KR101999235B1 - Method and system for providing hybrid broadcast broadband service based on mmtp - Google Patents

Abstract

A method and system for providing an MMTP-based hybrid broadcast broadband service. A method for providing a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment, the method comprising: broadcasting an MMTP packet packetized based on an MMTP (MPEG Media Transport Protocol) to a broadcast signal corresponding to a specific broadcast channel broadcasting the broadcast signal to the user terminal, receiving a request from the user terminal for providing information related to the broadcast signal provided by the broadcast, and receiving, as a response to the request, segmentation of the MMTP packet corresponding to the broadcast signal, and performing segmentation on the broadcast signal and transmitting the broadcast signal to the user terminal in a broadband.

Description

METHOD AND SYSTEM FOR PROVIDING HYBRID BROADCAST BROADBAND SERVICE BASED ON MMTP BACKGROUND OF THE INVENTION [0001]

The following description relates to a technique for providing broadcast signals in a hybrid broadcast broadband (HBB) network environment.

As the broadcast environment has become more sophisticated and diversified, user terminals have been provided in real time with various contents sources. User terminals such as smart phones, IP TVs, and tablets have received various types of image contents in real time from content providing servers connected via wired / wireless Internet. For example, video contents such as broadcast programs, single-person media broadcasts, and live broadcasts of baseball were provided in real time. In addition to these broadcasting contents, real-time data streams such as chatting are exchanged through a server and VoD (Video on Demand) service is provided.

These various kinds of media data are transmitted to the user terminal based on the MPEG Media Transport (MMT) scheme. MMT (MPEG Media Transport) is a next-generation multimedia transmission standard standardized by MPEG (Moving Picture Experts Group), which is a successor to MPEG-2 TS standard. It is IP-friendly and can be used for Internet video transmission as well as digital broadcasting. It has functions suitable for Hybrid Broadband Broadcast that uses both channel and internet simultaneously. In the MMT standard, data is transmitted to a media processing unit (MPU), and MMTP (MMT Protocol) packet format is defined for data transmission. The MMTP packet may consist of an MMTP packet header, an MMTP payload header, and an MMTP payload.

Dynamic Adaptive Streaming over HTTP (DASH) is an adaptive bitrate streaming technique that enables media data streaming over the Internet from web servers using HTTP. The standards and protocols for delivering and receiving MMT content and DASH content were separate.

Korean Patent Publication No. 10-2016-0099096 discloses an apparatus for processing a hybrid broadcast service, a method for processing a hybrid broadcast service, and a broadcast signal receiving unit for receiving a broadcast signal for a hybrid broadcast service, And transmits a request for signaling information of a broadcast signal, and receives signaling information through a mobile broadband or broadband channel using either a unicast method, a multicast method, or an evolved multimedia broadcast multicast service (eMBMS) method. And the like.

The present invention is to provide broadband broadcasting signals based on an MMTP (MPEG Media Transport Protocol) in a hybrid broadcast broadband (HBB) network environment.

A method for providing a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment, the method comprising: broadcasting an MMTP packet packetized based on an MMTP (MPEG Media Transport Protocol) to a broadcast signal corresponding to a specific broadcast channel broadcasting the broadcast signal to the user terminal, receiving a request from the user terminal for providing information related to the broadcast signal provided by the broadcast, and receiving, as a response to the request, segmentation of the MMTP packet corresponding to the broadcast signal, and performing segmentation on the broadcast signal and transmitting the broadcast signal to the user terminal in a broadband.

According to an aspect of the present invention, the step of transmitting the broadband signal to the user terminal includes transmitting a stream corresponding to a video transmission unit determined through the segmentation using a web socket can do.

According to another aspect, the step of transmitting the broadband service to the user terminal may include transmitting the MMTP packet in Hypertext Transfer Protocol (HTTP) format through the segmentation.

According to another aspect of the present invention, the step of transmitting the broadband data to the user terminal may include selectively performing the segmentation according to whether data to be transmitted is loss data.

According to another aspect of the present invention, the step of transmitting the broadband data to the user terminal may include selectively performing the segmentation according to whether data to be transmitted is live data.

According to another aspect of the present invention, the information requested to be transmitted through the broadband from the user terminal includes at least one of an e-mail, an advertisement view, summary information related to the broadcast program, And may indicate selected information among the additional information including at least one.

According to another aspect of the present invention, there is provided a method of generating an element stream, the method comprising: generating an element stream by encoding the broadcast signal; and packetizing the generated elementary stream based on the MMTP (MPEG Media Transport Protocol) packetization).

A system for providing a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment, the system comprising: an information receiver for receiving a broadcast signal corresponding to a specific broadcast channel from a user terminal; A Broadcast Transmission Control section for broadcasting a packetized MMTP packet based on a Broadcast Control Protocol (IP) -based broadcast to a user terminal; and a Broadcast Control section for performing segmentation on the MMTP packet, And a broadband transmission control unit for transmitting to the user terminal.

According to an aspect of the present invention, the broadband transmission control unit may transmit a stream corresponding to a video transmission unit determined through the segmentation using a web socket.

According to another aspect, the broadband transmission control unit may transmit the MMTP packet in Hypertext Transfer Protocol (HTTP) format through the segmentation.

According to another aspect of the present invention, the broadband transmission control unit may selectively perform the segmentation according to whether data to be transmitted is loss data.

According to another aspect of the present invention, the broadband transmission control unit may selectively perform the segmentation according to whether the data to be transmitted is live data.

According to another aspect of the present invention, there is provided an apparatus for encoding an audio stream, the apparatus comprising: an encoding unit for encoding the broadcast signal to generate an element stream; and an elementary stream generating unit for packetizing the generated elementary stream based on the MMTP (MPEG Media Transport Protocol) and packetizing the packetized data.

A method for receiving a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment, the method comprising: broadcasting an MMTP packet based on an MMTP (MPEG Media Transport Protocol) based on a broadcast signal corresponding to a specific broadcast channel; The method comprising the steps of: receiving by broadcast a request for providing information related to a broadcast signal provided by the broadcast; and receiving, as a response to the request, segmentation of an MMTP packet corresponding to the broadcast signal, And receiving the performed stream on a broadband basis.

According to an aspect of the present invention, the receiving in the broadband includes receiving a stream corresponding to a video transmission unit determined through the segmentation using an HTTP-based web socket .

According to another aspect of the present invention, the step of requesting information related to a broadcast signal provided by the broadcast includes providing information selected to be provided by broadband among the broadcast-related additional information received together with the broadcast signal in the broadcast To the broadcast signal providing system.

According to another aspect of the present invention, there is provided a method for receiving broadcast signals, the method comprising receiving broadcasting signaling information together with the broadcasting signals in the broadcast, and the signaling information including broadcasting signals, URL information for receiving and providing additional information related to the broadcast signal, URL information for providing the broadcast signal to the broadband, and time information for synchronization.

According to another aspect of the present invention, there is provided a method of decoding an elementary stream, the method comprising: extracting an element stream by depacketizing a stream received at the broadband; decoding the elementary stream; And reproducing the broadcast signal.

A broadcast signal receiving apparatus in an HBB (Hybrid Broadcast Broadband) network environment, the MMTP packet based on an MMTP (MPEG Media Transport Protocol) is broadcasted to a broadcast signal corresponding to a specific broadcast channel a broadcast receiving control unit for receiving the broadcast signal received by the broadcast receiving unit, an information requesting unit for requesting information related to the broadcast signal provided by the broadcast, and a segmentation unit for segmenting the MMTP packet corresponding to the broadcast signal, and a broadband reception control unit for receiving a stream on which segmentation has been performed on a broadband basis.

According to an aspect of the present invention, the broadband reception control unit can receive a stream corresponding to a video transmission unit determined through the segmentation, using an HTTP-based web socket.

According to the present invention, broadcasting signals are broadbanded on the basis of MPEG Media Transport Protocol (MMTP) using segmentation in a hybrid broadcast broadband (HBB) network environment, so that system and signal overhead the overhead can be reduced.

In addition, since the broadcast signal is provided using the same MPU ID as the broadcast, frame-level synchronization can be provided without DASH MPD (Media Presentation Description). That is, additional functions for separate service control can be omitted to provide a more sophisticated level of service (e.g., frame level and MMT Asset level).

Figure 1 illustrates an HBB network environment in one embodiment of the present invention.
2 is a flowchart illustrating a method of transmitting an MMT stream in a broadband environment in an HBB network environment in an embodiment of the present invention.
3 is a block diagram illustrating an internal configuration of a broadcast signal providing system according to an embodiment of the present invention.
4 is a flow diagram illustrating a method for receiving an MMT stream over broadband in an HBB network environment, in accordance with an embodiment of the present invention.
5 is a block diagram illustrating an internal configuration of a broadcast signal receiving system according to an embodiment of the present invention.
6 is a diagram illustrating an operation of receiving a broadcast signal through a broadband based on a web browser operating in a broadcast signal receiving system in an HBB network environment in an embodiment of the present invention.

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

The present embodiments relate to a technology for providing media data such as VoD (Video on Demand) and real-time broadcast on the basis of MMTP (MPEG Media Transport Protocol) in a HBB (Hybrid Broadcast Broadband) And more particularly to a technology for broadband broadcasting signals such as VoD (Video On Demand) using segmentation and web socket targeting MMTP packets. That is, the present invention relates to a technology for providing the same MMTP stream as a broadcast through broadband.

In the present embodiments, "broadcast" represents a broadcast network, and "broadband" represents a wired / wireless network such as the Internet.

In the present embodiments, the "MMT stream" may represent a stream obtained by packetizing an elementary stream (ES) corresponding to a broadcast signal based on MMTP (MMT Protocol).

In the present embodiments, the "user terminal" is an electronic device that receives a video stream from a battery saving system that is a server, and is an IP TV, a VR (Virtual Reality) device, a smartphone, a tablet PC, a desktop PC, a notebook computer, and the like.

Figure 1 illustrates an HBB network environment in one embodiment of the present invention.

1, the HBB network may include a broadcasting signal providing system 110 for providing a broadcasting signal and a broadcasting signal receiving system 120 being a user terminal for receiving signals transmitted from the broadcasting signal providing system 110 have. The broadcasting signal providing system 110 may be implemented as a platform in a server and the broadcasting signal receiving system 120 may be installed in a user terminal to request a broadcast signal to the broadcasting signal providing system 110, or may be implemented in a form of accessing a server through a web / mobile web browser.

The HBB network can be divided into a portion 101 for transmitting a broadcast signal through broadcast and a portion 102 for transmitting a broadcast signal through broadband. The broadcast signal providing system 110 can perform MMT packetization, Modulation, and Demodulation, and can include HTTP server, segmentation module, websocket, and network interface for broadband.

The broadcast signal receiving system 120 may include an MMTP Depacketization and Media Decoder for processing a broadcast signal transmitted in a broadcast, and may include an HTTP Client, an MMT Client Player, and the like for processing broadcast signals transmitted in a broadband have.

The broadcast signal providing system 110 may transmit a broadcast signal related to a broadcast program of a corresponding time zone for each broadcast channel to the broadcast signal receiving system 120 by broadcasting. For example, a broadcasting signal corresponding to a broadcasting program broadcasted at 7:00 pm on a channel 7 can be transmitted by broadcasting, and an elementary stream can be generated by encoding the broadcasting signal. At this time, an audio elementary stream and a video elementary stream can be generated. Then, the MMT packetization can perform packetization according to MMTP (MMT Protocol) targeting the base stream. Then, the MMTP packet formed through the packetization may be modulated and demodulated and transmitted to the broadcast signal receiving system 120.

At this time, the broadcasting signal providing system 110 may transmit the broadcasting signal corresponding to the broadcasting channel to the broadcasting signal receiving system 120 through the Internet or the like. For example, the broadcast signal providing system 110 can provide live contents such as real-time sports broadcast broadcasts to the broadcast signal receiving system 120 via broadband based on the DASH method. For example, in order to synchronize with a broadcast, a real-time streaming service requiring low-delay transmission such as live contents is provided in a web socket in units of MPU (Media Processing Unit), which is a minimum unit capable of decoding according to the DASH scheme. To the broadcast signal receiving system 120 immediately.

In the case of a content such as a video on demand (VoD) other than live contents, the broadcast signal providing system 110 performs segmentation to form a chunk of a predetermined size (i.e., a video transmission unit) To the broadcast receiving system 120 via the broadband. That is, segmentation can be performed by dividing the MMTP packet into the predetermined size (i.e., a video transmission unit). Here, a certain size may represent an MTU (Maximum Transmission Unit). The MTU size indicates the maximum transmission size per packet, for example, it may correspond to a level of 10 to 20 ms in which the video stream is divided by the MTU (i.e., the time at which the video stream is divided)

In this way, the broadcast signal providing system 110 checks the attribute of the broadcast signal requested by the broadcast signal receiving system 120, which is a user terminal, and determines whether the attribute is live or not (for example, VoD) The MMT stream may be provided to the broadcast signal receiving system 120 through the broadband as it is or may be provided as a chunk of the MMT stream of the same form as the broadcast To the broadcasting signal receiving system 120 via the broadband.

The broadcast signal receiving system 120 may depacketize the received MMT stream to restore an element stream (ES). Then, the decoded base stream (ES) is temporarily stored in a decoder read buffer at a predetermined size (i.e., a video transmission unit), and decoding is performed at a time, The signal can be restored and reproduced.

In this way, the broadcasting signal receiving system 120 decodes the broadcast signal transmitted through the broadcast and the non-real-time broadcast signal received through the broadband at a time using a web socket, That is, since the segmentation is not performed in the broadcast signal providing system 110, the LIVE content can be decoded and played back as soon as it is received. At this time, the broadcast signal receiving system 120 can check the signaling information received together with the broadcast signal to grasp the attribute of the broadcast signal indicating whether the broadcast signal received at the broadband is real-time or not. That is, if the corresponding broadcast is LIVE based on the attribute information included in the signaling information, the stream received in the DASH scheme is immediately decoded and reproduced, and if the non-real-time content (e.g., VoD content) And can perform decoding at a time.

FIG. 2 is a flowchart illustrating a method of transmitting an MMT stream in a broadband environment in an HBB network environment in an embodiment of the present invention. FIG. 3 is a flowchart illustrating a method of transmitting an MMT stream in an HBB network environment according to an embodiment of the present invention. Fig.

3, the broadcast signal providing system 300 includes an encoding unit 310, a packetizing unit 320, a broadcast information receiving unit 330, a broadcast transmission control unit 340, and a broadband transmission control unit 350 . 2 includes an encoding unit 310, a packetizing unit 320, a broadcast transmission control unit 330, an information receiving unit 340, and a broadband transmission control unit 330, which are constituent elements of FIG. (350). ≪ / RTI >

In operation 210, the encoding unit 310 may generate an element stream (ES) by encoding a broadcast signal corresponding to a specific broadcast channel. Here, the elementary stream ES may represent a video stream output through one general broadcast channel.

In operation 220, the packetizing unit 320 may form an MMTP packet by packetizing the elementary stream ES generated through encoding according to MMTP (i.e., MMT standard).

For example, the MMU packet can be decoded by the broadcasting signal receiving system 120, which is a user terminal, as a minimum unit is a media processing unit (MPU), and a multiplexer can be given an ID for each individual MPU. As such, an MPU belonging to an MMTP packet configured in association with one specific channel can be matched to an asset based on the MPU ID. That is, since the MPU ID and the Asset ID are matched and stored and maintained, one broadcast channel can be matched with an Asset. At this time, a plurality of channels may be matched and assigned to Assets (Assets). For example, channels 7 and 9 are KBS1, MPUs are generated for each of two channels, and the generated two MPUs may be allocated to one Asset representing KBS1. In addition, the MPU corresponding to the channel 7 and the MPU corresponding to the channel 9 may be assigned to different respective Assets.

In operation 230, the broadcast transmission control unit 330 may provide a stream corresponding to the MMTP packet to the broadcasting signal receiving system 120, which is a user terminal, through broadcasting. At this time, the broadcast transmission control unit 330 can transmit a stream corresponding to the MMTP packet according to the TCP / UDP standard.

For example, the broadcast transmission control unit 330 broadcasts a stream (i.e., an MMT stream) corresponding to a broadcast signal-related MMTP packet corresponding to a broadcast program designated in the broadcast time, based on a broadcast program schedule table, To the receiving system 120. At this time, it is possible to provide signaling information related to the broadcast signal to the broadcast signal receiving system 120 while providing a broadcast signal through broadcast. Herein, the signaling information includes additional information related to broadcasting signals transmitted through broadcasting, URL information for providing the broadcasting signal to broadband, URL information for providing information belonging to additional information on a broadband basis, time information for synchronization, Information, and the like.

In operation 240, the information receiver 340 may receive a request from the user terminal for providing information related to the broadcast signal transmitted through the broadcast.

For example, the additional information may include information related to the broadcast program, an advertisement view, summary information related to the broadcast program (i.e., plot, past contents, etc.), and character information. Here, the information corresponding to the following example may include URL information for providing the broadcast signal transmitted in the broadcast from the MPU next MPU corresponding to the MMT stream received from the terminal to the terminal through the broadband. As additional information for subsequent viewing is selected at the terminal, the information receiver 340 may be requested to provide a broadcasting signal corresponding to the selected URL information from the broadcasting signal receiving system 120, which is a user terminal, through broadband . That is, the user can be requested to provide the next MPU corresponding to the MMT stream received from the terminal through the broadband. In addition, the additional information may further include information corresponding to the advertisement view, and the information corresponding to the advertisement view may provide a purchase of a bag, shoes, clothing, etc. worn by the main character in relation to the broadcast signal transmitted through broadcasting URL information for access to the merchant ' s web site.

In step 250, the broadband transmission control unit 350 performs segmentation on the MMTP packet related to the broadcast signal transmitted from the broadcast transmission control unit 330 as a response to the request, and transmits the MMTP packet to the user terminal 300 through a broadband To the broadcast signal receiving system 120 of FIG.

At this time, the broadband transmission control unit 350 checks the attribute of the broadcast signal requested by the broadcast signal receiving system 120, and can perform segmentation if the attribute of the received broadcast signal corresponds to non-real-time data such as VoD . For example, the broadband transmission control unit 350 may receive the MMTP packet corresponding to the broadcast signal transmitted through the broadcast from the broadcast transmission control unit 330. Then, the broadband transmission control unit 350 performs segmentation for dividing the MMTP packet into a predetermined size (for example, a video transmission unit), and modulizes the MMTP packet again. Here, the segmentation indicates that the MMT stream is formed into a chunk type that can be transmitted at one time by cutting (i.e., dividing) the MMT stream into the predetermined size (e.g., a video transmission unit) It can represent the operation of modulization again to transmit MMTP packet by HTTP using Web socket.

For example, when the MMTP packet is segmented so that 10 MPUs are configured as one chunk type, the broadband transmission control unit 350 transmits the MMTP packet received from the broadcast transmission control unit 330 and the broadcast signal reception system 120 (For example, 10 MPUs) from the MPU corresponding to the MPU ID to be provided as a subsequent view based on the MPU ID provided on request from the MPU ID . In addition, the broadband transmission control unit 350 may transmit the chunk-type MMT stream to the broadcasting signal receiving system 120 through the broadband.

As described above, the broadband transmission control unit 350 may segment the MMTP packets divided by a predetermined size (e.g., MTU size), which is a video transmission unit, to the broadcasting signal receiving system 120 using the web socket, , An MMTP packet may be stored in a transport socket buffer located immediately before the web socket, and the MMTP packet may be divided into the predetermined size (e.g., MTU size) when transmitted through a web socket, and may be transmitted through the broadband in chunks.

On the other hand, if the attribute of the broadcast signal requested by the broadcast signal receiving system 120 is identified as real-time sex data (i.e., LIVE content), the broadband transmission control unit 350 may not broadcast the MMTP packet through the broadband To the signal receiving system 120. For example, the broadband transmission control unit 350 does not configure a chunk of a predetermined size using an HTTP-based websocket for an MMTP packet but directly transmits the broadband in units of MPU from a websocket To the broadcast signal receiving system 120 through the broadcast signal receiving system 120. In this way, the broadband transmission control unit 350 divides the MMTP packets into segments of a certain size through segmentation, and transmits the MMT stream in a chunk corresponding to a predetermined size using an HTTP-based web socket, Network) can be transmitted on the basis of HTTP, and the MMTP packet can be provided in a form receivable in a terminal through a web browser.

The Broadband transmission control unit 350 does not perform segmentation and transmits the MPU to which the lost data belongs to the broadcasting signal receiving system 120 via the broadband, even if the retransmission of the lost data is requested in addition to the LIVE content. As shown in FIG. For example, the information receiving unit 340 may receive the MPU ID corresponding to the MPU to which the lost data belongs when receiving the retransmission request of the lost data from the broadcast signal receiving system 120. Then, the broadband transmission control unit 350 can transmit the MMT stream corresponding to the MPU ID to the broadcasting signal receiving system 120 through the broadband. That is, the broadband transmission control unit 350 selectively transmits the segmentation to the broadband transmission control unit 350 according to whether the attribute of the requested data is LIVE or not, and whether the data to be transmitted is loss data, Adaptively).

FIG. 4 is a flowchart illustrating a method of receiving an MMT stream over broadband in an HBB network environment according to an exemplary embodiment of the present invention. FIG. Fig.

5, the broadcast signal receiving system 500 includes a broadcast reception control unit 510, an information request unit 520, a broadband reception control unit 530, a decapsulation unit 540, and a decoding unit 550 Each step 410 to 440 of FIG. 4 includes a broadcast reception control unit 510, an information request unit 520, a broadband reception control unit 530, a decapsulation unit 540, a decoding unit 550 ). ≪ / RTI >

In operation 410, the broadcast reception controller 510 may receive a MMTP packetized MMTP packet broadcasted on a broadcast signal corresponding to a specific broadcast channel. At this time, the broadcast reception control unit 510 can receive the MMTP packet based on the TCP / UDP.

For example, the broadcast reception control unit 510 can receive a broadcast signal corresponding to a broadcast program designated in a specific channel (for example, ch 7) at the current time through broadcast, based on the broadcast program schedule table. At this time, the received broadcast signal is an MMT stream corresponding to the MMPT packet and can be distinguished based on the MPU ID for each MPU belonging to the MMPT packet.

In step 420, the information requesting unit 520 may request the broadcast signal providing system 110 or 300, which is a server, to provide information related to a broadcast signal provided by broadcasting. For example, the information requesting unit 520 may request a URL connection based on the additional information included in the signaling information received together with the broadcasting signal through the broadcast. Herein, the signaling information includes additional information related to broadcasting signals transmitted through broadcasting, URL information for providing the broadcasting signal to broadband, URL information for providing information belonging to additional information on a broadband basis, time information for synchronization, Information, and the like. The additional information may include information related to the broadcast program, an advertisement view, summary information related to the broadcast program (i.e., plot, past contents, etc.), and character information.

For example, as the additional information viewing function is selected, a screen for selecting an earpiece view, an advertisement view, summary information, and character information related to the broadcast signal may be displayed on the broadcasting signal receiving system 500 . When the specific additional information is selected (for example, when URL information corresponding to the next view is selected), the information requesting unit 420 transmits a connection to the address corresponding to the selected URL information to the broadcast signal providing systems 110 and 300, . At this time, it is possible to provide the MPU ID corresponding to the next view, or to provide an after-view request. Since the broadcast signal providing system 110 or 300 already knows the last MPU ID transmitted to the broadcast signal receiving system 400, the broadcast signal providing system 110 and 300 may provide the MMT stream of a certain size including the MPU corresponding to the next ID through the broadband And provides an MMT stream of a predetermined size including the received MPU ID through the broadband, thereby providing an after-view.

In step 430, the broadband reception controller 530 transmits a MMT segment, which is segmented, to a broadcast signal providing system (not shown) through a broadband, as a response to the request, to the MMTP packet corresponding to the requested broadcast signal 120, and 300, respectively. At this time, the broadband reception control unit 530 can perform segmentation according to whether the requested broadcast signal is real-time data or non-real-time data, or receive the MMT stream that has not been segmented through the broadband.

In step 431, when the requested broadcast signal (for example, the broadcast signal of the current broadcast channel requesting the next viewing) is non-real-time data such as VoD, segmentation is performed in a predetermined size chunk, the MMT stream transmitted at one time through the broadband can be received from the broadcasting signal providing system 120, 300 using a websocket.

In step 432, when the requested broadcast signal is real-time data or loss data, the mobile terminal can receive an MMT stream that has not yet been segmented. For example, packetization and an MMT stream in units of MPUs configured in a multiplexer can be received via broadband. That is, it is possible to receive the MMT stream corresponding to the MPU as the minimum unit capable of decoding, not the MTU size.

In step 433, when the segmented MMT stream is received, the broadband reception control unit 530 transmits the segmented MMT stream corresponding to a predetermined size (i.e., a video transmission unit) of a chunk type using an HTTP-based websocket Lt; RTI ID = 0.0 > MMT < / RTI >

In step 440, depacketization may restore the Element Stream (ES) by performing depacketization on the received MMT stream.

In step 450, the decoder decodes the restored base stream (ES) to restore a desired signal (i.e., a broadcast signal corresponding to an ear view transmitted from the broadcast signal providing system) have. Then, the restored broadcast signal can be reproduced and displayed on the screen.

As described above, the real-time data or the lost data is received through the broadband without segmentation, and the non-real-time data such as the VoD is received through the segmentation so that the caption is displayed at the frame level, Information control, playback speed control, and the like can be finely controlled. For example, when a broadcasting signal received through broadcasting in the case of supporting the function of multiple subtitles, language, etc. in one video is slower than the reproduction time in terms of UTC, the synchronization can be finely adjusted through the playback speed adjustment.

6 is a diagram illustrating an operation of receiving a broadcast signal through a broadband based on a web browser operating in a broadcast signal receiving system in an HBB network environment in an embodiment of the present invention.

That is, FIG. 6 illustrates an operation of a web browser operating in the MMT Client Player of FIG. Here, the web browser may correspond to a js-based web browser.

6, a TV set 610 provides a broadcast signal to a user terminal such as an IP TV through a broadcast, and a web browser 620 is connected to an IP TV or the like (I.e., a broadcast signal receiving system). For example, the TV set 610 is a module included in an apparatus that receives RF-based Advanced Television Systems Committee (ATSC) 3.0 information. The TV set 610 can extract signaling information from the PLP, and based on the extracted signaling information, Broadband service access information (i.e., URL information) for the broadcast channel can be obtained from USBD / USD. The MMT streaming server 601 may correspond to the broadcast signal providing systems 110 and 300.

The TV set 610 can receive a broadcast signal corresponding to a specific broadcast channel through broadcasting, and can receive additional information (for example, viewing an ear, viewing an advertisement, viewing information related to a broadcast program, etc.) together. At this time, if specific information such as an example of additional information or an advertisement view is selected, the web browser 620 can request the MMT streaming server 601 to provide a stream corresponding to the selected additional information. For example, the web browser 620 requests the provision of the MMT stream corresponding to the MPU ID along with the MPU ID corresponding to the next URL based on the URL information corresponding to the selected additional information . At this time, the web browser 620 performs a stream setup between the MMT streaming server 601 and the web browser 620 in order to receive the MMT stream related to the follow-up via the broadband from the MMT streaming server 601, To the MMT streaming server (601).

When transmission of the MMT stream corresponding to the selected additional information such as viewing via the broadband is requested, the MMT streaming server 601 generates a websocket, Can be controlled to a predetermined size (i.e., a video transmission unit) by controlling a websocket, and can be provided to the broadcasting signal receiving system through a broadband at a time. That is, a websocket on the server side can transmit an MMT stream of a predetermined size (i.e., a video transmission unit) to a web socket of the web browser 620 in order to effectively transmit a continuous video stream The user can push the button at a time.

Then, the MMT core (i.e., the decapsulating unit 540 of FIG. 5) performs depacketization on a stream received through a websocket of the web browser 620 to generate an element stream Can be restored. Then, the reconstructed elementary stream can be decoded and reproduced. At this time, the Player Framework can provide an additional function for a user (i.e., a player) before playing an image through decoding. For example, based on the user selection, it is possible to provide an additional function for a user (i.e., a player) such as playback speed adjustment of a corresponding image, caption information adjustment (i.e., subtitle selection), and multiple subtitle support. Then, after synchronizing the selected additional function with the decoded image, the corresponding image can be reproduced through the screen. For example, when the 2x speed reproduction is selected, the image and the caption can be reproduced through the screen after the synchronization between the caption and the image adjusted at 2x speed based on the decoded image is adjusted.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable gate array (FPGA) , A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (20)

A method for providing a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment,
Transmitting a packetized MMTP packet based on an MMTP (MPEG Media Transport Protocol) broadcast to a user terminal on a broadcast signal corresponding to a specific broadcast channel;
Receiving a request from a user terminal for providing information related to a broadcast signal provided by the broadcast; And
Performing segmentation on an MMTP packet corresponding to the broadcast signal as a response to the request, and transmitting the MMTP packet to the user terminal through a broadband;
Lt; / RTI >
Wherein the transmitting the broadband signal to the user terminal comprises:
Selectively performing the segmentation according to whether data to be transmitted is loss data
The method of claim 1, The method according to claim 1,
Wherein the transmitting the broadband signal to the user terminal comprises:
A step of transmitting a stream corresponding to a video transmission unit determined through the segmentation using a web socket
The method of claim 1, The method according to claim 1,
Wherein the transmitting the broadband signal to the user terminal comprises:
Transmitting the MMTP packet in Hypertext Transfer Protocol (HTTP) format through the segmentation
The method of claim 1, delete A method for providing a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment,
Transmitting a packetized MMTP packet based on an MMTP (MPEG Media Transport Protocol) broadcast to a user terminal on a broadcast signal corresponding to a specific broadcast channel;
Receiving a request from a user terminal for providing information related to a broadcast signal provided by the broadcast; And
Performing segmentation on an MMTP packet corresponding to the broadcast signal as a response to the request, and transmitting the MMTP packet to the user terminal through a broadband;
Lt; / RTI >
Wherein the transmitting the broadband signal to the user terminal comprises:
Selectively performing the segmentation according to whether the data to be transmitted is LIVE data
The method of claim 1, The method according to claim 1,
Wherein the information requested to be transmitted through the broadband from the user terminal includes at least one of an after-view associated with a broadcast signal transmitted through the broadcast, an advertisement view, summary information related to the broadcast program, Represents selected information
And transmitting the broadcast signal in the HBB network environment. The method according to claim 1,
Generating an element stream by encoding the broadcast signal; And
And packetizing the generated elementary stream based on the MMTP (MPEG Media Transport Protocol)
Further comprising the steps of: receiving a broadcast signal in an HBB network environment; A system for providing a broadcasting signal in an HBB (Hybrid Broadcast Broadband) network environment,
An information receiver for receiving a broadcast signal corresponding to a specific broadcast channel from a user terminal;
A broadcast transmission controller for broadcasting an MMTP packet based on an MMTP (MPEG Media Transport Protocol) based on the requested broadcast signal to a user terminal in a broadcast manner; And
A broadband transmission control unit for performing segmentation on the MMTP packet and transmitting the packet to the user terminal in a broadband;
Lt; / RTI >
The broadband transmission control unit,
Selectively performing the segmentation according to whether data to be transmitted is loss data
Wherein the broadcast signal providing system comprises: 9. The method of claim 8,
The broadband transmission control unit,
A stream corresponding to a video transmission unit determined through the segmentation is transmitted using a web socket
Wherein the broadcast signal providing system comprises: 9. The method of claim 8,
The broadband transmission control unit,
And transmitting the MMTP packet in Hypertext Transfer Protocol (HTTP) format through the segmentation
Wherein the broadcast signal providing system comprises: delete A system for providing a broadcasting signal in an HBB (Hybrid Broadcast Broadband) network environment,
An information receiver for receiving a broadcast signal corresponding to a specific broadcast channel from a user terminal;
A broadcast transmission controller for broadcasting an MMTP packet based on an MMTP (MPEG Media Transport Protocol) based on the requested broadcast signal to a user terminal in a broadcast manner; And
A broadband transmission control unit for performing segmentation on the MMTP packet and transmitting the packet to the user terminal in a broadband;
Lt; / RTI >
The broadband transmission control unit,
The segmentation is selectively performed depending on whether the data to be transmitted is LIVE data or not
Wherein the broadcast signal providing system comprises: 9. The method of claim 8,
An encoding unit that encodes the broadcast signal to generate an element stream; And
And a packetization unit for packetizing the generated elementary stream based on the MMTP (MPEG Media Transport Protocol)
Wherein the broadcast signal providing system further comprises: A method for receiving a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment,
Receiving, by broadcasting, an MMTP packet packetized based on an MMTP (MPEG Media Transport Protocol) on a broadcast signal corresponding to a specific broadcast channel;
Requesting provision of information related to the broadcast signal provided by the broadcast; And
Receiving, as a response to the request, a stream segmented by an MMTP packet corresponding to the broadcast signal through a broadband;
And transmitting the broadcast signal in the HBB network environment. 15. The method of claim 14,
Wherein the broadband reception comprises:
A step of receiving a stream corresponding to a video transmission unit determined through the segmentation using a web socket based on HTTP;
And transmitting the broadcast signal in the HBB network environment. 15. The method of claim 14,
Wherein requesting provision of information related to a broadcast signal provided by the broadcast comprises:
Requesting the broadcasting signal providing system to provide information selected to be provided by broadband among the relevant broadcasting related information received together with the broadcasting signal in the broadcasting
And transmitting the broadcast signal in the HBB network environment. 15. The method of claim 14,
Wherein the step of receiving in the broadcast comprises:
Receiving broadcasting signaling information together with the broadcast signal in the broadcast,
The signaling information includes URL information for receiving the broadcast signal in a broadband, URL information for providing additional information related to the broadcast signal to the broadband, and time information for synchronization
And transmitting the broadcast signal to the mobile station. 15. The method of claim 14,
Extracting an element stream by depacketizing a stream received through the broadband; And
And decoding the base stream to reproduce the reconstructed broadcast signal
Further comprising the steps of: receiving a broadcast signal in an HBB network environment; A broadcast signal receiving apparatus in an HBB (Hybrid Broadcast Broadband) network environment,
A broadcast receiving control unit broadcasts an MMTP packet based on an MMTP (MPEG Media Transport Protocol) based on a broadcast signal corresponding to a specific broadcast channel;
An information request unit for requesting information related to a broadcast signal provided by the broadcast; And
And a broadband reception control unit for receiving, as a response to the request, a stream on which segmentation has been performed on an MMTP packet corresponding to the broadcast signal,
And a receiver for receiving the broadcast signal in the HBB network environment. 20. The method of claim 19,
The broadband reception control unit,
And receiving a stream corresponding to the video transmission unit determined through the segmentation using an HTTP based web socket
And a receiver for receiving the broadcast signal in the HBB network environment.

Images