KR20130113807A - Apparatus and method for supporting contents handover - Google Patents

Abstract

PURPOSE: An apparatus for supporting contents handover and a method thereof are provided to support the contents handover by being linked to a communication network in order for a user to watch broadcast contents continuously when signal transmission is unstable while the broadcast contents is provided through a broadcast network. CONSTITUTION: A handover controller (30) provides broadcast contents, by handing over to the other transmission network from a transmission network which provides broadcast contents to a user terminal among a communication network and a broadcast network. The handover controller decodes the broadcast contents in advance through the other transmission network if the handover controller enters a handover expected area as providing the broadcast contents through the transmission network. The handover controller supports continuous handover according as providing the pre-decoded broadcast contents to the user terminal through the other transmission network during handover. [Reference numerals] (10) Broadcast signal processor; (20) Communication network signal processor; (30) Handover controller; (40) Decoder output selection unit; (50) Image display unit

Description

Apparatus and method for supporting contents handover}

One aspect of the present invention relates to a broadcast content providing technology, and more particularly, to a handover support technology between transmission networks.

As user terminals that can use a broadcasting network and a communication network, such as a smart phone, are spreading, broadcast content transmission through both the broadcasting network and the communication network is easy. Its performance is not only HD video decoding but also video decoding.

In particular, in the case of terrestrial digital multimedia broadcasting (T-DMB), which has mobility as an advantage compared to other media, the user can watch broadcast contents anytime and anywhere as it is mounted on various user terminals. However, when the user terminal enters an unstable signal transmission area due to the mobility of the terminal, content disconnection frequently occurs until the user terminal leaves the region.

Therefore, the broadcaster is preparing a service to be provided to the communication network through a broadcast server providing the same content so that the user can watch the same content continuously, and the user connects to the broadcast server providing the corresponding content through the communication network. You can watch the content continuously.

The heterogeneous handover between the broadcasting network and the communication network generally does not provide a clear procedure for handover of the broadcast service or provide the corresponding content through the network simply by switching the network after content interruption in the broadcasting network occurs. . Therefore, there is a need for a technique for efficiently providing content handover.

According to an aspect, an apparatus and method for supporting content handover in connection with a communication network are provided so that a user can watch seamless broadcast content when a signal transmission is unstable while providing broadcast content through a broadcasting network.

According to an aspect, an apparatus for supporting a content handover provides a broadcast content by handing over from a transmission network providing broadcast content to a user terminal among a communication network and a broadcasting network to another transmission network, and providing broadcast content through the transmission network. And a handover control unit which decodes the broadcast content in advance through another transmission network and supports seamless handover as the pre-decoded broadcast content is provided to the user terminal through another transmission network at the time of handover.

According to another aspect, an apparatus for supporting a content handover includes a broadcast network signal processor for detecting a received signal strength while decoding a data stream of a received signal through a broadcast network, and a data stream from a broadcast server through a communication network in advance when entering a handover expected region. The network signal processor which decodes the received data streams and provides the decoded data streams to the user terminal through the broadcast network signal processor determines whether to predict the handover region based on the received signal strength and performs handover. A handover control unit may provide a user terminal with a pre-decoded data stream through a communication network signal processor when a viewpoint arrives.

According to another aspect of the present invention, there is provided a content handover support method, comprising: detecting a received signal strength while decoding a data stream of a received signal through a broadcasting network, determining whether a handover expected region is based on the detected received signal strength, When entering the over prediction area, decoding the received data stream by receiving the data stream from the broadcast server in advance through the communication network; and when the handover execution point arrives after the entry of the handover prediction area, the decoded data stream through the communication network. Supporting seamless handover as provided to the user terminal.

According to an embodiment, a seamless handover may be supported when a broadcast content is provided by handover to another transport network from a transport network providing broadcast content to a user terminal among a communication network and a broadcast network. That is, when the broadcast content is provided through the transmission network and enters the handover prediction area, the broadcast content may be decoded in advance through another transmission network, and then, when the handover is performed, the previously decoded broadcast content may be provided to the user terminal through another transmission network. . Accordingly, if the broadcast content is decoded through another transmission network in advance, and a problem occurs in the transmission network, the user can be provided with seamless broadcast content by naturally providing the broadcast content to the user using the other transmission network.

1 is a block diagram of an apparatus for supporting content handover according to an embodiment of the present invention;
2 is a detailed configuration diagram of an apparatus for supporting content handover according to an embodiment of the present invention;
3A and 3B are flowcharts illustrating a method for supporting content handover according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the terms described below are defined in consideration of the functions of the present invention, and this may vary depending on the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a block diagram of a content handover support apparatus 1 according to an embodiment of the present invention.

The content handover support apparatus 1 includes a broadcast network signal processor 10, a communication network signal processor 20, and a handover controller 30.

The content handover support apparatus 1 supports a seamless handover when providing a broadcast content by handing over to another transport network from a transport network providing broadcast content to a user terminal among a communication network and a broadcast network. To this end, the broadcast content is provided through a transmission network. When the user enters a handover prediction area, the broadcast content is decoded in advance through another transmission network, and then, when the handover is performed, the decoded broadcast content is provided to the user terminal through another transmission network. Accordingly, if the broadcast content is decoded through another transmission network in advance, and a problem occurs in the transmission network, the user can be provided with seamless broadcast content by naturally providing the broadcast content to the user using the other transmission network. The content handover support apparatus 1 may determine whether the handover region is expected by detecting an abnormal state in the transmission network based on the reception strength of the broadcast signal.

According to an aspect, when the content handover support apparatus 1 enters the handover prediction region, the content handover support apparatus 1 decodes broadcast content provided through a transmission network and simultaneously decodes broadcast content provided through another transmission network. Thereafter, during the handover, the decoded broadcast content is provided to the user terminal through another transmission network and the decoding of the broadcast content through the transmission network is stopped.

According to an aspect, the content handover support apparatus 1 connects a data stream provided through a broadcasting network and a data stream provided through a communication network using a decoding reference time value of a user terminal in a handover expected region.

Hereinafter, each component of the content handover support apparatus 1 will be described in detail.

The broadcast network signal processor 10 receives a terrestrial DMB signal through a broadcast network and detects a reception strength of the received signal. The communication network signal processing unit 20 decodes the received data stream by receiving the data stream from the broadcast server in advance through the communication network when entering the handover prediction area where the abnormal state is detected in the broadcasting network.

The handover controller 30 provides the decoded data stream to the user terminal through the broadcast network signal processor 10. The handover controller 30 determines whether the handover expected region is based on the received signal strength detected by the broadcast network signal processor 10. When the handover enforcement time arrives, the data stream is pre-decoded to the user terminal through the communication network signal processor 20.

According to an aspect, the broadcast network signal processor 10 decodes a data stream provided through the broadcast network. The communication network signal processor 20 receives the data stream from the broadcast server in advance through the communication network and decodes it after entering the handover prediction area. At this time, the handover control unit 30 controls the broadcast network signal processing unit 10 to decode the data stream until the handover prediction area enters, but the broadcast network signal processing unit 10 and the communication network signal processing unit 20 after the handover prediction area entry. ) Simultaneously decodes the data stream, which is called dual decoding. Subsequently, when the handover execution time arrives after the handover prediction area enters, the handover control unit 30 provides the user terminal with a pre-decoded data stream through the communication network signal processing unit 20. In addition, the broadcast network signal processing unit 10 requests to stop decoding the data stream through the broadcast network.

According to a further aspect, the decoder output selector 40 performs a switch from the decoding output screen provided through the broadcast network to the decoding output screen provided through the communication network. The scene display unit 50 displays the decoded output screen selected by the decoder output selector 40.

According to a further aspect, as described above, when the broadcast signal through the broadcast network is weakened, not only the transmission network is switched from the broadcast network to the communication network, but also when the broadcast signal is improved again after the transmission network is switched back from the communication network to the broadcast network. In other words, while switching from a broadcasting network to a communication network, the broadcast signal processing unit 10 continuously detects the received signal strength through the broadcasting network signal processing unit 10 while providing the user terminal with a pre-decoded data stream through the communication network signal processing unit 20. As a result of the detection, if the received signal strength is greater than or equal to a predetermined value, the handover control unit 30 controls the broadcast network signal processing unit 10 to decode the data stream in advance, and decodes the data stream in advance through the broadcast network signal processing unit 10 at the time of handover enforcement. The data stream is provided to the user terminal, and the network signal processing unit 20 requests to stop decoding the data stream through the communication network.

2 is a detailed block diagram of the content handover support apparatus 1 according to an embodiment of the present invention.

The broadcast network signal processor 10 includes a broadcast network signal receiver 100, a reception strength detector 110, a decoding reference time information extractor 120, and a broadcast network decoder 130.

The broadcast network signal receiver 100 receives a terrestrial DMB signal through a broadcast network. The reception strength detector 110 detects a signal to noise ratio (S / N) of the received signal. The decoding reference time information extractor 120 extracts decoding reference time information from the data stream extracted from the received signal. The decoding reference time information may be system time clock information (STC). Alternatively, the decoding reference time information may be a counter value counting TS packets input thereafter based on a TS packet including the most recent PCR value input to the broadcast network decoder 130 or a UTC value at that time. The broadcast network decoder 130 decodes the data stream.

According to an aspect, the handover controller 30 determines the corresponding area as the handover prediction area when the signal-to-noise ratio of the received signal detected by the reception strength detection unit 110 is less than or equal to a preset value. In particular, the handover control unit 30 is a signal to noise ratio of the received signal detected by the reception strength detection unit 110 is less than a predetermined value, when the gradual displacement is generated or less than the predetermined value to the corresponding region to the handover prediction area You can judge. This may occur in the case of a local reception environment in which the received signal is weakened momentarily due to external factors and becomes stronger. If all of these cases are included, frequent handover may consume a lot of resources of the user terminal. For sake.

The network signal processor 20 includes a network signal receiver 200, an effective network search and selector 210, a stream requester 220, and a network decoder 230.

The communication network signal receiver 200 receives a broadcast signal through a communication network.

The effective network search and selection unit 210 searches for and selects a valid communication network from among the communication networks available in the user terminal. The communication network may be, for example, wifi, 3G, LTE, or Wibro network, but is not limited thereto. In this case, the user terminal user may directly select an effective communication network or determine the priority of the effective communication network in the user terminal. In the present invention, it is assumed that one of the communication networks operable among the communication modules mounted in the user terminal is connected.

The stream requester 220 connects the session with the broadcast server through the effective communication network selected by the effective communication network search and selection unit 210, and requests the broadcast server for a data stream based on the decoding reference time information of the broadcast network. The broadcast server provides the same broadcast content as the broadcast channel selected by the user. The broadcast server information for each channel may be extracted from T-DMB fast information channel (FIC) information, or may be extracted from auxiliary data such as electronic program guide (EPG) information.

The communication network decoder 230 extracts a data stream from a broadcast signal received through a valid communication network from a broadcast server, and decodes the extracted data stream.

When the received signal strength detected by the reception strength detection unit 110 falls below a predetermined value, the handover control unit 30 determines the corresponding area as a handover prediction area, extracts decoding reference time information at the time of determination, and requests a communication network stream. Transfer to the unit 220 to request the data stream. The decoder output selector 40 controls the input of the scene display unit 50 to be an output signal of the communication network decoder 230 at the time of the handover, and stops decoding the data stream of the broadcast network decoder 130. do. At this time, the decoder output selector 40 performs the conversion by referring to the decoding frame display time values (for example, PTS or DTS in the case of MPEG-2 standard or CTS value in the case of MPEG-4 standard) for natural scene connection. can do.

3A and 3B are flowcharts illustrating a method for supporting content handover according to an embodiment of the present invention.

First, the broadcast network signal processor 10 receives a T-DMB signal through a broadcast network and decodes a data stream of a selected channel for a broadcast service for a channel selected by a user (1000). Then, the strength of the T-DMB received signal, for example, the signal-to-noise ratio value is detected (1010). The communication network signal processor 20 searches for a valid communication network in the user terminal 60 and selects an optimal communication network (1020).

Subsequently, the broadcast network signal processing unit 10 transmits the detected signal-to-noise ratio value to the handover control unit 30 (1030), and the handover control unit 30 continuously falls below a predetermined value while continuously monitoring the received signal-to-noise ratio value. In operation 1040, the controller determines whether the area is a handover predicted area if the predetermined value is less than or equal to a predetermined value. In this case, only a case where the displacement is lowered below a predetermined reference value while the displacement of the signal-to-noise ratio occurs may be determined as the handover expected region.

If it is determined that the handover prediction area, the handover control unit 30 requests the decoding reference time value of the user terminal 60 from the broadcast network signal processing unit 10 (1060), the decoding reference time value from the broadcast network signal processing unit 10 Received (1070). In this case, the decoding reference time value is used as a reference time point for connecting the data stream transmitted through the broadcasting network and the data stream transmitted through the communication network. The decoding reference time value may be an STC value that is a reference when decoding the MPEG-2 TS stream from the broadcasting network decoder 130 and based on a TS packet including the most recent PCR value input to the broadcasting network decoder 130. The value may be a counter value that counts TS packets input thereafter or may be a UTC value at that time.

Subsequently, the handover control unit 30 requests the communication network signal processing unit 20 to connect a session to a broadcast server that provides the same content as the broadcast channel selected by the user, and simultaneously transmits a decoding reference time value of the user terminal 60. (1080). The broadcast server information for each channel may be extracted from T-DMB FIC information, or may be extracted from auxiliary data such as EPG information.

Subsequently, the communication network signal processor 20 connects the session through the communication network and requests the corresponding data stream from the broadcast server based on the user terminal decoding reference time value (1090). As soon as the data stream is received, the handover controller 30 notifies the start of data stream reception at the same time as the notification 1100 and starts decoding the received data stream (1110). At this time, the data stream decoding through the broadcast network signal processor 10 is in a dual decoding state.

Subsequently, after confirming the data stream reception start message from the communication network signal processing unit 20, the handover control unit 30 determines the handover execution time and starts the handover (1120). The broadcast network decoder 130 switches from the broadcast network decoder 130 to the network decoder 230 so that the content can be naturally converted based on the decoding frame display time values (PTS or DTS for MPEG-2 or CTS for MPEG-4). After that, the converted decoding output screen is displayed through the scene display unit 50 (1130). At the same time, the broadcast network signal processor 10 requests 1140 to decode the data stream through the broadcast network and stop receiving the broadcast signal, and the broadcast network signal processor 10 stops decoding the data stream through the broadcast network (1150).

The embodiments of the present invention have been described above. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1: Content handover support device 10: Broadcasting network signal processing unit
20: communication network signal processing unit 30: handover control unit
40: decoder output selection unit 50: scene display unit
100: broadcast network signal receiver 110: reception strength detector
120: decoding reference time information extraction unit 130: broadcasting network decoder
200: communication network signal receiving unit 210: effective communication network search and selection unit
220: stream request unit 230: communication network decoder

Claims (20)

Provides broadcast content by handing over to another transport network from a transport network providing broadcast content to a user terminal among a communication network and a broadcast network, and provides broadcast content through the transport network. A handover control unit for supporting a seamless handover after decoding content and providing the pre-decoded broadcast content to the user terminal through the other transmission network during handover;
Content handover support apparatus comprising a. The method of claim 1, wherein the handover control unit,
Device for supporting content handover characterized in that it determines whether or not the handover region expected by detecting an abnormal state in the transmission network based on the reception strength of the broadcast signal. The method of claim 1, wherein the handover control unit,
When entering the handover prediction region, while decoding the broadcast content provided through the transmission network and at the same time decodes the broadcast content provided through the other transmission network,
When the handover execution time arrives after entering the handover prediction area, the content handover supporting apparatus, characterized in that it provides the user terminal with pre-decoded broadcast content through the other transmission network and stops decoding the broadcast content through the transmission network. . The method of claim 1, wherein the handover control unit,
And a data stream provided through a broadcasting network and a data stream provided through a communication network using a decoding reference time value of a user terminal in a handover prediction region. A broadcast network signal processor for detecting a received signal strength while decoding a data stream of a received signal through the broadcast network;
A communication network signal processing unit which receives a data stream from a broadcasting server in advance through a communication network and decodes the received data stream when entering the handover prediction region; And
The decoded data stream is provided to the user terminal through the broadcast network signal processor. A handover prediction area is determined based on the detected received signal strength, and when the handover execution time arrives, the network signal processor decodes in advance. A handover controller for providing the data stream to the user terminal;
Content handover support apparatus comprising a. The method of claim 5, wherein
The broadcast network signal processor decodes a data stream provided through the broadcast network,
The network signal processing unit decodes a data stream previously transmitted from the broadcasting server through the communication network when entering the handover prediction region.
The handover control unit controls the broadcasting network signal processing unit and the communication network signal processing unit to decode the data stream at the same time when entering the handover prediction area, and decodes the data signal in advance through the network signal processing unit when the handover is executed after entering the handover prediction area. And providing the data stream to the user terminal and requesting the broadcasting network signal processing unit to stop decoding the data stream through the broadcasting network. The method of claim 5, wherein the broadcast network signal processing unit,
A broadcasting network signal receiving unit receiving a terrestrial DMB signal through a broadcasting network;
A reception strength detector for detecting a signal-to-noise ratio of the reception signal;
A decoding reference time information extraction unit for extracting decoding reference time information from the data stream extracted from the received signal; And
A broadcast network decoder for decoding the data stream;
Content handover support apparatus comprising a. The method of claim 7, wherein
And the decoding reference time information is system time clock information. The method of claim 7, wherein
Wherein the decoding reference time information is a counter value counting TS packets input thereafter based on a TS packet including the most recent PCR value input to the broadcast network decoder or a UTC value at that time. Over support. The method of claim 7, wherein the handover control unit,
And the corresponding area is determined as a handover expected area when the signal-to-noise ratio of the received signal detected by the reception strength detector is less than or equal to a preset value. The method of claim 10, wherein the handover control unit,
When the signal-to-noise ratio of the received signal detected by the reception strength detection unit is less than or equal to a predetermined value, but gradually occurs or less than the predetermined value, the content area is determined as a handover expected region. Device. The method of claim 5, wherein the communication network signal processing unit,
Communication network signal receiving unit for receiving a broadcast signal through a communication network;
An effective communication network search and selection unit for searching and selecting a valid communication network from among available communication networks in the user terminal;
A stream request unit for session connection with a broadcast server through an effective communication network selected by the effective communication network search and selection unit, and requesting a data stream to the broadcast server based on decoding reference time information of the broadcast network; And
A communication network decoder for decoding a data stream extracted from the broadcast signal received from the broadcast server through the effective communication network;
Content handover support apparatus comprising a. The apparatus of claim 5, wherein the content handover support apparatus comprises:
A decoder output selector configured to switch from a decoding output screen provided through the broadcasting network to a decoding output screen provided through a communication network; And
A scene display unit which displays a decoding output screen selected by the decoder output selection unit;
Content handover support device further comprising. The method of claim 5, wherein the handover control unit,
The broadcasting network continuously detects the received signal strength through the broadcasting network through the broadcasting network signal processing unit while providing the data stream pre-decoded through the communication network signal processing unit. The signal processor controls the data stream to decode the data stream in advance, and provides a pre-decoded data stream to the user terminal through the broadcast network signal processor at the time of handover, and requests the network signal processor to stop decoding the data stream through the communication network. Content handover support apparatus, characterized in that. Detecting received signal strength while decoding a data stream of the received signal through a broadcasting network;
Determining whether the handover expected region is based on the detected received signal strength, and when entering the handover expected region, decoding the received data stream by receiving a data stream from a broadcast server in advance through a communication network; And
If a handover execution time arrives after entering a handover expected region, supporting a seamless handover by providing a pre-decoded data stream to the user terminal through the communication network:
Content handover support method comprising a. The method of claim 15, wherein decoding the received data stream comprises:
When entering the handover prediction region, while decoding the data stream provided through the broadcast network at the same time, it decodes the data stream provided through the communication network,
Supporting the handover,
And providing a decoded data stream through the communication network to the user terminal during handover and stopping decoding of the data stream through the broadcasting network. The method of claim 15,
Checking a decoding reference time value of the user terminal when entering the handover prediction area; More,
The decoding of the received data stream may include receiving a data stream from a broadcast server through the communication network based on the checked decoding reference time value in the handover prediction region and decoding the received data stream. How to support content handover. The method of claim 17,
And the decoding reference time value is system time clock information. The method of claim 17,
The decoding reference time value is a content handover, characterized in that a counter value counting TS packets input thereafter based on a TS packet including the most recent PCR value input to the broadcast network decoder or a UTC value at that time. How to apply. The method of claim 15, wherein detecting the received signal strength comprises:
And detecting a signal-to-noise ratio of the received signal and determining the corresponding area as a handover expected region when the detected signal-to-noise ratio is less than or equal to a preset value.

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