KR100499673B1 - Web-based Simulation Method of End-to-End VoIP Quality in Broadband Internet Service - Google Patents

Abstract

The present invention relates to a web-based simulated VoIP transmission quality measurement method for efficient quality management and quality prediction of VoIP services over high-speed Internet. In particular, the codec and packet transmission frequency selection function to be measured, as well as the measurement server and In addition to the test server connected to the backbone side, it is possible to select the measurement targets by sharing the entire list of subscribers that are accommodated in various subscriber network environments and logged in simultaneously, and by various measurement environments and network configuration environments within the entire ISP network. The present invention relates to a method for measuring simulated VoIP transmission quality.

According to the present invention, by establishing an efficient quality control system for performing simulated VoIP quality measurement in the end-to-end subscriber network of high-speed Internet service, the transmission of VoIP traffic with strong unidirectional transmission and connectionless characteristics It enables rapid service quality diagnosis through web-based simulated transmission quality measurement, which enables stable quality management and quality improvement of VoIP service, and reduces manpower, time and cost required for quality management. And increase work efficiency.

Description

Web-based Simulation Method of End-to-End VoIP Quality in Broadband Internet Service

The present invention enables the simulation and the transmission and reception of simulated VoIP traffic by enabling the simulated VoIP transmission quality measurement through the web connection of the subscriber to the high-speed Internet service for efficient quality control and quality prediction of the VoIP service using the ISP's high-speed Internet service network. The present invention relates to a method for measuring VoIP transmission quality by using the service and estimating voice quality. In particular, the codec and the number of packet transmissions to be measured are selected, as well as the test server (host 0 of FIG. 1) connected to the backbone side together with the measurement server as well as the entire subscriber list accommodated in various subscriber network environments. By selecting the data to be shared as a measurement object, it is possible to simulate VoIP transmission quality by various measurement environments and network configurations in the whole ISP network.

The conventional VoIP service method uses IP subscribers such as xDSL networks and cable networks, which are built to provide Internet services, and enterprise subscriber networks such as dedicated lines, and transmits voice data into IP data packets capable of Internet transmission. That's the way. At this time, the packetized voice data traffic is mixed with the existing general data communication traffic and transmitted to the desired destination host via the ISP backbone network while sharing the network bandwidth and interval. In addition, voice data traffic generated by the other host is also transmitted in the same manner. However, due to the nature of the voice signal, which emphasizes the quality of real-time quality, instead of the TCP protocol which has a connection oriented characteristic that can be retransmitted to prevent data loss in the transmission path, there is no connection loss without additional data loss prevention in the transmission path. RTP protocol is loaded on UDP protocol of connectionless characteristic to transmit voice data. However, IP packetized voice data also has to share and compete with existing Internet traffic and network resources.Therefore, problems such as data loss, excessive transmission delay, out-of-order and irregular packet arrival, etc. are caused when general data traffic is congested or network quality is deteriorated. In particular, it is easy to cause excessive packet loss due to using UDP. This can seriously affect the subjective voice quality felt by VoIP subscribers. Therefore, VoIP data is compressed using various voice compression codecs to reduce the transmission bit rate, while avoiding the consumption of network resources due to VoIP traffic as much as possible, and reducing the transmission bit rate by a period of several tens of msec. The method is used to send UDP packets at intervals.

In fact, in order to receive VoIP service in the home, receiving telephone number resource allocation, call setup protocol and its supporting equipment, voice data compression and transmission protocol and its supporting equipment should be provided together in the existing data network environment.

However, as shown in FIG. 1, in the case of an actual VoIP service, a voice of a caller is sampled by PCM (Pulse Code Modulation) to make a data bit string, which is a data payload of a predetermined size using a VoIP voice compression codec. RTP, UDP, and IP are encapsulated in packet units and transmitted to the Internet data network at regular transmission time intervals. Accordingly, by generating and transmitting pseudo VoIP packets in consideration of the standardized VoIP packet frame format, it is possible to measure a simulated VoIP quality in consideration of actual VoIP telephone service conditions.

In particular, as shown in FIG. 2, if the measurement target can be selected among all hosts connected using the Web in various subscriber network environments such as xDSL, HFC, leased line, and FTTH, the user can easily End-to-end VoIP quality measurement between many subscriber hosts is possible.

Furthermore, using the measurement results obtained through the simulation VoIP quality measurement, according to the E-model voice quality estimation method presented in the ITU-T G.107 Recommendation, the speech quality estimate at the time of the simulation measurement can be calculated and calculated Performers will be able to gauge the VoIP quality level at which they can provide services on the fly.

Furthermore, through the database of simulated VoIP quality measurement results, voice quality estimates, and subscriber information, it will be possible to establish future quality management policies, and to predict efficient quality management and accurate VoIP service quality.

As a result, for more efficient and accurate VoIP quality management and quality prediction of various subscribers applied in existing high-speed Internet service, various quality influence factors of each section of the entire HFC network measure end-to-end haptic quality experienced by subscribers. At the same time, it is necessary to analyze how these quality impact factors actually affect subscriber network quality and respond quickly.

At present, quality measuring equipments that simply have related service equipment on both sides of transmission and reception, generate actual VoIP call and measure the quality at that time have been developed, but have high speed with various subscriber network environment regardless of whether VoIP service is provided. There is no automatic system capable of estimating voice quality while simultaneously simulating VoIP quality measurement by simply generating similar VoIP packets on the web base at the subscriber terminal of Internet service.

SUMMARY OF THE INVENTION An object of the present invention is to enable the simulation of VoIP quality measurement through internet connection of Internet service subscribers and to generate and transmit similar VoIP traffic for efficient quality management and quality prediction of VoIP service using ISP's high speed internet service network. A method for estimating voice quality by measuring VoIP quality is to implement a software application.

According to the present invention, a first step of accessing the VoIP simulation site after authentication, registering with the quality control server of the ISP side, waiting for the measurement; Selecting a measurement target VoIP Codec, determining information depending on the characteristic of the Codec, and then informing the server side of the information; Selecting a slave host, which is a measurement target host, to simultaneously perform a simulated VoIP measurement in order to simultaneously perform the VoIP simulation in the master host, which is the host performing the measurement; A fourth step of identifying a packet transmission path and measuring a round trip delay (RTT) by performing a TraceRoute and a ping test using an Internet Control Message Protocol (ICMP) packet; Generating a simulated VoIP packet traffic using information dependent on the Codec characteristic; A sixth step of unidirectionally transmitting the generated simulated VoIP packet traffic from the master side to the slave side, and conversely performing unidirectional transmission from the slave side to the master side; And calculating a packet loss rate, an inter-packet jitter, or an inter-arrival jitter, and measuring a simulated VoIP packet transmission quality. The web-based end-to-end simulated VoIP quality measurement in a high speed internet service, comprising: Provide a method.

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

2 is a conceptual diagram schematically illustrating a network configuration and a service for performing web-based simulated VoIP transmission quality measurement according to a preferred embodiment of the present invention, and FIG. 3 is a web-based simulated VoIP transmission quality according to a preferred embodiment of the present invention. It is a flowchart exemplifying the step-by-step performance details of the measurement method.

First, the following items are required to perform web-based end-to-end simulated VoIP quality measurement in high speed internet service. First, a simulated VoIP quality measurement system should be constructed with a web server located at the ISP backbone and a DB server for result storage so that subscribers can perform quality measurements using web access and smoothly relay. In addition, in order to distinguish and authenticate subscribers before and after measurement, a service subscriber is given a unique unique number that allows web access, and authentication should be performed.

Hereinafter, a web-based end-to-end simulated VoIP quality measurement method in a high speed internet service according to a preferred embodiment of the present invention will be described in detail.

As shown in FIG. 3, first, in order to access a website dedicated to VoIP simulation quality measurement of an Internet service provider (ISP), the subscriber enters the web address into a web browser and accesses it (S31). By entering the user number for subscriber authentication, authentication as a normal subscriber is completed, and the corresponding host of the subscriber is registered as a 'waiting measurement host' in the quality measurement management server.

Then, select the target VoIP Codec to be measured (S32). Since the information compression rate, packet size, and packet transmission time interval vary according to the voice compression codec used for VoIP, the packet size and the type of packet that determine the similar VoIP packet generation and transmission type to be performed in the following measurement according to the selected codec, The packet transmission time interval is determined. In addition, the number of packets to be sent at one time per measurement is selected.

Next, select a measurement target host to perform a simulated VoIP quality measurement (S33). The host to be measured can be authenticated by the web server in the same way, and all hosts registered as 'hosts for measurement' can be measured, and the measurement performer first selects the other host and clicks the start measurement button. The selected performer side host becomes the master host, and the passively selected counterpart target is automatically switched to the slave host and performs simulations with each other until the measurement is completely finished. At the same time, both sides are registered on the server side as a 'host in measurement' and cannot be selected as a measurement target from a third host.

The present measurements are now performed sequentially. First, TraceRoute is performed by using the Internet Control Message Protocol (ICMP) to determine the route of data traffic. In addition, by performing a ping test using an ICMP ping packet having the same size as the packet size defined in the selected measurement target VoIP Codec, the round trip delay (RTT) is measured (S34) to have the same packet size. The round trip delay between networks is assumed when VoIP packets are transmitted. In this measurement, the master host first performs the slave host, and then the slave host performs the same for the master host.

Thereafter, a pseudo VoIP packet for a simulated VoIP quality measurement is generated (S35). Instead of the actual voice information data, the similar VoIP packet records information such as packet transmission time for acquiring transmission quality information at the receiving end and calculating a measurement item, CPU clock of the transmitting host, packet serial number, and the like. It is created to have a data payload of. The data payload is encapsulated by the RTP and UDP protocols like the actual VoIP traffic. Similar VoIP packet traffic generated in this way is generated to be transmitted periodically according to the packet transmission time interval defined in the selected Codec, similar to the actual VoIP packet traffic.

Thereafter, the generated simulated VoIP traffic is unidirectionally transmitted from the master side to the slave side, and conversely, unidirectional transmission is performed from the slave side to the master side (S36). The simulated VoIP traffic transmission aspect is the same as the actual VoIP packet using the selected Codec in terms of packet size and transmission time interval.

Next, the simulated VoIP quality performed in the step is measured by using the information of the simulated VoIP packets received from the counterpart host (S37). This calculates packet loss rate, inter-packet jitter, and inter-arrival jitter. In the case of jitter calculation, calculation is performed using packet transmission time, CPU clock, packet serial number, and the like, which are information transmitted from a transmitting host. For reference, the inter-packet Jitter (D (i, j)) is calculated by the following equation.

Where i, j: packet serial number

S: packet transmission time

R: Packet reception time

In addition, Inter-Arrival Jitter (J _i ) is calculated by the following equation.

Where i is the packet serial number

D: Inter-packet Jitter

Next, using the quality measurement results calculated above, to estimate the voice quality at the time of the simulated VoIP quality measurement (S38). This is done by calculating the R-factor (hereinafter referred to as "R") and pseudo MOS (Mean Opinion Score) as set out in ITU-T Recommendation G.107 E-model. R and MOS are calculated as follows.

R = Ro-Is-Id-Ie + A

Where Ro: Basic signal-to-noise ratio

Is: Simultaneous impairment factor

Id: Delay impairment factor

Ie: Equipment impairment factor

A: Advantage factor

MOS = 1 + 0.035R + R (R-60) (100-R) * 7/1000000

Finally, the final measurement result, the estimated voice quality, and the measurement target host information, which are performed above, are displayed to the measurement performers of the master host and the slave host using the web screen, and stored in the DB server linked with the measurement host server. (S39). In addition, it can be remeasured by reducing from 'host under measurement' to 'host during measurement'. According to whether the measurement performer selects whether to repeat the measurement, the process of repeating the measurement is repeated again, or finally, the measurement is stopped and released from the 'waiting host' list.

As described above, according to the web-based end-to-end simulated VoIP quality measurement method for high-speed Internet service according to the present invention, it is possible to perform simulated quality measurement assuming the actual VoIP service regardless of whether the measurement performer subscribes to the VoIP service. Without installing equipment, it is possible to implement a software application that can identify not only the end-to-end VoIP transmission quality but also the estimated voice quality status and analyze the cause of quality degradation in the high-speed Internet service, which has outstanding characteristics of best-effort.

Although only specific embodiments of the present invention have been described so far, it will be apparent to those skilled in the art that various changes and modifications are possible.

According to the present invention, by building a web-based end-to-end simulated VoIP quality measurement system in the subscriber's home of high-speed Internet service, performing the simulation quality measurement assuming the actual VoIP service and the voice at that time irrespective of whether the measurement performer subscribes to the actual VoIP service. By being able to estimate the quality, it is possible to easily grasp the status of the end-to-end VoIP transmission quality in various high speed internet services without installing additional equipment, and to estimate the estimated voice quality status under the assumption of actual service, thereby making the VoIP quality more efficient. By enabling management, you can save huge staff, time, and money.

In addition, each quality impact factor stored in the database is statistically analyzed and used as important subscriber management and objective evidence data to enable efficient quality management in the future, and to easily establish a quality management policy for each network section based on quality measurement data. It has the advantage of being.

1 is a diagram illustrating a conventional actual VoIP packet frame format,

2 is a conceptual diagram schematically showing a network configuration and a service for performing a web-based simulated VoIP transmission quality measurement according to a preferred embodiment of the present invention; and

3 is a flowchart illustrating in detail the step-by-step performance of the web-based mock VoIP transmission quality measurement method according to an embodiment of the present invention.

Claims (6)

In the web-based end-to-end simulated VoIP quality measurement method for high speed internet service, A first step of accessing the VoIP simulation measurement site, authenticating, registering with the ISP measurement server, and waiting for measurement; Selecting a measurement target VoIP Codec, determining information depending on the characteristic of the Codec, and then informing the server side of the information; Selecting a slave host, which is a measurement target host, to simultaneously perform a simulated VoIP measurement in order to simultaneously perform the VoIP simulation in the master host, which is the host performing the measurement; A fourth step of identifying a packet transmission path and measuring a round trip delay (RTT) by performing a TraceRoute and a ping test using an Internet Control Message Protocol (ICMP) packet; Generating a simulated VoIP packet traffic using information dependent on the Codec characteristic; A sixth step of unidirectionally transmitting the generated simulated VoIP packet traffic from the master side to the slave side, and conversely performing unidirectional transmission from the slave side to the master side; And A seventh step of measuring a packet loss rate, an inter-packet jitter or an inter-arrival jitter, and measuring a simulated VoIP packet transmission quality; and a web-based end-to-end simulated VoIP quality measurement method for a high-speed internet service, comprising: . The method of claim 1, The information based on the corresponding codec characteristic in the second step includes packet size information, transmission time interval, or packet transmission count. The method of claim 1, ICMP packet in the fourth step has a size equal to the packet size defined in the selected measurement target VoIP Codec Web-based end-to-end simulation VoIP quality measurement method. The method of claim 1, The simulated VoIP packet traffic in the fifth step has the same size as the packet transmission time interval and packet size defined in the selected measurement target VoIP Codec, performs RTP / UDP packet encapsulation, and data of each packet. A web-based end-to-end simulation of VoIP quality in a high-speed Internet service, characterized in that the payload filed records the information of the transmission time, the CPU clock of the sending host, or the generated packet serial number, and is generated for a predetermined number of packet transmissions. The method of claim 1, In the seventh step, the master host and the slave host each check the number of mock VoIP packets received from the other party, serial number, transmission time or CPU clock of the transmitting host in the high speed Internet service, characterized in that Web-based end-to-end simulated VoIP quality measurement method. The method according to any one of claims 1 to 5, After the seventh step, estimating voice quality by calculating R-factor and pseudo MOS (Mean Opinion Score) using the simulated VoIP packet transmission quality measurement result; And / or outputting the measurement result and the measurement target host information to a measurement performer of each of the master host and the slave host and storing the measurement result in a DB server interoperating with the quality measurement server. Web-based end-to-end simulated VoIP quality measurement in services.