KR102325936B1 - Access point, control method thereof, recording medium for recording program for executing the control method, application saved in the recording medium for executing the control method being combined with hardware - Google Patents

Abstract

The present invention relates to an access point, a control method thereof, a recording medium storing a program for executing the control method, and an application stored in the medium in combination with hardware to execute the control method. The control method of an access point for transmitting a response signal to a corresponding communication terminal when the strength of a received signal received from a communication terminal is greater than a preset reference signal strength according to the present invention, a terminal based on a signal received from at least one communication terminal Determining whether the situation is crowded; When it is determined that the terminal is crowded, reducing the size of the transmission output according to a preset algorithm and increasing the reference signal strength according to a preset algorithm.

Description

An access point and its control method, a recording medium recording a program for executing the control method, and an application stored in the medium in combination with hardware to execute the control method {ACCESS POINT, CONTROL METHOD THEREOF, RECORDING MEDIUM FOR RECORDING PROGRAM FOR EXECUTING THE CONTROL METHOD, APPLICATION SAVED IN THE RECORDING MEDIUM FOR EXECUTING THE CONTROL METHOD BEING COMBINED WITH HARDWARE}

The present invention relates to an access point, a control method thereof, a recording medium recording a program for executing the control method, and an application stored in the medium in combination with hardware to execute the control method, and more particularly, to a cluster of terminals It relates to an access point performing appropriate communication connection measures in a situation, a control method thereof, a recording medium recording a program for executing the control method, and an application stored in the medium in combination with hardware to execute the control method.

The access point is a device that supports each communication terminal to access an external network such as the Internet by performing wireless communication with the communication terminal.

Such an access point and a communication terminal may communicate with each other in a wireless LAN method, for example.

However, in a state in which communication terminals are dense, that is, in a state in which the number of communication terminals communicating with the access point rapidly increases, the access point cannot perform a normal function.

That is, in the terminal density state, a kind of overload condition occurs in processing various request signals received from each communication terminal, so that the access point exhibits various problems in its functional operation.

As an example, a case in which the access point stops operating in a state in which terminals are dense may also occur.

Therefore, special measures are required to maintain the normal functional operation of the access point when the terminal concentration situation occurs.

Patent Publication No. 10-2015-0034818

The present invention has been devised to solve the above problems (and disadvantages) of the prior art, and its object is to process an access point and its control method so that a functional failure does not occur even in a dense terminal state, and a program for executing the control method It is to provide an application stored in the medium in order to execute the control method in combination with a recording medium and hardware.

In order to achieve the above object, when the strength of the received signal received from the communication terminal according to the present invention is greater than the preset reference signal strength, the access point for transmitting a response signal to the corresponding communication terminal is a signal received from at least one communication terminal. a determination unit for determining whether the terminal is in a dense state based on ; As a result of the determination of the determination unit, when the terminal is crowded, the control unit reduces the size of the transmission output according to a preset algorithm and increases the reference signal strength according to a preset algorithm.

In addition, in order to achieve the above object, the control method of an access point for transmitting a response signal to a corresponding communication terminal when the strength of a received signal received from a communication terminal according to the present invention is greater than a preset reference signal strength, at least one communication Determining whether the terminal is crowded on the basis of the signal received from the terminal; If the determination result is a terminal concentration situation, reducing the size of the transmission output according to a preset algorithm and increasing the reference signal strength according to a preset algorithm.

As described above, according to the present invention, it is possible to ensure the normal operation of the access point in the terminal congestion situation. That is, it is possible to prevent in advance the occurrence of a failure due to the terminal concentration of the access point, and it is possible to reduce the operating cost because monitoring and manual adjustment of the operator are not required.

1 is a schematic configuration diagram of an entire communication system including an access point according to an embodiment of the present invention;
Figure 2 is a functional block diagram of the access point of Figure 1,
3 and 4 are control flowcharts of an access point according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, each embodiment according to the present invention is merely an example for helping understanding of the present invention, and the present invention is not limited to these embodiments. In particular, the present invention may be composed of a combination of at least any one of individual components, individual functions, or individual steps included in each embodiment.

A schematic configuration of the entire communication system including the access point 100 according to an embodiment of the present invention is shown in FIG. 1 .

As shown in the figure, the entire communication system may include an access point 100 and at least one communication terminal 200 .

The communication terminal 200 is a terminal operated by a user, and may be, for example, a portable wireless communication terminal 200 such as a mobile phone, a smart phone, or personal digital assistants (PDA).

The access point 100 wirelessly communicates with each of these communication terminals 200 to support the communication terminals 200 to access a communication network such as the Internet, and between the access point 100 and the communication terminal 200 is IEEE 802.11 Although Wi-Fi (Wireless Fidelity) communication according to b may be performed, the present invention is not limited thereto.

That is, any device that provides a connection interface through a wireless section to the communication terminal 200 and performs a function of allowing the communication terminal 200 accessed through such a wireless connection interface to be connected to a wired network (eg, the Internet) Included in the access point 100 according to the invention.

For example, the access point 100 may serve as a gateway to allow the communication terminal 200 to access a predetermined web server 300 of the Internet through a wireless section.

An example of a specific functional block of the access point 100 is shown in FIG. 2 .

As shown in the figure, the access point 100 according to an embodiment of the present invention may include a determination unit 110 , a control unit 120 , a transmitting unit 130 , and a receiving unit 140 .

The receiver 140 performs a function of receiving various request signals or data signals from each communication terminal 200 , wherein the request signal received from the communication terminal 200 includes an IEEE (Institute of Electrical and Electronics Engineers) 802.11 compliant signal. It may be at least one of a probe request signal, an authentication request signal, and an association request signal.

The transmitter 130 performs a function of transmitting a response signal to the corresponding communication terminal 200 when the strength of the received signal received from the communication terminal 200 is greater than the preset reference signal strength.

To this end, the transmitter 130 may determine the strength of the received signal, and the strength of the received signal may be expressed, for example, as a received signal strength indication (RSSI). The RSSI may correspond to an analog value extracted from a signal, or may be a digital value that has undergone a sampling process.

The transmitter 130 transmits a response signal only when the RSSI value is greater than a preset reference signal strength (eg, RSSI_ref). For example, the transmitter 130 transmits the probe request signal to the probe request signal. If it is greater than the reference value Probe_ref value, a response signal to the probe request signal is transmitted to the communication terminal 200, and when the authentication request signal is greater than the reference value Authentication_ref value for the authentication request signal, a response signal to the authentication request signal is transmitted to the communication terminal 200 ), and when the association request signal is greater than the reference value Association_ref for the association request signal, a response signal to the association request signal may be transmitted to the communication terminal 200 .

Here, the transmitter 130 may transmit power of a size determined by the controller 120 to be described later in transmitting various response signals, and a more detailed description thereof will be provided later.

The determination unit 110 performs a function of determining whether there is a terminal concentration situation based on a signal received from at least one communication terminal 200 .

In determining the terminal density condition, the determination unit 110 may use the number of request signals received from the communication terminal 200 .

For example, when the number of request signals received from the at least one communication terminal 200 exceeds a preset number, the determination unit 110 may determine that the terminal is crowded.

In particular, the determination unit 110 may determine the terminal density according to the degree to which the number of request signals received from the at least one communication terminal 200 exceeds a preset number. For example, if the number of request signals received by the receiving unit 140 exceeds the preset number by 10%, it is determined that the first stage terminal concentration state, and the number of request signals received by the receiving unit 140 is set to 20 %, it is determined that the second stage terminal density state, and when the number of request signals received by the receiver 140 exceeds the preset number by 30%, it can be determined that the third stage terminal density state is present.

The control unit 120 reduces the size of the transmission output transmitted from the transmission unit 130 according to a preset algorithm when the determination result of the determination unit 110 indicates that the terminal is crowded, and reduces the aforementioned reference signal strength to the preset algorithm. It performs the function of raising accordingly.

In changing the size of the transmission output, the output unit may limit the minimum value of the size of the transmission output.

For example, in the case of terminal congestion, the control unit 120 calculates a temporary transmission output size obtained by subtracting a preset constant value from a currently set transmission output size, and calculates the calculated temporary transmission output size and a preset minimum transmission output value. As a result of the comparison, if the temporary transmission output size is less than or equal to the minimum transmission output value, the transmission output size is changed to the minimum transmission output value.

As another example, when the temporary transmission output size is greater than the minimum transmission output value as a result of the comparison, the controller 120 changes the transmission output size to the temporary transmission output size.

For a specific example, if a terminal congestion situation occurs in a state where the currently set transmit power level is 50 dBm, the controller 120 sets 40 dBm by subtracting 10 from 50 dBm as the transmit power level when the preset constant value is 10. it can be

However, in this case, if the minimum transmit power value is 45 dBm, the controller 120 may set the transmit power level to 45 dBm.

In increasing the reference signal strength in a terminal density situation, the controller 120 may change the reference signal strength by adding a preset constant value to the reference signal strength value. For example, when the reference signal strength is 50 dBm, the controller 120 may add a preset constant value of 5 to set the reference signal strength to 55 dBm.

Also, the control unit 120 may increase the reference signal strength by a value corresponding to the terminal density determined by the determination unit 110 .

For example, the control unit 120 may set the new reference signal strength as 51 dBm by adding 1 to the current reference signal strength in the first stage terminal concentration state, and in the second stage terminal concentration state, the current reference signal strength 52 dBm by adding 2 to can be set as the new reference signal strength, and in the case of the third stage terminal concentration, 53 dBm by adding 3 to the current reference signal strength can be set as the new reference signal strength.

Of course, the use of different values according to the degree of terminal density can be applied to the above-described process of changing the size of the transmission output.

Hereinafter, a control process of the access point 100 according to an embodiment of the present invention will be described with reference to FIGS. 3 to 4 .

First, referring to FIG. 3 as follows.

The access point 100 receives the request signal from the communication terminal 200 (step S1), and when the strength of the request signal, that is, RSSI, is greater than the preset reference signal strength (RSSI_ref) (step S3), a response frame It is generated and transmitted to the corresponding communication terminal 200 (step S5), otherwise no response processing is performed (step S7).

That is, for example, the communication terminal 200 does not perform response processing for a request signal of the remote communication terminal 200 because the RSSI of the request signal is not greater than RSSI_ref.

Hereinafter, a function performed by the access point 100 according to the determination of the terminal concentration condition will be described with reference to FIG. 4 .

The access point 100 analyzes and determines the number of received request signals in the terminal congestion situation. For this purpose, the access point 100 determines the number of probe request signals received from at least one communication terminal 200 (N_Probe). , the number for the authentication request signal (N_Auth), and the number for the association request signal (N_Assoc) are periodically updated (step S11).

For example, the access point 100 may identify and update the number of each request signal received during a corresponding unit time in a unit time unit.

Subsequently, the access point 100 determines that the number (N_Probe) for the above-described probe request signal exceeds a preset number (TH_Probe), or the number (N_Auth) for the authentication request signal exceeds a preset number (TH_Auth), or association If the number (N_Assoc) for the request signal exceeds the preset number (TH_Assoc) (step S13), it is determined that the terminal is crowded, and the size of the transmission output is reduced according to a preset algorithm, and the reference signal mentioned in FIG. 3 It performs a function of increasing the intensity according to a preset algorithm.

Specifically, when the value (Ptx-A) obtained by subtracting the preset value from the current transmit power (Ptx) is less than or equal to the preset minimum transmit power value (Ptx_min) (step S15), the access point 100 transmits the transmit power (Ptx). It is set to the minimum transmit power value (Ptx_min) (step S16), and the value (Ptx-A) obtained by subtracting the preset value from the current transmit power (Ptx) is greater than the preset minimum transmit power value (Ptx_min) (step S15) ) set the transmission power Ptx to (Ptx-A) (step S17).

Also, the access point 100 sets the current reference signal strength RSSI_ref to a value increased by a preset value A (step S19).

Here, the subtraction value (A) of step S15 and the increase value (A) of step S19 may be set to the same value for ease of control and linkage between transmission and reception, but set to different values for optimal control for each situation could be

As such, when the access point 100 reduces the size of the transmission output in a terminal density situation, the relatively distant communication terminal 200 does not receive the signal transmitted by the access point 100, so it no longer sends a request signal to the access point. (100) is not transmitted.

In addition, when the reference signal strength is increased, the access point 100 does not perform response processing on a request signal received weaker than the increased reference signal strength, so that the number of communication terminals 200 to respond to is reduced.

For example, in FIG. 1 , the access point 100 responds to the request signals of the communication terminals 210 , 220 , 230 , 240 and 250 , respectively, and when it is determined that the terminal is crowded, the reference signal strength is increased by increasing the reference signal strength. By not transmitting the response signal, it is possible to prevent the corresponding communication terminal 250 from transmitting an additional request signal thereafter, and by lowering the transmission output, the relatively distant communication terminal 240 transmits the transmission of the access point 100 . By preventing the signal from being received, it is possible to prevent the corresponding communication terminal 240 from transmitting an additional request signal thereafter.

In this way, if the size of the transmission output is reduced and the reference signal strength is increased at the same time in the terminal concentration situation, the number of response signals to be processed by the access point 100 is reduced, so that the overload problem in the access point 100 can be solved.

In particular, by processing both the process of reducing the size of the transmission output and the process of increasing the reference signal strength, it is possible to more quickly solve the problems caused by the terminal concentration.

On the other hand, as a result of the determination in step S13, the number (N_Probe) for the probe request signal is less than or equal to the preset number (TH_Probe), and the number (N_Auth) for the authentication request signal is less than or equal to the preset number (TH_Auth) for the association request signal. When the number (N_Assoc) is less than or equal to the preset number (TH_Assoc), the access point 100 determines that the terminal congestion is resolved, increases the size of the transmission output according to a preset algorithm, and increases the reference signal strength mentioned in FIG. 3 It performs a lowering function according to a preset algorithm.

Specifically, when the value (Ptx+A) obtained by adding a preset value to the current transmission power (Ptx) is equal to or greater than the preset maximum transmission power value (Ptx_max) (step S21), the access point 100 transmits power (Ptx) is set as the maximum transmit power value (Ptx_max) (step S23), and the current reference signal strength (RSSI_ref) is set to be a preset initial value (RSSI_ini) (step S25).

In addition, when the value (Ptx+A) obtained by adding a preset value to the current transmit power Ptx is not greater than the preset maximum transmit power Ptx_max (step S23), the access point 100 transmits the transmit power Ptx. ) is set to (Ptx+A) (step S27), and the current reference signal strength (RSSI_ref) is set to a value (RSSI_ref-A) subtracted by the preset value (A) (step S29).

As mentioned above, the subtraction value (A) of step S15, the increase value (A) of the step S19, the increase value (A) of the step S21, and the subtraction value (A) of the step S29 may all be the same value, but the optimal value for each situation may be set to different values for the control of

In addition, in the above-described example, only the transmission output is changed within the range of the minimum value and the maximum value. Of course, the reference signal strength may also be changed within the range of the minimum value and the maximum value.

Meanwhile, it goes without saying that the process of performing each of the above-described embodiments may be performed by a program or application stored in a predetermined recording medium (eg, computer-readable). Here, the recording medium includes an electronic recording medium such as a random access memory (RAM), a magnetic recording medium such as a hard disk, and an optical recording medium such as a compact disk (CD).

In this case, the program stored in the recording medium may be executed on hardware such as a computer or a smart phone to perform each of the above-described embodiments. In particular, at least one of the functional blocks of the access point according to the present invention described above may be implemented by such a program or application.

In addition, the present invention is not limited to the specific embodiments described above, but can be practiced with various modifications and modifications within the scope without departing from the gist of the present invention. It will be apparent that such modifications and variations are included in the present invention provided they fall within the scope of the appended claims.

100: access point 200: communication terminal
300: server 110: judgment unit
120: control unit 130: transmission unit
140: receiver

Claims (12)

In the control method of an access point that transmits a response signal to a corresponding communication terminal when the strength of the received signal received from the communication terminal is greater than the preset reference signal strength,
(a) determining whether the terminal is crowded based on a signal received from at least one communication terminal;
(b) if it is determined in step (a) that the terminal is crowded, reducing the size of the transmission output according to a preset algorithm and increasing the reference signal strength according to a preset algorithm. control method. According to claim 1,
In step (a),
The method of controlling an access point, characterized in that when the number of request signals received from the at least one communication terminal exceeds a preset number, it is determined that the terminal is crowded. According to claim 1,
In the step (b), the control method of the access point, characterized in that by increasing the reference signal strength by a preset constant value in the case of a terminal concentration situation. According to claim 1,
In the step (a), the degree of terminal density is determined according to the degree to which the number of request signals received from the at least one communication terminal exceeds a preset number,
In the step (b), the control method of an access point, characterized in that the reference signal strength is increased by a value corresponding to the degree of terminal density. According to claim 1,
The step of reducing the size of the transmission output in step (b) is,
(b1) calculating a temporary transmission output size obtained by subtracting a preset constant value from a currently set transmission output size;
(b2) comparing the temporary transmission power size calculated in step (b1) with a preset minimum transmission power;
(b3) As a result of the comparison in step (b2), if the temporary transmission output size is less than or equal to the minimum transmission output value, the transmission output size is changed to the minimum transmission output value, and when the temporary transmission output size is greater than the minimum transmission output value, and changing the transmission power size to the temporary transmission power size. A computer-readable recording medium recording a program for executing the method of any one of claims 1 to 5. An application stored on a medium for executing the method of any one of claims 1 to 5 in combination with hardware. In the access point for transmitting a response signal to the communication terminal when the strength of the received signal received from the communication terminal is greater than the preset reference signal strength,
a determination unit for determining whether the terminal is crowded based on a signal received from at least one communication terminal;
and a control unit to reduce the size of the transmission output according to a preset algorithm and increase the reference signal strength according to a preset algorithm when the determination of the determination unit indicates that the terminal is crowded. 9. The method of claim 8,
The access point, characterized in that the determination unit determines that the terminal congestion situation when the number of request signals received from the at least one communication terminal exceeds a preset number. 9. The method of claim 8,
The access point, characterized in that the control unit increases the reference signal strength by a preset constant value in the case of a terminal concentration situation. 9. The method of claim 8,
The determination unit determines the degree of terminal density according to the degree to which the number of request signals received from the at least one communication terminal exceeds a preset number,
The control unit increases the reference signal strength by a value corresponding to the terminal density determined by the determination unit. 9. The method of claim 8,
The control unit calculates a temporary transmission output size obtained by subtracting a preset constant value from a currently set transmission output size when the terminal is crowded, and compares the calculated temporary transmission output size with a preset minimum transmission output as a result of the temporary transmission When the output size is less than or equal to the minimum transmission output value, the transmission output size is changed to the minimum transmission output value, and when the temporary transmission output size is greater than the minimum transmission output value, the transmission output size is changed to the temporary transmission output size. access point to

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