AC 20 and the AP 30 on the network in accordance with the Control and Provision of Wireless Access Points (CAPWAP) protocol and communicates with another user terminal or an Internet server You can get the data service you need. For example, the network may be a mobile communication network or a wireless Internet network (Wifi).

The terminal 40 may be a personal mobile communication terminal, a personal digital assistant (PDA), a smart phone, a tablet, a laptop, a notebook, A terminal device such as a LAN terminal device, and the like.

2 is a flowchart illustrating an initial process of configuring a wireless environment between an AC and an AP according to an exemplary embodiment of the present invention.

Referring to FIG. 2, an initial process of configuring a wireless environment between an AC and an AP includes a search step S201, a firmware upgrade step S202, a DTLS handshake step S203, and a connection configuration step S204. The AP performs the procedure for configuring the specified AC and radio environment. The procedure by which an AP configures an AC and a wireless environment is also referred to as a provisioning procedure. In the provisioning procedure, the mutual authentication between the AP and the AC establishes mutually reliable sessions. The AC and the AP transmit data using a control packet or a data packet. A control packet transmits a control signal and transmits a wireless packet data packet.

The search step S201 is performed by transmitting and receiving a Discovery Request message and a Discovery Response message between the AC and the AP. The Discovery Request message and the Discovery Response message are the first messages for the AP to register with the AC. The Discovery Request message and the Discovery Response message are not encrypted in order to properly handle the initial operation of the standard protocol. That is, the Discovery Request message and the Discovery Response message are not encrypted by DTLS (Datagram Transport Layer Security). After the searching step S201, the AC and the AP transmit the message encrypted by the DTLS (Datagram Transport Layer Security).

In the firmware upgrade step (S202), the AP that received the discovery response message from the AC compares the currently operating firmware information with the firmware information received from the AC. If the firmware information is different as a result of comparison, the AP upgrades the firmware do.

In the DTLS handshake step (S203), the AP that receives the discovery response message from the AC receives a new port to perform the DTLS handshake and performs handshaking through the corresponding port. The port may be a UDP port.

In the connection establishment step (S204), the AC transmits a profile including environment variables capable of wireless service to the unconfigured AP. Here, an Unconfigured AP refers to an AP that is first connected to an AC or an AP that needs to receive a new profile. The AC administrator can change the settings of the AP so that the AP can receive a new profile from the AC. The AP operates using the profile transmitted from the AC. On the other hand, the AC does not send the profile to the Configured AP. That is, the AC can omit the process of transmitting the profile to the Configured AP. Configured AP means the AP that has already received a profile from AC and reconnects to the AC. At this time, the Configured AP operates using the profile that it already has.

3 is a diagram illustrating an example of a structure of a control message according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the structure 300 of the control message includes an IP header, a UDP header, a DTLS header, a header, a control header, a message element, and a DTLS field. The fields of the Message Elements use the format of type, length and value (TLV; Type, Length and Value). A field of a message element may include one or more message elements. These message elements can be transmitted in the form of long packets, and standard protocols can receive messages over 4096 bytes through reassembly. Control messages are encrypted differently from Discovery messages. For example, the control message may be encrypted by Datagram Transport Layer Security (DTLS). According to one embodiment, only some of the fields of the Control message may be encrypted by Datagram Transport Layer Security (DTLS).

According to one embodiment, the Control message includes a Configuration Status Request message and a Configuration Status Response message. The Configuration Status Response message is a response message to the Configuration Status Request message. For example, a Configuration Status Request message is generated by the AP and sent to the AC. A Configuration Status Response message is generated by the AC and sent to the AP. The Configuration Status Request message and the Configuration Status Response message are encrypted by Datagram Transport Layer Security (DTLS).

According to one embodiment, the Control message includes a Configuration Update Request message and a Configuration Update Response message. The Configuration Update Response message is a response message to the Configuration Update Request message. For example, a Configuration Update Request message is generated by the AC and sent to the AP. A Configuration Update Response message is generated by the AP and sent to the AC. The Configuration Update Request message and the Configuration Update Response message are encrypted by Datagram Transport Layer Security (DTLS).

According to one embodiment, the Control message includes a Station Configuration Request message and a Station Configuration Response message. The Station Configuration Response message is a response message to the Station Configuration Request message. For example, a station configuration request message is generated by the AC and transmitted to the AP. The station configuration response message is generated by the AP and transmitted to the AC. The Station Configuration Request message and the Station Configuration Response message are encrypted by Datagram Transport Layer Security (DTLS).

4 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to an exemplary embodiment of the present invention.

Referring to FIG. 4, in a wireless environment configuration management method of an access point (AP) using an access controller (AC) according to an aspect, an AC and an AP establish a mutually trusted session (S401) (S402) a configuration status request message including radio environment information of a terminal device communicating with the AP, a step (S403) of transmitting a configuration status request message to the AC by the AP, The AC that has received the Configuration Status Request message determines whether the AP will use band steering based on the wireless environment information of the terminal device included in the Configuration Status Request message and includes band steering information A step S404 of generating a configuration status response message and a step S405 of transmitting an AC status status response message to the AP The. The procedures described below including embodiments of the present invention can be implemented in various forms.

First, the AC and the AP establish a mutually trustable session (S401), and the AP generates a Configuration Status Request message including radio environment information of the terminal device communicating with the AP (S402).

Next, the AP transmits a Configuration Status Request message to the AC (S403). According to an aspect, the information communication between the AC and the AP may be performed according to a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

Next, the AC that has received the Configuration Status Request message determines whether the AP will use the band steering based on the radio environment information of the terminal device included in the Configuration Status Request message, And generates a configuration status response message including the information (S404).

According to an exemplary embodiment, in step S404, a configuration status response message is generated. In step S404, a configuration status message is generated by including band steering information in a field of a message element of a configuration status response message. A Configuration Status Response message may be generated. That is, the message element indicating the band steering information may further include a message element in the Configuration Status Response message.

According to another embodiment, in the step of generating a configuration status response message (S404), the AP performs band-steering based on the radio environment information of the terminal device included in the configuration status request message And a setting value for deriving the connection of the terminal device to a specific frequency band and a setting value for guiding the load balancing to keep the connection of the terminal device evenly for each frequency band in use A configuration status response message may be generated based on the band steering information including one of the following. At this time, the set value for not using band steering may be information for permitting the access to the frequency band in which the terminal device first tries to access the AP.

Table 1 shows the structure of the band steering information according to one embodiment.

typedef struct {
unsigned char radioid;
unsigned char wlanid;
unsigned char mode;
unsigned char reserved;
} cw_bandsteer_t;

Here, " radioid " indicates the identification number of the frequency band. For example, " radioid " may represent a frequency index.

"Wlanid" indicates the identification number of the wireless LAN. For example, " wlanid " can represent an index of a wireless LAN.

"Mode" indicates whether or not to use band steering. Specifically, " mode " may indicate whether band steering is used or not, based on whether the band steering is used or not. According to one embodiment, " mode " is a setting value for unused band steering, a setting value for guiding the connection of the terminal apparatus to a specific frequency band, and a load balancing for maintaining the connection of the terminal apparatus equally And a set value derived from the steering angle. For example, if the mode is '0', the band steering is not used. If the mode is '1', 5 GHz is preferentially used. If the mode is '2', 2.4 GHz is preferentially used. If mode is '3', it can indicate to set load balancing at 5GHz and 2.4GHz.

&Quot; reserved " indicates that the reserved portion is reserved for future use. For example, reserved can use all information as '0'.

Next, the AC transmits a Configuration Status Response message to the AP (S405). According to an aspect, the information communication between the AC and the AP may be performed according to a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

According to an aspect, in the wireless environment configuration management method of the AP using the AC, the information communication between the AC and the AP can be performed according to the control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

CAPWAP is a wireless LAN standard announced by the Internet Engineering Task Force (IETF), and is a protocol for supporting an enterprise wireless LAN environment. In IEEE 802.11, the traditional wireless LAN environment consists of three components: Authentication Server (AS), Access Point (AP), and Mobile Station (MS). At this time, the AP is composed of a physical layer and a MAC layer (Medium Access Control Layer). The CAPWAP architecture separates the functions of the FAT-AP in the traditional wireless LAN environment into two layers, physical layer and MAC layer, and adds a new physical component called Wireless LAN Termination Point (WTP) and Access Controller (AC).

5 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment.

Referring to FIG. 5, in a wireless environment configuration management method of an access point (AP) using an access controller (AC) according to an aspect, an AC and an AP establish a mutually trusted session (S501) A step S503 of generating a configuration update request message according to the result of the monitoring of the radio environment in operation S503 and a step S504 in which the AC transmits a configuration update request message to the AP, . The procedures described below including embodiments of the present invention can be implemented in various forms.

First, the AC and the AP establish a mutually trustable session (S501), the AC monitors the wireless environment of the AP (S502), and generates a configuration update request message according to the result (S503) . Next, the AC transmits a configuration update request message to the AP (S504). Next, the AP may send a Configuration Update Response message to the AC (S505).

According to an aspect, in the wireless environment configuration management method of the AP using the AC, the information communication between the AC and the AP can be performed according to the control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

CAPWAP is a wireless LAN standard announced by the Internet Engineering Task Force (IETF), and is a protocol for supporting an enterprise wireless LAN environment. In IEEE 802.11, the traditional wireless LAN environment consists of three components: Authentication Server (AS), Access Point (AP), and Mobile Station (MS). At this time, the AP is composed of a physical layer and a MAC layer (Medium Access Control Layer). The CAPWAP architecture separates the functions of the FAT-AP in the traditional wireless LAN environment into two layers, physical layer and MAC layer, and adds a new physical component called Wireless LAN Termination Point (WTP) and Access Controller (AC).

6 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention. In order to avoid unnecessary repetition, a wireless environment configuration management method of an AP using an AC will be briefly described, and the matters not described in detail here can be applied to the same things described with reference to FIG. 1 to FIG.

5 and 6, a method of managing a wireless environment configuration of an access point (AP) using an access controller (AC) according to an aspect includes a step S503 of generating a configuration update request message , The AC monitors the radio environment of the AP (S602) and generates a Configuration Update Request message including information on whether to use the frequency band according to the result of the monitoring, (S603, S604, S606) of generating a configuration update request message including information on whether or not to use the frequency band when the interference phenomenon occurs. The procedures described below including embodiments of the present invention can be implemented in various forms.

First, the AC and the AP establish a mutually trustable session (S601), and the AC monitors the wireless environment of the AP (S602). Next, in step S603, it is determined whether an interference phenomenon occurs in a specific frequency band with a predetermined value or more as a result of monitoring the wireless environment of the AP.

As a result, when it is determined that an interference phenomenon occurs at a predetermined frequency band or more, a configuration update request message including frequency band use / non-use information for not using the corresponding frequency band is generated S604). In step S605, the AC transmits a configuration update request message including information on whether to use the frequency band that does not use the frequency band, to the AP.

On the other hand, if it is determined that the interference does not occur at a predetermined frequency or higher in a specific frequency band, a Configuration Update Request message including frequency band use information is generated (S606). Next, the AC transmits a configuration update request message including information on whether or not to use the frequency band to the AP (S607).

That is, the message element indicating the frequency band availability information may be further included in the message element field of the configuration update request message.

Table 2 shows the structure of frequency band use information according to one embodiment.

typedef struct {
unsigned char radioid;
unsigned char act_mode;
unsigned char rsv [2];
} cw_cmd_actmode_t;

Here, " radioid " indicates the identification number of the frequency band. For example, " radioid " may represent a frequency index.

&Quot; act_mode " indicates whether or not the frequency band is used. For example, if act_mode is '0', the frequency band is not used, and if '1', it means that the frequency band is used.

"Rsv" indicates that it is reserved for future use. For example, rsv can use all information as '0'.

Next, the AP may send a Configuration Update Response message to the AC (S505). According to an aspect, the information communication between the AC and the AP may be performed according to a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

7 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention. In order to avoid unnecessary repetition, a wireless environment configuration management method of an AP using an AC will be briefly described, and the matters not described in detail here can be applied to the same things described with reference to FIG. 1 to FIG.

5 and 7, a wireless environment configuration management method of an access point (AP) using an access controller (AC) according to an aspect includes a step S503 of generating a configuration update request message The AC monitors the radio environment of the AP (S702), determines the radio strength of the AP according to the result, and generates a configuration update request message including the output intensity information of the frequency band (S703) to be. The procedures described below including embodiments of the present invention can be implemented in various forms.

According to one embodiment, in step S703 of generating a configuration update request message, a configuration update request is generated based on output frequency information of a frequency band including a frequency band for adjusting an output intensity and an output intensity to be adjusted Update Request message.

According to another embodiment, in step S703 of generating a configuration update request message, the wireless strength of the AP is determined according to the wireless environment monitoring result of the AP, and the AC transmits a Configuration Update Request message A configuration update request message may be generated by including the output intensity information of the frequency band in a field of a message element of the message. That is, the message element indicating the output intensity information of the frequency band may be included in the message element of the configuration update request message.

According to another embodiment, in step S703 of generating a configuration update request message, the wireless strength of the AP may be automatically determined by considering at least one of the AP placement information and the terminal device placement information .

Table 3 shows the structure of the output intensity information of the frequency band according to one embodiment.

typedef struct {
unsigned char radioid;
unsigned char pwr_qdbm;
unsigned char reserved 0;
unsigned char reserved1;
} cw_cmd_radio_txpwr_t;

Here, " radioid " indicates the identification number of the frequency band. For example, " radioid " may represent a frequency index.

&Quot; pwr_qdbm " represents the output intensity value of the frequency band. For example, pwr_qdbm can select the output intensity value of the frequency band from 10 to 23.

&Quot; reserved 0 " and " reserved 1 " indicate reserved portions for future use. For example, reserved 0 and / or reserved 1 can use all information as '0'.

FIG. 8 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention. In order to avoid unnecessary repetition, a wireless environment configuration management method of an AP using an AC will be briefly described, and the matters not described in detail here can be applied to the same things described with reference to FIG. 1 to FIG.

5 and 8, a method of managing a wireless environment configuration of an access point (AP) using an access controller (AC) according to an aspect includes a step S503 of generating a configuration update request message , The AC monitors the radio environment of the AP (S802), and updates the configuration update request including the channel change information of the frequency band in which the channel of the frequency band currently operated by the AP is changed to the channel with little radio interference Configuration Update Request) message (S803). The procedures described below including embodiments of the present invention can be implemented in various forms.

According to one embodiment, in step S803 of generating a configuration update request message, the AC transmits a message element of a configuration update request message according to a result of the wireless environment monitoring of the AP, It is possible to generate a configuration update request message including the channel change information of the frequency band in which the channel of the frequency band currently being operated by the AP is changed to the channel with less radio interference. That is, the message element indicating the channel change information of the frequency band may be included in the message element of the configuration update request message.

According to another embodiment, in the step of generating a configuration update request message (S803), based on the channel change information of the frequency band including at least one of the channel information to be changed in the frequency band and the bandwidth information in the changed channel A Configuration Update Request message can be generated.

Table 4 shows the structure of the channel change information of the frequency band according to one embodiment.

typedef struct {
unsigned char radio;
unsigned char channel;
unsigned char csb;
unsigned char reserved;
} cw_cmd_manual_ch_t;

Here, " radio " represents the identification number of the frequency band. For example, " radio " may represent a frequency index.

&Quot; channel " indicates channel information to be changed in the frequency band. For example, if the channel is '0', the value applied in the provisioning procedure can be used again. That is, if the channel is '0', the channel of the frequency band applied in the provisioning procedure can be used again.

&Quot; csb " indicates bandwidth information of a channel to be changed in the frequency band. For example, if csb is '0', there is no bandwidth information of the changed channel. If '1', the bandwidth of the changed channel is lower than the bandwidth of the current channel. If the bandwidth of the changed channel is '2' And a value of '3' indicates that the bandwidth of the channel to be changed is 80M.

&Quot; reserved " indicates that the reserved portion is reserved for future use. For example, reserved can use all information as '0'.

9 is a flowchart illustrating a method of managing a wireless environment configuration of an AP using an AC according to another embodiment of the present invention.

Referring to FIG. 9, in a wireless environment configuration management method of an access point (AP) using an access controller (AC) according to an aspect, an AC and an AP establish a mutually trusted session (S901) (Step S902). If the traffic of the terminal device exceeds the predetermined traffic, the AP transmits a station configuration request (step S902) including the connection release information for releasing the connection of the terminal device to the AP A step S903 of generating a Station Configuration Request message, and a step S904 of the AC transmitting a Station Configuration Request message to the AP. The procedures described below including embodiments of the present invention can be implemented in various forms.

First, the AC and the AP establish a mutually trustable session (S901), and the AC monitors traffic information of the terminal device connected to the AP (S602).

Next, when the AC monitors the traffic information of the terminal apparatus connected to the AP, if the traffic of the terminal apparatus exceeds the predetermined traffic, And generates a configuration request message (S903).

According to an exemplary embodiment, in step S903, a station configuration request message is generated. In a step S903, a message element of a station configuration request message includes disconnection information, (Station Configuration Request) message. That is, the message element indicating the disconnection information may further include a message element in the Message Elements field of the Station Configuration Request message.

According to another embodiment, in step S903 of generating a Station Configuration Request message, connection release information including at least one of an access denial mode, a connection denial duration, an address of a terminal device, The base station can generate a Station Configuration Request message based on the base station configuration request message.

Herein, the connection denial mode controls the continuous connection of the disconnected terminal device to the AP. Even if the AP denies the connection of the terminal apparatus, the terminal apparatus continuously attempts automatic connection to the AP, so that the terminal apparatus can continuously control the connection of the terminal apparatus using the connection denial mode information. For example, the connection deny mode can be classified into One time, Duration, Endless, Unblock, and the like. One time allows connection when the terminal device attempts to connect again after one connection is disconnected, Duration permits connection attempt of the terminal device after a certain period of time by refusing connection of the terminal device for a predetermined time. Endless continuously refuses the connection of the terminal device before the connection blocking release command, and Unblock permits the connection attempt by releasing the connection of the terminal device. The access denial mode is not limited to this, but may be defined differently depending on the state of the AC or AP, and the state of the wireless environment.

Table 5 shows the structure of the release information according to one embodiment.

typedef struct {
char radio;
char wlan;
int bmode;
int btime;
unsigned char stamac [ETHER_ADDR_LEN];
int rcode;
char reserved [8];
} cw_del_station_t;

Here, " radio " represents the identification number of the frequency band. For example, " radio " may represent a frequency index.

"Wlan" indicates the identification number of the wireless LAN. For example, " wlanid " can represent an index of a wireless LAN.

&Quot; bmode " indicates that the disconnected terminal device controls continuous access attempts to the AP.

&Quot; btime " indicates the connection rejection duration when bmode is 'duration'.

"Stamac" indicates the address of the terminal device in question.

&Quot; rcode " indicates the reason why the terminal apparatus in question needs to be disconnected.

&Quot; reserved " indicates that the reserved portion is reserved for future use. For example, reserved can use all information as '0'.

According to one embodiment, when both "radio" and "wlan" are "-1", or when "stamac" matches the Mac address of the terminal device connected to the AP, have.

Next, the AC transmits a Station Configuration Request message to the AP (S904). According to an aspect, the information communication between the AC and the AP may be performed according to a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

According to an aspect, in the wireless environment configuration management method of the AP using the AC, the information communication between the AC and the AP can be performed according to the control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.

CAPWAP is a wireless LAN standard announced by the Internet Engineering Task Force (IETF), and is a protocol for supporting an enterprise wireless LAN environment. In IEEE 802.11, the traditional wireless LAN environment consists of three components: Authentication Server (AS), Access Point (AP), and Mobile Station (MS). At this time, the AP is composed of a physical layer and a MAC layer (Medium Access Control Layer). The CAPWAP architecture separates the functions of the FAT-AP in the traditional wireless LAN environment into two layers, physical layer and MAC layer, and adds a new physical component called Wireless LAN Termination Point (WTP) and Access Controller (AC).

The wireless environment configuration management method of the AP using the AC may be stored in a computer-readable recording medium on which a program for executing by the computer is recorded. At this time, the computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. Program instructions to be recorded on the medium may be those specially designed and constructed for the proposed invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa. In addition, the computer-readable recording medium may be distributed to network-connected computer devices so that computer-readable codes can be stored and executed in a distributed manner.

The above description is merely illustrative, and various modifications, alterations, and substitutions are possible without departing from the essential characteristics of those skilled in the art. Therefore, the disclosed embodiments and the accompanying drawings are intended to illustrate and not limit the technical idea of the proposed invention, and the scope of the technical idea is not limited by these embodiments and accompanying drawings. The scope of protection of the proposed invention should be construed in accordance with the following claims and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the scope of the invention claimed.

10: Management Server
20: AC (Access Controller)
30: AP (Access Point)
40: Terminal device

Claims (15)

A method for managing a wireless environment configuration of an access point (AP) using an access controller (AC)
Establishing a mutually trusted session between the AC and the AP and generating a Configuration Status Request message including radio environment information of a terminal device communicating with the AP;
The AP sending a configuration status request message to the AC;
The AC that has received the Configuration Status Request message determines whether the AP uses band steering based on the radio environment information of the terminal device included in the Configuration Status Request message, Generating a Configuration Status Response message including the Configuration Status Response message; And
The AC sending a Configuration Status Response message to the AP;
Wherein the wireless environment configuration management method comprises:
The method according to claim 1,
Wherein the information communication between the AC and the AP is performed in accordance with a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.
The method according to claim 1,
In the step of generating the Configuration Status Response message, the AC determines whether to use band steering based on the radio environment information of the terminal device included in the Configuration Status Request message, A band including one of a set value for not using band steering, a setting value for guiding the connection of the terminal apparatus to a specific frequency band, and a setting value for guiding the load balancing to keep the connection of the terminal apparatus uniformly for each frequency band in use A method of managing a wireless environment configuration of an AP using an AC that generates a configuration status response message based on steering information.
The method of claim 3,
Wherein the set value for not using the band steering is AC, which is information for permitting connection to a frequency band in which the terminal device first tries to connect.
A method for managing a wireless environment of an access point (AP) using an access controller (AC)
Establishing a mutually trustworthy session between the AC and the AP, monitoring the wireless environment of the AP by the AC, and generating a Configuration Update Request message according to the result; And
The AC sending a configuration update request message to the AP;
Wherein the wireless environment configuration management method comprises:
6. The method of claim 5,
Wherein the information communication between the AC and the AP is performed in accordance with a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.
6. The method of claim 5,
The step of generating the configuration update request message comprises the steps of: the AC monitors the radio environment of the AP and generates a configuration update request message including frequency band use information according to a result of the monitoring; And a step of generating a configuration update request message including frequency band use / non-use information for not using the corresponding frequency band when an interference phenomenon occurs in a specific frequency band with a predetermined value or more as a result of monitoring, How to manage the AP's wireless environment configuration.
6. The method of claim 5,
The step of generating the configuration update request message comprises the steps of: monitoring the radio environment of the AP by the AC, determining a radio strength of the AP according to a result of the configuration, receiving a configuration update request Update Request) message, which is a step of generating an Update Request message.
9. The method of claim 8,
In the step of generating the configuration update request message, a configuration update request message is generated based on the output intensity information of the frequency band including the frequency band for adjusting the output intensity and the output intensity to be adjusted. A method for managing the configuration of a wireless environment using an AP.
9. The method of claim 8,
In the step of generating the configuration update request message, the wireless environment configuration management method of the AP using the AC that automatically determines the wireless strength of the AP in consideration of at least one of the deployment information of the AP and the deployment information of the terminal device .
6. The method of claim 5,
The step of generating the configuration update request message comprises the steps of: monitoring the radio environment of the AP by the AC, and changing a channel of the frequency band currently being operated by the AP to a channel with less radio interference, And generating a configuration update request message including channel change information of a bandwidth of the AP.
12. The method of claim 11,
In the step of generating the configuration update request message, a Configuration Update Request is generated based on channel change information of a frequency band including at least one of channel information of a frequency band to be changed and bandwidth information of a channel to be changed. A method of managing wireless environment configuration of an AP using an AC generating a message.
A method for managing a wireless environment of an access point (AP) using an access controller (AC)
The AC establishes a mutually trustworthy session and the AC monitors the traffic information of the terminal device connected to the AP so that if the traffic of the terminal device exceeds the predetermined traffic, Generating a Station Configuration Request message including disconnection information for disconnecting a device; And
The AC sending a Station Configuration Request message to the AP;
Wherein the wireless environment configuration management method comprises:
14. The method of claim 13,
Wherein the information communication between the AC and the AP is performed in accordance with a control and provisioning of wireless access points (CAPWAP) protocol, which is a wireless access point setting rule.
14. The method of claim 13,
In the step of generating the station configuration request message, a station configuration request message is generated based on connection release information including at least one of an access denial mode, a connection denial duration, an address of the terminal, A method for managing a wireless environment configuration of an AP using an AC generating a request message.

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