KR101423843B1 - METHOD FOR PROVIDING AND MANAGING QUALITY INFORMATION IN mVoIP SERVICE - Google Patents

Abstract

A method for providing and managing quality information in a mobile voice over internet protocol (mVoIP) service is disclosed. A method of providing quality information of a terminal supporting an mVoIP service according to an exemplary embodiment of the present invention includes the steps of establishing a session with a second terminal via a mVoIP server by a first terminal, The method comprising: transmitting packets to the terminal and receiving packets from the second terminal; generating at least one first quality information for the transmitted packets or the received packets; Reporting the at least one first quality information to the mVoIP server every predetermined first period, and reporting the second quality information to the mVoIP server every second predetermined period.

Description

METHOD FOR PROVIDING AND MANAGING QUALITY INFORMATION IN MVOIP SERVICE IN MOBILE VOICE-OVER INTERNET PROTOCOL (mVoIP)

The following embodiments relate to a method for providing and managing quality information in a mobile voice over internet protocol (mVoIP) service.

New mobile technologies such as WiBro, WiMAX, 3G (WCDMA, HSDPA) and 4G (LTE) have emerged in line with the development of communication technology, and VoIP has been added to these technologies, The move to build is actively under way.

mVoIP means a technology for providing a VoIP service in addition to the data service of the wireless Internet network. VoIP is a technology that converts voice to packets and transmits them over a network using IP addresses. When VoIP is classified as fixed VoIP and m-VoIP according to the degree of mobility, it is fixed VoIP using high-speed Internet network, HSDPA based on mobile communication network or WiBro (WiBro) is mVoIP based on wireless Internet network.

Currently, the number of users using mVoIP such as smartphone is rapidly increasing, and the number of users using mVoIP is also increasing.

Embodiments of the present invention can provide quality information in a mobile voiceover Internet protocol (mVoIP) service that can provide more useful information to a user and an mVoIP service provider by generating and managing information on the quality of an mVoIP service, Providing and managing methods are provided.

According to another aspect of the present invention, there is provided a method for providing quality information of a terminal supporting a Mobile Voice over Internet Protocol (mVoIP) service, comprising: establishing a session with a second terminal via a mVoIP server; The first terminal transmitting packets to the second terminal using the established session and receiving packets from the second terminal, receiving at least one first quality for the transmitted packets or the received packets, Generating second quality information, reporting the at least one first quality information every first period set in advance by the mVoIP server, and transmitting the at least one first quality information to the mVoIP server every second period 2 < / RTI > quality information.

The second quality information includes factors of a different type from the at least one first quality information and may include information about statistical characteristics of the at least one first quality information.

The generating of the second quality information may include using at least one of information on the IP address of the first terminal, information on the location of the first terminal, or information on the mobile communication network provider serving the first terminal Generating the second quality information using at least one of the transmission packets, the reception packets or the at least one first quality information.

Wherein the step of reporting the second quality information every second period preset in the mVoIP server comprises the steps of: detecting that the session between the first terminal and the second terminal is terminated; 2 < / RTI > quality information.

Wherein the transmitting the second quality information comprises receiving a call detail record (CDR) from an mVoIP server in response to detecting termination of the session and including the call detail in the second quality information And transmitting the data.

The method of providing quality information of a terminal supporting an mVoIP service according to an exemplary embodiment may further include receiving a selection of a user of the first terminal for providing the second quality information to a user of the first terminal .

The step of reporting the second quality information every second period preset in the mVoIP server may further include displaying the second quality information to the first terminal in response to the selection of the user of the first terminal .

A mVoIP server quality information management method supporting mVoIP service according to an exemplary embodiment of the present invention is a method for managing quality information of a mVoIP server supporting mVoIP service through a session between a first terminal and a second terminal via an mVoIP server. Processing received packets from the first terminal to the second terminal or received packets from the second terminal to the first terminal, obtaining at least one first quality information and second quality information from the first terminal, And obtaining the at least one first quality information and the second quality information from the second terminal.

A method of managing quality information of an mVoIP server supporting a mobile voice over Internet Protocol (mVoIP) service according to an exemplary embodiment includes generating a call detail (CDR) in response to detecting termination of the session And transmitting the call detail to the first terminal and the second terminal.

Wherein acquiring at least one first quality information and second quality information from the first terminal comprises receiving at least one first quality information and second quality information from the first terminal, Storing the first quality information for the first terminal in a quality management table and storing the second quality information for the first terminal in a second quality management table of the quality management database have.

Wherein the obtaining of the at least one first quality information and the second quality information from the second terminal comprises receiving at least one first quality information and second quality information from the second terminal, Storing the first quality information for the second terminal in a first quality management table and storing the second quality information for the second terminal in a second quality management table of the quality management database can do.

Embodiments of the present invention can provide quality information in a mobile voiceover Internet protocol (mVoIP) service that can provide more useful information to a user and an mVoIP service provider by generating and managing information on the quality of an mVoIP service, Providing and managing methods are provided.

1 is a diagram illustrating an mVoIP service system according to an exemplary embodiment of the present invention.
2 is a flowchart illustrating a method of providing quality information of a terminal supporting an mVoIP service according to an exemplary embodiment of the present invention.
3 is a diagram illustrating a talk time graph for explaining the periods of the first quality information and the second quality information according to an exemplary embodiment of the present invention.
4 is a diagram illustrating an interface of a terminal supporting an mVoIP service according to an exemplary embodiment.
5 is a flowchart illustrating a method of managing quality information of an mVoIP server supporting an mVoIP service according to an exemplary embodiment.
6 is a diagram for explaining a quality management database according to an embodiment.

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

1 is a diagram illustrating an mVoIP service system according to an exemplary embodiment of the present invention.

Referring to FIG. 1, an mVoIP service system includes a first terminal 110, an mVoIP server 120, and a second terminal 130. An application for providing an mVoIP service is installed in the first terminal 110 and the second terminal 130.

The mVoIP service according to an embodiment of the present invention may be provided in a form combined with an instant message service. That is, an application for providing both mVoIP service and instant message service is installed in the first terminal 110 and the second terminal 130, and the first terminal 110 and the second terminal 130 use the application MVoIP service and instant message service can be provided.

At this time, there may be an interaction between the mVoIP service and the instant messaging service. For example, the contact list for the friends of the first terminal 110 can be used in both mVoIP service and instant message service, and the chat room (chat session) in the instant message service can also be used in the mVoIP service.

More specifically, the first terminal 110 can receive the mVoIP service with the second terminal 130 through the chat room in the instant message service, and can receive the mVoIP service even when the mVoIP service is being provided. 2 terminals 130 may transmit / receive instant messages.

2 is a flowchart illustrating a method of providing quality information of a terminal supporting an mVoIP service according to an exemplary embodiment of the present invention.

Referring to FIG. 2, a method of providing quality information of a terminal supporting mVoIP service according to an exemplary embodiment may establish a session with a second terminal via a mVoIP server (210). Specifically, the session between the first terminal and the second terminal can be established using SIP (Session Initiation Protocol), which is an Internet protocol.

More specifically, in a method of providing quality information of a terminal supporting an mVoIP service (hereinafter referred to as a quality information providing method of a terminal supporting an mVoIP service) according to an embodiment, a first terminal, which is a transmitting terminal, Invite message to the mVoIP server to request the second terminal to talk to the mVoIP server. The mVoIP server can transmit the invite message received from the first terminal to the second terminal. At this time, the second terminal receiving the invitation message can notify the user of the second terminal of the call request by performing call notification (for example, ringing a telephone). If the user of the second terminal accepts the call request, the second terminal can transmit the response message through the mVoIP server. Accordingly, the first terminal responds and transmits an ACK message to the mVoIP server, so that a session can be established between the first terminal and the second terminal via the mVoIP server.

In addition, the quality information providing method of a terminal supporting the mVoIP service may transmit the packets to the second terminal using the session established by the first terminal and receive the packets from the second terminal (220). For example, when a user of the first terminal transmits voice, the first terminal may convert the voice to a packet and transmit it to the second terminal via the mVoIP server. Likewise, if the user of the second terminal forwards the voice, the second terminal converts the voice to a packet, and thus the first terminal can receive the packet via the mVoIP server.

Specifically, the quality information providing method of a terminal supporting mVoIP service can convert voice to RTP packets using RTP (Real-time Transport Protocol: RTP). Here, RTP is a standard protocol for real-time data transmission, and can perform various kinds of real-time data such as audio data and video data. For example, when a user of the first terminal transmits a voice, the first terminal may convert the media unit data compressed with various codecs into an RTP packet, and transmit the RTP packet to the second terminal using UDP. At this time, since RTP is transmitted using UDP, the call quality of the mVoIP service can not be guaranteed. To this end, the quality information providing method of the terminal supporting the mVoIP service according to an embodiment can acquire information on the call quality using the RTCP (RTP Control Protocol). Here, the RTCP is a protocol for controlling RTP, and it can provide information on the call quality periodically to the participants participating in the session using the RTCP packet.

The header of the RTP packet may include a sequence number and a time stamp. Here, the sequence number is incremented by one for each RTP packet to be transmitted, and can be used to detect a packet loss and recover a packet sequence. And, the time stamp indicates the sampling time of the first byte of the RTP packet, and can be used for synchronous reproduction, eliminating jitter caused by the network.

The RTCP packet may include an SR (Sender Report) packet and an RR (Receiver Report) packet. Here, the SR packet may be transmitted to the receiving terminal by the transmitting terminal, and may include quality information on the transmitted packet. The RR packet is transmitted to the transmitting terminal by the receiving terminal, and may include quality information about the received packet.

Accordingly, the quality information providing method of the terminal supporting the mVoIP service can transmit and receive the RTP packet and the RTCP packet between the first terminal and the second terminal by using the established session, A user can provide a telephone call service using mVoIP.

In addition, the quality information providing method of the terminal supporting the mVoIP service may generate at least one first quality information for the transmission packets or the reception packets (230). Here, the first quality information may include a transmission delay, a packet loss rate, and a jitter. In particular, the transmission delay may include a one-way delay and a round-trip delay. Here, the unidirectional transmission delay may mean the time taken for the receiving terminal to receive the packet after transmitting the packet at the transmitting terminal. The round-trip transmission delay may mean a time required for the transmitting terminal to send the measurement packet and the receiving terminal to receive the measurement packet, and again, the transmitting terminal to receive the measurement packet.

The packet loss rate may be a percentage of the difference between the file size of the total transmission packets transmitted by the transmitting terminal and the file size of the received packets actually received by the receiving terminal.

And jitter can mean the difference between transmission time between packets. For example, the first terminal may transmit a transmission packet at a predetermined time interval, but the time until the reception of the second terminal by the network delay may be different for each received packet. Therefore, jitter can be an important parameter in mVoIP service, where real-time property is an important feature.

The quality information providing method of the terminal supporting the mVoIP service can generate the first quality information based on the preset first period using the RTP packet and the RTCP packet transmitted or received by the first terminal. Here, the first period is preset by a protocol such as SIP, RTP, and RTCP, and may be shorter than the total talk time. For example, when the first period is 20 ms, the quality information providing method of the terminal supporting the mVoIP service according to the embodiment can generate the first quality information every 20 ms. In the case of using the RTP packet, the quality information providing method of the terminal supporting the mVoIP service can generate information on the jitter, the packet loss rate and the unidirectional transmission delay based on the first period. In the case of jitter, a jitter value can be generated using a time difference between a time when the first terminal, which is the transmitting terminal, sends the transmission packets and a time difference when the second terminal, which is the receiving terminal, receives the transmission packets. In the case of the packet loss rate, the difference between the file sizes of the received packets actually received by the second terminal in the file size of the transmission packets transmitted by the first terminal can be calculated as a percentage. At this time, the lost packet can be detected using the sequence number of the lost packet. The unidirectional transmission delay can be calculated as the difference between the time of the second terminal and the time stamp of the packet when the time of the first terminal and the time of the second terminal are synchronized. If the time of the first terminal and the time of the second terminal are not synchronized, a unidirectional transmission delay value can be calculated using jitter.

When the RTCP packet is used, the quality information providing method of the terminal supporting the mVoIP service can generate information on the jitter, the packet loss rate, and the bidirectional transmission delay based on the first period. At this time, the first terminal can transmit and receive RTCP packets based on the first period. Specifically, in the case of jitter and packet loss rate, it can be extracted from a report block which is one of the sections of the SR packet and the RR packet. In the case of the round-trip transmission delay, it can be calculated using the time of receiving the RR packet, the Last SR Timestamp (LSR) included in the report block, and the delay time between the reception and transmission (Delayed last SR: DLSR) have.

In addition, the quality information providing method of the terminal supporting the mVoIP service can generate the second quality information (240). Specifically, the quality information providing method of the terminal supporting the mVoIP service can generate the second quality information based on the preset second period. Here, the second period may be longer than the first period. The second period may be preset by the quality information providing method of the terminal supporting the mVoIP service. For example, the quality information providing method of the terminal supporting the mVoIP service can set the second period as the total talk time. The second quality information may include factors of different types from the first quality information. Here, other types of factors may mean partially different types of factors and may mean completely different types of factors. More specifically, the second quality information may include factors of a type that are partially different from the first quality information, such as transmission delay, packet loss rate, jitter, total packet count and total loss packet count based on the second period. In addition, the second quality information may include factors that are completely different from the first quality information, such as the IP address of the terminal, the location information of the terminal, and information on the mobile communication network provider serving the terminal.

In a quality information providing method of a terminal supporting an mVoIP service, a transmission delay, a packet loss rate, a jitter, a total packet number, and a total loss packet number, which are factors of types different from those of the first quality information, The received packets, or at least one first quality information.

Specifically, in the case of jitter, packet loss rate and transmission delay, RTP packets and RTCP packets may be respectively bound based on a second period. Then, using the sequence number and time stamp of RTP packets and the report block section of RTCP packets, such as generation of the first quality information, second quality information based on the second period can be generated.

The quality information providing method of the terminal supporting the mVoIP service can generate the jitter, the packet loss rate and the transmission delay of the second quality information from the first quality information. Specifically, since the jitter, the packet loss rate, and the transmission delay of the first quality information and the second quality information are different from each other, a jitter of the second quality information, a packet loss rate, and a transmission Delay can be generated.

The total number of packets can be calculated using the number of RTP packets transmitted by the first terminal and the number of RTP packets actually received by the second terminal. Alternatively, the quality information providing method of the terminal supporting the mVoIP service according to an exemplary embodiment may be calculated using the packet loss rate of the first quality information.

The total number of lost packets can be calculated using the difference between the total number of RTP packets transmitted by the first terminal and the total number of RTP packets received by the second terminal. Alternatively, the quality information providing method of a terminal supporting the mVoIP service according to an exemplary embodiment may be calculated using the total packet number and the packet loss rate of the first quality information.

In the quality information providing method of the terminal supporting the mVoIP service, information on the IP address of the first terminal, which is a factor different from the first quality information, information on the location of the first terminal, The second quality information may be generated using at least one of information on the mobile communication network provider.

Specifically, the quality information providing method of the terminal supporting the mVoIP service can extract information on the IP address of the first terminal and the first terminal, and information on the telecommunication network provider serving the first terminal. In the case of the information on the location of the first terminal, information on the extracted IP address of the first terminal, information on the GEO-IP address of the first terminal, or GPS information of the first terminal, Information can be generated.

In addition, the quality information providing method of the terminal supporting the mVoIP service may report at least one first quality information to the mVoIP server every predetermined period (250). Here, the first period is preset by a protocol such as SIP, RTP, and RTCP, and may be shorter than the total talk time. In one embodiment, the quality information providing method of the terminal supporting the mVoIP service can generate the first quality information in the first period. Then, the generated first quality information can be reported to the mVoIP server in the first cycle. Accordingly, the mVoIP server can store and manage the first quality information provided to the quality management database.

In addition, the quality information providing method of the terminal supporting the mVoIP service may report at least one second quality information to the mVoIP server every second period set in advance (260). Here, the second period may be longer than the first period. The second period can be set in advance by the quality information providing method of the terminal supporting the mVoIP service according to the embodiment. For example, the quality information providing method of the terminal supporting the mVoIP service can set the second period as the total talk time. Specifically, the quality information providing method of the terminal supporting the mVoIP service can detect that the session between the first terminal and the second terminal is terminated. Here, the end of the session between the first terminal and the second terminal can be detected through the BYE message. Specifically, when the first terminal makes a call release, the first terminal can transmit a BYE message to the mVoIP server. The second terminal can terminate the session by receiving the BYE message from the mVoIP server and sending an accept message indicating that the BYE message request for ending the session has been well processed.

The quality information providing method of the terminal supporting the mVoIP service may transmit the second quality information in response to detecting the termination of the session. In detail, the quality information providing method of a terminal supporting the mVoIP service according to an exemplary embodiment may receive a call detail record (CDR) from the mVoIP server upon detecting a BYE message. Here, the call details include information on the call history of the user of the first terminal and the user of the second terminal, and may include caller information, recipient information, call start time, call end time, and talk time. Then, the received call details can be included in the second quality information and reported to the mVoIP server. The quality information providing method of the terminal supporting the mVoIP service can report the second quality information to the user of the first terminal by displaying the second quality information on the first terminal. This will be described in detail with reference to FIG. 4 below.

3 is a diagram illustrating a talk time graph for explaining the periods of the first quality information and the second quality information according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the talk time graph may indicate a call start time and a call end time of the first terminal and the second terminal. And X ₁ through X ₄ may represent each time interval of the talk time graph. T _{1 -1} (311) to T _{1 -5} (315) may denote the first period of the first quality information, and T ₂ 320 may denote the second period of the second quality information . At this time, the same as the second period of T ₂ (320) is the sum of the first period T _{1 -1 1} 311 to T _{1 -5} (315). That is, the second quality information is for T ₂ (320) transmission packets and received packets, and the first quality information based on T _{1 -1} (311) to T _{1 -5} (315) is T _{1 - 1} 311 to T _{1 -5} (315) periods and received packets. Therefore, since the target packets of the first quality information and the second quality information are the same, the second quality information may include information on the statistical characteristics of the first quality information.

4 is a diagram illustrating an interface of a terminal supporting an mVoIP service according to an exemplary embodiment.

Referring to FIG. 4, a first terminal supporting mVoIP service according to an exemplary embodiment may provide an instant message 410 to a user of a first terminal when requesting a call setup according to an mVoIP service to a second terminal. When the call is terminated, an instant message 420 including call time information may be provided. For example, if the total talk time is 15 minutes and 20 seconds, the first terminal supporting mVoIP service according to one embodiment may provide an instant message 420 including information such as '15:20'.

In this case, when the user of the first terminal presses the instant message 420 for a long time, the first terminal supporting the mVoIP service according to an embodiment can provide the user with the operation selection window 430. [ The task selection window 430 may include a selection menu such as call quality confirmation 431, copy 432, and deletion 433. Here, if the user of the first terminal selects the call quality check 431, the method of providing quality information of a terminal supporting the mVoIP service according to an embodiment may include a method of providing the quality information of the second terminal, And may receive the user's selection of the first terminal. In response to this, the quality information providing method of the terminal supporting the mVoIP service according to the embodiment can report the second quality information by displaying the second quality information on the second terminal.

5 is a flowchart illustrating a method of managing quality information of an mVoIP server supporting an mVoIP service according to an exemplary embodiment.

Referring to FIG. 5, a quality information management method of an mVoIP server supporting mVoIP service according to an exemplary embodiment (hereinafter referred to as a mVoIP server quality information management method supporting mVoIP service) includes a first terminal via the mVoIP server, (510) the packets transmitted from the first terminal to the second terminal or received packets from the second terminal to the first terminal through a session between the second terminals. Here, the transmission packets and the reception packets may be RTP packets and RTCP packets. That is, the first terminal and the second terminal can be set up using RTP packets and RTCP packets. At this time, since the first terminal and the second terminal are connected via the mVoIP server, the mVoIP server receives the transmission packet of the first terminal and transmits the transmission packet to the second terminal, thereby performing mVoIP service to the first terminal and the second terminal .

In addition, the quality information management method of the mVoIP server supporting the mVoIP service can generate the call detail description (CDR) in response to detecting the termination of the session. Here, the call details include information on the call history of the user of the first terminal and the user of the second terminal, and may include caller information, recipient information, call start time, call end time, and talk time. The quality information management method of the mVoIP server supporting the mVoIP service may transmit the call detail to the first terminal and the second terminal. Accordingly, the first terminal and the second terminal can report the second quality information to the user of the terminal or the mVoIP server using the received call details.

Also, a quality information management method of an mVoIP server supporting an mVoIP service may include acquiring at least one first quality information and second quality information from a first terminal, acquiring at least one first quality information and a second quality information from a second terminal, Information may be obtained (520). Specifically, the mVoIP server can manage the call quality information of the mVoIP service in order to provide a high-quality mVoIP service to the user of the first terminal and the user of the second terminal. Accordingly, at least one of the first quality information and the second quality information can be obtained from the first terminal and the second terminal and managed. At this time, the mVoIP server supporting mVoIP service may include a quality management server. The first quality information and the second quality information can be managed using the quality management server.

The quality information management method of the mVoIP server supporting the mVoIP service can manage the first quality information and the second quality information using the quality information database included in the quality management server. And, using the quality information database, mVoIP service provider can provide improved quality to users of mVoIP service.

6 is a diagram for explaining a quality management database according to an embodiment.

Referring to FIG. 6, the quality management database of the mVoIP server according to one embodiment may include a first quality management table 610 and a second quality management table 630. Here, the first quality management table 610 may include a transmission delay field 611, a packet loss rate field 612, and a jitter field 613. The first quality management table 610 can independently manage the first quality information for the first terminal and the first quality information for the second terminal.

The second quality management table 630 may include data on the second quality information. That is, the second quality management table 630 includes a transmission delay field 631, a packet loss rate field 632, a total packet count field 633, a total loss packet count field 634, a jitter field 635, an IP address Field 636, a location information field 637, a mobile communication network operator field 638, and a call detail field 639. Similarly to the first quality management table 610, the second quality management table 630 can independently manage the quality management information for each terminal.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

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. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (11)

A method for providing quality information of a terminal supporting a mobile Voice over Internet Protocol (mVoIP) service provided in combination with an instant messaging service,
The first terminal establishing a session with the second terminal via the mVoIP server based on the instant message service;
The first terminal transmitting packets to the second terminal using the established session and receiving packets received from the second terminal;
Generating at least one first quality information for each of the transmission packets or the reception packets every first period shorter than the total talk time;
Generating second quality information including information on statistical characteristics of the at least one first quality information and factors of a different type from the at least one first quality information in a second period indicating the total talk time ;
Reporting the at least one first quality information to the mVoIP server for each of the first periods;
Reporting the second quality information to the mVoIP server at the second period; And
Displaying the second quality information using an instant message provided by the instant message service
Lt; / RTI >
The at least one first quality information and the different types of factors
Information on the IP address of the first terminal, information on the location of the first terminal, or information on the mobile communication network provider serving the first terminal,
A method for providing quality information of a terminal supporting mVoIP service.
delete The method according to claim 1,
The step of generating the second quality information
Generating the second quality information using at least one of information on an IP address of the first terminal, information on a location of the first terminal, or information on a mobile communication network provider serving the first terminal ; And
Generating the second quality information using at least one of the transmitted packets, the received packets, or the at least one first quality information
Wherein the mVoIP service is a mVoIP service.
The method according to claim 1,
Wherein the step of reporting the second quality information to the mVoIP server at the second period comprises:
Detecting that a session between the first terminal and the second terminal is terminated; And
Transmitting the second quality information in response to detecting termination of the session
Wherein the mVoIP service is a mVoIP service.
5. The method of claim 4,
The step of transmitting the second quality information
Receiving a call detail record (CDR) from an mVoIP server in response to detecting termination of the session; And
Transmitting the call detail information included in the second quality information and transmitting
Wherein the mVoIP service is a mVoIP service.
The method according to claim 1,
The step of displaying the second quality information
Receiving a selection of a user of the first terminal for provision of the second quality information to a user of the first terminal using the instant message; And
Displaying the second quality information to the first terminal in response to the user's selection of the first terminal
Wherein the mVoIP service is a mVoIP service.
A quality information management method for an mVoIP server supporting a mobile voice over Internet protocol (mVoIP) service provided in combination with an instant message service,
The first packet is transmitted from the first terminal to the second terminal through the session between the first terminal and the second terminal via the mVoIP server based on the instant message service or from the second terminal to the first terminal Lt; / RTI >
Acquiring at least one first quality information for each first period shorter than the total talk time from the first terminal and generating at least one first quality information and a second quality information different from the at least one first quality information, Obtaining second quality information including information on statistical characteristics of the at least one first quality information; And
Obtaining the at least one first quality information for each of the first periods from the second terminal, and acquiring the second quality information in the second period
Lt; / RTI >
The at least one first quality information and the different types of factors
Information on the IP address of the first terminal, information on the location of the first terminal, or information on the mobile communication network provider serving the first terminal,
A method for managing quality information of mVoIP server supporting mVoIP service.
8. The method of claim 7,
Generating a call detail (CDR) in response to detecting termination of the session; And
And transmitting the call detail to the first terminal and the second terminal
Wherein the mVoIP server is a mVoIP server.
8. The method of claim 7,
Acquiring at least one first quality information from the first terminal for every first period shorter than the total talk time and acquiring the second quality information at a second period representing the total talk time
Receiving the at least one first quality information from the first terminal for each of the first periods and receiving the second quality information at the second period;
Storing the first quality information for the first terminal in a first quality management table of the quality management database; And
Storing the second quality information for the first terminal in a second quality management table of the quality management database
And a mVoIP server that supports the mVoIP service.
8. The method of claim 7,
Obtaining the at least one first quality information for each of the first periods from the second terminal and acquiring the second quality information for the second period
Receiving the at least one first quality information from the second terminal for each of the first periods and receiving the second quality information at the second period;
Storing the first quality information for the second terminal in a first quality management table of the quality management database; And
Storing the second quality information for the second terminal in a second quality management table of the quality management database
And a mVoIP server that supports the mVoIP service.
A computer-readable recording medium having recorded thereon a program for executing the method according to any one of claims 1 and 3 to 10.

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