KR20190054862A - Method and system for transmitting and receiving signal to provide quality of service in hybrid broadcast broadband network - Google Patents

Abstract

Disclosed are a method and a system for transmitting and receiving a broadcast for providing a QoS in a hybrid broadcast broadband (HBB) environment, and more particularly, to a method for receiving a broadcast signal in an HBB network environment, which comprises the following steps: measuring the intensity of a broadcast signal received through a broadcast channel; confirming whether a QoS class of a corresponding channel is satisfied based on the measured intensity of the broadcast signal and a predetermined reference intensity; determining whether to receive the broadcast signal through the broadband channel on the basis of the confirmation of the QoS class; and requesting transmission of the broadcast signal through the determined channel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates generally to a hybrid broadcast broadband environment, and more particularly, to a broadcast transmission / reception method and system for providing QoS in a hybrid broadcast broadband environment.

The following description relates to a technology for ensuring QoS (Quality of Service) in a Hybrid Broadcast / Broadband (HBB) network environment.

The HBB (Hybrid Broadcast / Broadband) network environment represents a network environment in which information such as video is transmitted to a user terminal using two networks: a broadcast network and a broadband network, which is a wireless network. In other words, HBB is a hybrid broadcasting standard in Europe, and it provides various information in addition to broadcasting through the Internet IP network as well as the Internet. Satellite, cable, terrestrial, and other broadcast and broadband Internet access.

Korean Patent Laid-Open Publication No. 10-2016-0139020 relates to a broadcast and broadband hybrid service using MMT and DASH, which receives media data broadcast using MMTP packets and transmits a signaling message related to the broadcasted media data Based on which broadband media data is available over a broadband network.

The present invention provides a method for providing a QoS guarantee level (i.e., a QoS level) in providing a broadcast signal, which is media data of an HBB (Hybrid Broadcast / Broadband) network environment, to a user terminal using a broadcast network and a broadband And to transmit a broadcast signal by appropriately using a broadcast network and a broadband network.

A method for receiving broadcast signals in a hybrid broadcast broadband (HBB) network environment, the method comprising: measuring a strength of a broadcast signal received through a broadcast channel; Determining whether the broadcast signal is received on a broadband channel based on the confirmation of the QoS class, determining whether to receive the broadcast signal on a broadband channel, And requesting transmission.

According to an aspect of the present invention, the determining step may determine that a part of the broadcast signals received through the broadcast channel is separated and received on the broadband channel, as the QoS rating is confirmed to be unsatisfactory.

According to another aspect of the present invention, the step of requesting transmission of the broadcast signal includes the steps of requesting transmission of a non-recovered broadcast signal among the broadcast signals received through at least one of the broadcast channel and the broadband channel through the broadband channel And receiving the unrecovered broadcast signal on the broadband channel in response to the request, the step, and the request.

According to another aspect of the present invention, the step of requesting transmission of the broadcast signal may include transmitting a lost packet based on a data loss rate and a buffer length of the broadcast channel related broadcast signal through a broadcast channel .

According to another aspect, the step of requesting transmission of the lost packet through the broadband channel may request transmission of a video stream belonging to an MPU (Media Processing Unit) ID corresponding to the lost packet.

According to another aspect of the present invention, the step of requesting transmission of the broadcast signal includes the steps of: when the intensity of the broadcast signal received through the broadcast channel and the intensity of the broadcast signal received through the broadband channel are less than the reference intensity, And requesting transmission of a broadcast signal having a relatively lower resolution than the broadcast signal.

A method of transmitting a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment, the method comprising: transmitting a broadcast signal to a broadcast channel supporting a Hybrid Broadcast Broadband (QoS) based Quality of Service (HBB) Encoding based on SVC (Scalable Video Coding), generating SVC profile-based URL information for the encoded video stream, and transmitting the SVC profile-based URL information to a user terminal via a broadcast channel And transmitting the broadcasting signal through a broadband channel to a part of the broadcasting signal transmitted to the user terminal requesting connection through the URL information.

According to an aspect of the present invention, the step of encoding the broadcast signal based on SVC (Scalable Video Coding) includes encoding the encoded video stream based on a Layer Division Multiplexing (LDM) And generating the encoding information indicating the guarantee area and the additional area separately for each SVC area.

According to another aspect, the SVC profile includes a baseline that represents the highest QoS class, a high that represents a relatively lower class than the baseline, a class that is relatively lower than the high class, And a high intra representing the < / RTI >

According to another aspect, the encoded video stream may be composed of an MMT (MPEG Media Transport) Asset that is distinguished through ID and URL information.

1. An apparatus for receiving broadcast signals in an HBB (Hybrid Broadcast Broadband) network environment, the apparatus comprising: an intensity measurement unit measuring an intensity of a broadcast signal received through a broadcast channel; A channel determination unit for determining whether to receive the broadcast signal on a broadband channel based on the confirmation of the QoS class, And a transmission request unit for requesting transmission of a broadcast signal through the channel.

According to an aspect of the present invention, the channel determination unit determines that the broadcast signal is received through the broadband channel by separating a part of the broadcast signals received through the broadcast channel, as the QoS class is not satisfied.

According to another aspect of the present invention, the transmission request unit requests transmission of a non-recovered broadcast signal among the broadcast signals received and restored through at least one of the broadcast channel and the broadband channel through the broadband channel, , And can receive the non-recovered broadcast signal through the broadband channel.

According to another aspect of the present invention, the transmission request unit may request transmission of a lost packet based on a data loss rate and a buffer length of the broadcast channel related broadcast signal through the broadband channel.

According to another aspect, the transmission request unit may request transmission of a video stream belonging to an MPU (Media Processing Unit) ID corresponding to the lost packet.

According to another aspect of the present invention, the transmission request unit is configured to transmit, when the intensity of the broadcast signal received through the broadcast channel and the intensity of the broadcast signal received through the broadband channel are smaller than the reference intensity, It is possible to request transmission of a broadcast signal having a low resolution.

In a broadcast signal transmission system in an HBB (Hybrid Broadcast Broadband) network environment, a broadcast signal supporting a Quality of Service (QoS) based on an HBB (Hybrid Broadcast Broadband) A URL generating unit for generating an SVC profile based URL information on an encoded video stream based on a Scalable Video Coding (SVC), a URL generating unit for generating an SVC profile based URL information, And a transmission control unit for transmitting a broadcast signal to a user equipment (UE) terminal through a broadband channel of a part of the broadcast signal transmitted to a user terminal requesting access through the URL information.

According to an aspect of the present invention, the encoding unit divides encoding information indicating a QoS guarantee area and an additional area according to an intensity of a signal into SVC areas based on a LDM (Layer Division Multiplexing) technique for the encoded video stream .

According to another aspect, the SVC profile includes a baseline that represents the highest QoS class, a high that represents a relatively lower class than the baseline, a class that is relatively lower than the high class, And a high intra representing the < / RTI >

According to the present invention, in providing a broadcasting signal, which is media data of Hybrid Broadcast / Broadband (HBB) network environment, to a user terminal using a broadcast network and a broadband network, (I.e., media data) is first transmitted, and necessary media data is separated from the broadcast network according to the QoS guarantee level (i.e., QoS grade), and transmitted through the broadband network, thereby guaranteeing the required QoS. That is, by ensuring the QoS, the cost consumed due to the QoS correction can be reduced or minimized.

1 is a diagram illustrating an HBB network environment for QoS assurance in an embodiment of the present invention.
2 is a flowchart illustrating a method of transmitting a broadcast signal in an HBB network environment according to an exemplary embodiment of the present invention.
3 is a block diagram illustrating an internal configuration of a broadcast signal transmission system according to an exemplary embodiment of the present invention.
4 is a diagram showing a QoS guarantee area in an embodiment of the present invention.
5 is a flowchart illustrating a method of receiving a broadcast signal in an HBB network environment according to an exemplary embodiment of the present invention.
6 is a block diagram illustrating an internal configuration of a broadcast signal receiving apparatus according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating a case where a broadband channel is used and a case where a broadband channel is not used according to whether or not a QoS class is satisfied in an embodiment of the present invention.

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

The present invention relates to a technology for guaranteeing QoS class of image information to be transmitted in a Hybrid Broadcast / Broadband (HBB) network environment, and more particularly to a technique for guaranteeing QoS based on a strength of a signal received through a broadcast channel Lt; / RTI > That is, the present invention relates to a technology for providing a broadcast signal corresponding to image information to a terminal by dividing the broadcast signal into a broadcast channel and a broadband channel so that the QoS level of the image information to be transmitted is guaranteed.

In the present embodiments, the " broadcast channel " may represent a channel used for transmitting and receiving image information through a broadcast network. A broadcast channel, that is, a broadcast network, can represent a broadcast network such as terrestrial wave, cable, or satellite that transmits video information such as HD, FHD (Full HD), and UHD (Ultra HD).

In the present embodiments, the " broadband channel " may represent a channel used for transmitting and receiving image information through a broadband network. A broadband channel, that is, a broadband network can represent a wired / wireless Internet network providing various broadcast contents such as a YouTube, a single-person song, and the like.

In the present embodiments, the " user terminal " is an electronic device for receiving a broadcast signal corresponding to image information through a broadcast channel and a broadband channel, and includes an IP TV, a VR (Virtual Reality) device, a smartphone, a tablet PC, a desktop PC, a notebook computer, and the like.

In the present embodiments, the " MMT asset " may include MPEG-2 Transport Stream (TS), Packetized Elementary Stream (PES), JPEG, and the like as audio, video and program information.

In the present embodiments, the " QoS supporting channel " may indicate whether or not a broadcast signal can be transmitted to the user terminal using at least one of a broadband channel and a broadcast channel as needed.

1 is a diagram illustrating an HBB network environment for QoS assurance in an embodiment of the present invention.

1, the HBB network includes a broadcast transmission system 101 for transmitting a broadcast signal and at least one user terminal 104, which is connected to the broadcast network 103 or the broadcast network 103 and receives a broadcast signal, 105, < / RTI > 106).

The broadcasting transmission system 101 includes a broadcasting system, a signaling server, an MMT media server, and the like, which manage broadcast programming information and broadcasting services including information indicating whether the broadcasting transmission is possible or not, An encoder for encoding a broadcast signal based on a High Efficiency Video Codec (HEVC), a multiplexer for performing multiplexing, and an exciter.

The broadcast transmission system 101 generates a video stream by encoding a broadcast signal (i.e., media data) to be transmitted based on a High Efficiency Video Codec (HEVC), and assigns an MMT Asset ID to the generated video stream .

The MMT media server may generate a respective unicast or multicast address for an individual profile. Then, URL information for each stream including the generated unicast or multicast address may be transmitted to a signaling server.

The signaling server inserts the URL information of an individual stream into the asset information of each stream (i.e., a video stream) in advance and transmits the same through the broadcast channel (i.e., the broadcast network 102) It is possible to acquire the stream connection URL according to the multi-profile of the channel.

Then, the encoder can perform multi-profile encoding. For example, a broadcasting signal corresponding to a channel to be transmitted (or a broadcasting channel requested by the terminal) can be encoded based on the SVC. In this case, when scalable video coding (SVC) encoding is performed, a multiplexer can assign / assign an MMT (MPEG Media Transport) Asset ID for each video stream (i.e., SVC video data) corresponding to the encoded SVC region have. As described above, if an Asset Id is assigned to each video stream, an exciter can perform transmission for each asset based on LDM (Layer Division Multiplexing). At this time, URL information on the QoS information can be inserted into the broadcast signal while performing encoding. For example, FHD has the highest priority, UHD has 60 fps (frame per second), and UHD has 120 fps Lt; / RTI > That is, UHD 120fps can have the lowest priority. In other words, the lower the resolution, the higher the QoS rating, and the higher the resolution, the lower the QoS rating can be inserted.

At this time, the broadcast transmission system 101 preferentially broadcasts broadcast signals to at least one user terminal 104, 105, and 106 through a broadcast channel (i.e., broadcast network 103) A part of the broadcast signal corresponding to the same broadcast channel can be transmitted through the broadband channel 102. [ That is, some of the video streams corresponding to the same media data (i.e., video information) can be transmitted through the broadband channel 102. [

At least one user terminal 104, 105 and 106 receiving a broadcast signal from the broadcast transmission system 101 receives broadcast signals (for example, UHD 120 fps, UHD 60 fps, FHD, etc.) received via the broadcast channel 103 It is possible to determine whether QoS is guaranteed based on the strength of the broadcast signal. At this time, the user terminal 104, 105, 106 may request the broadcast transmission system 101 to transmit the necessary video stream over the broadband channel 102 before the signal strength is weakened and the predetermined threshold is reached.

For example, when a user who has boarded a vehicle receives a broadcast signal in UHD 60 fps (frame per second) through the broadcast channel 103 using a user terminal such as a smart phone or a tablet possessed by the user, May request a video stream corresponding to a portion where the QoS is not satisfied via the broadband channel 102 before the signal is interrupted due to the weakness of the signal.

FIG. 2 is a flowchart illustrating a method of transmitting a broadcast signal in an HBB network environment according to an exemplary embodiment of the present invention. FIG. 3 illustrates an internal structure of a broadcast signal transmission system according to an exemplary embodiment of the present invention. Block diagram.

Referring to FIG. 3, the broadcasting signal transmission system 300 may include an encoding unit 310, a URL generating unit 320, and a transmission control unit 330. 1, the URL generating unit 320 corresponds to an MMT media server, the transmission control unit 330 includes a signaling server, a signaling server, A multiplexer, and an exciter. The steps (210 to 230) of FIG. 2 are performed by the encoding unit 310, the URL generation unit 320, and the transmission control unit 330, which are components of the broadcast signal transmission system 300 of FIG. 3 ≪ / RTI >

First, in order to start transmission of a broadcast signal, the encoding unit 310 may acquire broadcast schedule information from the broadcast schedule system. Herein, the broadcast program information includes broadcast information according to time for each broadcast channel. For example, the broadcast program information includes broadcast information according to time of ch 7, broadcast information according to various channel time such as ch 6, ch 11, . The broadcast program information may include resolution information (for example, HD, FHD, UHD, etc.) of broadcast information broadcasted for each channel, and may include whether the broadcast channel is a QoS support channel. Here, the QoS supporting channel may indicate whether or not the broadcast signal can be transmitted to the user terminal using at least one of the broadband channel and the broadcast channel, as needed.

In step 210, the encoding unit 310 encodes a broadcast signal to be transmitted through a corresponding broadcast channel to a Scalable Video Coding (SVC), which is a broadcast channel supporting a Quality of Service (QoS) based on Hybrid Broadcast Broadband Encoding can be performed.

In step 211, the encoding unit 310 may determine whether to perform scalable video coding (SVC) -based encoding on the broadcast signal based on the broadcast program information.

For example, when a specific broadcast channel is a QoS supporting channel, a broadcast signal can be transmitted through both a broadcast channel and a broadband channel. Therefore, SVC (scalable video coding) based encoding can be performed. However, , The SVC encoding may not be performed, or encoding of other techniques may be performed. The encoding unit 310 may determine to perform SVC encoding when a specific broadcast channel to start broadcasting corresponds to a QoS supporting channel. In this way, the encoding unit 310 can selectively perform SVC encoding for each broadcast channel depending on whether the channel is a QoS-supported channel based on the broadcast schedule information.

In addition, whether the broadcast channel is a QoS-supported channel may be determined based on a service policy. For example, in relation to broadcasts to be broadcast on a specific broadcast channel, it is preferable that the mobile viewers broadcast broadcasts at a predetermined number or more, broadcasts at a prime time period in which TV or mobile broadcast viewers have relatively many time periods, 20, etc., the service policy may be set in advance as a QoS support channel indicating whether to support QoS based on the audience rating or the like, and a fee plan may be further considered.

In operation 212, the encoding unit 310 may perform SVC encoding on the broadcast signal (i.e., image data corresponding to the media data).

In operation 220, the URL generator 320 may generate URL information based on the SVC profile of the video stream output from the encoding unit 310. Here, the SVC profile may include an SVC baseline, a high, a high intra, and the baseline represents a QoS class (i.e., the highest QoS class) , And a relatively low QoS grade can be shown as going to a high intra. Accordingly, the lowest resolution, which must be guaranteed in the current broadcast channel, is matched to the baseline, which is the highest QoS class, and the higher resolution can be matched to the higher and higher intrastrices.

In operation 221, the SVC-encoded video stream in the encoding unit 310 is divided into SVC regions through encoding. The URL generating unit 320 unicasts or multicasts the corresponding video stream for each SVC region. (I.e., URL address information) for transmission.

In step 222, the encoding unit 310 may set a QoS class (i.e., a QoS guarantee requirement value) for each video stream based on the SVC profile.

For example, if the resolution corresponding to a specific broadcast signal is UHD 120 fps, the 4 k 120 frames per second (fps) broadcast service should be provided, so that the QoS rating can be set to FHD (2K) 60 fps. That is, since the QoS must be guaranteed up to the FHD (2K) 60 fps for the 4 k 120 frames per second broadcast service, the encoding unit 310 encodes the SVC encoded video stream, (For example, SVC0), and a QoS class can be set to 4K 60 fps and 4K 120 fps in a video stream belonging to an additional area (for example, SVC1, SVC2). That is, the encoding information may be separately generated so that the broadcasting service is provided in the form of 2k 60 fps for the SVC0 region, 4K 60 fps for the SVC1 region, and 4K 120 fps for the SVC2 region. Here, the configuration in which the QoS class is set for each SVC area will be described later with reference to FIG.

In step 230, the transmission control unit 330 transmits a broadcast signal to the user terminal through a broadcast channel, and transmits a part of the broadcast signal to a user terminal requesting access through the URL information as a broadband channel And the like.

At this time, the video stream generated through the SVC encoding is constituted by an MMT (MPEG Media Transport) Asset, and each MMT Asset can be distinguished based on Asset ID and URL information. That is, an MMT asset may be configured for each video stream belonging to the SVC area, and an asset ID for distinguishing the MMT asset may be allocated. URL information for a unicast or multicast connection may be matched by ID. Then, the transmission control unit 330 may preferentially transmit the broadcast signal (i.e., the video stream) corresponding to the specific broadcast channel to the at least one user terminals through the broadcast channel. In this case, when retransmission is requested because at least one user terminal has lost a part of the broadcast signal transmitted through the broadband channel and is not restored, the transmission control unit 330 transmits a video stream corresponding to the requested part And can be retransmitted over a broadband channel to the user terminal.

For example, the transmission control unit 330 may receive an MPU (Media Processing Unit) ID to be retransmitted over a broadband channel. Then, the transmission control unit 330 can transmit the video stream corresponding to the received MPU ID to the corresponding user terminal through the broadband channel. Here, an MPU (Media Processing Unit) can represent a minimum unit obtained by medializing an elementary stream (ES) according to the MMT standard, when an elementary stream (ES) refers to a video stream through a general broadcast channel . Then, an ID can be assigned to each MPU, and an ID assigned to each MPU can correspond to the MPU ID. Then, one channel created by applying the MPU ID after medialization to the base stream (ES) may be matched with an asset, and a plurality of channels may be allocated as an asset instead of one channel . For example, the broadcast channels 7 and 9 are KBS1, and two channels are generated as respective MPUs, but they can be allocated to one asset or each asset.

At this time, if the received data is corrupted, the damaged data can be grasped based on the MPU ID, and based on which MPU is allocated to which asset, the corresponding channel (for example, Lt; / RTI > For example, when two channels are serviced through broadcasting, and two channels use one asset, the MPU IDs are divided into pits so that the channels can be divided, and when different assets are used It may be a form in which each MPU ID is sequentially used.

4 is a diagram showing a QoS guarantee area in an embodiment of the present invention.

4 shows a screen size. Baseline 410 indicates the resolution of the FHD, SVC profile high (high) 420 indicates the resolution of 4K 60 fps, 430 indicates the resolution of 4K 120fps, and x The axis can represent a horizontal pixel and the y-axis can represent a vertical pixel.

In order to provide the HBB-based QoS service, SVC (Scalable Video Coding) is applied to encode a video stream, so that a video stream can be divided into units of an asset. At this time, in the broadcast transmission based on ATSC 3.0, the transmission area for each video stream can be classified according to the signal strength based on the LDM (Layer Division Multiplexing) technique. For example, according to the intensity of a broadcasting signal to be transmitted, a transmission region may be divided for each SVC region with respect to an SVC-encoded video stream. That is, based on the LDM technique, an area corresponding to an image to be transmitted and an area corresponding to an additional image may be classified and allocated on the frequency. Then, if the user is in a non-emergency area or is moving, an area that must be transmitted can be preferentially transmitted to the terminal.

Referring to FIG. 4, according to the QoS profile, the area SVC0 area corresponding to the image to be always delivered as 2K 60 fps based on the LDM scheme is designated as the QoS guarantee area 410, (SVC1, SVC2 area, etc.) corresponding to 4K 120fps can be designated as the additional area 420. [ The SVC profile includes a baseline indicating the highest QoS class, a high level indicating a relatively lower level than a baseline, a high level indicating a relatively lower level than a high, intra). At this time, the resolution of the video stream and the QoS class can be connected in an inverse relationship. For example, the SVC profile (i.e., the baseline) corresponding to the lowest quality (i.e., the lowest resolution) matches the highest QoS class to be guaranteed, and the SVC profile corresponding to the highest quality (I. E., High intra) may be matched with the lowest QoS class to be guaranteed. That is, as the resolution is lower, it must be transmitted, so that it can be set that a high QoS class should be guaranteed.

FIG. 5 is a flowchart illustrating a method of receiving a broadcast signal in an HBB network environment in an embodiment of the present invention. FIG. 6 illustrates an internal configuration of a broadcast signal receiving apparatus according to an embodiment of the present invention. Block diagram.

6, the broadcasting signal receiving apparatus 600 may include a strength measuring unit 610, a class checking unit 620, a channel determining unit 630, and a transmission requesting unit 640 . Each of the steps 510 to 540 of FIG. 5 includes an intensity measurement unit 610, a class determination unit 620, a channel determination unit 630, and a transmission request unit 630, which are components of the broadcast receiving apparatus 600 of FIG. Gt; 640 < / RTI >

In step 510, the intensity measurement unit 610 may measure the intensity of the broadcast signal received through the broadcast channel.

In step 520, the class checking unit 620 can check whether QoS is guaranteed based on the measured signal strength. For example, the class checking unit 620 can check whether the measured signal strength is equal to or less than a predetermined reference strength to satisfy a QoS level of the corresponding channel.

For example, when the measured signal strength is equal to or less than a predetermined reference strength, the class identifying unit 620 determines that the broadcast channel transmitting the current broadcast signal does not satisfy the QoS class (i.e., the SVC baseline profile of the current channel) You can decide. At this time, the class checking unit 620 can first check whether the strength of the received broadcast signal is equal to or greater than the reference strength for a predetermined period of time or longer. If the strength of the signal exceeds the reference strength for a predetermined time or longer, the class checking unit 620 can determine that the QoS class is not satisfied.

If the signal strength is greater than or equal to the reference strength for a while, and is again greater than or equal to the reference strength, the class checking unit 620 may determine that the QoS class is satisfied.

In step 530, the channel determination unit 630 may determine whether to receive the broadcast signal on the broadband channel based on the QoS rating check. That is, the channel determination unit 630 determines whether to receive some of the broadcasting signals received on the current broadcast channel through the broadband channel based on whether or not the confirmed QoS class is satisfied (i.e., guaranteed) You can decide.

For example, if it is determined that the signal strength is not equal to or lower than the reference strength for a predetermined period of time, the channel determination unit 630 may determine to receive the broadcast signal through the broadband channel. If it is determined that the QoS level is satisfied again, it can be determined that the broadcast signal is again received through the broadcast channel. For example, when the strength of a signal received due to a vehicle movement is weakened below a reference strength, and a weakened state lasts for a predetermined time, data loss may occur. Then, there may exist unrecovered data when restoring data due to lost data.

In step 540, the transmission request unit 640 may request the broadcasting signal transmission system 300 to transmit the broadcasting signal through the determined channel (i.e., the broadband channel). At this time, the transmission request unit 640 can request the broadcast signal through the broadband channel to transmit the unrecovered broadcast signal through the broadband channel. As a response to the request, the broadcast request unit 640 transmits the broadcast signal corresponding to the unrecovered data to the broadband channel ≪ / RTI >

As an example, a restoration algorithm such as AL-FEC may be used to recover the received video stream. The transmission request unit 640 can request the broadcasting signal transmission system 300 through the broadband channel to retransmit data not restored through the AL-FEC through a broadband channel. That is, the MPU ID corresponding to the data not restored through the AL-FEC can be transmitted to the broadcast signal transmission system 300 through the broadcast channel, and the broadcast signal transmission system 300 can transmit the MPU ID corresponding to the received MPU ID The video stream can be retransmitted to the broadcasting signal receiving apparatus 600 through the broadband channel. As such, data including lost packets over the broadband channel can be retransmitted.

In this way, it is possible to request retransmission through the broadband channel with respect to the data that has not been restored through the AL-FEC, and to retransmit the lost data through the broadband channel without going through the AL-FEC for the processing power and battery saving of the terminal . At this time, the transmission request unit 640 may request and transmit only the packet data lost in the ARQ scheme, and may transmit the video stream based on the data loss rate and the buffer length. It can also be received continuously over broadband.

For example, if the data loss rate is higher than a predetermined reference loss rate and the buffer length of the terminal is not sufficient to a predetermined reference length or less, the transmission request unit 640 May request that the entire video stream to which the lost packet belongs, rather than just the lost packet, be continuously transmitted over the broadband channel. For example, since it is difficult to distinguish a packet type in an HBB network environment, a video stream is divided in units of MPU (Media Processing Unit), so that all video streams corresponding to MPUs belonging to a lost packet are transmitted through a broadband channel To the transmission system 300. Upon request, the transmission request unit 640 may transmit the MPU ID of the corresponding MPU to the broadcasting signal transmission system 300 through the broadband channel. Then, the broadcasting signal transmission system 300 can transmit all of the corresponding video streams including the lost packets based on the MPU ID received through the broadband channel to the broadcasting signal receiving apparatus 600 as a user terminal through the broadband channel .

As another example, when the intensity of the received signal is lower than the reference intensity and the data loss rate is higher than a predetermined reference loss rate for a predetermined period of time or longer with respect to a video stream received through the broadcast channel for a predetermined time, The transmission request unit 640 may transmit the MPU ID corresponding to the lost video stream through the broadband channel without performing the AL-FEC restoration operation until the intensity of the received signal becomes equal to or greater than a predetermined reference intensity. The transmission request unit 640 may receive the video stream corresponding to the transmitted MPU ID from the broadcasting signal transmission system 300 through the broadband channel until the intensity of the received signal becomes equal to or greater than the reference intensity .

At this time, the video stream to be received may include class information according to the SVC profile and time information to be newly received. The class information according to the SVC profile includes an asset ID predetermined in advance, and the view information may include UTP-based time information or MPU ID information.

As the broadcast signal is received over the broadband channel, the intensity measurement unit 610 can measure the intensity of the signal received via the broadband channel.

At this time, when the strength of the signal received through the broadband channel is smaller than the predetermined reference strength, that is, when both the broadcast channel and the broadband channel can not guarantee the QoS, it is possible to use a broadband channel based on the Adaptive Bit Rate It may request to transmit a video stream with a resolution lower than the current resolution. For example, when the lowest level of the broadcast signal received through the current broadband and broadcast channel is FHD (Full HD) 2K fps, the transmission request unit 640 transmits a relatively high level of the broadcast signal (i.e., the same media data) You can request that lower-level HD (High Definition), LD (low-definition) video streams be transmitted over the broadband channel.

In addition, QoS may be guaranteed in consideration of only the broadband channel, not the broadcast channel. For example, when a broadcast signal receiving apparatus 600 is located in a shaded area where a broadcast signal transmitted through a broadcast channel is not transmitted, or a broadcast signal is received in an area outside the coverage of the broadcast signal transmitting system 300, When the receiving apparatus 600 is located, QoS may be guaranteed over a broadband channel other than the broadcast channel.

At this time, when a user having a user terminal subscribes to a video data bundling service, that is, when subscribing to a service such as a zero-rating when receiving a broadcast signal through a broadband channel, If there is no data traffic cost for use, a video stream may be received over the broadband channel.

For example, the transmission request unit 640 may request the transmission of a broadcast signal through a broadband channel based on environment information such as user account information registered in advance with respect to the video service or zero-rating recorded in the USIM of the user terminal It may decide whether to request a transmission. In addition, if a broadcasting channel provider or a local broadcasting provider provides a bundling service of a no-charging type in connection with video traffic for the purpose of increasing the audience rating of the broadcasting channel through cooperation with a communication service provider, The user can receive the broadcasting signal of the corresponding broadcasting channel through a broadband channel and can not pay a separate data fee with respect to the video stream received through the broadband channel. That is, when the terminal enters the shadow area or is out of coverage of the broadcast signal transmission system 300 due to the movement while receiving the broadcast signal of the broadcast channel provided with the bundling service of the no-charge type, The video stream of the corresponding broadcast signal can be received free of charge. If the broadcast channel is a channel to which a bundling service of a fee type is applied, the transmission request unit 640 may transmit the broadcast signal through the broadband channel by selecting the URL information from the shaded area or a position outside the coverage, It is possible to request the broadcast signal of the corresponding broadcast channel through the channel through the broadband channel and receive the broadcast signal through the broadband channel.

In addition, if the user is not subscribed to the bundling service or is not a broadcast channel providing a bundling service of a no-charging type, the transmission request unit 640 transmits a " data fee due to broadcasting viewing " Toast < / RTI > message is displayed. For example, if the user terminal selects to allow reception of the corresponding broadcast signal through the broadband channel, the transmission request unit 640 transmits the broadcast signal of the corresponding broadcast channel through a broadband channel And receive the broadcast signal through the broadband channel. At this time, the user can be charged with an amount corresponding to the broadcast signal used.

FIG. 7 is a diagram illustrating a case where a broadband channel is used and a case where a broadband channel is not used according to whether or not a QoS class is satisfied in an embodiment of the present invention.

7, when the QoS level to be guaranteed is set to 4K 60 fps, which is an intermediate level of the SVC profile, in the case of a broadcast display apparatus mounted on a vehicle, 700 can receive a video stream corresponding to the SVC0 region and a video stream corresponding to the SVC1 region through the broadcast channel if the intensity of the signal received through the broadcast channel is equal to or greater than the reference intensity , The broadcast signal can be continuously received through the broadcast channel without using the broadband channel. That is, when the position of the vehicle corresponds to 710, since the broadcast channel transmitting the broadcast signal assures / satisfies the QoS grade required by the broadcast channel, reception of the broadcast signal through the broadcast channel can be maintained .

At this time, when the vehicle moves from the position 710 to the position 720, the strength of the received signal may be relatively weakened as the distance from the broadcasting signal transmission system 300 increases. If the signal strength is weak and the signal strength is lower than the reference strength so that only the signal corresponding to the SVC0 region can be received, the QoS level (i.e., 4K 60 fps broadcasting service) is not guaranteed. Therefore, the signal corresponding to the SVC0 region through the broadcast channel And receive a signal corresponding to the SVC1 region through the broadband channel. Referring to the graph 740, when the distance 741 is farther away, the strength 742 of the signal is weakened and the QoS class required in the current broadcasting channel is not guaranteed / satisfactory, the broadcasting signal is received through the broadband channel, The QoS grade required in the channel can be guaranteed. That is, as the position of the vehicle moves from 710 to 720, a desired QoS class can be guaranteed by receiving a broadcast signal through a broadband channel, such as 743. At this time, if the distance is further than the location 720, the broadcast signal received over the broadband channel may be further increased as 745 to guarantee / satisfy the required QoS rating.

At this time, when a signal corresponding to the SVC1 region is requested through the broadband channel, it is predicted that the minimum level of QoS is not ensured, not the restoration due to the data loss, so that the signal transmission of the SVC 1 through the broadband channel is transmitted through the broadband channel To the broadcast signal transmission system 300 to transmit the broadcast signal. For example, if a signal in the SVC 1 (i.e., SVC Profile High) region is weak and can not be recovered even though it has failed to receive or be received, it may request to transmit the signal over a broadband channel and SVC 1 (i.e., SVC Profile High ) Region is weak and data loss or non-recovering phenomenon repeats more than a predetermined number of times or is predictable in advance, the user terminal can activate the broadband channel in advance and continuously receive data through the active broadband channel have. At this time, the broadband channel is activated until the signal of the SVC 1 region becomes larger than the predetermined reference intensity, and when the signal strength becomes strong, the signal of the SVC 1 region can be received again through the broadcast channel.

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 (19)

A method for receiving broadcast signals in an HBB (Hybrid Broadcast Broadband) network environment,
Measuring a strength of a broadcast signal received via a broadcast channel;
Confirming whether the QoS level of the corresponding channel is satisfied based on the intensity of the broadcast signal and the predetermined reference intensity;
Determining whether to receive the broadcast signal on a broadband channel based on the confirmation of the QoS rating; And
Requesting transmission of a broadcast signal through the determined channel
And transmitting the broadcast signal in the HBB network environment. The method according to claim 1,
Wherein the determining comprises:
It is determined that the QoS class is not satisfied and that a part of the broadcast signals received through the broadcast channel is separated and received through the broadband channel
And transmitting the broadcast signal to the mobile station. The method according to claim 1,
Wherein the step of requesting transmission of the broadcast signal comprises:
Requesting transmission of a non-recovered broadcast signal among the broadcast signals received through the at least one of the broadcast channel and the broadband channel and reconstructed through the broadband channel; And
Receiving, in response to the request, the unrecovered broadcast signal on the broadband channel
And transmitting the broadcast signal in the HBB network environment. The method according to claim 1,
Wherein the step of requesting transmission of the broadcast signal comprises:
Requesting transmission of a lost packet based on a data loss rate and a buffer length of the broadcast channel related broadcast signal through the broadband channel
And transmitting the broadcast signal in the HBB network environment. 5. The method of claim 4,
Wherein the step of requesting transmission of the lost packet via the broadband channel comprises:
Requesting transmission of a video stream belonging to an MPU (Media Processing Unit) ID corresponding to the lost packet
And transmitting the broadcast signal to the mobile station. The method according to claim 1,
Wherein the step of requesting transmission of the broadcast signal comprises:
Requesting transmission of a broadcast signal having a resolution lower than that of the received broadcast signal when the intensity of the broadcast signal received through the broadcast channel and the intensity of the broadcast signal received through the broadband channel are smaller than the reference intensity
And transmitting the broadcast signal in the HBB network environment. A method of transmitting a broadcast signal in an HBB (Hybrid Broadcast Broadband) network environment,
Encoding a broadcast signal to be transmitted through a corresponding broadcast channel, based on a scalable video coding (SVC), on a broadcast channel supporting an HBB (Hybrid Broadcast Broadband) -based Quality of Service (QoS);
Generating an SVC Profile based URL for the encoded video stream; And
Transmitting a broadcast signal to a user terminal through a broadcast channel and transmitting the broadcast signal through a broadband channel to a part of the broadcast signal transmitted to a user terminal requesting access through the URL
And transmitting the broadcast signal in the HBB network environment. 8. The method of claim 7,
The step of encoding the broadcast signal based on SVC (Scalable Video Coding)
A step of generating encoding information indicating a QoS guaranteed area and an additional area according to the strength of a signal, for each SVC area, based on a LDM (Layer Division Multiplexing) technique, with respect to the encoded video stream
And transmitting the broadcast signal in the HBB network environment. 8. The method of claim 7,
The SVC profile includes a baseline indicating the highest QoS class, a high level indicating a relatively lower level than the baseline, a high intra level indicating a relatively lower level than the high level high intra)
And transmitting the broadcast signal in the HBB network environment. 8. The method of claim 7,
The encoded video stream is composed of an MMT (MPEG Media Transport) Asset that is distinguished through ID and URL information
And transmitting the broadcast signal in the HBB network environment. A broadcast signal receiving apparatus in an HBB (Hybrid Broadcast Broadband) network environment,
An intensity measuring unit measuring an intensity of a broadcast signal received through a broadcast channel;
A class checking unit for checking whether a QoS class of the corresponding channel is satisfied based on the measured broadcast signal strength and a predetermined reference strength;
A channel determination unit for determining whether to receive the broadcast signal through a broadband channel based on the confirmation of the QoS class; And
A transmission request unit for requesting transmission of a broadcast signal through the determined channel,
And a receiver for receiving the broadcast signal in the HBB network environment. 12. The method of claim 11,
Wherein the channel determination unit comprises:
It is determined that the QoS class is not satisfied and that a part of the broadcast signals received through the broadcast channel is separated and received through the broadband channel
Wherein the broadcast signal receiving apparatus is a broadcast signal receiving apparatus in an HBB network environment. 12. The method of claim 11,
The transmission request unit,
Restores the broadcast signal received through at least one of the broadcast channel and the broadband channel, requests the transmission of the restored broadcast signal through the broadband channel, and transmits the restored broadcast signal through the broadband channel, Receiving broadcast signals
Wherein the broadcast signal receiving apparatus is a broadcast signal receiving apparatus in an HBB network environment. 12. The method of claim 11,
The transmission request unit,
Requesting transmission of a lost packet based on a data loss rate and a buffer length of the broadcast channel related broadcast signal through the broadband channel
Wherein the broadcast signal receiving apparatus is a broadcast signal receiving apparatus in an HBB network environment. 15. The method of claim 14,
The transmission request unit,
Requesting transmission of a video stream belonging to an MPU (Media Processing Unit) ID corresponding to the lost packet
Wherein the broadcast signal receiving apparatus is a broadcast signal receiving apparatus in an HBB network environment. 12. The method of claim 11,
The transmission request unit,
When the strength of the broadcast signal received through the broadcast channel and the intensity of the broadcast signal received through the broadband channel are smaller than the reference intensity, transmission of a broadcast signal having a resolution lower than that of the received broadcast signal is requested
Wherein the broadcast signal receiving apparatus is a broadcast signal receiving apparatus in an HBB network environment. A broadcast signal transmission system in an HBB (Hybrid Broadcast Broadband) network environment,
An encoding unit for encoding a broadcast signal to be transmitted through a corresponding broadcast channel based on SVC (Scalable Video Coding) for a broadcast channel supporting a Hybrid Broadcast Broadband (QoS) based Quality of Service (HBB);
A URL generating unit for generating SVC profile based URL information on an encoded video stream; And
A transmission control unit for transmitting a broadcast signal to a user terminal through a broadcast channel and transmitting the broadcast signal through a broadband channel to a part of the broadcast signal transmitted to a user terminal requesting access through the URL information,
Wherein the broadcast signal transmission system comprises: 18. The method of claim 17,
The encoding unit may include:
The encoded video stream is divided into SVC areas by encoding information indicating a QoS guaranteed area and an additional area according to the intensity of a signal based on a LDM (Layer Division Multiplexing) technique
Wherein the broadcast signal transmission system in the HBB network environment comprises: 18. The method of claim 17,
The SVC profile includes a baseline indicating the highest QoS class, a high level indicating a relatively lower level than the baseline, a high intra level indicating a relatively lower level than the high level high intra)
Wherein the broadcast signal transmission system in the HBB network environment comprises:

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