KR101243737B1 - Method for receiving streaming data as selectively changing a network to use between heterogeneous networks according to amount of buffered data and an apparatus for said method - Google Patents

Abstract

PURPOSE: A method for receiving streaming data and an apparatus therefor are provided to successively reproduce a video by receiving streaming data through one of heterogeneous networks. CONSTITUTION: A data transceiver(112) receives content data from an external server through a communication network by connecting one or more communication networks. The data transceiver confirms buffering quantity by storing the received content data in a receiving buffer. When the confirmed buffering quantity is greater than a first reference value in a state connecting to the first communication network, the data transceiver converts a connecting network into a second communication network.

Description

Method for receiving streaming data as selectively changing a network to use between heterogeneous networks according to the amount of buffered data while selectively switching the use network between heterogeneous networks to amount of buffered data and an apparatus for said method}

The present invention relates to an apparatus and method for enabling the selective use of a plurality of heterogeneous networks that differ in heterogeneous networks, in particular, the characteristics of the service area, or the quality of service.

With the development of mobile communication network, users can browse various information they need regardless of the place using not only mobile phones but also smart phones, tablet computers (hereinafter referred to as “mobile communication terminals”). You can check or receive the desired content by downloading or streaming.

A mobile communication terminal that provides a data use service regardless of a place is always connected to one communication network in a plurality of heterogeneous networks having different infrastructures that can be accessed through its own radio resources. It maintains the connected state, that is, the data communication is possible by assigning the access IP address.

For example, if a communication network providing high-speed wireless data service, such as a Wi-Fi WLAN network, is currently accessible, it is connected to the communication network. Otherwise, a mobile phone communication network having a wide service area, For example, a CDMA2000 or W-CDMA mobile telephone network is assigned an access IP address to maintain a connection state for data services. And, if both of the above-described communication networks are accessible, they are normally connected to a Wi-Fi wireless LAN network with a high speed in a state in which the use is not inhibited.

However, the Wi-Fi wireless LAN has a scattered local service area, so it can only be used in a state where the homeostasis or continuity of the data service is not guaranteed. Therefore, the users of the mobile communication terminal mainly use the data service using a mobile phone communication network having a wide service area, but the use of the data service through the mobile communication network is usually charged for the amount of usage, so that it is currently provided free of charge. When the Wi-Fi WLAN network is being used, the Wi-Fi WLAN network will be used whenever possible.

Under such a communication usage environment, when a user is connected to a mobile communication network and the Wi-Fi WLAN network becomes accessible while watching content streamed from an arbitrary server using a mobile communication terminal, the current streaming is performed. Due to the burden or concern caused by the amount of data, you may switch to the Wi-Fi wireless LAN network. However, when such a connection change occurs, the access IP assigned to the mobile communication terminal is changed, so that the user needs to perform a cumbersome operation of newly requesting the previously streamed content and specifying the previously watched part.

In addition, even if the same content is streamed through the Wi-Fi wireless network by performing such a cumbersome operation, a communication environment of an access point (AP) that allows access to the Wi-Fi wireless network, for example, signal strength is weak. Or may not provide the desired speed due to excessive traffic, in which case you will have to reconnect to the mobile phone network again. It must also be done.

An object of the present invention is to provide a method and apparatus for seamlessly playing continuously even when a connection is switched to another communication network when streaming data is received through any one communication network in a plurality of heterogeneous networks.

Another object of the present invention is to provide a method and apparatus for switching a communication network for reception of streaming data in consideration of cost burden or smooth data service guarantee according to a user's use of the communication network.

It is yet another object of the present invention to provide a method and apparatus for making a switch between communication networks in such a way as to ensure the homeostasis or continuity of the data service.

The object of the present invention is not limited to the object explicitly stated above, and of course includes the purpose of achieving an effect that can be derived from the specific and exemplary description of the present invention.

According to an aspect of the present invention, a mobile communication terminal capable of accessing a plurality of heterogeneous networks including a first communication network and a second communication network includes a media processing unit configured to extract content data from a reception buffer and decode the content data. And buffering content that is received from an external server through the communication network while being connected to any one of the plurality of heterogeneous networks, and storing the received data in the receiving buffer while not drawing from the receiving buffer. A data configured to confirm the amount, and further configured to attempt to switch the access network to the second communication network if the checked buffering amount is a quantity corresponding to the set first reference value or larger in the state of being connected to the first communication network. It is configured to include a transceiver. The second communication network is a communication network in which there is no cost or a cost excluding the fixed cost is less than the first communication network when using the data service.

In one embodiment according to the present invention, the data transmission and reception unit is further configured to attempt to switch to the second communication network even when the state of the communication network is not good in the state connected to the first communication network.

In one embodiment according to the present invention, if the currently set mode is a mode set to suppress the occurrence of cost, the first reference value is set to adjust to a lower value, the mode to prioritize the convenience of use of the data service And adjust the first reference value to a higher value.

In one embodiment according to the present invention, the data transmission / reception unit, when the currently connected first communication network is in a good state, checks a value indicating the quality of the connection point of the second communication network, and if the value is high, the first It is further configured to adjust and set the reference value to a lower value, and if the value is low, adjust and set the first reference value to a higher value. In the present embodiment, the value indicating the quality may be a signal strength, a transmission rate, or a score assigned by individually or collectively evaluating these.

In one embodiment according to the present invention, the data transmission and reception unit, the amount corresponding to the second reference value or less than the value set in the buffering amount to be confirmed without a good state of the network in the state connected to the second communication network It is further configured to perform the switching of the access network to the first communication network. In the present embodiment, the data transmission / reception unit adjusts and sets the second reference value to a lower value if the currently set mode is a mode set to suppress the occurrence of costs while being connected to the second communication network. The second reference value is further adjusted to be set to a higher value if it is a mode that prioritizes convenience of use. The data transmitting / receiving unit is further configured to adjust and set the second reference value to a lower value when another connection point of the second communication network is available under the state of being connected to the second communication network. Is set to a lower value, the third reference value serving as a reference for switching between connection points is set to a value larger than the value at which the second reference value is set lower, and the buffering amount is equal to or less than the third reference value. The operation of selectively switching the connection point according to the result is started. The data transceiver checks the value indicating the quality of the other access point, and if the value is lower than the quality value of the currently connected access point, readjusts the second reference value to a value larger than the lower value. If the value corresponds to a speed higher than the transmission rate required by the content being received through the currently connected access point, the second reference value may be readjusted to a value lower than the lower value.

In one embodiment according to the present invention, the data transmission and reception unit, when the connection network is switched, the request by the communication protocol requesting the data from the point subsequent to the content data received from the previously connected communication network through the switched communication network It is further configured to inherit the content data by transmitting to an external server and to store in the receiving buffer.

In the above-described embodiments, the data transmission / reception unit may determine whether the state of the connected communication network is good based on whether the buffering amount is decreasing or not.

In addition, in the above-described embodiments, the mode may be automatically determined based on the data usage status of the first communication network, the plan information of the user, and the remaining time according to the plan period. An application or a process for automatically determining a mode may provide a menu screen for selecting a mode to receive a selected mode by providing a mode screen with remaining or elapsed days according to the data usage status and the plan period of the first communication network. It may be configured to set.

In the above-described embodiment, the first reference value may be set to a value larger than the second reference value.

In one embodiment according to the present invention, the first reference value is a value set as an amount of time. In this case, the data transmitting and receiving unit is further configured to obtain a data amount corresponding to the first reference value by multiplying the required bit rate for playing the content data with the time amount. In this embodiment, the data transceiving unit is configured to calculate the requested bitrate from the size and reproduction time of the content data described in the meta data received for the content data.

In embodiments according to the present invention, the media processing unit is configured to draw content data stored in the reception buffer at a speed corresponding to a required bitrate determined by the size of the content data and its playing time.

According to another aspect of the present invention, a method for receiving streaming data while selectively switching a use network includes requesting and receiving content data from an external server through an connected communication network, and decoding the stored content data. And a second reference step of checking whether the connected communication network is the first communication network or the second communication network, and the first reference value for setting the amount of unprocessed content data received and stored without being decoded according to the checking result. Comparing with any one of the second reference values, and selectively performing connection switching to a communication network that is not currently connected between the first communication network and the second communication network based on the condition reflecting the comparison result. In step 3, when the connected communication network is the first communication network, the amount of unprocessed content data is increased. If the amount corresponds to the first reference value or larger than the first reference value, the access switching is performed. If the connected communication network is the second communication network, the amount of the unprocessed content data amount is larger than the second reference value. If not, the connection switching is not performed. In the present method, the second communication network is a communication network in which there is no cost or a cost excluding the fixed cost in the use of the data service is lower than the first communication network.

In one embodiment according to the present invention, the method further comprises, when the connection changeover is performed, requesting a communication protocol requesting transmission from data at a point subsequent to the raw content data through the switched communication network. 4 steps of transmitting to an external server and 5 steps of subsequently storing a portion of the media data received from the external server received in accordance with the transmission following the raw content data.

In an embodiment according to the present invention, in the third step, when the connected communication network is the first communication network, the state of the first communication network if the amount of unprocessed content data corresponds to a value smaller than the first reference value. The method may further include performing the connection transfer when is not satisfactory.

In an embodiment according to the present invention, in the third step, when the connected communication network is the second communication network, the unprocessed data amount is set to the second reference value or smaller while the communication network is not in good condition. If the amount is a corresponding step further comprises the step of performing the connection switch.

In one embodiment according to the present invention, after step 1, steps 2 and 3 are repeatedly performed periodically according to a set period.

According to another aspect of the present invention, a program supply device for providing a program stored in a storage space through a communication network, the communication means for transmitting and receiving data with the outside through communication, and the transmission is transmitted through the communication means And a storage means for storing an application executed in a communication terminal, wherein the application, when executed in the mobile communication terminal, allocates a reception buffer and connects to any one of the plurality of heterogeneous networks. Receiving content data from an external server through the communication network in a closed state, storing the received data in the receiving buffer, and checking a buffering amount not drawn out of the receiving buffer, and the content stored in the receiving buffer. A program that simultaneously performs the operation of retrieving data and making it decoded And a program structure which, when connected to the first communication network, attempts to switch the access network to the second communication network if the amount of the buffering to be checked corresponds to the set first reference value or larger. do. The second communication network is a communication network in which there is no cost or a cost excluding the fixed cost is less than that of the first communication network when using the data service.

In one embodiment according to the present invention, when the application is executed in the mobile communication terminal, in the state of being connected to the second communication network, the second reference value in which the confirmed buffering amount is set while the state of the communication network is not good. Or a program structure for performing an operation for switching the access network to the first communication network if the amount is smaller than the value.

In the present invention and its embodiments, the fixed cost may be a cost that is already fixed by the use of the data service up to the present point regardless of the additional use of the data service.

At least one embodiment of the present invention described above, or described in detail in conjunction with the accompanying drawings below, is characterized in that there is no cost or less communication network in use than the current network, even while receiving and playing content data. If available, the content data is played continuously without any change while switching to the communication network, and the time required for the network switching even when the network is switched back to the original communication network according to the communication status after the switching network. Nevertheless, it enables continuous play of content data.

In addition, when receiving and playing content data using a communication network with a lower cost or a network without a cost than other networks, a continuous continuous play is still possible even when the network is switched depending on the communication status. Use your current network as far as you can.

Therefore, according to the present invention, a user who views and plays content data through a mobile communication terminal can fully enjoy viewing of content while minimizing cost burden.

1A is an external connection with a logical configuration of a programmatic view of the relevant components of a mobile communication terminal in which an embodiment of a method for receiving data while switching a use network to another communication network according to the amount of data according to the present invention is implemented. Are examples of configurations,
1B illustrates a configuration of a mobile communication terminal in which a method of receiving data while switching a use network to another communication network according to an amount of data according to an embodiment of the present invention is implemented.
2 illustrates configurations of a media player for decoding media data while selectively switching an access network according to an amount of buffering, together with some associated components in a mobile communication terminal, according to an embodiment of the present invention.
3 is an example of a flowchart according to a method for receiving data while dynamically performing network switching according to an embodiment of the present invention.
4A and 4B are diagrams illustrating a process of allowing data to be continuously played when a connection IP address is changed according to an embodiment of the present invention.
5 is an example of an HTTP Request created by modifying an original HTTP Request, which is transmitted to take over data when a connection IP address is changed, according to an embodiment of the present invention.
6A is a diagram illustrating dynamically changing and setting a reference value for switching an access network from a Wi-Fi wireless LAN network to a mobile phone network according to an embodiment of the present invention, and switching between access points of the Wi-Fi wireless network set accordingly. To illustrate the interrelationship between the reference values,
FIG. 6B is a diagram illustrating switching between a Wi-Fi WLAN and a mobile phone network by various modes determined in consideration of generation of costs and data homeostasis using data services according to an embodiment of the present invention. It is an example that the reference value is set differently,
7 illustrates a media player with associated components, with a mode determined externally and utilizing the determined mode, in accordance with an embodiment of the present invention;
8 illustrates a part of a flowchart of a method of receiving data while dynamically performing network switching according to another embodiment of the present invention.

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

FIG. 1A illustrates a logical configuration and an external view of a programmatic view of related components of a mobile communication terminal in which an embodiment of a method for receiving data while switching a current use network to another communication network according to the amount of data according to the present invention is implemented. The connected configurations are illustrated.

The logical configuration of the programmatic view of the mobile communication terminal 100 illustrated in the drawing may be driven by a hardware resource (illustrated in FIG. 1B) of the mobile communication terminal 100, an appropriate signal and / or information with the corresponding resource. It includes a media operating system (110) having a general operating system (Android, IOS, etc.) or an operating system (100a) specialized for the present invention for performing the exchange, and also running under the operating system (100a). . Of course, various applications other than these may be implemented, but are unnecessary in describing the principles and concepts of the present invention, and thus, examples of the conventional applications (hereinafter, abbreviated as "applications") will be omitted.

The media player 110 illustrated in the drawing is a process or application implemented in the mobile communication terminal 100 and is composed of codes executed based on the operating system 100a as illustrated in FIG. 1A. It may be provided in the form of software having a program structure. When provided in the form of software, the media player having the mass storage means and recorded in the mass storage means through a normal on-line purchase process or the like from a specific server connected to the communication network through the provided communication means. 110 may be downloaded and installed in the mobile communication terminal 100 and then executed. In some cases, some of the functions described in detail below may be implemented in the form of middleware or a platform of a terminal. In addition, since the media player 110 includes a hardware configuration, the hardware may perform some of the functions described in detail below. Accordingly, the scope of the present invention is not limited to the media player 110 in which the configuration and operation method are described in various embodiments according to the present invention.

In one embodiment according to the present invention, the media player 110, the media processing unit 111 for processing the media data of the received content to be decoded, and the API (Application Program Interface) provided by the operating system (100a) And a data transmission / reception unit 112 for generating a socket through the network and transmitting / receiving data exchanged with the media processing unit 111 to the outside through the generated socket as a sub process, and further comprising the media processing unit. And a receiving buffer 113a and a transmitting buffer 113b for buffering data transmitted and received between the 111 and the data transmitting and receiving unit 112. In another embodiment according to the present invention, the transmission buffer may not be implemented. In this embodiment, the media processing unit 111 provides the data transmission / reception unit 112 to the data transmission / reception unit 112 through mediators or the like to be transmitted to an external server according to a user's request. ) Will make and send a request according to the communication protocol, for example, an HTTP request.

In addition, the data transmission / reception unit 112 checks the current communication network accessible from the plurality of available heterogeneous networks 11a, 11b, ... through the operating system 100a and access IP address allocated from the communication network. By using or by requesting the connection IP address assignment from another communication network to send and receive data to and from the external server 12 through the required communication network. In addition, even in the case of switching of a communication network, a request according to a communication protocol, for example, an HTTP request, is generated and transmitted so that data buffered in the reception buffer 113a is continued to ensure the continuity of the currently played content. It also performs the operation. This operation of the data transceiver 112 will be described in detail later. The media processing unit 111 also generates a request according to a necessary communication protocol in response to a request from a user and transmits the request to the external server 12 by transmitting the request to the data transmission / reception unit 112 through the transmission buffer 113b. Can be.

In one embodiment according to the present invention, the data transmission and reception unit 112 and the media processing unit 111 may be implemented as a single process performed based on the operating system 100a. In this case, the exchange of information or data between the two may be accomplished through a wide range of variables, internal variables or local functions and / or return values. Accordingly, the concept, the subject matter, and the desired effect of the present invention do not necessarily presuppose or require a process in which the data transmitting and receiving unit 112 and the media processing unit 111 are separately executed, and are described below. Even if each function is implemented as a single process can be achieved naturally.

Meanwhile, the mobile communication terminal 100 having the logical configuration illustrated in FIG. 1A includes a hardware component as illustrated in FIG. 1B as a whole, and includes a public mobile telephone network and a high-speed wireless data network. It can be any one of a smart phone, a tablet computer, a laptop having a mobile phone function, etc. which can access all of them. Referring to the configuration illustrated in the drawings in detail, a cellular cell that modulates or demodulates a signal according to a specified method of a public cellular telephone network, for example, a 2G, 3G, or 4G cellular network, and transmits and receives a cellular phone network. Modem 1a (a component including an RF signal processing module) and a cellular codec 1b that encodes data or decodes encoded data according to a communication protocol adopted by the mobile telephone communication network. And a Wi-Fi modem 2a (RF signal processing) for modulating or demodulating a signal according to a specified scheme of a high-speed wireless data network, for example, a Wi-Fi wireless network. Module), a Wi-Fi codec 2b that encodes data or decodes an encoded data frame according to a communication protocol adopted by the wireless data network, and displays images, characters, and the like. A display panel (5) for driving the display panel (5) for driving the display panel (5) so that arbitrary data is visually displayed on the display panel (5), and decoded encoded video and audio data. Decoder 110a for outputting video and audio signals, a touch sensor 6a attached to the front of the display panel 5, and a keypad 6b provided with keys and / or buttons. And an input control unit 6 which detects a user input and / or a selection on the touch sensor 6a and the keypad 6b and outputs corresponding input information, and according to the input information from the input control unit 6. Table of the UI screen for transmitting or receiving data from or controlling data appropriately among the corresponding components so that an operation is performed, and the result or the user's desired operation selection To the a memory section 7 to provide a data storage space required for operation of the main control unit 10, the main control unit 10 for controlling the display drive unit (4).

In addition, the main controller 10 allows the operating system 100a to perform the intended function by executing command codes, and also executes the command codes of the media player 110 to execute the media described in detail below. The actions of the player 110 are performed. In particular, the media processing unit 111 of the media player 110 may transmit the encoded data or audio data blocks through an appropriate application program interface (API) provided by the operating system 100a, A decoding operation that the decoder 110a performs in hardware may be used.

The configuration of the mobile communication terminal 100 illustrated in FIG. 1B is just one example for specifically and illustratively explaining an embodiment for helping understanding the concept and the subject matter of the present invention. Terminals embodying the subject may further include components of various functions not shown in FIG. 1B, or may exclude the illustrated components, and hardware components may be implemented in software.

Receiving content data and a communication network switching process in the receiving process are performed by the mobile communication terminal 100 whose logical configuration is illustrated around the media player 110 in FIG. 1A as follows.

First, a user may provide an appropriate user UI provided by the main controller 10 through an input / output unit (the display panel 5, the touch sensor 6a, the keypad 6b, etc.) provided in the mobile communication terminal 100. When a browser is started through a user interface and a URL for connecting to a specific server, for example, the illustrated content server 12, is entered through the browser, for example, “”, The communication request is generated while the HTTP request (or the host address and port address of the destination by the request) is transmitted to the operating system 100a.

The operating system 100a checks the IP address of the corresponding URL through a preset DNS server with the information (for example, “videomenu.airplug.com”) included in the received HTTP request, and also according to the protocol of the URL. Assign a port number to specify the destination IP address (unless otherwise specified, an IP address includes a port number). After the local IP address is determined by adding the port number assigned to the browser to the access IP address currently connected to the communication network, the content server 12 is paired with the destination IP address and the local IP address. ) And establish a TCP connection. When the TCP connection is successfully established, the operating system 100a returns the identifier of the created communication socket to the browser in response to the communication socket creation request. Accordingly, a communication socket for data transmission and reception between the browser and the operating system 100a is generated. In addition, the operating system 100a may transmit the HTTP request to the operating system 100a through the generated communication socket after the generation of the communication socket. Constructs a packet and transmits it to the content server 12 (which is transmitted via the cellular codec 1b / cellular modem 1a or the Wi-Fi codec 2b according to the currently connected communication network). / Wi-Fi modem 2a), thus receiving a response from the content server 12, e.g. a web page containing a menu list of movie titles, by means of its TCP / IP header information. It is provided to the browser through the generated communication socket to be identified.

When the browser interprets the web page received through the communication socket and displays it on the display panel 5 through the display driver 4, the user again selects one from the displayed content items and selects the selection. According to the communication protocol according to the request, for example, the HTTP request written in accordance with the HTTP grammar, such as "" is delivered to the operating system (100a). At this time, it is transmitted through the previously created communication socket (specified by the previously received communication socket identifier) or when the host address of the URL is different, a new communication socket may be generated and transmitted through the above-described method. A request by a communication protocol requesting a content item is again sent by the operating system 100a to the content server 12 (the destination address of the selected content item is the same as the destination address of the URL requesting the title menu list). The content server 12 transmits a response according to the request.

In addition to the content data transmitted by the content server 12, the response includes metadata information about the content provided in the response, for example, Multipurpose Internet Mail Extensions (MIME) Type, total size of the content data, playback time of the content, and the like. Contains information about Thus, the browser launches the media player 110 which is an application connected to the MIME Type of the received response. The connection of the media player 110 may also be made by an extension of a file rather than a MIME type. The browser activates the media player 110 and simultaneously sends a request according to a communication protocol, for example, an HTTP Request or RTSP / RTP Request, to the media player 110 as an argument to the media player 110. To pass.

Up to now, the process of starting the media player 110 has been described on the assumption that the process is performed through a browser that is commonly used. However, the media player 110 may be made through various applications in addition to the illustrated browser. That is, when an access information, for example, a URL, for a specific content is selected in an application, the application may start the media player 110 by performing the same process as the above-described browser.

Alternatively, after the media player 110 is started without a request by the mediated communication protocol, the media player 110 may be directly received or selected through the user UI. The data transmission / reception unit 112 is notified of the URL directly received or selected in this way or a request according to the communication protocol.

When the media player 110 is activated, the reception buffer 113a and the transmission buffer 113b are allocated to the memory 7, and then the call transmission parameter 112 is notified to the data transmission / reception unit 112. The data transmitting / receiving unit 112, as illustrated in FIG. 2, uses a notified call mediator, i.e., a request according to a communication protocol, to establish a new communication socket with the operating system 100a according to the above-described method. 22) and transmits the request according to the communication protocol to the content server 12 through the generated communication socket 22 again and sends the newly received communication socket 22 to the response received by the browser. Receive through. At this time, the request made by the communication protocol to be transmitted is stored separately in association with the communication socket 22 which sent the request for later use, for example, of a document created according to the HTTP grammar for the URL of "". On the other hand, the browser transmits a request according to a communication protocol for stopping transmission of the response data through the communication socket 21 ₁ in which response data is being received at the same time as the media player 110 is activated.

The data transmission / reception unit 112 reads the response data received through the communication socket 22 and interprets the data based on a communication protocol, for example, HTTP or RTSP / RTP, and then streams the media file by the response. Move the data in order to the receiving buffer 113a. The metadata for the content data included in the response data is stored separately for later use.

The media processing unit 111 draws out the media data accumulated in the reception buffer 113a in order as described above, determines the decoding method based on the encoding information of the data recorded in the header of the data, and then determines the decoding method. Decode the media data partially or completely according to the decoding scheme. In case of partial decoding, the determined decoding scheme is also set in the decoder 110a. The partial decoding may be, for example, extraction of media packets on a block basis, picture basis, or GoP (Group of Pictures) basis. In the case of the partial decoding as described above, the decoded media packets are applied to the decoder 110a to request decoding so that video and audio signals thereof are output. The image data completely decoded by the media processing unit 111 is applied to the display driver 4 through the operating system 100a and output as an image signal.

On the other hand, while receiving and decoding the media data as described above, the data transmission and reception unit 112 is the amount of media data received through the communication socket 22 to move to the receiving buffer 113a and the media processing unit Continuously monitoring the change in the amount of data accumulated in the receiving buffer 113a, that is, the buffering amount, without being fetched by 111, and when a predetermined condition is satisfied, the network switching illustrated in FIG. It performs a method of receiving data while performing dynamically. The preset condition may be a set period.

The data transmitting and receiving unit 112 first checks the current access network (communication network assigned a local IP for data communication) to dynamically perform network switching according to the buffering amount (S310). Access network confirmation is made through the network access information obtained through the query to the operating system (100a). The network connection information returned from the operating system 100a includes a connection IP address and a connection type (eg, 3G mobile telephone communication network, Wi-Fi wireless LAN network) when connected to a communication network. .

If the current access network to be identified is, for example, a 2G, 3G or 4G mobile telephone communication network (hereinafter referred to as a "cellular network") 11a, the data transmitting and receiving unit 112 is the receiving buffer 113a. In step S311, it is checked whether the amount of data accumulated in the data is greater than or equal to the first reference value determined according to the current mode. The mode is a mode that is automatically set by the media player 110 or manually according to a user's request in a plurality of modes, for example, a "saving mode", a "standard mode", and a "convenience mode". These are mentioned later. The first reference value may be designated by data size or by time. If the time is designated as the time, the data transmission / reception unit 112 requests this bit rate for playing the content (this is the average of the media processing unit 111 withdrawing the media data from the reception buffer 113a). Multiply the time specified by < RTI ID = 0.0 >) < / RTI > The required bit rate C_BR of the content is a value obtained by dividing the total size TD_Size of the content data described in the previously stored metadata by the reproduction time P_Time of the content (C_BR = TD_Size / P_Time). Accordingly, the data transmitting / receiving unit 112 unprocesses the reference amount (= T_Ref1 * C_BR) obtained by multiplying the obtained request bit rate C_BR by the first reference value T_Ref1 designated by time. Compare with the data amount.

The media processing unit 111 withdraws the media data from the reception buffer 113a according to the request bit rate specified as described above with respect to the currently decoded media data, and thus, the first reference value (for example, The remaining 10 seconds or more of data amount based on the requested bit rate in the receiving buffer 113a is switched to a Wi-Fi wireless LAN network (hereinafter, abbreviated as "Wi-Fi network"). Even if the switching to the cellular network after switching to and after is made, it means that the reception buffer 113a can afford enough to prevent the underrun (underrun) occurs. Therefore, if the buffering amount of the reception buffer 113a is equal to or greater than the first reference value, the data transmission / reception unit 112 checks whether it is accessible to the Wi-Fi network 11b, which is a communication network for data service (S312). If possible, that is, if an access point (AP) showing a signal strength of a certain size is identified, the operation is provided while providing identification information (eg, MAC address, or SSID (Service Set Identfier), etc.) for the access point. A connection request is made to the system 100a (S314).

The data transmission / reception unit 112 requests and receives information on the Wi-Fi network state from the operating system 100a in order to confirm whether the Wi-Fi network 11b is accessible. The operating system 100a controls the Wi-Fi modem 2a to physically search the Wi-Fi signal band for this request, after which the Wi-Fi modem 2a is the corresponding signal band. Reads the identification information of each access point and the value of the received signal strength indicator (RSSI) (r11 in FIG. 1B) provided to the data transmission / reception unit 112. If there is no access point in the returned information, the data transceiver 112 determines that the current Wi-Fi network is not accessible. In addition, even if there is an access point, it may be determined that the connection is not possible even when there is no connection point for receiving a signal having a predetermined predetermined strength or more. If there are a plurality of connection points available, the operating system 100a selects an access point with a high signal strength and connects to the connection point.

In response to the request, when the access network is successfully switched from the cellular network 11a to the Wi-Fi network 11b (S315), that is, when the access IP address is changed by assigning the access IP from the communication network, the data transmission and reception are performed. The unit 112 performs the media data download in the following process (S316). The data transmitting / receiving unit 112 is first connected to the communication socket 22 to be closed by switching, and the information written in the document written according to the grammar for the request of the communication protocol stored in advance, for example, the URL of “”. On the basis of this, a new communication socket 23 for a TCP connection capable of communicating with the content server 12 through the currently connected Wi-Fi network 11b is created. Through the generated communication socket 23, a request modified by reflecting the total amount of media data moved so far to the reception buffer 113a by the stored communication protocol is transmitted. For example, as illustrated in FIG. 4A, when the total amount of media data moved to the reception buffer 113a is 'N-1' bytes 41, through the newly created communication socket 23, A request according to a communication protocol for requesting data of the corresponding content from N bytes, for example, the modified HTTP request 50 is transmitted by adding a range field 51 to the HTTP request previously transmitted as illustrated in FIG. 5. (t41).

Accordingly, the content server 12 transmits the same content previously transmitted to the mobile communication terminal 100 from the N bytes 42 through the Wi-Fi network 11b. It is received by the Wi-Fi modem 2a and the Wi-Fi codec 2b and then transmitted by the operating system 100a to the data transceiver 112 through the newly created communication socket 23. Subsequent media data 42 received thereby is stored by the data transceiver 112, following the media data 41 previously received in the receive buffer 113a as illustrated in FIG. 4B ( 400, the continuity of media data is guaranteed and provided to the media processor 111. Therefore, the media processing unit 111 continuously decodes the media data stored in the reception buffer 113a in sequence without interrupting or discontinuing the media data even when the communication network is switched. It is possible to provide video and audio to the user. In addition, despite the switching of the communication network to be used, the user's operation of receiving the media data from the beginning and searching for the previous viewing position is not necessary.

On the other hand, if the current Wi-Fi network 11b is not accessible or if the allocation of the access IP address fails despite the connection attempt, the data transceiver 112 receives the media data through the currently connected cellular network 11a. Keep it going.

When the current buffering amount is determined to be less than the first reference value in the comparison process between the above-mentioned buffering amount and the first reference value (S311), the data transmission / reception unit 112 is the cellular network currently receiving data. Check the data communication state (11a) (S313), and if the communication state is not good as described above to perform the network switching procedure (S312, S314 ~ S316) to the Wi-Fi network (11b). In one embodiment according to the present invention, whether the communication state is good or not is determined by whether or not the amount of buffering remaining in the reception buffer 113a is reduced. For example, in a state in which the total size of the content described in the stored metadata has not been received, the buffering amount of the reception buffer 113a continuously checked by the data transmission / reception unit 112 is transferred to a predetermined allowable range or more. If the comparison is reduced, it is determined that the communication state is not good, and the procedure for switching the network to the Wi-Fi network 11b as described above (S312, S314 to S316) is performed. If the buffering amount is not in the reduced state in the use network communication state checking process (S313), the data transmission / reception unit 112 continuously maintains media data reception through the currently connected cellular network 11a.

On the other hand, if the Wi-Fi network 11b is identified as the access network in the above-described current access network check process (S310), the data transmission and reception unit 112 communicates with the current communication network, that is, the Wi-Fi network 11b. Check whether the state is good (S321). As described above, it is determined whether the communication state is good from the change trend of the buffering amount of the reception buffer 113a. That is, if the buffering amount is in a reduced state, for example, it is determined that the communication state is not good if the current amount is reduced by more than a certain allowable range compared with the amount just checked. If it is determined that the communication state is not good in the checking process (S321), the data transmitting and receiving unit 112 checks whether the buffering amount of the receiving buffer 113a is less than the second reference value currently set (S322). . Like the first reference value, the second reference value may of course be designated as the size or time of the data, and when designated as the time, it is converted into a reference amount for the time for comparison. In addition, the second reference value is a cellular network in a Wi-Fi network, which is more advantageous in terms of transmission speed and cost although the characteristics of data service are relatively more flexible than the cellular network due to mobility or limited and local service area. Since it is a reference value for switching to, the buffering amount is set as a value that provides a little more margin than the minimum for use network switching.

In an embodiment according to the present invention, the second reference value is determined as a lower value than the first reference value described above, and when the value is set as time, the first reference value is, for example, 10 seconds, and the second reference value is set as the value. The reference value may be a time in the range of 3 to 5 seconds. In another embodiment according to the present invention, the second reference value may be determined irrespective of the first reference value.

If the buffering amount of the receiving buffer 113a is less than or equal to the second reference value, this means that if the amount of buffering is currently reduced, the media processing unit (s) may be shortened after a set time (corresponding to the second reference value) for the use network switching. Since the data to be decoded and output by 111 is expected to be exhausted, the data transmission / reception unit 112 performs a conversion process to the cellular network 11a (S323). Although the cellular network 11a eliminates the cost burden on the user due to the service provision policy of the mobile communication service provider, the cellular network 11a provides a more stable data service by providing a wide range of service areas, so the use of the cellular network 11a is successfully switched to the cellular network. It is very likely that the media data that is lacking will be replenished.

In order to switch the use network to the cellular network 11a, the data transceiver 112 performs an operation for allowing the operating system 100a to access the cellular network (S323). There may be various methods for this operation depending on the API provided by the operating system 100a. For example, a connection request may be made while passing an identifier indicating a cellular network, or a disable request may be made for a Wi-Fi network connection. After performing the operation for accessing the cellular network 11a and checking the connection type, the network switching is successfully performed (S315). The data transmission / reception unit 112 described above has been described in detail above, from the cellular network to the Wi-Fi network. In operation S316, the same operation as the media data resumption operation is performed. In this case, in the example schematically showing the process of switching over the network of FIGS. 4A and 4B, “Cellular Network” is replaced by “Wi-Fi Network” and “Wi-Fi Network” is replaced by “Cellular Network”. It can be understood intuitively as a drawing when.

In the above-described checking steps, the current communication state through the access point of the Wi-Fi network 11b is good (S321), or the current buffering amount of the receiving buffer 113a exceeds the second reference value (S322). If the switch to the cellular network 11a is not successful, media data reception through the currently connected Wi-Fi network 11b is continuously maintained. At this time, if the connection to the Wi-Fi network is inhibited for the connection switching, the data transmission and reception unit 112, the operating system (100a) requests the activation of the Wi-Fi network again, the An operation for taking over the last data of the reception buffer 113a is performed.

Meanwhile, the values of the first reference value and the second reference value described above are adjusted and set according to various various conditions, which will be described in detail below.

First, in one embodiment according to the present invention, the value of the second reference value is adjusted and set according to the presence or absence of another connection point. In the present embodiment, when the current access network is a Wi-Fi network, if the buffering amount of the reception buffer 113a is decreasing (S321), first, the data transmission / reception unit 112 is applied to the operating system 100a. It requests the search of the neighboring connection point of the Wi-Fi network 11b at present and checks whether there is another connection point that can be connected to the connection point other than the currently connected connection point, and if there is another connection point, the signal strength of the other connection point is a predetermined size. If it is, the data transceiver 112 adjusts 611 the second reference value to a lower condition as illustrated in FIG. 6A. This means that there are more resources that can use the Wi-Fi network 11b in addition to the currently connected access point. Therefore, the criterion for switching to the cellular network 11a is stricter. It may be set to be less than or equal to Val2 _APmore smaller than _nor (val2 _sav or Val2 _conv depending on the mode. This will be described later with reference to FIG. 6B). In addition, the data transmission / reception unit 112 sets and activates a third reference value 612 for switching between access points having a larger value than the adjusted second reference value Val2 _APmore . The value Val3 _{AP_trans} of the third reference value may be smaller or larger than the value Val2 _nor of the second reference value before the adjustment (612a). When the third reference value is set and activated as described above, the data transmitting / receiving unit 112 compares the buffering amount with the value of the set third reference value Val3 _{AP_trans} if the buffering amount is decreasing during the checking of step S321. If the value is less than the other connection point searched for the Wi-Fi network 11b (this connection point may be the information stored by the previous search or another connection point obtained by a new search.) The operating system 100a Attempts to switch to the connection point by requesting When the access point switch is successful by newly assigning an access IP address from the other access point, the data transmitting / receiving unit 112 performs the following operation after the last data of the reception buffer 113a as described above. It will take over the operation.

In one embodiment according to the present invention, the quality score evaluated for the detected signal state of the other connection point, for example, the measured signal strength, transmission rate or the points given by each or combined evaluation according to a predetermined method for these The adjusted second reference value may be further adjusted by the presence of another connection point. The quality score may be received and used for neighboring access points from an external server in which access address information is pre-stored through the currently connected Wi-Fi network 11b. Alternatively, when the data transmission / reception unit 112 accesses the Wi-Fi network 11b through an arbitrary access point to use a data service, the amount of data (service providing rate) or signal strength at the time of connection, The use time may be stored together with the identification information of the corresponding access point as a quality score, and the information may be used if the previously stored quality score for the other access point is acquired and stored within a predetermined time. If it is possible to check the quality score for the other access point, the data transmission / reception unit 112 checks whether the quality score, for example, the transmission speed is higher than the required bit rate of the content currently being received, and is higher. In FIG. 6A, the second reference value adjusted as described above is readjusted to a lower value Val2 _goodAP (613). If the identified quality score for the other access point is not greater than the quality score for the currently connected access point, the data transmitting / receiving unit 112 readjusts the adjusted second reference value to a higher value. In this case, the readjusted value may be equal to the reference value Val2 _nor , Val2 _sav , or Val2 _conv according to the current mode before the adjustment.

The first reference value and the second reference value are also adjusted according to the above-described mode, and the mode set in the mobile communication terminal 100 will be described first.

Various types of mobile communication networks with different infrastructures charge users different service charges according to the service provision policy of the service provider providing the mobile communication service. For example, the data service for the cellular network 11a generally adopts a rate scheme in which a basic data amount is set for the basic rate and an additional cost is exceeded. It is provided free of charge. Therefore, depending on the subscription plan, the user may incur additional fees in addition to the basic fee when the cellular network 11a is continuously used, in which homeostasis of data service use is relatively sufficiently guaranteed.

For this reason, the embodiment according to the present invention provides modes for designating which network to select for a data service, with which aspects of the incurrence of the cost of the user's data service and the homeostasis of the data service use are more important factors. do. These modes include a "saving mode" for suppressing costs, a "convenience mode" for the convenience of the user, e.g., the homeostasis of data services, and a "standard mode" that compromises cost incurrence and user convenience. And the media player 110 presents the illustrated modes through the user UI of the mobile communication terminal 100 upon startup, and selects one mode from the user and notifies the data transmitting / receiving unit 112 thereof. Done.

If the notified mode is the "saving mode", the data transmitting / receiving unit 112 considers that the user considers the suppression of the cost more important than the homeostasis of the data service. As shown in FIG. And the second reference value are set to the values 621 of the lower condition in comparison with the values 620 of the corresponding reference value in the “standard mode” to perform the dynamic network switching method illustrated in FIG. 3. In the step S311 of FIG. 3, the first reference value becomes a value of a lower condition, even if the buffering amount of the reception buffer 113a is smaller than that in the "standard mode", switching to the Wi-Fi network may be attempted. It means to be. In other words, even when the buffering amount is less, the switch to the Wi-Fi network is attempted. In addition, in step S321, the second reference value also becomes a lower value, which means that the Wi-Fi network is used until the buffering amount of the receiving buffer 113a becomes smaller than the reference value in the "standard mode". will be. That is, the Wi-Fi network is used until the buffering amount reaches a minimum threshold 621a that provides time for switching the use network, and when the buffering amount is less than the threshold value, the cellular network is switched. will be. Of course, if the buffering amount has not decreased, the network switching to the cellular network does not proceed by the previous step (S321).

If the notified mode is “convenient mode,” this means that the user thinks that the homeostasis of the data service is more important than the likelihood of cost. Therefore, as illustrated in FIG. 6B, the first reference value and the second reference value are illustrated. In contrast, the dynamic network switching method illustrated in FIG. 3 is performed by setting each value to a higher condition value 622 in comparison with the corresponding reference values in the “standard mode”. When the first reference value is a higher condition, the stability of the data service is weaker, that is, the homeostasis of the service is relatively low only when the buffering amount of the receiving buffer 113a is more relaxed than in the "standard mode". This means that a switch to a lower Wi-Fi network can be attempted. That is, compared to the “standard mode”, the possibility of using a Wi-Fi network is relatively lower. In addition, in the step S322, the second reference value also becomes a higher condition value, such that the switching to the cellular network proceeds even when the buffering amount of the reception buffer 113a remains larger than in the "standard mode". That is, in a state in which the buffering amount decreases (S321), when the set allowance is less than or equal to the reference value 622a, the use network switching proceeds.

In another embodiment according to the present invention, instead of receiving the mode setting from the user, the media player 110 may read a mode set by another application or process. FIG. 7 illustrates a related configuration according to the present embodiment, and as illustrated above, the illustrated mode determination unit 120 provides the user with a menu for mode determination at a specific point in time, for example, of the mobile communication terminal 100. When the screen lock is released or the user requests to execute, the mode is set and saved through this. When providing the menu, the mode determination unit 120 presents at least the data usage status of the cellular network 11a and the remaining days (or the elapsed days) according to the plan period, so that the user at the present time. You can also easily determine which mode is appropriate. The stored mode value is shared by the data transceiving unit 112 by receiving and requesting the mode determining unit 120 when the media player 110 starts up. Acquiring the mode value from the mode determination unit 120 (c71) is made through a channel established by the media player 110 for the application or process of the predetermined identification name to the operating system 100a. Can be.

The mode determination unit 120 may also automatically determine a mode according to the data usage status for each communication network. To this end, periodically checking the amount of usage data being monitored by the operating system 100a and thereby the amount of transmission and reception data per period and communication network according to the user's plan, for example, at least the transmission and reception data using the cellular network 11a. The amount of data to be incurred when the amount of usage is exceeded based on the plan information set by the user for the communication network, and the amount of the used data (transmitted and received data) The remaining data amount is determined by subtracting the sum of the amounts. Then, the ratio (rd_r) of the remaining amount of data to the basic data amount (rd_r) and the ratio of remaining time, for example, the time ratio (rt_r) of the current remaining days to the number of days in the plan period, respectively, After obtaining the ratio (rr = rd_r / rt_r), the mode is automatically determined according to the value of the residual ratio (rr). For example, when the residual ratio rr is less than 0.5, it may be determined as "saving mode", when more than 1.5, "convenience mode", and when more than 0.5 and less than 1.5, "standard mode". In one embodiment according to the present invention, the mode determination unit 120 may be integrally implemented as a sub-process of the media player 110 or may be implemented as a separate application. In the latter case, specific conditions, for example, For example, when the screen lock state of the mobile communication terminal 100 is released, it is automatically activated to determine one of the modes. As described above, the determined mode may be notified through a channel formed between processes through the operating system 100a.

In another embodiment according to the present invention, the comparison of the buffering amount of the receiving buffer 113a with the first reference value when the current access network is a cellular network, and the order of checking whether the cellular network is good are described with reference to FIG. 3. It may be performed in the reverse of the embodiment described above. That is, the comparison process portion A3 illustrated in FIG. 3 may be changed and performed as shown in FIG. 8. In the present embodiment, when the cellular network 11a is presently good, for example, when the buffering amount does not decrease (S311 '), the first reference value set according to the current mode of the Wi-Fi network 11b is determined. After adjusting according to the quality of service of the access point, the buffering amount may be compared with the adjusted reference value (S313 ′). The information about the quality of service, for example, the transmission speed, etc. for the neighboring access points is received from an external server as mentioned above, or the data service through the corresponding access point before or after the signal strength currently confirmed by the data transmission / reception unit 112. It can be obtained from the reception rate information measured and stored at the time of use. In the present embodiment, the value of the first reference value is inversely proportional to the quality of the peripheral connection point (the quality of the connection point showing the best quality when a plurality of connection points are found). In other words, if the quality score is higher than the appropriate upper limit, the first reference value is adjusted lower by that difference, and if the quality score is lower than the appropriate lower limit, the difference is higher. As such, when the quality of the access point of the Wi-Fi network that can be switched is good, the reason for lowering the first reference value is that there is a low possibility of switching back to the cellular network because of poor quality in the actual switching. This is because a smaller amount of buffering may be needed to ensure continuous play during the conversion process.

Up to now, the principle and concept of the present invention have been described in detail by taking a Wi-Fi network, which is a high-speed wireless LAN network, as a data communication network selectively used for data service, in addition to a mobile telephone communication network called a cellular network. However, the principles and concepts of the present invention may be based on the locality of the access point, in addition to the cellular network, which is less expensive than the Wi-Fi network or excludes fixed costs (i.e. less costly to the user). If there is another kind of data communication network that is weak in service stability due to the scattered narrow service area, etc., the same can be applied to the communication network. Therefore, the scope of the rights under this claim may be excluded due to the different data communication networks. none. Here, the fixed cost means a cost that is already fixed by the use of the data service up to the present point regardless of whether the data service is additionally used or not.

As mentioned above, preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art can improve other various embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. Changes, substitutions or additions will be possible.

1a: cellular modem 1b: cellular codec
2a: Wi-Fi modem 2b: Wi-Fi codec
4: Display driver 5: Display panel
6: Input control unit 6a: Touch sensor
6b: Keypad 7: Memory
10: main control unit 11a: cellular network
11b: Wi-Fi network 12: Content server
21 _k , 22, 23: communication socket 100: mobile communication terminal
100a: operating system (O / S) 110: media player
111: media processor 112: data transceiver
113a: Receive buffer 113b: Transmit buffer
120: mode determination unit

Claims (26)

A mobile communication terminal capable of accessing a plurality of heterogeneous networks including a first communication network and a second communication network,
A media processing unit configured to extract content data from the receiving buffer and decode the content data;
Receive content data from an external server through the communication network in a state of being connected to any one of the plurality of heterogeneous networks, and store the received data in the receiving buffer and store the amount of buffering not drawn out of the receiving buffer. And a data transmitting / receiving unit configured to attempt to switch the access network to the second communication network when the checked buffering amount is a quantity corresponding to the set first reference value or larger in the state of being connected to the first communication network. Are configured to include,
And wherein the second communication network is a communication network in which there is no cost or a cost excluding a fixed cost is less than the first communication network when using a data service. The method of claim 1,
And the data transmitting and receiving unit is further configured to attempt connection switching to the second communication network even when the communication network is not in a good condition when connected to the first communication network. The method of claim 1,
The data transmitting / receiving unit adjusts and sets the first reference value to a lower value if the currently set mode is a mode set to suppress the occurrence of cost, and a higher value of the first reference value if the mode is preferential to use the data service. The mobile terminal is further configured to adjust to set. The method of claim 1,
The data transmitting / receiving unit checks a value indicating a quality of a connection point of the second communication network when the first communication network currently connected is in a good state, and lowers the first reference value when the value is higher than a specified upper limit reference value. And adjust the first reference value to a higher value if the value is lower than a specified lower limit reference value. 5. The method of claim 4,
The value indicating the quality is a signal strength, a transmission speed, or a score given by evaluating each or all of these. The method of claim 1,
The data transmitting / receiving unit switches the access network to the first communication network when the confirmed buffering amount is a quantity corresponding to the set second reference value or less while the state of the communication network is not good in the state connected to the second communication network. The mobile terminal is further configured to perform. The method according to claim 6,
The data transmitting / receiving unit adjusts and sets the second reference value to a lower value if the currently set mode is a mode set to suppress the occurrence of costs while connected to the second communication network, and prioritizes the convenience of using the data service. And if in mode, further configured to adjust and set the second reference value to a higher value. The method according to claim 6,
And the data transmitting / receiving unit is further configured to adjust and set the second reference value to a lower value when another connection point of the second communication network is available under the state of being connected to the second communication network. The method of claim 8,
When the data transmission / reception unit adjusts and sets the second reference value to a lower value, the data transmitting / receiving unit sets a third reference value, which is a reference for switching between connection points, to a value larger than the second reference value set by adjusting to the lower value. Thereafter, the mobile communication terminal is further configured to confirm whether the buffering amount is less than or equal to the third reference value and to selectively switch the access point according to the result. The method of claim 8,
The data transmitting / receiving unit checks a value indicating the quality of the other access point, and if the value is lower than the quality value of the currently connected access point, readjusts and sets the second reference value to a value larger than the lower value. The mobile terminal is further configured. The method of claim 8,
The data transmitting / receiving unit checks a value indicating the quality with respect to the other access point, and if the value corresponds to a speed higher than the transmission rate required by the content being received through the access point that is currently connected, the lower value. And adjust and set the second reference value to a value less than. The method according to claim 1 or 6,
The data transmission / reception unit transmits the content data by transmitting a request based on a communication protocol requesting data from a point subsequent to the content data received from the previously connected communication network to the external server through the switched communication network. The mobile terminal is further configured to receive and store in the receiving buffer. The method according to claim 2, 4 or 6,
And the data transmitting / receiving unit is configured to determine that the state of the connected communication network is not good when the buffering amount is decreasing. The method according to claim 3 or 7,
And a mode determination unit configured to automatically determine the mode based on a data usage status of the first communication network, user plan information, and remaining time according to a plan plan period. The method of claim 14,
The mode determining unit is further configured to receive and set a selected mode by providing a data screen on the first communication network and remaining or elapsed days according to a plan period together on a menu screen for selecting a mode. Communication terminal. The method according to claim 6,
And the first reference value is set to a value larger than the second reference value. The method of claim 1,
The first reference value is a value set as an amount of time.
And the data transmitting and receiving unit is further configured to obtain a data amount corresponding to the first reference value by multiplying a required bit rate for playing the content data with the amount of time. 18. The method of claim 17,
And the data transmitting / receiving unit is configured to calculate the request bit rate from the size and reproduction time of the content data described in the received metadata for the content data. The method of claim 1,
And the media processing unit is configured to fetch the content data stored in the reception buffer at a speed corresponding to a requested bitrate determined by the size of the content data and its playing time. A method for selectively receiving and playing content data by using a plurality of heterogeneous networks including a first communication network and a second communication network,
Requesting and storing content data from an external server through a connected communication network and decoding the stored content data;
Determining whether the connected communication network is the first communication network or the second communication network;
According to the check result, the amount of unprocessed content data received and stored without decoding is compared with any one of a set first reference value and a second reference value, and based on a condition reflecting the comparison result, It includes the third step of selectively performing the connection switching to a communication network that is not currently connected among the two communication networks,
In the third step, when the connected communication network is the first communication network, if the amount of the unprocessed content data is a quantity corresponding to the first reference value or larger, the connection switching is performed, and the connected communication network is connected to the first communication network. In the case of the second communication network, if the amount of the unprocessed content data corresponds to a value larger than the second reference value, the access switching is not performed.
And wherein said second communication network is a communication network in which there is no cost or a cost excluding a fixed cost is less than said first communication network when using a data service. The method of claim 20,
Transmitting a request according to a communication protocol for requesting transmission from data at a point subsequent to the raw content data to the external server through the switched communication network when the access switching is performed;
And storing the portion of the media data received from the external server received in accordance with the transmission after the raw content data, further comprising five steps. The method of claim 20,
In the third step, when the connected communication network is the first communication network, if the amount of unprocessed content data corresponds to a value smaller than the first reference value, the connection switching is performed when the state of the first communication network is not good. A method for receiving streaming data while selectively switching a usage network further comprising the step of performing. The method of claim 20,
In the third step, when the connected communication network is the second communication network, the connection switching is performed when the unprocessed data amount is a quantity corresponding to the second reference value or less while the state of the communication network is not good. A method for receiving streaming data while selectively switching a usage network further comprising the step of performing. The method of claim 20,
Wherein steps 2 and 3, the streaming data is received while selectively switching the use network is performed repeatedly periodically according to a set period. In the program supply device for providing a program stored in the storage space through a communication network,
Communication means for transmitting and receiving data with the outside through communication,
It is configured to include a storage means for storing the application to be executed in the mobile communication terminal, transmitted through the communication means,
When the application is executed in the mobile communication terminal,
Allocating a receiving buffer, receiving the content data from an external server through the communication network while the mobile terminal is connected to any one of a plurality of heterogeneous networks, and storing the received data in the receiving buffer A program structure for simultaneously performing an operation of checking an amount of buffering not drawn out from the receiving buffer, and extracting the content data stored in the receiving buffer and decoding the content data;
In the state connected to the first communication network, and comprises a program structure for performing an operation for attempting to switch the access network to the second communication network if the amount of the buffering to be confirmed is the amount corresponding to the set first reference value or larger value,
And said second communication network is a communication network in which there is no cost or a cost excluding a fixed cost is less than said first communication network when using a data service. 26. The method of claim 25,
When the application is executed in the mobile communication terminal,
In the state of being connected to the second communication network, if the state of the communication network is not good and the amount of buffering to be confirmed is an amount corresponding to the set second reference value or smaller value, the operation of switching the access network to the first communication network is performed. The program supply device further comprises a program structure to.

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