KR101376909B1 - User terminal and data providing server for less traffic in wireless communication network, data streaming system and method using the same - Google Patents

Abstract

One embodiment of the present invention relates to a user terminal for reducing traffic in a wireless communication network, a data providing server, a streaming system and a method using the same, and a technical problem to be solved is a stream service for multimedia data from a server through a wireless communication network. When used, it is possible to reduce the load on the server and the traffic increase in the wireless communication network.
To this end, an embodiment of the present invention is a user terminal for receiving and streaming multimedia data from a data providing server through a wireless communication network, comprising: a data transmitting and receiving module for transmitting and receiving the multimedia data; A data reproducing module having an application for reproducing the multimedia data; A data storage module for encrypting the reproduced multimedia data and storing the encrypted multimedia data until it is evicted again; A stream data generation module for extracting and decoding multimedia data to be reproduced from the data storage module and then supplying the multimedia data to the data reproduction module; A frequency discriminating module for discriminating a signal of a frequency band of a wireless communication network between the data providing server and the data transmitting and receiving module; And supplying multimedia data to be reproduced according to the type of the signal of the frequency band from the data storage module to the data reproduction module through the stream data generation module, or received from the data providing server and supplied to the data reproduction module. Disclosed is a user terminal for reducing traffic in a wireless communication network including a control module configured to control the control module.

Description

USER TERMINAL AND DATA PROVIDING SERVER FOR LESS TRAFFIC IN WIRELESS COMMUNICATION NETWORK, DATA STREAMING SYSTEM AND METHOD USING THE SAME}

One embodiment of the present invention relates to a user terminal for reducing traffic in a wireless communication network, a data providing server, and a streaming system and method using the same.

Until now, since a method of playing multimedia data such as a video or a voice is downloaded to a hard disk and then played back, it is necessary to wait until the download is completed, so that the free space of the hard disk must be secured to some extent. Also, in this case, the user can play the multimedia only after the entire data file has been received, so the user has to wait a long time until the reception of the data is completed. In addition, the multimedia data has a larger size than other data, and the multimedia data is sequentially and regularly read and reproduced. That is, the multimedia data is played in a predetermined order according to the passage of time in moving the multimedia data and playing the voice or video, and there is no problem for the user to use the multimedia if only the data corresponding to the played part is provided. This feature eliminates the need to store the entire data file to drive multimedia data. That is, not all data must be present in order to reproduce a large amount of multimedia data corresponding to one hour of video, but only data corresponding to the portion being played can be played back.

Due to these features, streaming has been devised for the transmission and operation of multimedia data. In other words, streaming technology refers to a technology for reproducing voice, video, animation, and the like on a network in real time. In this streaming technology, the data transmitted from the server is buffered and played by the client, so there is no need to wait for all data to be downloaded. In addition, unlike the download method, the streaming technology is sensitive to the data transmission speed since only the necessary data can be received and reproduced in real time without the entire multimedia data being stored. In other words, if the transmission speed is slower than the speed at which the playback program reproduces the data, the phenomenon of reproducing the voice or moving image occurs. Therefore, when multiple users access the same server at the same time, it is impossible to provide a normal service, and in order to avoid this, the number of users connecting to one server should be strictly limited. As the work of playing multimedia data is largely dependent on the data transmission speed, it is difficult to provide high quality or sound quality, and in particular, the size of the screen is limited. This is because as the image quality or sound quality increases or the screen size increases, the amount of data required for reproduction per unit time increases rapidly, and as a result, high-speed data transmission is required.

In the streaming method of transmitting data in real time, multimedia data is not stored in the user's mobile communication terminal. Therefore, in order to repeatedly play an already played part, data must be received from the server again. There is a problem that unnecessary load occurs because it needs to be transmitted again. In addition, the streaming technology has caused excessive traffic in the wireless communication network due to the rapidly increasing number of users of the mobile communication terminal and the bandwidth of the wireless communication network from the existing 1G to the recent WiBro or LTE. There is a problem that the streaming speed can be significantly slower when using. For example, due to the bandwidth limitation of the wireless network described above, when using the real-time stream service to listen to high-quality MP3 music, there is a high probability that the sound is broken or the music is cut off, which leads to disconnection of the streaming service. It cannot be stopped.

An embodiment of the present invention is a user terminal for reducing traffic in a wireless communication network that can reduce the load of the server and the traffic increase of the wireless communication network when using a stream service for multimedia data from the server through a wireless communication network, a data providing server, It provides a streaming system and method using the same.

A user terminal for reducing traffic in a wireless communication network according to an embodiment of the present invention, a user terminal for receiving and streaming multimedia data through a wireless communication network from a data providing server, comprising: a data transmitting and receiving module for transmitting and receiving the multimedia data; A data reproducing module having an application for reproducing the multimedia data; A data storage module for encrypting the reproduced multimedia data and storing the encrypted multimedia data until it is evicted again; A stream data generation module for extracting and decoding multimedia data to be reproduced from the data storage module and then supplying the multimedia data to the data reproduction module; A frequency discriminating module for discriminating a signal of a frequency band of a wireless communication network between the data providing server and the data transmitting and receiving module; And supplying multimedia data to be reproduced according to the type of the signal of the frequency band from the data storage module to the data reproduction module through the stream data generation module, or received from the data providing server and supplied to the data reproduction module. It may include a control module for controlling to.

The control module, when the signal of the frequency band is a first frequency band signal, to supply the multimedia data to be reproduced stored in the data storage module from the data storage module to the data reproduction module through the stream data generation module Can be controlled.

When the signal of the frequency band is a second frequency band signal different from the first frequency band signal and the frequency band, the control module receives the multimedia data to be reproduced from the data providing server and supplies the data to the data reproduction module. Can be controlled.

In addition, a data providing server for reducing traffic in a wireless communication network according to another embodiment of the present invention includes a server transceiver for transmitting and receiving multimedia data with a user terminal; A server storage unit for storing the transmitted and received multimedia data; A server frequency discriminating unit for discriminating a signal of a frequency band of the wireless communication network between the server transceiver and the user terminal; And controlling operations of the server transceiver, the server storage unit, and the server frequency discriminator, when receiving a streaming service request of multimedia data from a user terminal connected through the server transceiver, the server frequency discriminator determines the result of the determination. Accordingly, a server controller may be configured to transmit the service requested multimedia data to the user terminal in a streaming manner through the server transceiver.

The server controller may further include a service authentication unit that determines whether to accept the streaming service request according to the result determined by the server frequency discriminator.

When the signal of the frequency band is a predetermined frequency band signal, the service authentication unit may transmit the service requested multimedia data to the user terminal in a streaming manner through the server communication unit.

In addition, a streaming system for reducing traffic in a wireless communication network according to another embodiment of the present invention, a data providing server having multimedia data, and receiving and streaming the multimedia data from the data providing server through a wireless communication network A streaming system comprising a user terminal, wherein the user terminal comprises a data transmission and reception module for transmitting and receiving the multimedia data; A data reproducing module having an application for reproducing the multimedia data; A data storage module for encrypting the reproduced multimedia data and storing the encrypted multimedia data until it is evicted again; A stream data generation module for extracting and decoding multimedia data to be reproduced from the data storage module and then supplying the multimedia data to the data reproduction module; A frequency discriminating module for discriminating a signal of a frequency band of a wireless communication network between the data providing server and the data transmitting and receiving module; And supplying multimedia data to be reproduced according to the type of the signal of the frequency band from the data storage module to the data reproduction module through the stream data generation module, or received from the data providing server and supplied to the data reproduction module. It may include a control module for controlling to.

In addition, the streaming method for reducing traffic in a wireless communication network according to another embodiment of the present invention, a data providing server having multimedia data, and receiving and streaming the multimedia data from the data providing server through a wireless communication network A streaming method for receiving and playing multimedia data using a user terminal, and receiving and playing multimedia data to be played by the user terminal from the data providing server, and simultaneously playing and storing data encrypted and stored before being evicted again. step; A frequency discriminating step of discriminating a signal of a frequency band of the wireless communication network between the user terminal and the data providing server; And a data reproducing step of reproducing and reproducing the multimedia data to be replayed according to the type of the signal of the frequency band by receiving the stored multimedia data or receiving and reproducing the data from the data providing server.

The data reproducing step may include: a first frequency band signal reproducing step of receiving and reproducing the stored multimedia data when the signal of the frequency band is a first frequency band signal; And reproducing the second frequency band signal to receive and reproduce the multimedia data to be reproduced again from the data providing server when the signal of the frequency band is a second frequency band signal different from the first frequency band signal. It may include a step.

A user terminal for reducing traffic in a wireless communication network, a data providing server, and a streaming system and method using the same according to an embodiment of the present invention do not transmit the entire multimedia data to be reproduced when streaming the multimedia data through the wireless communication network. It is possible to play the data even when it is not in use. Also, when repeated playback such as a download method is used, the stored data is used instead of receiving the same data again, thereby reducing the load on the server and the increase in traffic of the wireless communication network. Can be.

1 is an exemplary view showing a physical environment to which a streaming system for reducing traffic in a wireless communication network according to an embodiment of the present invention is applied.
2 is a block diagram specifically illustrating a streaming system for reducing traffic in a wireless communication network according to an embodiment of the present invention.
3 is a block diagram illustrating a data providing server for reducing traffic in a wireless communication network according to another embodiment of the present invention.
4 is a flowchart illustrating a streaming method for reducing traffic in a wireless communication network according to another embodiment of the present invention.
5 is a flowchart illustrating a streaming method for reducing traffic in a wireless communication network according to another embodiment of the present invention in more detail.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which those skilled in the art can readily implement the present invention.

1 is an exemplary view showing a physical environment to which a streaming system for reducing traffic in a wireless communication network according to an embodiment of the present invention, Figure 2 is a traffic reduction in a wireless communication network according to an embodiment of the present invention Is a block diagram specifically illustrating a streaming system.

1 to 2, a streaming system for reducing traffic in a wireless communication network according to an embodiment of the present invention is a data providing server 20 having multimedia data, and the data providing server 20 And a user terminal 10 for receiving and streaming multimedia data from a wireless communication network. That is, the data providing server 20 and the user terminal 10 in the present streaming system may request or receive multimedia data by performing data communication with each other through a wireless communication network.

The data providing server 20 stores multimedia data to be serviced and transmits the request when the user terminal 10 requests it. In addition, the data providing server 20 may provide a streaming service for the entire multimedia data to be reproduced by one server, the user terminal 10 to reproduce the multimedia data by transmitting the data to be played in parallel It may also request or receive a portion necessary for playback from time to time. In this case, the unit of data requested and received by the user terminal 10 may be a specific part of a file instead of a file. When the user terminal 10 requests or receives multimedia data of a part required for playback, the corresponding multimedia The segment identifier of the data file or the physical offset in the file will be used. For example, such a data providing server 20 is a server transceiver (210 of FIG. 3) for transmitting and receiving multimedia data with the user terminal 10, a server storage unit (220 of FIG. 3) for storing multimedia data, server transmission and reception Server frequency discriminating unit (230 of FIG. 3) for discriminating a signal of the frequency band of the wireless communication network between the unit and the user terminal, by controlling the operation of each component to transmit the multimedia data according to the frequency band determined by the server frequency discriminating unit It includes a server control unit (240 of FIG. 3) for controlling whether or not. The description of the data providing server 20 will be described in more detail with reference to FIG. 3.

The user terminal 10 receives and streams multimedia data from the data providing server 20 through a wireless communication network. The user terminal 10 applicable to the present streaming system is a terminal capable of data communication through the data providing server 20 and a mobile communication network or a satellite communication network (hereinafter, referred to as a wireless communication network), a mobile phone and a PDA (Personal Digital Assistant). Mobile communication terminals, personal computers (PCs), set-top boxes, and the like.

The user terminal 10 includes a data transmission / reception module 110, a data reproducing module 120, a data storage module 130, a stream data generation module 140, a frequency determination module 150, and a control module 160. do.

The data transmission / reception module 110 performs transmission and reception of multimedia data to be reproduced with the data providing server 20 through a wireless communication network. That is, the data transmission / reception module 110 requests the data providing server 20 for the multimedia data related information to be reproduced and receives the multimedia data corresponding to the result from the data providing server 20. In addition, the data transmission / reception module 110 receives the multimedia data or a part of data to be reproduced from the data providing server 20 and stores the data in the data storage module 130. In order to implement such a function, the data transmission / reception module 110 is operated to receive information on the offset position of the multimedia data being played back from the control module 160. Accordingly, the data transmission / reception module 110 may determine whether the data is already stored in the data storage module 130 or is currently being received according to the transmission request of the multimedia data received from the control module 160 and request a new reception. In this case, the data providing server 20 may request to start the transmission, and when the requested data is received, the data providing server 20 may be encrypted and stored in the data storage module 130.

In addition, the data transmission and reception module 110 receives the multimedia data into a first frequency band signal and a second frequency band signal through a wireless communication network. The first frequency band signal is a signal using a first frequency band, and the second frequency band signal is a signal using a second frequency band having a different frequency band from the first frequency band. The first frequency band signal may be a wideband CDMA (WCDMA) signal, and the second frequency band signal may be a code division multiple access (CDMA), a wireless broadband broadband (WBro) signal, a long term evolution (LTE) signal, or 5G. It may be a signal or a wireless fidelity (WIFI) signal. Each kind of the first frequency band signal and the second frequency band signal is equally applied to the following description. However, the present invention is not limited to this, and the present invention can also be applied to a case where the types of the first frequency band signal and the second frequency band signal are opposite.

The data transmission / reception module 110 includes a 2G transceiver 112a for receiving a CDMA signal, a 3G transceiver 111 for receiving a WCDMA signal, and a 4G transceiver 112b for receiving a WiBro signal or an LTE signal. Although not shown, the data transceiving module 110 may include a separate transceiving unit capable of transceiving 5G signals or WIFI signals.

The 2G transceiver 112a receives a signal using a CDMA frequency band. For example, the 2G transceiver 112a is a signal having a frequency range of 800 MHz band or 1840 MHz or more and 1870 MHz or less, and for example, may receive 2G signals of S company, K company, and L company. The 2G signal of S company uses a frequency domain of 800MHz band, the 2G signal of K company uses a frequency domain of 1840MHz ~ 1860MHz, and the 2G signal of L company uses 1860MHz ~ 1870MHz, and the present invention is not limited thereto. Rather, it may include all signals using the CDMA frequency band.

The 3G transceiver 111 receives a signal using a WCDMA frequency band. For example, the 3G transceiver 111 is a signal having a frequency range of 2000 MHz band or 2160 MHz to 2170 MHz, for example, can receive a 3G signal of S Company and K Company, but is not limited thereto. WCDMA frequency band It may include all of the signals using.

The 4G transceiver 112b receives a signal using a WiBro or LTE frequency band. For example, the 4G transceiver 112b is a signal having a frequency range of 2330MHz or more and 2360MHz or less, or a 2100MHz band or a 1800MHz band. For example, the 4G transceiver 112b may receive a WiBro signal or an LTE signal of K company, but is not limited thereto. It may include all signals using WiBro or LTE frequency bands.

The data reproducing module 120 plays a role of reproducing the multimedia data received from the data providing server 20. In order to reproduce such multimedia data, the data reproducing module 120 has a reproducing application. The playback application is an application program for playing multimedia data such as a Windows media player or a real player (for example, Melon player of S company), and requests a file to be played back to the data storage module 130 through the control module 160. Transmits a command and receives and reproduces stream data from the data storage module 130 through the stream data generation module 140.

The data storage module 130 encrypts the multimedia data played by the data reproducing module 120 and stores the encrypted data until it is evicted again. That is, the data storage module 130 functions as a kind of cache, and stores the requested multimedia data until it is evicted and provides the multimedia data when requested by the playback application. Do this. The size of the data storage module 130 may be variable or fixed, and the unit to be stored may be a data unit such as a segment or a file unit, and may be determined by a policy applying a time point at which the data is stored. It can be applied differently depending on the requirements.

The stream data generating module 140 extracts and decodes the multimedia data to be reproduced from the data storage module 130 and supplies the same to the data reproducing module 120. That is, the stream data generation module 140 reads multimedia data required for playback by the playback application from the data storage module 130 and provides the data to the data playback module 120. In general, since the playback application plays data by bringing the data necessary for playback to a buffer in the storage device, the stream data generation module 140 fills the buffer at a speed required for data required by the playback application. Play a role. In addition, since the multimedia data is stored when the multimedia data is stored in the data storage module 130, the stream data generation module 140 decrypts the encrypted data to read the encrypted data. Here, since the encryption or decryption method is outside the scope of the present invention, and a method for illegally using a copy is disclosed when the encryption method is disclosed, a detailed description of encryption will be omitted in the present invention.

On the other hand, the data transmission and reception module 110 and the stream data generation module 140 operates in pairs. That is, the multimedia data required for playing by the playback application is stored in the data storage module 130. The role of bringing the multimedia data from the outside is only the data transmission / reception module 110, and the stream data generation module. 140 serves to provide the stored multimedia data to the data playback module 120. When the data transmission / reception module 110 stores data in the data storage module 130 in a form that only the stream data generation module 140 can read, thereby replicating the received multimedia data to another user terminal 10. Do not play.

The frequency determining module 150 determines a signal of a frequency band of a wireless communication network between the data providing server 20 and the data transmitting / receiving module 110. The frequency discrimination module 150 receives the first frequency band signal and the second frequency band signal of the frequency band of the wireless communication network from the data providing server 20 to determine it, and provides the result to the control module 160.

The frequency discrimination module 150 is a first frequency band signal or a second signal of each signal received from the 2G transceiver 112a, 3G transceiver 111 and 4G transceiver 112b of the data transmission and reception module 110 It is determined whether the signal corresponds to the frequency band signal and provides the result to the control module 160.

The control module 160 allows the multimedia data to be reproduced according to the type of the signal of the frequency band to be supplied from the data storage module 130 to the data reproducing module 120 through the stream data generating module 140 or to provide data. It receives from the server 20 and controls to supply to the data playback module 120. More specifically, the control module 160, when the signal of the frequency band is the first frequency band signal, the stream data generation module from the data storage module 130 to reproduce the multimedia data to be stored in the data storage module 130 It serves to supply to the data reproduction module 120 through 140. In addition, when the signal of the frequency band is the second frequency band signal, the control module 160 requests the data providing server 20 to receive the multimedia data to be reproduced and supplies the received data to the data reproducing module 120. Play a role. As such, the multimedia data supplied to the data reproducing module 120 may be streamed and reproduced by the reproducing application.

On the other hand, if there is no separate command from the playback application, the control module 160 calculates the offset of the multimedia data required for playback and requests the data transmission / reception module 110 to be received before the required time.

3 is a block diagram illustrating a data providing server for reducing traffic in a wireless communication network according to another embodiment of the present invention.

As shown in FIG. 3, the data providing server 20 for reducing traffic in a wireless communication network according to another embodiment of the present invention includes a server transceiver 210, a server storage 220, and a server frequency discriminator ( 230 and the server control unit 240. In addition, the server controller 240 further includes a service authentication unit 241.

The server transceiver 210 transmits and receives multimedia data to and from the user terminal 10 through a wireless communication network. The server transceiver 210 may perform a wireless communication function by physically connecting to a wireless communication network like the data transmission / reception module 110 provided in the user terminal 10, and transmitting and receiving a wireless signal. The multimedia data may be processed according to the communication protocol applied to the.

The server storage unit 220 stores a program necessary for controlling the operation of the data providing server 20 and data generated while executing the program. The server storage unit 220 stores multimedia data transmitted and received through an application program for reducing traffic and the server transceiver 210. In addition, the server storage unit 220 stores a program that can be performed by the application program under the control of the server controller 240 and accordingly transmitted to the user terminal 10 in a streaming manner.

The server frequency discriminator 230 determines a signal of a frequency band of the wireless communication network between the server transceiver 210 and the user terminal 10. That is, the server frequency discriminator 230 receives the first frequency band signal and the second frequency band signal among the frequency bands of the wireless communication network between the server transceiver 210 and the user terminal 10 and determines the result. To the server controller 240.

The server controller 240 controls the operation of the data providing server 20 as a whole, and may include a processor for performing such an operation. When the server controller 240 receives a streaming service request for multimedia data from the user terminal 10 connected through the server transceiver 210, the server controller 240 according to a result determined by the server frequency discriminator 230. 10) it may be controlled to transmit the multimedia data requested by the service through the server transceiver 210 in a streaming manner.

The service authentication unit 241 determines whether to accept the streaming service request according to the result determined by the server frequency discriminator 230. That is, the service authentication unit 241, if the signal of the frequency band determined by the server frequency discriminating unit 230 is a second frequency band signal (for example, CDMA signal or WiBro signal or LTE signal), the user The terminal 10 may transmit the service requested multimedia data through the server transceiver 210 in a streaming manner. In addition, the service authentication unit 241, when the signal of the frequency band determined by the server frequency discriminating unit 230 is a first frequency band signal (for example, WCDMA signal), the service request of the multimedia data It may be determined whether retransmission is necessary, and if necessary, the multimedia data may be transmitted to the user terminal 10 through a server transmission / reception unit 210 in a streaming manner.

Accordingly, the present invention provides a wireless communication between the data providing server 20 and the user terminal 10 than when the data providing server 20 advances the operation program and transmits all the multimedia data through the program to the user terminal 10. It is possible to reduce the load on the communication network.

4 is a flowchart illustrating a streaming method for reducing traffic in a wireless communication network according to another embodiment of the present invention, and FIG. 5 is a streaming method for reducing traffic in a wireless communication network according to another embodiment of the present invention. It is a flowchart which shows more concretely. Meanwhile, in FIG. 5, multimedia data is referred to as MMD, and the data storage module 130 is referred to as a DB module. In the following description with reference to FIGS. 4 to 5, each step of the streaming method will be described with reference to the components disclosed in FIGS. 1 to 3 to aid in understanding the technology.

4 to 5, the streaming method for reducing traffic in a wireless communication network according to another embodiment of the present invention data playback and storage step (S100), frequency determination step (S200) and data playback step (S300).

In the data reproducing and storing step (S100), the user terminal 10 receives and plays the multimedia data to be reproduced from the data providing server 20, and encrypts and stores the data in the data storage module 130 until it is evicted again. It's a step. In the data reproducing and storing step (S100), the control module 160 selects multimedia data to be reproduced by the user terminal 10 (S110), and the multimedia data to be reproduced is stored in the data storage module 130. The process of determining whether the data is S120 may be further performed. In this case, when the multimedia data to be played is not stored in the data storage module 130, the data providing server 20 requests the transmission of the multimedia data to be played (S130) and receives the data play module 120. The multimedia data is streamed through S140. However, if it is determined that the multimedia data to be played is stored in the data storage module 130, the control module 160 moves to a frequency determination step (S200) to be described later.

The frequency determining step (S200) is a step of determining a signal of a wireless communication network frequency band between the data providing server 20 and the data transmission / reception module 110. That is, the frequency determination step (S200) is a step in which the control module 160 determines the frequency band of the data transmission / reception module 110, the data providing server 20, and the wireless communication network by the frequency determination module 150.

In the data reproducing step (S300), the multimedia data to be reproduced once again is supplied from the data storage module 130 to the data reproducing module 120 through the stream data generation module 140 according to the type of the signal of the frequency band. Reproducing by receiving from the data providing server 20 to supply to the data reproducing module 120. That is, in the data reproducing step (S300), when the signal of the frequency band is the first frequency band signal (S210), the multimedia data to be reproduced stored in the data storage module 130 is requested to the data storage module 130 ( The first frequency band signal reproducing step S310 of supplying and reproducing the data from the stream data generating module 140 to the data reproducing module 120 through S220 and the signal of the frequency band are the second frequency band signal S215. In one case, the second frequency band signal reproducing step (S315) of receiving the multimedia data to be reproduced by requesting the data providing server 20 (S220) and then supplying and reproducing the data to the data reproducing module 120 is included (S315). do.

Meanwhile, the above-described streaming method for reducing traffic in a wireless communication network may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer-readable recording medium. The recording medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions to be recorded on a recording medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. For example, the recording medium may be magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CDROMs, DVDs, or magnetic-optical 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. Such a hardware device may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

Accordingly, a user terminal for reducing traffic in a wireless communication network according to an embodiment of the present invention configured as described above, a data providing server, and a streaming system and method using the same are multimedia to be reproduced when streaming multimedia data through a wireless communication network. It is possible to reproduce the data even when the entire data is not transmitted, and to use the stored data without re-receiving the same data in the case of repeated playback like the download method. It can reduce the traffic increase.

What has been described above is only one embodiment for implementing a user terminal, a data providing server, a streaming system and a method for reducing traffic in a wireless communication network according to the present invention, the present invention is not limited to the above embodiment Without departing from the gist of the present invention, as claimed in the following claims, any person having ordinary knowledge in the field of the present invention has the technical spirit of the present invention to the extent that various modifications can be made. will be.

According to a user terminal, a data providing server, and a streaming system and method using the same for reducing traffic in a wireless communication network according to the present invention, when the multimedia data is streamed through a wireless communication network, the same data is repeatedly played. It is possible to reduce the load on the server and the traffic of the wireless communication network by allowing the stored data to be used without re-receiving, thus exceeding the limitations of the existing technology. Not only is the possibility of being sufficient but also practically evident to the extent that the invention has industrial applicability.

10: user terminal 20: data providing server
110: data transmission and reception module 111: 3G transceiver
112a: 2G transceiver 112b: 4G transceiver
120: data playback module 130: data storage module
140: stream data generation module 150: frequency determination module
160: control module 210: server transceiver
220: server storage unit 230: server frequency discriminating unit
240: server control unit 241: service authentication unit

Claims (10)

A user terminal for receiving and streaming multimedia data from a data providing server through a wireless communication network,
A data transmission / reception module for transmitting and receiving the multimedia data;
A data reproducing module having an application for reproducing the multimedia data;
A data storage module for encrypting the reproduced multimedia data and storing the encrypted multimedia data until it is evicted again;
A stream data generation module for extracting and decoding multimedia data to be reproduced from the data storage module and then supplying the multimedia data to the data reproduction module;
A frequency discriminating module for discriminating a signal of a frequency band of a wireless communication network between the data providing server and the data transmitting and receiving module; And
The multimedia data to be reproduced according to the type of the signal of the frequency band to be supplied from the data storage module to the data reproduction module through the stream data generation module, or received from the data providing server and supplied to the data reproduction module. User terminal for reducing traffic in a wireless communication network comprising a control module for controlling. The method of claim 1,
The control module includes:
When the signal of the frequency band is a first frequency band signal, it is controlled to supply the multimedia data to be reproduced stored in the data storage module from the data storage module to the data reproduction module through the stream data generation module. User terminal for reducing traffic in a wireless communication network. 3. The method of claim 2,
The control module includes:
When the signal of the frequency band is a second frequency band signal different from the first frequency band signal and the frequency band, it is controlled to receive the multimedia data to be reproduced from the data providing server to supply to the data reproduction module. A user terminal for reducing traffic in a wireless communication network. A server transceiver configured to transmit and receive multimedia data with the user terminal;
A server storage unit for storing the transmitted and received multimedia data;
A server frequency discriminating unit for discriminating a signal of a frequency band of the wireless communication network between the server transceiver and the user terminal; And
Control operations of the server transceiver, the server storage unit, and the server frequency discriminator, and upon receiving a streaming service request for multimedia data from a user terminal connected through the server transceiver, according to a result determined by the server frequency discriminator And a server controller for transmitting the service-required multimedia data to the user terminal in a streaming manner through the server transceiving unit. 5. The method of claim 4,
The server controller further includes a service authentication unit for determining whether to accept the streaming service request according to the result determined by the server frequency discriminator. 6. The method of claim 5,
When the service authentication unit is a signal of the frequency band is a predetermined frequency band signal for the traffic reduction in the wireless communication network, characterized in that for transmitting the service request multimedia data to the user terminal through the server communication unit in a streaming manner Data provision server. A streaming system comprising a data providing server having multimedia data, and a user terminal for receiving and streaming the multimedia data from the data providing server through a wireless communication network.
The user terminal
A data transmission / reception module for transmitting and receiving the multimedia data;
A data reproducing module having an application for reproducing the multimedia data;
A data storage module for encrypting the reproduced multimedia data and storing the encrypted multimedia data until it is evicted again;
A stream data generation module for extracting and decoding multimedia data to be reproduced from the data storage module and then supplying the multimedia data to the data reproduction module;
A frequency discriminating module for discriminating a signal of a frequency band of a wireless communication network between the data providing server and the data transmitting and receiving module; And
The multimedia data to be reproduced according to the type of the signal of the frequency band to be supplied from the data storage module to the data reproduction module through the stream data generation module, or received from the data providing server and supplied to the data reproduction module. Streaming system for reducing traffic in a wireless communication network comprising a control module for controlling. A streaming method for receiving and playing multimedia data using a data providing server having multimedia data and a user terminal receiving and streaming the multimedia data from the data providing server through a wireless communication network,
A data reproducing and storing step of receiving and reproducing multimedia data to be reproduced by the user terminal from the data providing server and encrypting and storing the multimedia data until it is evicted again;
A frequency discriminating step of discriminating a signal of a frequency band of the wireless communication network between the user terminal and the data providing server; And
And a data reproducing step of reproducing and reproducing the multimedia data to be reproduced again according to the type of the signal of the frequency band, or receiving and reproducing the stored multimedia data from the data providing server. Streaming method to reduce traffic. 9. The method of claim 8,
The data reproduction step,
A first frequency band signal reproducing step of receiving and reproducing the stored multimedia data when the signal of the frequency band is a first frequency band signal; And
A second frequency band signal reproducing step of receiving and reproducing the multimedia data to be reproduced from the data providing server when the signal of the frequency band is a second frequency band signal having a different frequency band from the first frequency band signal; Streaming method for reducing traffic in a wireless communication network comprising a. A computer-readable recording medium having recorded thereon a program for executing the method according to any one of claims 8 to 9.

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