KR20130021623A - Wireless channel setting-up device and channel setting-up method for thereof - Google Patents

Abstract

PURPOSE: A wireless channel setup apparatus capable of selecting an optimal channel considering an installing environment and a channel setup method of the same are provided to select an optimal channel reflecting a gradual environmental change using a 5GHz band for a wireless data transmission system environment whereby a 2.4GHz band was previously used. CONSTITUTION: A signal drawing unit(20) draws the average reception signal of each channel based on a signal received from an adjacent repeater through each channel according to the occurrence of a predetermined channel setup event. A weight determination unit(30) determines each weighted value applied to at least one characteristic parameter and the average reception signal. A channel setup unit(50) applies the determined weighted value to at least one characteristic parameter and the drawn average reception signal according to each channel. The channel setup unit calculates the channel performance according to each channel. The channel setup unit sets up a communications channel based on the calculated channel performance according to each channel. [Reference numerals] (10) Communication unit; (20) Signal drawing unit; (30) Weight determination unit; (40) Parameter setting unit; (50) Channel setup unit

Description

Channel setting method of wireless channel setting device and wireless channel setting device {WIRELESS CHANNEL SETTING-UP DEVICE AND CHANNEL SETTING-UP METHOD FOR THEREOF}

The present invention relates to a wireless channel setting apparatus, and more particularly, in the wireless data transmission system environment using the existing 2.4 GHz band, reflecting the environmental change gradually using the 5 GHz band, the AP is a channel The present invention relates to a channel setting method of a wireless channel setting device and a wireless channel setting device for selecting an optimal channel by reflecting a frequency characteristic of a 5GHz band distributed over a wide frequency band, a legal difference, and a terminal reception performance.

The wireless data transmission system (Wi-Fi, Wireless Fidelity) is a next generation communication method that further supports mobility (mobility) in a short-range data communication method using a fixed access point (AP), such as a conventional wireless LAN.

In this wireless data transmission system, various standards have been proposed, and international standardization of the portable Internet is currently progressing around the IEEE 802.1x. Wireless LAN terminal devices supporting Wireless LAN in IEEE 802.1x, when accessing the wireless Internet to use data services, first access the WLAN network through an access point (AP) and connect the wireless relay device. It is common to access the wireless Internet via.

In such a wireless data transmission system environment, when multiple wireless relay devices (AP) are installed in a specific area such as a public institution, a school, a subway, a terminal, and so on, to minimize interference due to signal overlap between APs, the wireless relay device (AP) When selecting a channel, the optimal channel is selected in consideration of interference with neighboring APs, and various channel selection algorithms for selecting an optimal channel have been proposed.

Meanwhile, the 2.4GHz band has been used in the existing wireless data transmission system environment. Accordingly, various existing channel selection algorithms for selecting an optimal channel in consideration of interference with neighboring APs when establishing a channel are established by considering / reflecting 2.4 GHz band characteristics.

However, as the use of wireless data has increased due to the recent activation of smartphones, the use of Wi-Fi services is also increasing, and the existing 2.4GHz band is occupied by too many APs, causing quality deterioration due to interference. Recently, a wireless data transmission service using the 5GHz ISM band has been started.

As described above, the 5 GHz band, which is being used in a wireless data transmission system environment, is different from the 2.4 GHz band in terms of bandwidth and channel configuration. In addition, since the frequency difference is large within the 5 GHz band, there are also differences in path loss and terminal reception performance according to bandwidth differences, and signal output differences prescribed by law.

Therefore, it is expected that the AP cannot set the optimal channel using various existing channel selection algorithms established by considering / reflecting 2.4GHz band characteristics when setting the channel in the 5GHz band.

The present invention has been made in view of the above circumstances, and an object of the present invention is to set at least one characteristic parameter for each channel to reflect frequency band characteristics corresponding to each channel, and to set a preset channel setting event. According to the occurrence, the average received signal of each channel is derived based on the signal received from the adjacent relay apparatus through each channel, and the weights applied to the at least one characteristic parameter and the average received signal are determined. The channel performance is calculated for each channel by applying the determined weight to the at least one characteristic parameter and the derived average received signal for each channel, and sets an optimum communication channel based on the calculated channel performance for each channel. Provides a channel setting method of the wireless channel setting device and the wireless channel setting device W, and to reflect changes in the environment, and increasingly used in the 5GHz band, existing wireless data transmission system environment using the 2.4GHz band was select the best channel.

According to a first aspect of the present invention, there is provided a wireless channel setting apparatus, including: a parameter setting unit configured to set at least one characteristic parameter for each channel by reflecting frequency band characteristics corresponding to each channel; A signal derivation unit for deriving an average received signal of each channel based on a signal received from an adjacent relay apparatus through each channel according to a preset channel setting event occurrence; A weight determination unit determining each weight applied to the at least one characteristic parameter and the average received signal; And calculating channel performance for each channel by applying the determined weight to the at least one characteristic parameter and the derived average received signal for each channel, and setting a communication channel based on the calculated channel performance for each channel. It includes a channel setting unit.

Preferably, the parameter setting unit may include a path loss parameter for each channel reflecting a different path loss according to the frequency of each channel, an output allowable parameter for each channel reflecting a signal output allowed for the frequency band of each channel, and the respective parameters. According to the frequency of the channel, at least one of the reception performance parameters for each channel reflecting the different terminal reception performance may be set.

Preferably, when the at least one adjacent relay device is determined for each channel according to the search for the relay device through each channel, the signal generator is recognized in a signal received from at least one adjacent relay device determined for each channel. The average received signal for each channel can be derived by calculating an average of received signal power for each channel by using signal reception power information.

Preferably, the channel setting unit applies the respective weights corresponding to the path loss parameter, the output permission parameter, the reception performance parameter, and the derived average reception signal, which are set corresponding to the corresponding channel, for each channel. Channel performance can be calculated.

Preferably, the weight determining unit is determined that at least one adjacent relay device is determined for each channel according to the search for the relay device through the respective channels, and the determined number of the adjacent relay devices is equal to or greater than a certain number of local areas in which interference is considered severe. In this case, the increase value corresponding to the number of the adjacent relay devices may be determined by reflecting the first weight value applied to the average received signal.

Preferably, the weight determination unit, at least one adjacent relay device is determined for each channel according to the relay device search through each channel, and the number of the specific wide area where the determined number of the adjacent relay devices is considered to have a severe path loss. In the following case, the increase value corresponding to the number of the adjacent relay devices may be determined by reflecting the second weight value applied to the path loss parameter.

Preferably, when the difference value between the signal output allowed for each channel reflected by the parameter setting unit when setting the output allowable parameter for each channel in the parameter setting unit is greater than a specific setting value that is considered to be a significant output difference, The increase corresponding to the difference between the signal outputs allowed for each channel may be determined by reflecting the third weight value applied to the output permission parameter.

In the channel setting method of the wireless channel setting apparatus according to the second aspect of the present invention for achieving the above object, a parameter setting step of setting at least one characteristic parameter for each channel by reflecting the frequency band characteristics corresponding to each channel ; A signal derivation step of deriving an average received signal of each channel based on a signal received from an adjacent relay apparatus through each channel according to a preset channel setting event occurrence; A weight determination step of determining each weight applied to the at least one characteristic parameter and the average received signal; And calculating channel performance for each channel by applying the determined weight to the at least one characteristic parameter and the derived average received signal for each channel, and setting a communication channel based on the calculated channel performance for each channel. Channel setting step.

Preferably, the parameter setting step may include a path loss parameter for each channel reflecting a different path loss according to the frequency of each channel, an output allowance parameter for each channel reflecting a signal output allowed for the frequency band of each channel, According to the frequency of each channel, at least one of the reception performance parameters for each channel reflecting the different terminal reception performance may be set.

Preferably, the signal derivation step, if at least one adjacent relay device is determined for each channel according to the relay device search through the respective channels, the signal derivation step is recognized in the signal received from at least one adjacent relay device determined for each channel The average received signal for each channel can be derived by calculating an average of received signal power for each channel using the received signal received power information.

Preferably, in the channel setting step, by applying the respective weights corresponding to the path loss parameter, the output permission parameter, the reception performance parameter, and the derived average reception signal, which are set corresponding to the corresponding channel, for each channel. The channel performance can be calculated.

Preferably, the weighting step may include determining the number of specific local areas in which at least one adjacent relay device is determined for each channel according to the search for the relay device through each channel, and the determined number of the adjacent relay devices is considered to be severely interfered. In this case, the increase value corresponding to the number of the adjacent relay devices may be determined by reflecting the first weight value applied to the average received signal.

Preferably, the weighting step may include determining a specific wide area in which at least one adjacent relay device is determined for each channel according to a search for a relay device through each channel, and the determined number of adjacent relay devices is regarded as having a severe path loss. When the number is less than or equal to, the increase value corresponding to the number of adjacent relay devices may be determined by reflecting the second weight value applied to the path loss parameter.

Preferably, the weight determining step, when the difference value between the signal output allowed for each channel reflected by the parameter setting unit when setting the output allowable parameter for each channel is more than a specific setting value that is considered to be a significant output difference The increase value corresponding to the difference value between the signal outputs allowed for each channel may be determined by reflecting the third weight value applied to the output permission parameter.

Accordingly, according to the channel setting method of the wireless channel setting apparatus and the wireless channel setting apparatus of the present invention, the AP repeats the channel in the 5 GHz band in response to an environment change using the 5 GHz band in the wireless data transmission system environment. When setting the system, select the optimal channel by reflecting the frequency characteristics and legal differences of the 5GHz band distributed over a wide frequency band, and the terminal reception performance.Furthermore, each frequency characteristic and regulation is considered in consideration of the environment in which the wireless channel setting device is installed. It is possible to select a more optimal channel considering the installation environment by varying / applying weights of different importance to differences and terminal reception performance.

1 is a block diagram showing a wireless channel setting apparatus according to a preferred embodiment of the present invention.
2 is a table showing characteristic parameters for each channel set in the wireless channel setting apparatus according to the preferred embodiment of the present invention.
3 is a control flowchart of a channel setting method of a wireless channel setting apparatus according to a preferred embodiment of the present invention.
4 is a flowchart illustrating a process of setting weights in a channel setting method of a wireless channel setting apparatus according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a wireless channel setting apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 1, the apparatus for setting a wireless channel according to the present invention includes a parameter setting unit 40 for setting at least one characteristic parameter for each channel by reflecting frequency band characteristics corresponding to each channel. In accordance with the occurrence of the set channel setting event, the signal extraction unit 20 for deriving the average received signal of each channel based on the signal received from the adjacent relay device through each channel, the at least one characteristic parameter and the average A weight determination unit 30 for determining each weight applied to the received signal, and calculating the channel performance for each channel by applying the determined weight to the at least one characteristic parameter set for each channel and the derived average received signal. And a channel setting unit 50 for setting a communication channel based on the calculated channel performance for each channel.

The wireless channel setting apparatus according to the present invention may further include a communication unit 10.

The communication unit 10 searches for a relay device using a corresponding channel through each available channel according to a preset channel setting event occurrence.

Here, the preset channel setting event includes a case in which an optimal channel setting is input by the user, a wireless channel setting device is initialized, or a situation in which channel reset is required during operation of the wireless channel setting device occurs.

When such a channel setting event occurs, the communication unit 10 receives a signal (eg, a beacon frame) from an adjacent relay device AP through each available channel operating in a reception mode, and receives the relay device ( Information obtained through the signal of the AP may be provided to the signal extractor 20 and the weight determiner 30.

The communication unit 10 may search for 19 channels allocated to the 5 GHz band, and may include a WLAN AP chipset.

The parameter setting unit 40 sets at least one characteristic parameter for each channel by reflecting frequency band characteristics corresponding to each channel.

In more detail, the parameter setting unit 40 includes a path loss parameter for each channel reflecting a different path loss according to the frequency of each channel, and an output allowable parameter for each channel reflecting a signal output allowed for the frequency band of each channel. For example, it is preferable to set at least one of reception performance parameters for each channel reflecting different terminal reception performance according to the frequency of each channel.

For example, the table showing the channel configuration of the 5GHz band is as follows.

Table 1.

As can be seen from Table 1. In the wireless channel setting apparatus according to the present invention, 19 channels are divided into A, B, C, and D bands among the 5 GHz bands, and all 19 channels are allocated to each band. That is, 19 channels in 20 MHz units are distributed over a total of 480 MHz bands from 5.15 GHz to 5.825 GHz.

)를 설정할 수 있다.Accordingly, the parameter setting unit 40 includes a path loss parameter for each channel reflecting a different path loss according to the frequency of each channel.

) Can be set.

That is, at 5 GHz, since each channel spans a wide frequency band, there is a difference in free space loss for each band and channel, and may vary up to 1 dB.

)를 설정할 수 있다.Therefore, the parameter setting unit 40 derives the free space loss, that is, the path loss for each channel, which is obtained through the experimental value or calculated through the data according to the frequency of each channel, and based on the derived path loss for each channel. It is a variable representing the relative difference of each channel, and the path loss parameter of each channel (

) Can be set.

)를 설정할 수 있다.The parameter setting unit 40 outputs an output allowable parameter for each channel that reflects the signal output allowed in the frequency band of each channel.

) Can be set.

In other words, in accordance with national legislation, the allowable signal output is set at 2.5mW / MHz in the A band of 5.15 ~ 5.25GHz band, which is only 1/4 of other bands (B, C, D).

)를 설정할 수 있고, 5.15 ~ 5.25GHz 대역인 채널 36, 40, 44, 48에서의 출력허용 파라미터(

) 값을 -6(dB, 1/4을 dB로 환산)으로 정의하며, 타 채널의 출력허용 파라미터(

) 값은 0으로 유지한다.Accordingly, the parameter setting unit 40 is a variable representing a signal output allowed in the frequency band of each channel as a relative variable.

), And allow output parameters for channels 36, 40, 44, and 48 in the 5.15 to 5.25 GHz band.

) Is defined as -6 (dB, 1/4 in dB), and the output allowance parameter of the other channel (

) Value is 0.

)는, 국가 별로 차이가 있을 수 있고 변경 가능하다.Of course, the output allowance parameter for each channel (

) Can vary from country to country and can be changed.

)를 설정할 수 있다.In addition, the parameter setting unit 40 may include reception performance parameters for each channel reflecting different terminal reception performances according to the frequencies of the respective channels.

) Can be set.

That is, since the signal is received over a wide band ranging from 5.15 GHz to 5.825 GHz, there is a difference in reception performance of the terminal for each band.

를 정의하고, 161번 채널을 기준으로 하여 각 채널 별로 수신성능 파라미터(

)를 설정/가정한다.Therefore, the parameter setting unit 40 is a characteristic parameter representing the difference in reception performance of the terminal for each band.

, And receive performance parameters of each channel based on channel 161 (

Set / assume).

)는, 단말 별로 차이가 있을 수 있고 변경 가능하다.Of course, each channel's reception performance parameter (

) May be different for each terminal and may be changed.

), 각 채널 별 출력허용 파라미터(

), 각 채널 별 수신성능 파라미터(

)는 도 2와 같을 수 있다.Therefore, the path loss parameter for each channel set by the parameter setting unit 40 (

), Output allowable parameter for each channel

), Reception performance parameters for each channel (

) May be the same as in FIG. 2.

The signal derivation unit 20 derives an average received signal of each channel based on a signal received from an adjacent relay apparatus through each channel according to a preset channel setting event.

In more detail, when at least one adjacent relay device is determined for each channel according to a search for a relay device through each channel, the signal generator 20 is received from at least one adjacent relay device determined for each channel. The average received signal for each channel can be derived by calculating an average of received signal power for each channel using the signal received power information recognized in the signal.

For example, the signal generator 20 may provide information obtained from signals of a relay device (AP) received through each channel from the communication unit 10 operating in a reception mode according to the channel setting event as described above. I can receive it.

At this time, in the information obtained from the signal of the relay device (AP), the channel information (for example, channel number) used by the relay device (AP), signal reception power information, supporting transmission standard information, SSID, bandwidth information used, etc. You can see the information.

In addition, the signal derivation unit 20 or another function unit (not shown) selects a relay device AP having a received signal power equal to or greater than a preset signal strength reference value based on the received signal power information of the retrieved relay device AP. Determine to be an adjacent relay device (AP).

)를 도출할 수 있다.Accordingly, when the adjacent relay device AP is determined, the signal extractor 20 receives the received signal power for each channel by using the signal reception power information recognized in the signal received from the adjacent relay device AP determined for each channel. By calculating the average of, the average received signal for each channel (

) Can be derived.

The weight determination unit 30 determines each weight applied to at least one characteristic parameter determined by the parameter setting unit 40 and the average received signal derived from the signal derivation unit 20.

)에 적용하는 제2가중치(

), 출력허용 파라미터(

)에 적용하는 제3가중치(

), 수신성능 파라미터(

)에 적용하는 제4가중치(

) 및 평균 수신신호(

)에 적용하는 제1가중치(

)를 결정하게 된다.More specifically, the weight determination unit 30 is a path loss parameter (

) Second weight to apply to

), Output allowable parameter (

), The third weight applied to

), Reception performance parameters (

Fourth weighting factor)

) And average received signal (

First weight applied to

).

), 제3가중치(

), 제4가중치(

), 제1가중치(

)를 설정된 기본값으로 고정/결정할 수 있다.The weight determination unit 30, the second weight value (

), Third weight (

), Fourth weight (

), First weight (

) Can be fixed / determined as the set default.

), 제3가중치(

), 제4가중치(

), 제1가중치(

)를 가변/결정할 수 있다. 이 경우는 후술에서 보다 구체적으로 설명하도록 한다.On the other hand, the weight determination unit 30, according to the environment in which the wireless channel setting device to which it belongs is a second weight value (

), Third weight (

), Fourth weight (

), First weight (

) Can be varied / determined. This case will be described in more detail later.

The channel setting unit 50 calculates channel performance for each channel by applying the determined weight to the at least one characteristic parameter set for each channel and the derived average received signal, and based on the calculated channel performance for each channel. To set the communication channel.

) 및 출력허용 파라미터(

) 및 수신성능 파라미터(

)와, 도출된 평균 수신신호(

)에 해당되는 각 가중치(

,

,

,

)를 적용하여 채널성능을 계산한다.In more detail, the channel setting unit 50, for each of 19 channels, sets a path loss parameter (corresponding to the corresponding channel).

) And output allowable parameters (

) And receive performance parameters (

) And the averaged received signal (

For each weight ()

,

,

,

) To calculate the channel performance.

The channel setting unit 50 may determine a channel having the largest value among the calculated channel performances of each of the 19 channels as an optimal channel, and set the channel as a communication channel.

Equation 1.

) 및 출력허용 파라미터(

) 및 수신성능 파라미터(

)와, 도출된 평균 수신신호(

)에 해당되는 각 가중치(

,

,

,

)를 적용하여 채널성능을 계산하고, 각 채널 별 채널성능 중 가장 큰 값을 가지는 채널을 통신 채널로 설정할 수 있다.That is, as shown in Equation 1., the channel setting unit 50, the path loss parameter for each channel (

) And output allowable parameters (

) And receive performance parameters (

) And the averaged received signal (

For each weight ()

,

,

,

Channel performance can be calculated by applying), and the channel having the largest value among the channel performance of each channel can be set as a communication channel.

As described above, the wireless channel setting apparatus according to the present invention reflects an environmental change gradually using the 5 GHz band in the environment of a wireless data transmission system using the existing 2.4 GHz band, so that the wireless relay device (AP) is wide when the channel is set. The optimal channel can be selected by reflecting the frequency characteristics, legal differences, and terminal reception performance of the 5 GHz band distributed over the frequency band.

On the other hand, the weight determination unit 30 will be described in more detail the process of determining each weight according to the environment in which the wireless channel setting device to which it belongs.

)에 반영하여 결정할 수 있다.As described above, when the at least one adjacent relay device AP is determined for each channel according to the search for the relay device through each channel as described above, the weight determination unit 30 determines that the determined number of the adjacent relay devices AP is severely interfered. In the case of more than a certain number of local areas considered, an increase value corresponding to the number of adjacent relay devices AP is applied to the average received signal.

Can be determined by

That is, if the total number of APs determined in all channels is greater than or equal to a specific local area, it may be determined that the AP is installed in a very large area due to a large number of APs.

)에 적용하는 제1가중치(

)에 반영하여 결정함으로써, 평균 수신신호(

)에 대한 가중치를 높여 채널설정부(50)의 채널 설정 시 평균 수신신호(

)를 크게 반영하도록 할 수 있다.Accordingly, if the total number of adjacent relay devices AP is equal to or greater than the number of specific local areas, the weight determiner 30 sets the specific increase value corresponding to the number of adjacent relay devices AP to the average received signal (

First weight applied to

By reflecting the average received signal (

To increase the weight of the average signal received when setting the channel of the channel setting unit 50 (

) Can be greatly reflected.

)에 적용되는 제2가중치(

)에 반영하여 결정할 수 있다.As described above, when the at least one adjacent relay device AP is determined for each channel according to the search for the relay device through each channel as described above, the weight determining unit 30 determines the number of the adjacent relay devices AP by the path loss. If the number is less than a certain wide area considered to be severe, the increase corresponding to the number of adjacent relay devices (AP) is increased by the path loss parameter (

) Weights that apply to

Can be determined by

That is, if the total number of APs determined in all channels is less than or equal to a specific wide area number, it may be determined that a large area with a large path loss is not installed because many APs are not installed.

)에 적용하는 제2가중치(

)에 반영하여 결정함으로써, 경로손실 파라미터(

)에 대한 가중치를 높여 채널설정부(50)의 채널 설정 시 경로손실 파라미터(

)를 크게 반영하도록 할 수 있다.Accordingly, if the total number of adjacent relay devices AP is less than or equal to a specific wide area number, the weight determining unit 30 sets a specific increase value corresponding to the number of adjacent relay devices AP to the path loss parameter (

) Second weight to apply to

), And the path loss parameter (

To increase the weight for the path loss parameter in the channel setting of the channel setting unit 50 (

) Can be greatly reflected.

) 설정 시 반영하는 각 채널 별로 허용되는 신호 출력 간의 차이값이 출력 차이가 심한 것으로 간주되는 특정 설정값 이상인 경우, 각 채널 별로 허용되는 신호 출력 간의 차이값에 대응하는 증가치를 출력허용 파라미터(

)에 적용되는 제3가중치(

)에 반영하여 결정할 수 있다.Then, the weight determination unit 30, the parameter setting unit 40, the output allowable parameter for each channel (

If the difference value between the signal outputs allowed for each channel reflected at the time of setting is greater than the specific setting value that the output difference is considered to be severe, the increase value corresponding to the difference value between the signal outputs allowed for each channel is allowed.

Third weight applied to

Can be determined by

)를 설정한다.That is, the parameter setting unit 40 reflects the signal output allowed in the frequency band of each channel in accordance with the law as described above, and indicates an output allowable parameter for each channel representing a relative output difference (

).

) 설정 과정에서 이용하는 각 채널 별로 허용되는 신호 출력 간의 차이값이 특정 설정값 이상이라고 판단되면, 각 채널 별로 허용되는 신호 출력 간의 차이가 심하다고 판단할 수 있다.At this time, the weight determination unit 30 outputs an output allowable parameter for each channel in the parameter setting unit 40 (

) If it is determined that the difference between the signal outputs allowed for each channel used in the setting process is greater than or equal to a specific setting value, it may be determined that the difference between the signal outputs allowed for each channel is severe.

)에 적용되는 제3가중치(

)에 반영하여 결정함으로써, 출력허용 파라미터(

)에 대한 가중치를 높여 채널설정부(50)의 채널 설정 시 출력허용 파라미터(

)를 크게 반영하도록 할 수 있다.Accordingly, the weight determining unit 30 outputs an increase value corresponding to the difference value that is greater than or equal to the set value when the difference value between the signal outputs allowed for each channel is equal to or greater than the specific setting value.

Third weight applied to

), And the output allowable parameter (

By increasing the weight for the output parameter when the channel setting of the channel setting unit 50 (

) Can be greatly reflected.

Of course, the weight determiner 30 may fix / determine the weights as default values for weights that do not have to be set by increasing the weight as described above.

As described above, the wireless channel setting apparatus according to the present invention reflects the change in the environment using the 5 GHz band in the wireless data transmission system environment, and is distributed over a wide frequency band when the AP sets the channel in the 5 GHz band. The optimal channel is selected by reflecting the frequency characteristics of the 5 GHz band, the difference in laws and regulations, and the terminal reception performance. By varying / applying the weights, a more optimal channel considering the installation environment can be selected.

Hereinafter, a channel setting method of a wireless channel setting apparatus according to a preferred embodiment of the present invention will be described with reference to FIGS. 3 to 4. Here, for the convenience of description, the configuration shown in FIG. 1 described above will be described with reference to the corresponding reference numerals.

First, a channel setting method of a wireless channel setting apparatus according to a preferred embodiment of the present invention will be described with reference to FIG. 3.

In the channel setting method of the wireless channel setting apparatus according to the present invention, at least one characteristic parameter is set for each channel by reflecting the frequency band characteristic corresponding to each channel (S10).

In more detail, the channel setting method of the wireless channel setting apparatus according to the present invention includes a path loss parameter for each channel reflecting a different path loss according to the frequency of each channel, and a signal output allowed for the frequency band of each channel. It is preferable to set at least one of an output allowance parameter for each channel and a reception performance parameter for each channel reflecting a different terminal reception performance according to the frequency of each channel.

)를 설정할 수 있다.For example, the channel setting method of the wireless channel setting apparatus according to the present invention includes a path loss parameter for each channel reflecting a different path loss according to the frequency of each channel.

) Can be set.

That is, at 5 GHz, since each channel spans a wide frequency band, there is a difference in free space loss for each band and channel, and may vary up to 1 dB.

)를 설정할 수 있다.Accordingly, in the channel setting method of the wireless channel setting apparatus according to the present invention, a free space loss, that is, a path loss, is derived for each channel obtained through an experimental value or calculated through data according to the frequency of each channel. It is a variable that shows the relative difference of each channel based on the path loss.

) Can be set.

)를 설정할 수 있다.And the channel setting method of the wireless channel setting apparatus according to the present invention, the output allowance parameter for each channel reflecting the signal output allowed in the frequency band of each channel (

) Can be set.

In other words, in accordance with national legislation, the allowable signal output is set at 2.5mW / MHz in the A band of 5.15 ~ 5.25GHz band, which is only 1/4 of other bands (B, C, D).

)를 설정할 수 있고, 5.15 ~ 5.25GHz 대역인 채널 36, 40, 44, 48에서의 출력허용 파라미터(

) 값을 -6(dB, 1/4을 dB로 환산)으로 정의하며, 타 채널의 출력허용 파라미터(

) 값은 0으로 유지한다.Therefore, the channel setting method of the wireless channel setting apparatus according to the present invention is a variable indicating a signal output that is allowed in the frequency band of each channel as a parameter that allows the output allowance parameter for each channel (

), And allow output parameters for channels 36, 40, 44, and 48 in the 5.15 to 5.25 GHz band.

) Is defined as -6 (dB, 1/4 in dB), and the output allowance parameter of the other channel (

) Value is 0.

)를 설정할 수 있다.In addition, the channel setting method of the wireless channel setting apparatus according to the present invention includes a reception performance parameter for each channel reflecting different terminal reception performance according to the frequency of each channel.

) Can be set.

That is, since the signal is received over a wide band ranging from 5.15 GHz to 5.825 GHz, there is a difference in reception performance of the terminal for each band.

를 정의하고, 161번 채널을 기준으로 하여 각 채널 별로 수신성능 파라미터(

)를 설정/가정한다.Therefore, the channel setting method of the wireless channel setting apparatus according to the present invention is a characteristic parameter indicating a difference in reception performance of the terminal for each band.

, And receive performance parameters of each channel based on channel 161 (

Set / assume).

), 각 채널 별 출력허용 파라미터(

), 각 채널 별 수신성능 파라미터(

)는 도 2와 같을 수 있다.Therefore, the path loss parameter for each channel set in the channel setting method of the wireless channel setting apparatus according to the present invention (

), Output allowable parameter for each channel

), Reception performance parameters for each channel (

) May be the same as in FIG. 2.

In addition, in the channel setting method of the wireless channel setting apparatus according to the present invention, when a preset channel setting event occurs (S20), the relay apparatus using the corresponding channel is searched through each available channel (S30).

Here, the preset channel setting event includes a case in which an optimal channel setting is input by the user, a wireless channel setting device is initialized, or a situation in which channel reset is required during operation of the wireless channel setting device occurs.

When such a channel setting event occurs, the channel setting method of the wireless channel setting apparatus according to the present invention operates in a reception mode and receives a signal (for example, a beacon frame) from an adjacent AP through each available channel. Information to be received and obtained via the signal of the receiving AP will be used later.

That is, the channel setting method of the wireless channel setting apparatus according to the present invention derives an average received signal of each channel based on the signal received from the adjacent relay apparatus through each channel (S40).

More specifically, in the channel setting method of the wireless channel setting apparatus according to the present invention, if at least one adjacent relay device is determined for each channel according to a search for a relay device through each channel, at least one determined for each channel is determined. The average received signal for each channel may be derived by calculating an average of received signal power for each channel using signal received power information recognized in a signal received from an adjacent relay device.

For example, in the channel setting method of the wireless channel setting apparatus according to the present invention, a neighboring relay apparatus is obtained by using information obtained from signals of a relay device (AP) received through each channel according to the channel setting event as described above. Determine the (AP).

At this time, in the information obtained from the signal of the relay device (AP), the channel information (for example, channel number) used by the relay device (AP), signal reception power information, supporting transmission standard information, SSID, bandwidth information used, etc. You can see the information.

Accordingly, the channel setting method of the wireless channel setting apparatus according to the present invention selects a relay device AP having a received signal power equal to or greater than a preset signal strength reference value based on the received signal power information of the relay device AP and the adjacent relay device. Is determined to be (AP).

)를 도출할 수 있다(S40).Therefore, the channel setting method of the wireless channel setting apparatus according to the present invention, when the adjacent relay device (AP) is determined, by using the signal receiving power information that is recognized in the signal received from the adjacent relay device (AP) determined for each channel By calculating the average of the received signal power for each channel, the average received signal for each channel (

) Can be derived (S40).

The channel setting method of the apparatus for setting a wireless channel according to the present invention determines each weight applied to at least one characteristic parameter determined in step S10 (S50).

)에 적용하는 제2가중치(

), 출력허용 파라미터(

)에 적용하는 제3가중치(

), 수신성능 파라미터(

)에 적용하는 제4가중치(

) 및 평균 수신신호(

)에 적용하는 제1가중치(

)를 결정하게 된다.More specifically, the channel setting method of the wireless channel setting apparatus according to the present invention includes a path loss parameter (

) Second weight to apply to

), Output allowable parameter (

), The third weight applied to

), Reception performance parameters (

Fourth weighting factor)

) And average received signal (

First weight applied to

).

), 제3가중치(

), 제4가중치(

), 제1가중치(

)를 설정된 기본값으로 고정/결정할 수 있다.The channel setting method of the wireless channel setting apparatus according to the present invention, the second weight value (

), Third weight (

), Fourth weight (

), First weight (

) Can be fixed / determined as the set default.

), 제3가중치(

), 제4가중치(

), 제1가중치(

)를 가변/결정할 수 있다. 이 경우는 후술에서 도 4를 참조하여 보다 구체적으로 설명하도록 한다.On the other hand, the channel setting method of the wireless channel setting apparatus according to the present invention, the second weight value (

), Third weight (

), Fourth weight (

), First weight (

) Can be varied / determined. This case will be described in more detail with reference to FIG. 4 below.

In the channel setting method of the wireless channel setting apparatus according to the present invention, the channel performance is calculated for each channel by applying the determined weight to the at least one characteristic parameter set for each channel and the derived average received signal (S60), A communication channel is set based on the calculated channel performance for each channel (S70).

) 및 출력허용 파라미터(

) 및 수신성능 파라미터(

)와, 도출된 평균 수신신호(

)에 해당되는 각 가중치(

,

,

,

)를 적용하여 채널성능을 계산한다.In more detail, the channel setting method of the apparatus for setting a wireless channel according to the present invention includes a path loss parameter set for each of the 19 channels corresponding to the corresponding channel.

) And output allowable parameters (

) And receive performance parameters (

) And the averaged received signal (

For each weight ()

,

,

,

) To calculate the channel performance.

In the channel setting method of the apparatus for setting a wireless channel according to the present invention, a channel having the largest value among the calculated channel performances of each of 19 channels may be determined as an optimal channel, and the channel may be set as a communication channel.

) 및 출력허용 파라미터(

) 및 수신성능 파라미터(

)와, 도출된 평균 수신신호(

)에 해당되는 각 가중치(

,

,

,

)를 적용하여 채널성능을 계산하고, 각 채널 별 채널성능 중 가장 큰 값을 가지는 채널을 통신 채널로 설정할 수 있다.That is, as in Equation 1. mentioned above, the channel setting method of the wireless channel setting apparatus according to the present invention, the path loss parameter for each channel (

) And output allowable parameters (

) And receive performance parameters (

) And the averaged received signal (

For each weight ()

,

,

,

Channel performance can be calculated by applying), and the channel having the largest value among the channel performance of each channel can be set as a communication channel.

As described above, the channel setting method of the wireless channel setting apparatus according to the present invention reflects an environment change gradually using the 5 GHz band in the existing wireless data transmission system environment using the 2.4 GHz band, and thus, the AP When setting the channel, it is possible to select the optimal channel by reflecting the frequency characteristics of the 5GHz band distributed over a wide frequency band, legal differences, and terminal reception performance.

Meanwhile, in the channel setting method of the wireless channel setting apparatus according to the present invention, a process of determining each weight according to an environment in which the wireless channel setting apparatus to which the wireless channel setting apparatus belongs is installed will be described in more detail with reference to FIG. 4.

)에 반영하여 결정할 수 있다(S52).In the channel setting method of the wireless channel setting apparatus according to the present invention, if at least one adjacent relay device (AP) is determined for each channel according to the relay device search through each channel as described above, the determined adjacent relay device (AP) is determined. If the number is equal to or greater than the number of specific local areas considered to be severely interfering (S51), an increase value corresponding to the number of adjacent relay devices AP is applied to the first received signal (

It can be determined by reflecting (S52).

That is, if the total number of APs determined in all channels is greater than or equal to a specific local area, it may be determined that the AP is installed in a very large area due to a large number of APs.

)에 적용하는 제1가중치(

)에 반영하여 결정함으로써, 평균 수신신호(

)에 대한 가중치를 높여 S60, S70단계의 채널 설정 시 평균 수신신호(

)를 크게 반영하도록 할 수 있다.Accordingly, in the channel setting method of the wireless channel setting apparatus according to the present invention, if the total number of adjacent relay devices AP is equal to or greater than a specific local area number, a specific increase value corresponding to the number of adjacent relay devices AP is averaged. (

First weight applied to

By reflecting the average received signal (

) To increase the weight of the average received signal (when setting channels in steps S60 and S70).

) Can be greatly reflected.

)에 적용되는 제2가중치(

)에 반영하여 결정할 수 있다(S54).In the channel setting method of the wireless channel setting apparatus according to the present invention, if at least one adjacent relay apparatus (AP) is determined for each channel according to the search for the relay apparatus through each channel as described above, the determined adjacent relay apparatus (AP) is determined. ) Is less than or equal to the number of specific wide areas considered to be severe in path loss (S53), the increase corresponding to the number of adjacent relay devices AP is increased by the path loss parameter (

) Weights that apply to

Can be determined (S54).

That is, if the total number of APs determined in all channels is less than or equal to a specific wide area number, it may be determined that a large area with a large path loss is not installed because many APs are not installed.

)에 적용하는 제2가중치(

)에 반영하여 결정함으로써, 경로손실 파라미터(

)에 대한 가중치를 높여 S60, S70단계의 채널 설정 시 경로손실 파라미터(

)를 크게 반영하도록 할 수 있다.Accordingly, in the channel setting method of the wireless channel setting apparatus according to the present invention, if the total number of adjacent relay devices AP is less than or equal to a specific wide area number, a specific increase value corresponding to the number of adjacent relay devices AP is set to a path loss parameter. (

) Second weight to apply to

), And the path loss parameter (

To increase the weighting for the path loss parameter (S60, S70).

) Can be greatly reflected.

) 설정 시 반영하는 각 채널 별로 허용되는 신호 출력 간의 차이값이 출력 차이가 심한 것으로 간주되는 특정 설정값 이상인 경우(S55), 각 채널 별로 허용되는 신호 출력 간의 차이값에 대응하는 증가치를 출력허용 파라미터(

)에 적용되는 제3가중치(

)에 반영하여 결정할 수 있다(S56).And, the channel setting method of the wireless channel setting apparatus according to the present invention, in addition to the step S51 and S53 to determine based on the number of the adjacent relay device (AP), in step S10 the output allowance parameter for each channel (

) If the difference value between the signal outputs allowed for each channel reflected at the time of setting is more than a specific setting value that is considered to be a severe output difference (S55), an increase value corresponding to the difference value between the signal outputs allowed for each channel is allowed. (

Third weight applied to

It can be determined by reflecting (S56).

)를 설정한다.In other words, the channel setting method of the wireless channel setting apparatus according to the present invention reflects the signal output allowed in the frequency band of each channel in accordance with the law as described above.

).

) 설정 과정에서 이용하는 각 채널 별로 허용되는 신호 출력 간의 차이값이 특정 설정값 이상이라고 판단되면, 각 채널 별로 허용되는 신호 출력 간의 차이가 심하다고 판단할 수 있다.At this time, the channel setting method of the wireless channel setting apparatus according to the present invention, the output allowable parameter for each channel (

) If it is determined that the difference between the signal outputs allowed for each channel used in the setting process is greater than or equal to a specific setting value, it may be determined that the difference between the signal outputs allowed for each channel is severe.

)에 적용되는 제3가중치(

)에 반영하여 결정함으로써, 출력허용 파라미터(

)에 대한 가중치를 높여 S60, S70단계의 채널 설정 시 출력허용 파라미터(

)를 크게 반영하도록 할 수 있다.Accordingly, in the channel setting method of the wireless channel setting apparatus according to the present invention, if the difference value between the signal outputs allowed for each channel is greater than or equal to a specific setting value, an increase value corresponding to the difference value that is greater than or equal to the setting value is allowed.

Third weight applied to

), And the output allowable parameter (

Increase the weight for) to allow output parameters when setting channels in steps S60 and S70.

) Can be greatly reflected.

Of course, the channel setting method of the apparatus for setting a wireless channel according to the present invention may be fixed / determined as a default value for weights that do not occur when the weight should be set as described above (S57).

As described above, the channel setting method of the wireless channel setting apparatus according to the present invention reflects an environment change using the 5 GHz band in the wireless data transmission system environment, so that the AP repeats the channel in the 5 GHz band. When setting, the optimal channel is selected by reflecting the frequency characteristics and legal differences of the 5GHz band distributed over a wide frequency band, and the terminal reception performance.Furthermore, each frequency characteristic and legal differences are considered in consideration of the environment in which the wireless channel setting device is installed. And by varying / applying weights of different importance to the terminal reception performance, it is possible to select a more optimal channel considering the installation environment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Reflecting the changes in the environment using the 5GHz band in the wireless data transmission system environment, the frequency characteristics and laws of the 5GHz band distributed over a wide frequency band when the AP establishes a channel in the 5GHz band, and the terminal reception Since the optimal channel can be selected in consideration of performance, etc., the limitation of the existing technology is not only sufficient for the use of the related technology, but also the possibility of commercialization or sales of the applied device is not only sufficient, but also realistically performed. It is an invention with industrial applicability as it exists.

10: communication unit 20: signal extraction unit
30: weight determination unit 40: parameter setting unit
50: channel setting unit

Claims (14)

A parameter setting unit configured to set at least one characteristic parameter for each channel by reflecting frequency band characteristics corresponding to each channel;
A signal derivation unit for deriving an average received signal of each channel based on a signal received from an adjacent relay apparatus through each channel according to a preset channel setting event occurrence;
A weight determination unit determining each weight applied to the at least one characteristic parameter and the average received signal; And
A channel that calculates channel performance for each channel by applying the determined weight to the at least one characteristic parameter and the derived average received signal for each channel, and sets a communication channel based on the calculated channel performance for each channel. Wireless channel setting apparatus comprising a setting unit. The method of claim 1,
The parameter setting unit,
Path loss parameter for each channel reflecting the different path loss according to the frequency of each channel, Output permissible parameter for each channel reflecting the signal output allowed in the frequency band of each channel, Different terminal reception performance according to the frequency of each channel Wireless channel setting device, characterized in that for setting at least one of the reception performance parameters for each channel reflecting. The method of claim 2,
The signal generation unit,
When at least one adjacent relay device is determined for each channel according to the search for the relay device through the respective channels, the signal reception power information is recognized using signals received from signals received from the at least one adjacent relay device determined for each channel. And calculating an average received signal power for each channel to derive the average received signal for each channel. The method of claim 2,
The channel setting unit,
For each channel, the channel performance is calculated by applying the respective weights corresponding to the path loss parameter, the output allowance parameter, the reception performance parameter, and the derived average reception signal set corresponding to the corresponding channel. Wireless channel setting device. The method according to any one of claims 1 to 4,
The weight determination unit,
At least one adjacent relay device is determined for each channel according to the search for the relay device through each channel, and if the determined number of the adjacent relay devices is equal to or greater than the number of specific local areas considered to be severely interference, the number of adjacent relay devices is determined. And determining a corresponding increase value based on a first weight value applied to the average received signal. 5. The method according to any one of claims 2 to 4,
The weight determination unit,
If at least one adjacent relay is determined for each channel according to the search for the relay through each channel, and the number of the adjacent relays determined to be less than or equal to a specific wide area number that is considered to be severe in path loss, the number of the adjacent relays. And determining an increase corresponding to the second weight value applied to the path loss parameter. 5. The method according to any one of claims 2 to 4,
The weight determination unit,
When the difference between the signal outputs allowed for each channel reflected by the parameter setting unit when setting the output allowable parameter for each channel is greater than a specific setting value at which the output difference is considered to be severe, between the signal outputs allowed for each channel And determining an increase value corresponding to the difference value by reflecting it to a third weight value applied to the output permission parameter. A parameter setting step of setting at least one characteristic parameter for each channel by reflecting frequency band characteristics corresponding to each channel;
A signal derivation step of deriving an average received signal of each channel based on a signal received from an adjacent relay apparatus through each channel according to a preset channel setting event occurrence;
A weight determination step of determining each weight applied to the at least one characteristic parameter and the average received signal; And
A channel that calculates channel performance for each channel by applying the determined weight to the at least one characteristic parameter and the derived average received signal for each channel, and sets a communication channel based on the calculated channel performance for each channel. Channel setting method of a wireless channel setting device comprising a setting step. The method of claim 8,
The parameter setting step,
Path loss parameter for each channel reflecting the different path loss according to the frequency of each channel, Output permissible parameter for each channel reflecting the signal output allowed in the frequency band of each channel, Different terminal reception performance according to the frequency of each channel Channel setting method of a wireless channel setting device, characterized in that for setting at least one of the reception performance parameters for each channel reflecting the. The method of claim 9,
The signal derivation step,
When at least one adjacent relay device is determined for each channel according to the search for the relay device through the respective channels, the signal reception power information is recognized using signals received from signals received from the at least one adjacent relay device determined for each channel. And calculating the average received signal power for each channel to derive the average received signal for each channel. The method of claim 9,
The channel setting step,
For each channel, the channel performance is calculated by applying the respective weights corresponding to the path loss parameter, the output allowance parameter, the reception performance parameter, and the derived average reception signal set corresponding to the corresponding channel. Channel setting method of wireless channel setting device. The method according to any one of claims 8 to 11,
The weight determination step,
At least one adjacent relay device is determined for each channel according to the search for the relay device through each channel, and if the determined number of the adjacent relay devices is equal to or greater than the number of specific local areas considered to be severely interference, the number of adjacent relay devices is determined. And determining a corresponding increase value based on a first weight value applied to the average received signal. 12. The method according to any one of claims 9 to 11,
The weight determination step,
If at least one adjacent relay is determined for each channel according to the search for the relay through each channel, and the number of the adjacent relays determined to be less than or equal to a specific wide area number that is considered to be severe in path loss, the number of the adjacent relays. The channel setting method of the wireless channel setting apparatus, characterized in that determined by reflecting the increase value corresponding to the second weight value applied to the path loss parameter. 12. The method according to any one of claims 9 to 11,
The weight determination step,
When the difference between the signal outputs allowed for each channel reflected by the parameter setting unit when setting the output allowable parameter for each channel is greater than a specific setting value at which the output difference is considered to be severe, between the signal outputs allowed for each channel And determining an increase value corresponding to the difference value by reflecting the increase value to the third weight value applied to the output permission parameter.

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