KR101688719B1 - Communication apparatus and communication quality measurement server, and control method thereof - Google Patents

Abstract

The present invention relates to a communication terminal and a communication quality measurement server for measuring communication quality, and a control method thereof. A control method of a communication terminal according to the present invention includes the steps of: determining the number of peripheral radio access devices using the same channel as the currently used communication channel; Determining a number of neighboring radio access devices using adjacent channels in a predetermined range from the currently used communication channel; Calculating a wireless intensity instability determination score by applying predetermined weights to the determined numbers; And generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the calculated radio intensity instability determination score exceeds a predetermined value.

Description

Technical Field [0001] The present invention relates to a communication terminal and a communication quality measurement server for measuring communication quality,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication terminal and a communication quality measurement server for measuring communication quality, and more particularly to a communication quality measurement server and a communication quality measuring server, And a control method thereof.

Recently, VoIP (Voice Over IP) terminals that can communicate with each other at relatively low cost have been increasing. The VoIP terminal may be a dedicated terminal such as myLG070, or may be configured to operate by installing a separate app such as a smart phone.

Generally, a VoIP terminal operates in a form of WIFI (Wireless Fidelity) communication with an access point (AP). Since the radio frequency band used in the WIFI technology uses an ISM band (Industrial Scientific Medical Band) A large amount of interference due to communication such as Bluetooth or Zigbee occurs and communication quality is often deteriorated.

In this way, in the communication through the VoIP terminal, the service provider (for example, mobile communication companies) can detect the degraded state of the communication quality as quickly as possible, thereby minimizing the complaints of the customers.

However, in the past, there has been no way for a service provider to quickly identify a failure of a specific customer terminal or a communication quality deterioration, so that a process of scanning the communication quality status periodically for all customers has been performed.

However, scanning the communication quality status for all the customers causes a problem of imposing a considerable load on the network and a problem that the customer terminal whose actual communication quality is deteriorated can not be detected quickly.

Published Patent No. 10-2004-0093994

It is an object of the present invention to provide a communication quality measuring server that selectively performs communication quality measurement only for a communication terminal in which there is a possibility of degradation of communication quality, And a control method of the communication terminal.

In order to achieve the above object, a communication terminal according to the present invention includes: a first determination unit for determining the number of peripheral wireless access devices using the same channel as a currently used communication channel; A second determination unit for determining the number of neighboring radio access devices using adjacent channels in a predetermined range from the currently used communication channel; A calculation unit for calculating a wireless intensity instability determination score by applying predetermined weights to the number determined by the first determination unit and the number determined by the second determination unit; And a request unit for generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the wireless intensity instability determination score calculated by the calculation unit exceeds a predetermined value.

According to another aspect of the present invention, there is provided a communication terminal comprising: a storage unit; A determination unit that periodically determines the strength of a signal received from a radio access apparatus that forms a current communication channel; A storage controller for accumulating the number of times when the intensity of the signal determined by the determination unit is lower than a reference value, in the storage unit; And a transmission unit for generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the number of times accumulated in the storage unit becomes a predetermined value or more within a predetermined time interval.

In order to achieve the above object, a communication quality measurement server according to the present invention includes: a request reception unit for receiving a communication quality measurement request message from a communication terminal that has determined a wireless strength unstable state by itself; A call connection initiation unit for transmitting a call connection message for measuring communication quality to the communication terminal according to the reception of the communication quality measurement request message; A call connection receiver for receiving a call response message for measuring communication quality from the communication terminal; A call connection processing unit for connecting the communication terminal with a call path upon receipt of a call response message for the communication quality measurement; And a determination unit for determining the voice communication quality of the communication terminal by comparing the voice data that has been looped back from the communication terminal with the voice data transmitted to the communication terminal, .

According to another aspect of the present invention, there is provided a method of controlling a communication terminal, the method comprising: determining a number of neighboring radio access devices using the same channel as a currently used communication channel; Determining a number of neighboring radio access devices using adjacent channels in a predetermined range from the currently used communication channel; Calculating a wireless intensity instability determination score by applying predetermined weights to the determined numbers; And generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the calculated radio intensity instability determination score exceeds a predetermined value.

In order to achieve the above object, a control method of a communication terminal according to the present invention includes the steps of: periodically determining the strength of a signal received from a radio access apparatus that forms a current communication channel; Accumulating the number of times when the intensity of the determined signal is lower than a reference value; And generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the accumulated number of times stored in the step becomes equal to or greater than a predetermined value within a predetermined time interval.

According to another aspect of the present invention, there is provided a method of controlling a communication quality measurement server, the method comprising: receiving a communication quality measurement request message from a communication terminal that has determined a wireless strength unstable state; Transmitting a call connection message for communication quality measurement to the communication terminal according to the reception of the communication quality measurement request message; Receiving a call response message for communication quality measurement from the communication terminal; Connecting the communication terminal to the communication channel upon receipt of a call response message for the communication quality measurement; Comparing the voice data that has been looped back from the communication terminal with the voice data transmitted to the communication terminal to determine the voice communication quality of the communication terminal, extracting the prepared voice data, transmitting the extracted voice data to the communication terminal, .

As described above, according to the present invention, when there is a request of a communication terminal that predicts an unstable state of radio intensity for communication itself, the communication quality measurement server performs a call connection with the corresponding communication terminal, Thereby performing selective communication quality measurement.

This makes it possible to minimize the occurrence of communication traffic as compared with the case of performing quality measurement on all the communication terminals, and it is also possible to quickly take measures for a radio environment in which communication quality is deteriorated.

1 is a schematic configuration diagram of an entire system including a communication terminal and a communication quality measurement server according to an embodiment of the present invention,
2 is a functional block diagram of the communication terminal of FIG. 1,
3 is a functional block diagram of the communication quality measurement server of FIG. 1,
4 is a control flowchart of an overall system including a communication terminal and a communication quality measurement server according to an embodiment of the present invention.

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

Hereinafter, embodiments of the present invention will be described in order to facilitate understanding of the present invention, and the present invention is not limited to these embodiments. In particular, the present invention can be configured by combining at least any one of individual components, individual functions, or individual steps included in each embodiment.

An example of a communication system including both a communication terminal 100 and a communication quality measurement server 200 according to an embodiment of the present invention is shown in FIG.

In the figure, wireless access devices 410 and 420, which perform wireless communication with the communication terminal 100, transmit signals received from the communication terminal 100 to the communication network and transmit signals received from the communication terminal to the communication terminal 100, Such a wireless access device may be a device that performs WiFi (Wireless Fidelity) communication such as an access point (AP), or an eNB (enode B) corresponding to an LTE (Long Term Evolution) . In the present embodiment, the access point is an example.

As shown in FIG. 1, a plurality of access points 410 and 420 may be provided around the communication terminal 100.

In addition, the communication network may include a server 300 for processing VoIP (Voice Over IP) communication of the communication terminal 100. The technology for processing VoIP communication to the communication terminal 100 is not limited to the known technology So that detailed description will be omitted.

The communication terminal 100 is a device that enables communication with the other party. In this embodiment, VoIP communication is performed as an example.

In particular, the communication terminal 100 can wirelessly communicate with a plurality of access points 410 and 420 provided around the communication terminal 100, and can communicate with a counterpart terminal (not shown) via any one of them. In the following description of the present embodiment, an access point through which the communication terminal 100 communicates with the counterpart terminal is referred to as a first access point 410, and the remaining access points are referred to as a second access point 420 I will.

The function block of the communication terminal 100 is as shown in FIG.

The communication terminal 100 may include a first determination unit 110, a second determination unit 120, a calculation unit 130, and a request unit 140, as shown in FIG.

The first determination unit 110 determines whether the number of the neighboring radio access apparatuses using the same channel as the communication channel currently used or the communication channel communicating with the first access point 410, .

For example, the communication terminal 100 can set and communicate with a channel at intervals of 5 MHz based on a specific frequency. The first determination unit 110 determines whether the communication terminal 100 currently uses the communication terminal 100 And determines the number of second access points 420 using the same channel as the channel (hereinafter referred to as "Nth channel").

The second determination unit 120 determines the number of the second access points 420 using the neighboring channels in the predetermined range from the currently used communication channel, that is, the Nth channel.

For example, the second determination unit 120 may determine the number of the second access points 420 using the first adjacent channel (i.e., the (N + 1) th and (N-1) And the number of the second access points 420 using the next adjacent second channel (i.e., the N + 2 channel and the N-2 channel) and the next adjacent third adjacent channel (i.e., N And the number of the second access points 420 using the N-3 channel and the N-3 channel, respectively.

The calculation unit 130 calculates a wireless intensity instability determination score by applying predetermined weights to the number determined by the first determination unit 110 and the number determined by the second determination unit 120, respectively.

For example, the calculating unit 130 may calculate a wireless intensity instability determination score by applying predetermined weights to the numbers determined by the first determination unit 110 and the respective numbers determined by the second determination unit 120 .

As an example, the calculating unit 130 may calculate the radio intensity instability determination score according to the following equation.

Y = a * K_0 + b * K_1 + c * K_2 + d * K_3

Where K is the number of the second access points 420 using the same channel as the Nth channel, K_1 is the second access using the N + 1 channel or the N-1 channel, K_2 is the number of the second access points 420 using the N + 2 or N-2 channel, K_3 is the number of the second access using the N + 3 or N-3 channel, The number of points 420, a, b, c, and d are predetermined coefficients.

The request unit 140 generates a communication quality measurement request message and transmits the communication quality measurement request message to the communication quality measurement server 200 when the wireless strength instability determination score calculated by the calculation unit 130 exceeds a predetermined value.

That is, when the wireless strength instability determination score calculated by the calculation unit 130 exceeds a predetermined value, the request unit 140 determines that the wireless strength is unstable due to the current surrounding interference signals, And transmits a communication quality measurement request message to the communication quality measurement server 200. [

Here, the unstable wireless intensity means that the strength of a wireless signal used for communication is deteriorated due to interference or the like. As described above, the communication terminal 100 does not directly detect the wireless intensity for communication, And estimates whether or not the wireless intensity is unstable considering only the channel status of the points.

Meanwhile, the communication quality measurement server 200 is a device for performing communication quality measurement on the communication terminal 100 according to a communication quality measurement request message received from the communication terminal 100, and one example of its functional block is shown in FIG. 3 Lt; / RTI >

The communication quality measurement server 200 includes a request reception unit 210, a call connection initiation unit 220, a call connection reception unit 230, a call connection processing unit 240, a determination unit 250, Unit 260, and a statistics processing unit 270. [

First, in the storage unit 260, information necessary for performing the functions of the communication quality measurement server 200 and various information generated according to the performance of the communication quality measurement server 200 may be stored.

The request receiving unit 210 receives the communication quality measurement request message from the communication terminal 100 that has determined the wireless strength unstable state by itself.

The communication quality measurement request message received from the communication terminal 100 is a request message for performing measurement on the communication quality of the communication terminal 100, in particular, voice call quality.

The call connection initiation unit 220 transmits a call connection message for measuring the communication quality to the corresponding communication terminal 100 upon receiving the communication quality measurement request message of the request reception unit 210.

Here, the call connection message for measuring the communication quality transmitted by the call connection initiator 220 to the communication terminal 100 may have a form different from the call connection message generated by the other party. This is to request the communication terminal 100 receiving the call connection message not to notify the user of the reception of the call connection message, that is, not to be noticed by the user, as described later.

The call connection receiving unit 230 performs a function of receiving a call response message for communication quality measurement from the communication terminal 100.

Herein, the call response message for measuring the communication quality received by the call connection receiving unit 230 includes radio signal strength information, terminal information, radio access device related information (i.e., the first access point 410) measured by the communication terminal 100, And information on the channel, quality, and the like of the signals of the access points of the second access point 420).

For example, the call response message of the communication terminal 100 may be a response signal 200 OK. The call response message includes a received signal strength indication (RSSI) measured, determined or extracted by the communication terminal 100, A Signal to Noise Ratio (SNR), a terminal model number of the terminal, information about nearby access points to be collected, and the like.

At least one of the information measured, determined or extracted by the communication terminal 100 may be included in the communication quality measurement request message received by the request receiver 210 described above.

The call connection processing unit 240 performs a function of connecting the communication terminal 100 to the call path upon receipt of a call response message for communication quality measurement.

Herein, the call connection processing unit 240 measures the quality of the call voice as described above, and the communication terminal 100 is connected to the communication terminal 100 in the background . ≪ / RTI > That is, the communication terminal 100 performs a call connection response in the background in response to a call connection request received from the communication quality measurement server 200, and can perform loopback processing of voice data, which will be described later.

The determination unit 250 transmits the predefined voice data to the communication terminal 100 and compares the voice data that has been looped back from the communication terminal 100 and the voice data that is transmitted to the communication terminal 100, And performs a function of determining the voice communication quality of the communication terminal (100).

Here, the pre-defined voice data may be, for example, pre-established voice data or voice data dynamically generated in a predetermined manner in the pre-established algorithm.

As a result, the determination unit 250 does not measure the quality of voice communication for all the communication terminals 100, but measures the voice communication quality for the communication terminal 100 that transmitted the communication quality measurement request message will be.

That is, the determination unit 250 can determine whether the communication quality of the communication terminal 100 is deteriorated due to, for example, interference of the access points.

Meanwhile, the statistical processing unit 270 may determine at least one of the radio signal strength information, the terminal information, and the radio access device related information received from the communication terminal 100 and the voice communication quality And stores the same in the storage unit 260 and manages the same.

That is, the statistical processing unit 270 measures and transmits the radio signal strength information determined by the communication terminal 100 itself, the identification information of the radio access apparatus in the vicinity of the communication terminal, and the radio signal related information, And the stored voice communication quality is stored and matched to thereby statistically dataize the relationship between the information measured and determined by the communication terminal 100 and the actual voice communication quality.

Hereinafter, the overall signal and control flow between the communication terminal 100 and the communication quality measurement server 200 will be described with reference to FIG.

The communication terminal 100 collects the channel usage status of each access point currently in its vicinity (step S1).

For example, the communication terminal 100 may use the same channel as the channel used for communication with the first access point 410, or use the channel of the second access point 420 using a predetermined range of channels That is, the number of the second access points 420 used for the channel.

Then, the communication terminal 100 estimates the wireless strength instability using the channel usage status of each of the collected access points (step S2). If it is determined that the wireless strength is unstable, the communication terminal 100 transmits a quality measurement request SIP Session Initiation Protocol) message (step S3).

The communication quality measurement server 200 transmits a 200 OK message, which is a response message according to the reception of the quality measurement request message of the communication terminal 100, to the communication terminal 100 (step S5) And sends an Invite message to the communication terminal 100 (step S7).

At this time, the communication terminal 100 transmits its own measurement, determination, and extracted radio signal strength, terminal information, and access point related information to the communication quality measurement server 200 in the SDP (Session Description Protocol) message of the 200 OK response signal (Step S9).

The communication quality measurement server 200 stores the information received from the communication terminal 100 in step S11 and then transmits the voice quality using RTP (Real Time Transport Protocol) loopback using the communication path connected to the communication terminal 100 (Step S13).

For example, the communication quality measurement server 200 transmits pre-stored voice data to the communication terminal 100, and the communication terminal 100 directly transmits the voice data received from the communication quality measurement server 200 to the communication quality measurement server The communication quality measurement server 200 compares the voice data transmitted to the communication terminal 100 with the voice data returned from the communication terminal 100 and transmits the voice call from the communication terminal 100 Quality can be judged.

At this time, the communication quality measurement server 200 may transmit an alert notification message to the manager or the like according to the voice quality measurement result.

The communication quality measurement server 200 stores the measured voice quality information (step S15), and transmits a Bye message informing the end of the quality measurement to the communication terminal 100 (step S17).

The communication quality measurement server 200 stores and manages the information received and stored in step S11 and the voice quality information measured and stored in step S15 (step S19).

Although the communication terminal 100 transmits the communication quality measurement request message to the communication quality measurement server 200 in consideration of the adjacent channel or the like in the above embodiment, And may generate a communication quality request message when the signal received from the formed radio access device 410 exceeds the reference value a predetermined number of times.

5, the function block of the communication terminal 100 'performing such a function includes a storage unit 130', a determination unit 110 ', a storage control unit 120', and a transmission unit 140 ' And the like.

The storage unit 130 'stores new information or data generated by the operation of the communication terminal 100' as well as information or data necessary for the operation of the communication terminal 100 ' Reference values and the like can be stored.

The setting value or reference value stored in the storage unit 130 'may be information manually input by a user or information received from an external predetermined server.

The determination unit 110 'periodically determines the strength of the signal received from the radio access apparatus that has formed the current communication channel. For example, the determination unit 110 'may determine a received signal strength, for example, RSSI (Received Signal Strength Indicator) 10 times per second.

The storage control unit 120 'accumulates the number of times when the intensity of the signal determined by the determination unit 110' is lower than the reference value in the storage unit 130 '.

For example, the storage control unit 120 'may cumulatively store the number of times the RSSI is less than -70 dBm in the storage unit 130'.

The transmission unit 140 'generates a communication quality measurement request message and transmits the communication quality measurement request message to the communication quality measurement server when the accumulated number of times stored in the storage unit 130' exceeds a predetermined value within a predetermined time interval.

For example, the transmission unit 140 'may generate a communication quality measurement request message and transmit the communication quality measurement request message to the communication quality measurement server when the number of times stored in the storage unit 130' per minute is five or more.

That is, according to the above-described example, when the RSSI of the signal received from the radio access device drops to -70 dBm or less five times per minute, the communication terminal 100 'generates a quality measurement request message, .

As described above, the communication terminal can determine the time point at which the quality measurement request message is notified to the communication quality determination server using various predetermined conditions.

Meanwhile, it goes without saying that the process of performing each of the above-described embodiments can be performed by a program or an application stored in a predetermined recording medium (for example, a computer-readable). Here, the recording medium includes an electronic recording medium such as a RAM (Random Access Memory), a magnetic recording medium such as a hard disk, and an optical recording medium such as a CD (Compact Disk).

At this time, 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 embodiments. In particular, at least one of the functional blocks of the communication terminal and the communication quality measurement server according to the present invention described above can be implemented by such a program or an application.

The present invention is not limited to the above-described specific embodiments, and various modifications and changes may be made without departing from the gist of the present invention. It is to be understood that such variations and modifications are intended to be included in the scope of the appended claims.

100: communication terminal 200: communication quality measurement server
110: first judgment unit 120: second judgment unit
130: Calculator 140:
210: request receiving unit 220: call connection start unit
230: call connection receiver 240: call connection processor
250: Determination unit 260:
270:

Claims (12)

(a) determining the number of neighboring radio access devices using the same channel as the currently used communication channel;
(b) determining the number of neighboring radio access devices using adjacent channels in a predetermined range from the currently used communication channel;
(c) calculating a wireless intensity instability determination score by applying predetermined weights to the number determined in the step (a) and the number determined in the step (b);
(d) generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the wireless strength instability determination score calculated in the step (c) exceeds a predetermined value. Control method. The method according to claim 1,
In the step (b), the number of neighboring radio access devices using the first adjacent channel closest to the currently used communication channel, the number of neighboring radio access devices using the next adjacent second adjacent channel, , And determines the number of peripheral radio access apparatuses using the next adjacent third adjacent channel. (a) periodically determining the strength of a signal received from a radio access apparatus that has formed the current communication channel;
(b) accumulating the number of times when the intensity of the signal determined in step (a) is lower than a reference value;
(c) generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the cumulative number of times stored in the step (b) exceeds a predetermined value within a predetermined time interval / RTI > delete delete A computer-readable recording medium storing a program for executing the method according to any one of claims 1 to 3. 13. An application stored in a medium for executing the method of any one of claims 1 to 3 in combination with hardware. A first determination unit for determining the number of neighboring radio access devices using the same channel as the current communication channel;
A second determination unit for determining the number of neighboring radio access devices using adjacent channels in a predetermined range from the currently used communication channel;
A calculation unit for calculating a wireless intensity instability determination score by applying predetermined weights to the number determined by the first determination unit and the number determined by the second determination unit;
And a request unit for generating a communication quality measurement request message and transmitting the communication quality measurement request message to the communication quality measurement server when the wireless strength unstable determination score calculated by the calculation unit exceeds a predetermined value. 9. The method of claim 8,
Wherein the second determination unit determines the number of neighboring radio access devices using the first adjacent channel closest to the currently used communication channel and the number of neighboring radio access devices using the next adjacent second adjacent channel, Determines the number of neighboring radio access apparatuses that are next using the adjacent third adjacent channel,
Wherein the calculating unit calculates a wireless intensity instability determination score by applying predetermined weights to the numbers determined by the first determination unit and the numbers determined by the second determination unit. A storage unit;
A determination unit that periodically determines the strength of a signal received from a radio access apparatus that forms a current communication channel;
A storage controller for accumulating the number of times when the intensity of the signal determined by the determination unit is lower than a reference value, in the storage unit;
And a transmission unit for generating a communication quality measurement request message and transmitting the communication quality measurement request message to a communication quality measurement server when the number of times accumulated in the storage unit becomes a predetermined value or more within a predetermined time interval. delete delete

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