KR20110013823A - Method and server for providing contents - Google Patents

Abstract

PURPOSE: A contents providing server is provided to change the transmission bit rate and transmission speed by a preset condition such as grading or order. CONSTITUTION: A download transmission module(320), a streaming transmission module(330), and a progressive download transmission module(340) support multiple transmission methods. A network monitoring module(310) detects whole network traffic quantity capable of using, and used traffic quantity through the network. A controller(360) controls the transmission mode among decrease, increase or maintain by the comparison result between the whole traffic quantity, and whole network capacity.

Description

Method and server for providing contents

The present invention relates to a content providing technology, and more particularly, when one server transmits content, for example, video data, in various ways, the transmission bit rate of various transmission methods may be changed for each transmission method according to a network state. It relates to a content providing method and a server.

In the past, users purchased or rented a video storage medium such as VHS or DVD to watch a video, and then watched the video using a playback device capable of playing the video storage medium. In addition, users have watched various dramas and news videos through the TV.

Recently, however, due to the remarkable development of network technology and personal computer technology, users do not watch a video using a TV or a storage medium playback device, but receive the video data through a network and then watch the video data through a PC screen.

Video on Demand (VOD) service in the video service using the network assumes an environment in which a dedicated line is connected between the service providing server and the user terminal. In this case, the bandwidth of the network and the service server It was possible to accurately predict traffic capacity and prepare for the increase. These VOD services have evolved in accordance with the development of the Internet. As a general web service is available in the existing dedicated server and the protocol, the PC-based PC environment can be provided by the user. From the standpoint of the general web server environment, anyone can easily provide or receive VOD service. That is, the user can access the server of the service provider and download desired video data to the PC to play. In addition, with the spread of high-speed Internet, users have recently been able to receive and play video not only by downloading and transmitting video data but also by streaming.

Separately, with the introduction of the concept of IPTV, even TV broadcasts can receive broadcast signals through an internet network connected to an over-the-top set-top box (OTT-SB) instead of receiving broadcast signals through broadcast channels. As a result, not only real-time broadcasting but also VOD (Video on Demand) service can be provided on TV. Recently, the movement to position TV as the center of digital convergence has been active, and the concept of 'Smart TV', which embraces the Internet, has emerged, providing not only broadcasting contents provided to broadcasting stations or IPTV operators, but also U-Tube, Joost, etc. Even web content can be provided on TV screens.

The evolving method of transmitting video data is a download transfer method of a file sharing service using general file transfer protocols such as FTP and HTTP, and streaming that generates and transmits video and audio packets simultaneously with a user's request. There are three main methods: the transmission method, the progressive download method of muxing and transmitting the video and audio bitstreams, and immediately storing and playing the bitstreams.

In general, a provider of a video service provides a service by selecting a specific method from three types, and provides a service by establishing a separate server according to a transmission method.

However, a terminal receiving a service, such as a TV, a PC, a mobile phone, etc., has a reception method suitable for the characteristics of the terminal. However, since a video service provider provides a service in a specific manner, There is a limit. In addition, in order to provide a stable service using limited network resources, there is a need for a method capable of transmitting content according to limited resources of the network and changes in the network environment.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, a content providing method and server that can service content at an optimal transmission speed while maintaining a constant quality of service by efficiently controlling limited network resources To provide.

In order to achieve the above object, the present invention provides a storage unit for storing contents transmitted according to a plurality of transmission schemes; At least two transmission modules for supporting each of the plurality of transmission methods; A network monitoring module that detects the total amount of network traffic that can be transmitted through a network and the total amount of transmission traffic that is actually transmitted according to the plurality of transmission schemes; And a controller configured to adjust the transmission speed of at least one of the plurality of transmission schemes to at least one of a state of reducing, increasing, and maintaining according to a result of comparing the total amount of transmission traffic with the total amount of network traffic. to provide.

According to an aspect of the present invention, there is provided a content providing method comprising: detecting, by a content providing server, the total amount of network traffic that can be transmitted through a current network; Detecting, by the content providing server, the total amount of transmission traffic actually transmitted according to a plurality of transmission schemes; Comparing, by the content providing server, the total amount of transport traffic with the total amount of network traffic; And adjusting, by the content providing server, at least one of reducing, increasing, and maintaining a transmission speed of at least one of the plurality of transmission schemes according to the comparison result.

In the adjusting step, when the total amount of transmission traffic is less than or equal to the total amount of network traffic, the transmission bit rate set for each transmission method is sequentially increased according to a predetermined condition until the total amount of transmission traffic is greater than or equal to the amount of total network traffic. In this case, the transmission bit rate set for each transmission method is sequentially increased by the same amount according to a preset condition, or the transmission bit rate set for each transmission method is sequentially increased by a predetermined amount with a different value according to a preset condition, or a specific transmission method is used. After increasing the transmission bit rate to a predetermined maximum bit rate, it is characterized in that the control to increase the transmission bit rate of the other transmission scheme.

In the adjusting step, when the total amount of transmission traffic is less than or equal to the total amount of network traffic, the transmission bit rate set for each transmission method is sequentially increased according to a predetermined condition until the total amount of transmission traffic is equal to or greater than the amount of total network traffic. Or increase the transmission bit rate set for each transmission method sequentially by the same amount according to a predetermined condition, or sequentially increase the transmission bit rate set for each transmission method by a certain amount of a different value according to a preset condition, or After increasing the transmission bit rate of the transmission scheme to a predetermined maximum bit rate, it is characterized in that the control to increase the transmission bit rate of the other transmission scheme.

According to the present invention, the content providing server changes the transmission rate or transmission bit rate set in a plurality of transmission methods, for example, download, streaming, and progressive download methods, according to various set conditions such as differential and sequential according to a network change. It is possible to service contents at an optimal transmission speed while maintaining the quality of service.

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

In describing the embodiments, descriptions of technical contents that are well known in the art to which the present invention pertains and are not directly related to the present invention will be omitted. In addition, detailed description of components having substantially the same configuration and function will be omitted.

For the same reason, some components in the accompanying drawings are exaggerated, omitted, or schematically illustrated, and the size of each component does not entirely reflect the actual size. Therefore, the present invention is not limited by the relative size or spacing drawn in the accompanying drawings.

In the following description, the content providing server of the present invention will be described with an example of a server capable of transmitting content in three ways such as downloading, streaming, and progressive download. Such a content providing server of the present invention can efficiently control the limited network traffic capacity of the content providing system and provide the content in each transmission scheme, thereby delivering content at an optimal transmission speed while maintaining the quality of service. In the following description, the content will be described on behalf of the video data.

The download transmission method is a method of downloading and storing a video file from the user terminal. Since the user terminal plays after completion of the chapter of the downloaded video file, the transmission speed and the quality of the data are not related.

The streaming transmission method is a method of generating a video file and an audio packet, and then transmitting the video file to the user terminal in packet units. In this streaming transmission method, since the user terminal does not store the received packet and also reproduces the received packet, the transmission speed and the reproduction speed must be the same to enable a constant video playback service.

The progressive download transmission method downloads and stores a video file from a user terminal and simultaneously plays the video file. In such a progressive download transmission scheme, the transmission rate must be higher than the reproduction rate in order to store and reproduce the received packet.

Hereinafter, the content providing system of the present invention will be described with reference to FIG. 1. 1 is a view schematically showing the configuration of a content providing system according to an embodiment of the present invention.

Referring to FIG. 1, the content providing system of the present invention may include a content providing server 300, a network 200, and user terminals 100.

In the content providing system of the present invention having the configuration as described above, after the user terminals 100 access the content providing server 300 through the network 200, the content providing server 300 provides a specific content according to a user control. When content, for example, video data is selected, the content providing server 300 determines a video data transmission method according to device characteristics of the user terminals 100 or a user request, and transmits the video data transmission according to the determined transmission method. To control. At this time, the content providing server 300 may check the network 200 state to adjust the transmission rate, that is, the transmission bit rate for each transmission method. That is, the content providing server 300 may control to transmit the video data by adjusting the specific video data transmission rate according to the network 200 state and the video data transmission method. Hereinafter, each configuration will be described in more detail.

The user terminals 100 may be various electronic terminals capable of receiving and playing contents, for example, video data, transmitted from the content providing server 300 by accessing the network 200. For example, the user terminals 100 may receive a TV or IPTV 110, a portable terminal 120, and a desktop, which may receive and reproduce video data transmitted by the content providing server 300 through the network 200. Terminal 130 may be. When no separate storage device is provided, the TV 110 may support only a streaming transmission scheme in order to immediately play the video data transmitted by the content providing server 300. The TV 110 may support both a progressive download transmission method and a streaming transmission method when a storage device is provided. In addition, the portable terminal 120 may support at least one of a streaming transmission method and a download transmission method due to ease of portability and limitations of hardware according to the portability. The desktop terminal 130 may support both a download transmission method, a streaming transmission method, and a progressive download transmission method. The transmission scheme of each terminal described above may vary according to hardware support.

The network 200 is located between the content providing server 300 and the user terminals 100 to provide a path for signal transmission and reception between the content providing server 300 and the user terminals 100 to relay a signal. It is a constitution. The network 200 includes information for the user terminals 100 to access the content providing server 300, a signal for selecting a specific content provided by the content providing server 300, and the selected contents. It supports data passing generated by sending to. The network 200 may be an IP network based on IP. When the network is an IP network, the user terminals 100 may receive video data based on IP. Since the network 200 is composed of substantially fixed hardware, a maximum value of a bandwidth capable of transmitting and receiving a signal may be limited. Accordingly, when many user terminals 100 use the network 200, the congestion degree of the network 200 increases, and when the congestion degree increases by a certain amount or more, data for each transmission scheme provided to the user terminals 100. The transmission speed can drop dramatically.

The content providing server 300 controls to adjust the transmission speed of the video data according to the state of the network 200 such as the degree of congestion of the network 200 and the transmission method of the video data provided to the user terminals 100. The content providing server 300 may transmit a video data requested by the user terminals 100 by selecting a specific transmission method according to the device characteristics of the user terminals 100 and the request of the user terminals 100. For example, when all of the user terminals 100 request to transmit the same video content, the content providing server 300 transmits the video content to the TV 110 in a streaming transmission method, and the mobile terminal 120 ) May be transmitted in a download transmission method, and may be transmitted to the desktop terminal 130 in a progressive download transmission method. Here, when the TV 110 supports only the streaming transmission method, the content providing server 300 may transmit the video data to the TV 110 in the streaming transmission method even if there is no separate user request. When the portable terminal 120 supports the download transmission method and the streaming transmission method, the content providing server 300 may determine the transmission method of the video data based on the method requested by the user of the portable terminal 120. . In addition, when the desktop terminal 130 supports both the download transmission method, the streaming transmission method, and the progressive download transmission method, the content providing server 300 is similar to the case of the mobile terminal 120. ) Controls to transmit the video data according to the transmission method requested by the desktop terminal 130. Meanwhile, when the content providing server 300 transmits video data to a plurality of user terminals in different transmission methods, when the degree of congestion of the network 200 increases, for example, a large number of user terminals display content. When the degree of congestion increases as the network 200 is used to access the providing server 300 and request video data, the content providing server 300 differentially adjusts the transmission rate according to a transmission method, thereby improving overall data transmission quality. It can be controlled to maintain. For example, the content providing server 300 may control to lower the transmission speed of, for example, the download transmission method, which is not related to the transmission speed and the playback quality, while maintaining the transmission speeds of other methods. The content providing server 300 may control to reduce the transmission speed of the progressive download method when the network 200 becomes worse. As a result, the content providing server 300 adjusts the transmission speed of the video data transmitted in a transmission method having a low relationship between transmission speed and service quality as the network 200 becomes worse, compared with other methods. For example, it can be controlled to maintain a certain quality of service. This content providing server 300 will be described in more detail with reference to FIG. 2.

2 is a block diagram schematically showing the configuration of a content providing server 300 according to an embodiment of the present invention.

2, the content providing server 300 of the present invention includes a network monitoring module 310, a download transmission module 320, a streaming transmission module 330, a progressive download transmission module 340, and a communication module. 370, the storage 350, and the controller 360 may be configured. Here, the download transmission module 320, the streaming transmission module 330, and the progressive download transmission module correspond to a transmission module for each method of the content providing server 300.

The content providing server 300 of the present invention determines the network state through the network monitoring module 310, and if the network state is changed, the download transmission module 320, the streaming transmission module 330 and the progressive download transmission The module 340 may be controlled to adjust the data transmission speed. Through this, the content providing server 300 may transmit video data having an appropriate quality of service according to network conditions. Hereinafter, each configuration will be described in more detail.

The network monitoring module 310 monitors the congestion measurement of the network and monitors the number of transmission sessions for transmitting video data in each module for transmitting video data in various ways. That is, the network monitoring module 310 may measure the congestion of the network based on various methods, for example, a delay time between transmission of a packet and reception of a response signal for reception of the packet. In addition, the network monitoring module 310 may measure the congestion of the network based on packet transmission and loss, and the network monitoring module 310 may transmit maximum transmission in the current network state based on the measured congestion. You can measure the speed. For example, the network monitoring module 310 may transmit while gradually increasing the transmission speed of data, and measure a statistical reference point at which a data collision occurs, and transmit the highest value among the statistical reference points in the current network state. Can be set to the maximum possible data rate. In this step, the network monitoring module 310 may collect a value for the maximum data transmission rate for each data transmission method through monitoring. That is, the network monitoring module 310 may collect the maximum transmission rate that can be transmitted for each download transmission method, streaming transmission method, and progressive download transmission method. In addition, the network monitoring module 310 may use three methods and collect information on the maximum transmission speed of data that can be transmitted in the current network state. Meanwhile, the network monitoring module collects information on the total number of transmission sessions that the download transmission module 320, the streaming transmission module 330, and the progressive download transmission module 340 form with user terminals. do. The total number of transmission sessions may be an indicator for calculating the total amount of data being transmitted in the network and the amount of data being transmitted by each support module. The network monitoring module 310 may transfer the collected information to the controller 360. In other words, the network monitoring module 310 may calculate the sum of the number of service sessions connected for each video transmission method and the total bit rate transmitted for each transmission method, and transmit the result to the controller 360. The network monitoring module 310 monitors in real time whether the sum of the total data transmission bit rates transmitted for each transmission scheme exceeds a range of the total data transmission bit rates that the corresponding content providing server 300 can transmit. The result may be transmitted to the controller 360. To this end, the network monitoring module 310 may detect the total data transmission bit rate of the network that can be used by the content providing server 300.

The download transmission module 320 forms a channel with the user terminal, and transmits the content stored in the storage unit 350 to the user without additional processing through the formed channel. That is, the download transmission module 320 supports the transmission of content having a structure of a header value that the user terminal needs to receive and store, and a body value defined in the header value.

The streaming transmission module 330 converts the contents stored in the storage 350 into packets of a form that can be reproduced and received at the same time. For example, the streaming transmission module 330 generates video data of a predetermined frame unit and audio data synced to the corresponding frame as a packet, and transmits the packet to the user terminal. In this case, the packet may be generated in a header that can reproduce the corresponding frame and audio data in real time and a structure of a body defined by the header.

The progressive download transmission module 340 transmits the content stored in the storage 350 to the user terminal in the form of a file in the same manner as the download transmission module. In this case, the user terminal may control to play the downloaded content together with the storage.

The communication module 370 forms a communication channel with the user terminal to support physical transmission of content for each transmission method requested by the user terminal. That is, the communication module 370 transmits data transmitted by the download transmission module 320 to the user terminal through the download transmission method to the user terminal through a network. The communication module 370 transmits data transmitted by the streaming transmission module 330 in a streaming transmission method to a user terminal through a network. The communication module 370 also supports the progressive download transmission module 340 to transmit data to the user terminal. The communication module 370 may transmit an access signal of a user terminal to the controller 360, and may transmit a content transmission request signal transmitted from the user terminal to the controller 360. In addition, the communication module 370 supports the transmission and reception of signals transmitted by the network monitoring module 310 to determine the network state, and the download transmission module 320, the streaming transmission module 330, and the progressive download transmission. The module 340 may transmit the information about the transmission session with the user terminals to the network monitoring module 310. In practice, the network monitoring module 310 collects information on the number of transmission sessions with the user terminal through the communication module 370.

The storage unit 350 stores the content and delivers the content to each transmission module under the control of the controller 360. The storage unit 350 may store user registration information and authentication information for accessing and authenticating the user terminal.

The controller 360 calculates a maximum transmission rate that can be transmitted using a current network, based on the number of transmission sessions measured by the network monitoring module 310, the total transmission rate, and the transmission rate value for each transmission module. In addition, the controller 360 calculates the lowest transmission rate that can be transmitted in a range that does not affect the quality of service for each transmission module. For example, in the case of a streaming transmission method, a data transmission rate must be higher than a predetermined bit rate to enable seamless service in a video playback step. The controller 360 may determine the predetermined bit rate as the lowest transmission speed of the streaming transmission method. In this step, the controller 360 may perform calculation on the number of sessions that can be transmitted by streaming transmission at the lowest transmission speed using the current network. In addition, the controller 360 may perform the maximum transmission rate and the lowest transmission rate calculation in the same manner as the streaming transmission method for the download transmission method and the progressive transmission method. Here, in the case of the download transmission method, the transmission speed and the playback quality are not directly related, but the user's psychological limit line with respect to the download time may be set to the lowest transmission speed. In the case of the progressive download transmission method, it is preferable to have a faster transmission speed than the streaming transmission method by simultaneously storing and playing the data. Therefore, the controller 360 sets the lowest speed of the progressive download transmission method as compared to other methods. Can be set high. Meanwhile, the controller 360 calculates the maximum and minimum integrated data transmission rates that can be transmitted in the current network based on the relationship between the transmission speed and the reproduction quality as described above. At this time, the requests of the user terminals may be substantially concentrated in a specific transmission scheme, and the controller 360 calculates the maximum and minimum data transmission rates in consideration of such a correlation. That is, the controller 360 may adjust the maximum and minimum data transmission rates of different transmission schemes according to the increase and decrease of the transmission session of the specific transmission scheme. For example, when the controller 360 needs to reduce the transmission speed for a specific reason during the step of transmitting data to three user terminals, the transmission speed of the data transmitted in a download transmission method that does not affect the playback quality or has little effect. Can be controlled to reduce. In this manner, the control unit 360 may secure the quality of data transmission transmitted in another transmission method.

Meanwhile, the controller 360 may set a minimum transmission bit rate for each transmission method for maintaining a certain level of service quality according to a video transmission method such as downloading, streaming, and progressive download. To this end, the controller 360 may detect information about a production bit rate of the content, and may set the production bit rate as the minimum transmission bit rate for each transmission scheme. In addition, the control unit 360 sets the transmission bit rate to be equal to or higher than the bit rate at which the content is produced for each transmission method, and controls the data to be transmitted. The controller 360 may independently set and adjust the currently transmitted bit rate for each transmission method. When the sum of the total bit rates transmitted for each transmission method exceeds the range of the bit rate that can be transmitted by the content providing server, the transmission is performed. It can be controlled to reduce the transmission rate differentially and sequentially for each method. In addition, the controller 360 may control to increase the transmission rate differentially and sequentially for each transmission method when the sum of the total bit rates transmitted for each transmission method is maintained below the range of the bit rates that the content providing server can transmit. have. In this case, the controller 360 may determine the priority of the difference and the sequence as the influence on the service quality for each transmission method.

As described above, the content providing system according to an exemplary embodiment of the present invention monitors the network state by using the network monitoring module 310 and transmits when the network state is not good, for example, when the network has a predetermined congestion degree. By controlling the data transmission rate to be differentially reduced according to the method, the overall quality of service can be maintained, and when the network condition improves again, the quality of service can be maintained by restoring the data rate. Hereinafter, an operation method of the above-described content providing system will be described in more detail with reference to the accompanying drawings.

3 is a flowchart illustrating a content providing method according to an embodiment of the present invention.

Prior to the description, the bit rate of the content described below is defined as BR_Con, the download transmission setting bit rate is BR_DL_Set, the maximum download transmission bit rate is BR_DL_Max, and the download minimum bit rate is defined as BR_DL_Min. In addition, the streaming setting bit rate is defined as BR_ST_Set, the maximum streaming bit rate is BR_ST_Max, the streaming minimum bit rate is defined as BR_ST_Min, the progressive download setting bit rate is BR_PD_Set, the progressive download maximum bit rate is BR_PD_Max, and the progressive download minimum is The bit rate is defined as BR_PD_Min. The total amount of data traffic transmitted according to the download transmission method is BR_DL_Sum, the total amount of data traffic transmitted according to the streaming transmission method is BR_ST_Sum, and the total amount of data traffic transmitted according to the progressive download transmission method is BR_PD_Sum. In addition, the total amount of network traffic that the content providing server can transmit based on the network is defined as BR_Ser_Max. Here, the sum of the BR_DL_Sum, BR_PD_Sum, and BR_ST_Sum is the total amount of transmission traffic actually transmitted by the content providing server.

Referring to FIG. 3, the content providing method of the present invention first arbitrarily sets a bit rate value of each transmission scheme in step S301 according to a service operation principle. Here, the bit rate values of the arbitrarily set transmission scheme are based on the service operation principle. When the service operation principle is changed, the bit rate values may be changed. In general, the quality of service of a video is determined by the value of BR_Con. Meanwhile, according to the service operation principle, the download maximum bit rate value is an example, and the download maximum bit rate value is set to 5 times the download minimum bit rate. The streaming maximum bit rate value is set to 1.2 times the minimum bit rate value, and the progressive download maximum bit rate value is set to 2.5 times the minimum bit rate value. Here, BR_Con is a bit rate value applied at the time of producing a video and may be a minimum value of a bit rate value for playing a video. That is, in the streaming transmission scheme, since BR_ST_Min must be equal to or greater than BR_Con in order to reproduce the frame without breaking, the BR_Con may be set to a minimum bit rate value in the streaming transmission scheme. Similarly, the progressive download transmission scheme may also have BR_PD_Min, which is the minimum bit rate value, may be BR_Con. In the progressive download transmission scheme, the minimum bit rate value must be greater than or equal to BR_Con to provide good reproduction quality. In the progressive download transmission method, when the minimum transmission bit rate is smaller than the bit rate of the content, the screen may freeze while switching to the buffering mode. Therefore, the content providing server of the present invention may set the minimum value for each transmission method of video data to the value of BR_Con described above. The minimum value set as described above may be a minimum value of a service quality of video data transmitted by a specific transmission scheme.

Meanwhile, bit rate values according to transmission schemes set according to the service operation principle may be maximum values in each transmission scheme. That is, as in step 401, the maximum transmission rate BR_DL_Max may be 5 * BR_Con depending on the setting, and the maximum transmission rate BR_ST_Max may be 1.2 * BR_Con depending on the setting, and the progressive download transmission may be performed. The method maximum bit rate BR_PD_Max may be 2.5 * BR_Con.

When the initialization setting is completed, the content providing server may set the set bit rate value of each transmission scheme to the maximum value in step S303. That is, the content providing server may set BR_DL_Set to BR_DL_Max, BR_ST_Set to BR_ST_Max, and BR_PD_Set to BR_PD_Max. When the setting is completed, the content providing server controls the data transmission based on the bit rate value set in step S305.

Thereafter, the content providing server checks whether the amount of traffic transmitted by the entire transmission method is greater than BR_Ser_Max, which is the maximum amount of data traffic that the content providing server can transmit in step S307. To this end, the content providing server obtains the total traffic amount BR_DL_Sum transmitted by the download transmission method, the total traffic amount BR_ST_Sum transmitted by the streaming transmission method, and the BR_PD_Sum total traffic amount transmitted by the progressive download transmission method, and then adds up the sum of each traffic amount. Calculate The sum thus calculated is compared with the BR_Ser_Max. To this end, the content providing server may collect information on the number of sessions generated by each transmission scheme and the traffic volume of each session from the network monitoring module. If the total sum is smaller than BR_Ser_Max in step S307, the process may be branched to step S305 and subsequent steps may be repeatedly performed.

On the other hand, if the total sum is greater than BR_Ser_Max in step S307, the control unit of the content providing server branches to step S309 to reduce the set values. For example, if the number of transmission requests for content to the content providing server is continuously increasing, and the sum of the traffic volume of each service is greater than BR_Ser_Max, the service transmission rate is decreased in order of decreasing the quality of the service. give. As described above, if it is initially set as BR_DL_Set = 5 * BR_Con, BR_ST_Set = 1.2 * BR_Con, BR_PD_Set = 2.5 * BR_Con, the service that has the least effect on the quality of service, for example, the download transmission method set to 5 times of BR_Con Lower the value to, for example, BR_DL_Set = 3 * BR_Con.

In addition, although the content providing server reduces the transmission speed of the download service, if the total number of content transmission requests continues to increase and the total traffic is greater than or equal to BR_Ser_Max, next, a service that may have less influence on the quality of the service, for example, Change the BR_PD_Set of the progressive download transfer method to 1.5 * BR_Con. Thereafter, if the total number of content transmission requests continues to increase and the total traffic is greater than BR_Ser_Max, the value of BR_ST_Set may be reduced.

Here, the content providing server is described as reducing the transmission speed of the download transmission method that does not affect the quality of service to a certain amount first, and then reducing the transmission speed of the progressive download transmission method in reducing the transmission speed. However, the present invention is not limited thereto. That is, the content providing server may control to reduce the value of BR_DL_Set to maintain the total traffic amount below BR_Ser_Max. In this case, the content providing server may control to reduce the BR_DL_Set value to a minimum value. Thereafter, when the total traffic amount is greater than BR_Ser_Max, the content providing server may control to gradually reduce the value of BR_PD_Set, and reduce the transmission speed such that the maximum BR_PD_Set becomes the minimum value. Thereafter, when the total traffic amount is greater than or equal to BR_Ser_Max, the content providing server may control to gradually reduce the value of BR_ST_Set.

In summary, the content providing server preferentially decreases the transmission speed of the download transmission method that has little influence on the quality of service when the transmission speed needs to be reduced as the traffic volume increases. If the transmission speed of the progressive download transmission method is less affected, and the transmission speed of the progressive download transmission method is the minimum value, then the transmission speed of the streaming transmission method with less influence on the quality of service is next. Can be controlled to reduce.

In addition, when the content providing server needs to reduce the transmission speed, the transmission speed of the download transmission method that has little influence on the service quality is reduced to a certain amount, and then the transmission speed of the progressive download transmission method that affects the service quality. To reduce to a certain amount, and then control to reduce the transmission rate of the streaming transmission method to a certain amount. In addition, if it is necessary to further reduce the transmission speed, the content providing server may control to repeatedly reduce the amount by a predetermined amount from the download transmission method. Here, the predetermined amount may be differentially applied to each transmission scheme. That is, the predetermined amount reduced in the download transmission scheme may be greater than the predetermined amount reduced in the progressive download transmission scheme and the predetermined amount reduced in the streaming transmission scheme.

Next, the content providing server checks whether the sum of the total traffic amount BR_DL_Sum, BR_ST_Sum and BR_PD_Sum is less than BR_Ser_Max in step S311, and if greater than BR_Ser_Max, branches to step S309 to reduce the transmission speed reduction described above. Can be done repeatedly.

On the other hand, if the total traffic amount is smaller than BR_Ser_Max in step S311, the process branches to step S313 to control to increase the values of BR_DL_Set, BR_ST_Set, and BR_PD_Set in the reverse order of step S309. In more detail, the content providing server controls to increase the transmission rate, for example, BR_ST_Set of the streaming transmission method, in which the transmission speed has the greatest influence on the quality of service when the total traffic amount is smaller than BR_Ser_Max. Thereafter, the content providing server may control to increase the transmission speed of BR_PD_Set when the total traffic amount is smaller than BR_Ser_Max, and control to increase the transmission speed of BR_DL_Set when the total traffic amount is smaller than BR_Ser_Max. In this step, the content providing server may increase the transmission speed of BR_ST_Set to a maximum value and then control to increase the transmission speed of BR_PD_Set when the total traffic volume is smaller than BR_Ser_Max. Similarly, the transmission speed of BR_PD_Set may be increased. Even after increasing to the maximum value, if the total traffic volume is smaller than BR_Set_Max, it can be controlled to increase the transmission speed of BR_DL_Set. In addition, when increasing the transmission speed, the content providing server increases the transmission speed by a predetermined amount of BR_ST_Set, and when it is necessary to continuously increase the transmission speed, increases the transmission speed by a predetermined amount of BR_PD_Set, and then transmits by a predetermined amount of BR_DL_Set. After controlling to increase the speed, it may be controlled to increase by a predetermined amount repeatedly from BR_ST_Set. Here, the above-described predetermined amount may vary depending on a service operation principle, or may vary according to a service support form. The predetermined amount may be differentially applied to each transmission scheme. That is, the amount of work increased in the streaming transmission scheme may be greater than a certain amount increased in the progressive download transmission scheme and the download transmission scheme.

As described above, when the content providing method and the server of the present invention use a plurality of methods, for example, a download, streaming, and progressive download transmission methods, etc. are used in the course of transmitting a content, for example, a video, By controlling the limited network capacity more efficiently, the optimal transmission speed can be set while maintaining the quality of service provided by each transmission method. For example, the content providing method and the server of the present invention first set the maximum transmission speed for each transmission method, so that the service can be provided with the best quality, and the service capacity is increased in the content providing server, resulting in insufficient network capacity. In this case, by sequentially decreasing each set transmission speed, it is possible to accommodate as many service requests as possible without degrading the quality of the service at a limited capacity according to the characteristics of each service.

On the other hand, it has been described with respect to the preferred embodiments of the present invention through the specification and drawings, although specific terms are used, this is only used in a general sense to easily explain the technical details of the present invention and to help the understanding of the invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

The present invention relates to a content providing method and a server, wherein the content providing server may vary a transmission rate or a transmission bit rate set in a plurality of transmission schemes, for example, download, streaming, and progressive download schemes according to network changes. By changing according to a set condition, it is possible to service content at an optimal transmission speed while maintaining a constant quality of service.

1 is a view schematically showing the configuration of a content providing system according to an embodiment of the present invention;

2 is a block diagram schematically showing the configuration of a content providing server according to an embodiment of the present invention;

3 is a flowchart illustrating a content providing method according to an embodiment of the present invention.

Description of the Related Art [0002]

100: user terminal 110: IPTV

120: mobile terminal 130: desktop terminal

200: network 300: content providing server

310: network monitoring module 320: download transmission module

330: streaming transmission module 340: progressive download transmission module

350: storage unit 360: control unit

370: communication module

Claims (10)

A storage unit which stores contents transmitted according to a plurality of transmission methods; At least two transmission modules for supporting each of the plurality of transmission methods; A network monitoring module that detects the total amount of network traffic that can be transmitted through a network and the total amount of transmission traffic that is actually transmitted according to the plurality of transmission schemes; A controller configured to adjust the transmission speed of at least one of the plurality of transmission schemes to at least one of reducing, increasing, and maintaining according to a result of comparing the total amount of transmission traffic with the amount of network traffic; Content providing server comprising a. Detecting, by the content providing server, the total amount of network traffic that can be transmitted through the current network; Detecting, by the content providing server, the total amount of transmission traffic actually transmitted according to a plurality of transmission schemes; Comparing, by the content providing server, the total amount of transport traffic with the total amount of network traffic; Adjusting, by the content providing server, the transmission rate of at least one of the plurality of transmission schemes to at least one of reduction, increase, and maintenance according to the comparison result; Content providing method comprising a. The method of claim 2, Detecting the total amount of transmission traffic, And calculating the total amount of traffic transmitted based on the sum of the number of service sessions accessed by the content providing server and the total bit rate transmitted by each transmission method. The method of claim 2, The plurality of transmission schemes may include at least two of a download, a streaming, and a progressive download scheme. The method of claim 2, The adjusting step, And setting and maintaining a minimum transmission bit rate for each transmission method for maintaining a certain level of service quality of the content according to a method of transmitting the content by the content providing server. The method of claim 5, Setting and maintaining the minimum transmission bit rate, Adjusting, by the content providing server, a transmission bit rate higher than or equal to a bit rate at which the content is produced in a streaming transmission scheme, and maintained to maintain the content; Adjusting, by the content providing server, a transmission bit rate higher than or equal to the bit rate at which the content is produced in the progressive download transmission scheme, and maintained to maintain the content; Content providing method comprising at least one of the steps. The method of claim 2, The adjusting step, And setting and adjusting a bit rate for each transmission scheme independently transmitted by the content providing server for each of the plurality of transmission schemes. The method of claim 2, The adjusting step, When the content providing server exceeds the total network traffic amount, the content providing server sequentially decreases the transmission bit rate set for each transmission method according to a predetermined condition until the total amount of transmission traffic becomes less than the total amount of network traffic. Making a step; If the content providing server exceeds the total network traffic amount, the content providing server may increase the transmission bit rate set for each transmission scheme by the same amount according to a predetermined condition until the total transmission traffic amount becomes less than or equal to the total network traffic amount. Sequentially decreasing by steps; When the content providing server exceeds the total network traffic amount, the content providing server has a different transmission bit rate according to a predetermined condition until the total amount of transmission traffic is less than the total amount of network traffic. Sequentially decreasing by a predetermined amount; If the content providing server exceeds the total network traffic amount, the content providing server reduces the transmission bit rate of a specific transmission method to a minimum bit rate, which is a content production bit rate, and if the state remains beyond that, the transmission bit rate of another transmission method. Reducing the; Content providing method comprising at least one of the steps. The method of claim 2, The adjusting step, The content providing server sequentially increasing the transmission bit rate set for each transmission method according to a predetermined condition until the total transmission traffic amount is equal to or greater than the total network traffic amount when the total transmission traffic amount is equal to or less than the total network traffic amount ; If the content providing server is less than the total amount of network traffic, the content providing server sequentially sequentially sets the transmission bit rate for each transmission scheme by the same amount according to a predetermined condition until the total amount of transmission traffic is equal to or greater than the total amount of network traffic. Increasing to; If the content providing server is less than the total network traffic amount, the content providing server until the total amount of the transmission traffic is more than the total amount of network traffic, the transmission bit rate set for each transmission scheme by a predetermined amount different from the predetermined condition Sequentially increasing by steps; The content providing server increasing the transmission bit rate of a specific transmission method to a preset maximum bit rate when the total transmission traffic amount is less than the total network traffic amount, and then increasing the transmission bit rate of another transmission method when the comparison result is less than ; Content providing method comprising at least one of the steps. The method according to any one of claims 2 to 9, The comparing step, Content providing method characterized in that performed in real time.

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