KR101148486B1 - System and Method for broadcasting Scalable for three dimensional Images Broadcasting - Google Patents

Abstract

Disclosed are a hierarchical broadcasting system and method for stereoscopic broadcasting. In the hierarchical stereoscopic image broadcasting method, a broadcast transmission system transmits first broadcast data for an existing broadcast to a broadcast reception system through a first communication network, and the broadcast transmission system transmits second broadcast data for stereoscopic image broadcasting to a second communication network. Through the broadcast receiving system through. In this case, the broadcast reception system may combine the first broadcast data and the second broadcast data to display 3D broadcast.

Broadcasting network, Internet network, hierarchical broadcasting, stereoscopic video

Description

System and Method for broadcasting Scalable for three dimensional Images Broadcasting}

The present invention relates to a hierarchical broadcasting system and method for stereoscopic broadcasting, and to a system and method for providing stereoscopic image broadcasting using different heterogeneous networks or the same network.

Terrestrial digital broadcasting provides higher quality broadcasting as it provides higher resolution than analog broadcasting, but there is an increasing demand for stereoscopic images that can realistically view images regardless of the direction and speed of movement of an object.

In order to provide a stereoscopic image, image data of at least two viewpoints must be transmitted. However, in the current broadcast, it is not easy to provide a stereoscopic image due to a lack of frequency and a compatibility problem with an existing broadcast apparatus.

Accordingly, there is a need for a broadcast system and method capable of providing stereoscopic images while ensuring compatibility with current broadcast devices.

The problem to be solved by the present invention is to provide a broadcast system and method that can support a three-dimensional video broadcast while ensuring compatibility with the current broadcast device by providing a three-dimensional video broadcast using different heterogeneous networks or the same network. It is to provide.

In addition, the present invention is to provide a broadcast system and method capable of supporting stereoscopic image broadcasting while ensuring compatibility with current broadcasting apparatuses in connection with not only conventional terrestrial broadcasting but also mobile broadcasting and satellite broadcasting.

According to an aspect of the present invention, there is provided a hierarchical broadcasting system for stereoscopic broadcasting, comprising: a first encoder unit generating a first encoded signal by encoding first broadcast data by a first encoding method; A first transmitter for transmitting an encoded signal through a first communication network, a residual signal generator for generating a residual signal from the first broadcast data and the second broadcast data, and encoding the residual signal by a second encoding scheme, And a second encoder for generating a second encoded signal and a second transmitter for transmitting the second encoded signal through a second communication network.

According to an aspect of the present invention, there is provided a hierarchical broadcasting method for stereoscopic broadcasting, comprising: transmitting, by a broadcast transmission system, first broadcast data for an existing broadcast to a broadcast receiving system through a first communication network; And transmitting, by the broadcast transmission system, the second broadcast data for stereoscopic image broadcast to the broadcast reception system through the second communication network.

The hierarchical broadcasting system and method for stereoscopic broadcasting according to an embodiment of the present invention provides stereoscopic video broadcasting by using different heterogeneous networks or the same network, thereby ensuring stereoscopic video broadcasting while ensuring compatibility with current broadcasting devices. Can support

Hereinafter, a hierarchical broadcasting system and method for stereoscopic broadcasting according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

A basic principle of the present invention for supporting 3D video broadcasting is that a broadcast transmission system transmits first broadcast data for an existing broadcast to a broadcast reception system through a first communication network, and the broadcast transmission system is configured for 3D video broadcasting. 2 The broadcast data is transmitted to the broadcast receiving system through a communication network different from the first communication network or a second communication network of the same communication network as the first communication network. In this case, the broadcast reception system may combine the first broadcast data and the second broadcast data to display the 3D broadcast. Here, the first broadcast data and the second broadcast data may be multiview or binocular video data, the first broadcast data may be left image data, and the second broadcast data may be right image data. In this case, the left image data and the right image data are image data obtained by the left eye and right eye cameras to respectively input the left and right eyes with respect to the same object.

1 is a diagram showing the configuration of a hierarchical broadcasting system for stereoscopic broadcasting according to an embodiment of the present invention.

The hierarchical broadcasting system 101 for stereoscopic broadcasting of FIG. 1 may be applied to a hierarchical broadcasting transmission system for stereoscopic broadcasting.

Referring to FIG. 1, the hierarchical broadcast transmission system 101 for stereoscopic broadcasting includes a first encoder unit 103, a first transmitter unit 105, a residual signal generator 107, and a second encoder unit 109. , The additional information processing unit 111, and the second transmission unit 117.

The first encoder unit 103 generates the first encoded signal by encoding the first broadcast data by the first encoding scheme. Here, the first broadcast data may be left image data. Here, the first encoding scheme may be an encoding scheme according to the standard of MPEG-2, but is not limited thereto. For example, when supporting DMB broadcasting, the first encoding scheme may be an encoding scheme according to the standard of MPEG-4 AVC.

The first transmitter 105 transmits the first encoded signal output from the first encoder 103 through the first communication network. In this case, the first encoded signal may be a signal in which synchronization information between the first encoded signal and the second encoded signal is inserted by the synchronization processor 113. Here, the first communication network may be a broadcasting network for broadcasting a broadcast signal, and may be, for example, an ATSC standard broadcasting network supporting digital broadcasting. In addition, the present invention is not limited thereto, and the first communication network may be a communication network supporting mobile broadcasting or satellite broadcasting.

In addition, the first transmitter 105 transmits synchronization information about the first encoded signal to the additional information processor 111.

The residual signal generator 107 generates a residual signal from the first broadcast data and the second broadcast data. Here, the second broadcast data may be right image data. In this case, the first broadcast data, which is the left image data, and the second broadcast data, which is the right image data, are image data obtained by the left eye and right eye cameras to respectively input the left and right eyes with respect to the same object. That is, the residual signal generator 107 may generate a residual signal by using a difference between the left image data and the right image data.

The second encoder unit 109 encodes the residual signal between the first broadcast data and the second broadcast data output from the residual signal generator 107 by a second encoding scheme to generate a second encoded signal. Here, the second encoding scheme may have higher coding efficiency than the first encoding scheme. The second encoding scheme may be an encoding scheme according to the standard of H.264 AVC, but is not limited thereto.

The additional information processing unit 111 includes a synchronization processing unit 113 and a content restriction reception processing unit 115.

The synchronization processor 113 receives synchronization information about the first encoded signal from the first transmitter 105, and inserts synchronization information between the first encoded signal and the second encoded signal into the first encoded signal and the second encoded signal. The synchronization information is processed using a method such as the above.

In order to ensure that only the service subscriber is provided with the content, the content conditional access processing unit 115 may encrypt the second encoded signal using the secret key or scramble the second encoded signal.

The second transmitter 117 transmits the second encoded signal output from the additional information processor 111 through the second communication network. Here, the second communication network may be a communication network different from the first communication network, for example, a network-based internet network, or may be the same communication network as the first communication network.

Meanwhile, information indicating that a hierarchical stereoscopic image broadcasting service may be inserted into and transmitted to at least one of the first encoded signal and the second encoded signal output from the first and second transmitters 105 and 117. In this case, the first encoded signal and the second encoded signal may be transmitted at the same time, and the present invention is not limited thereto and may be transmitted in sequence or with a time difference. Accordingly, the first encoded signal and the second encoded signal may be simultaneously received by the broadcast receiving system, or may be received at a time difference.

2 is a diagram illustrating a configuration of a hierarchical broadcasting system for stereoscopic broadcasting according to an exemplary embodiment of the present invention.

The hierarchical broadcasting system 201 for stereoscopic broadcasting shown in FIG. 2 may be applied to a hierarchical broadcasting receiving system for stereoscopic broadcasting.

Referring to FIG. 2, the hierarchical broadcast reception system 201 for stereoscopic broadcasting includes a first receiver 203, a first decoder 205, a second receiver 207, an additional information processor 209, and a second receiver. The decoder 215, the broadcast data generator 217, and the display 219 are included.

The first receiver 203 receives the first received signal transmitted through the first communication network. Here, the first communication network may be a broadcasting network for receiving a broadcast signal, and may be, for example, an ATSC standard broadcasting network supporting digital broadcasting. In addition, the present invention is not limited thereto, and the first communication network may be a communication network supporting mobile broadcasting or satellite broadcasting.

The first decoder 205 decodes the first received signal by a first decoding method to generate first broadcast data. Here, the first broadcast data may be left image data. The first decoding method may be a decoding method according to the standard of MPEG-2, but is not limited thereto. For example, when supporting DMB broadcasting, the first decoding scheme may be a decoding scheme according to the standard of MPEG-4 AVC.

The second receiver 207 receives a second received signal transmitted through the second communication network. Here, the second communication network may be a communication network different from the first communication network, for example, a network-based internet network, or may be the same communication network as the first communication network. In addition, information indicating a hierarchical 3D broadcasting service may be inserted into at least one of the first and second received signals.

The additional information processing unit 209 includes a synchronization processing unit 211 and a content restriction reception processing unit 213.

The synchronization processor 211 extracts synchronization information between the second received signal and the first received signal received through the first receiver 203 from the second received signal.

The content restriction receiving processor 213 may decode the second received signal using the same secret key as in encryption, or descramble the second received signal using the same scramble code as in the scramble process. At this time, the secret key or the scramble code may be provided through a service subscription.

Meanwhile, the second received signal output from the additional information processor 209 may be stored in a buffer (not shown) together with the first received signal, and may be output from the buffer according to synchronization information.

The second decoder 215 decodes the second received signal by a second decoding method to generate a residual signal between the first and second broadcast data. Here, the residual signal between the first and second broadcast data may be, for example, a residual signal between the left image data and the right image data. The second decoding scheme may have a higher decoding efficiency than the first decoding scheme of the first decoder unit 205. The second decoding scheme may be, for example, a decoding scheme according to the standard of H.264 AVC, but is not limited thereto.

The broadcast data generator 217 generates the second broadcast data by adding the output signal of the first decoder unit 205 and the output signal of the second decoder unit 215. That is, the broadcast data generation unit 217 is the right corresponding to the second broadcast data from the residual signal between the left image data of the first broadcast data and the first and second broadcast data, that is, the residual signal between the left image data and the right image data. Generate video data.

The display unit 219 displays the stereoscopic image by using the first broadcast data which is the output signal of the first decoder unit 205 and the second broadcast data which is the output signal of the broadcast data generator 217. That is, the display unit 219 may display a stereoscopic image by using the left image data of the first broadcast and the right image data of the second broadcast data together.

For example, the display unit 219 alternates between the left image data and the right image data in field units to form a three-dimensional frame, or alternately the left image data and the right image data in line units. A stereoscopic image may be displayed by using a line-by-line method for forming a stereoscopic frame, but is not limited thereto.

In the hierarchical broadcasting system for stereoscopic broadcasting according to an embodiment of the present invention, the first broadcast data may be left image data and the second broadcast data may be right image data, but the present invention is not limited thereto. The second broadcast data may be left image data.

The hierarchical broadcasting system for three-dimensional broadcasting according to an embodiment of the present invention uses two different heterogeneous networks or the same network to connect the left image data with a second communication network other than the first communication network that transmits and receives the left image data. A stereoscopic image may be provided by transmitting and receiving a residual signal between right image data and providing hierarchical broadcasting. These features can be selectively provided through content protection or monetization using the characteristics of network transmission.

In addition, the hierarchical broadcast transmission system for stereoscopic broadcasting according to an embodiment of the present invention transmits existing broadcast data through a first communication network, so that a conventional broadcast reception device that is not capable of supporting 3D video broadcasting may use only existing broadcast data. According to the present invention, the hierarchical broadcast transmission system for stereoscopic broadcasting according to an embodiment of the present invention can support enhanced stereoscopic video broadcasting while ensuring compatibility with an existing broadcast receiving apparatus. Here, the stereoscopic image broadcasting may be at least one of DTV broadcasting of stereoscopic images, mobile TV broadcasting of stereoscopic images, satellite broadcasting of stereoscopic images, and cable broadcasting of stereoscopic images.

3 is a flowchart illustrating a hierarchical broadcast transmission method for stereoscopic broadcasting according to an embodiment of the present invention.

Referring to FIG. 3, the hierarchical broadcast transmission system generates a first encoded signal using the first broadcast data and transmits it through a first communication network (S301).

That is, the hierarchical broadcast transmission system generates a first encoded signal by encoding left image data of the first broadcast data by a first encoding scheme, and transmits the generated first encoded signal through a first communication network. Here, the first communication network may be a broadcasting network for broadcasting a broadcast signal, and may be, for example, an ATSC standard broadcasting network supporting digital broadcasting. In addition, the present invention is not limited thereto, and the first communication network may be a communication network supporting mobile broadcasting or satellite broadcasting.

Subsequently, the hierarchical broadcast transmission system generates a second encoded signal using the first broadcast data and the second broadcast data (S303).

That is, the hierarchical broadcast transmission system generates a residual signal by using a difference between the left image data of the first broadcast data and the right image data of the second broadcast data, encodes the generated residual signal by a second encoding scheme, and then generates a second Generate an encoded signal. In this case, the second encoding scheme may have higher coding efficiency than the first encoding scheme.

Subsequently, the hierarchical broadcast transmission system processes additional information of synchronization and content limited reception to the first encoded signal and the second encoded signal (S305).

In detail, the hierarchical broadcast transmission system may insert synchronization information between the first encoded signal and the second encoded signal into the first encoded signal and the second encoded signal, and perform an encryption or scramble process.

Subsequently, the hierarchical broadcast transmission system transmits a signal processed with additional information through the second communication network (S307).

That is, the hierarchical broadcast transmission system transmits a signal processed with additional information through a second communication network. Here, the second communication network may be a communication network different from the first communication network, for example, a network-based internet network, or may be the same communication network as the first communication network.

The hierarchical broadcast transmission system for stereoscopic broadcasting according to an embodiment of the present invention may simultaneously transmit a first encoded signal transmitted through a first communication network and a second encoded signal transmitted through a second communication network, without being limited thereto. It can also be sent one after the other or at a time difference. In addition, at least one of the first encoded signal and the second encoded signal may be transmitted with information indicating that it is a hierarchical stereoscopic image broadcasting service.

4 is a flowchart illustrating a hierarchical broadcast receiving method for stereoscopic broadcasting according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the hierarchical broadcast reception system generates first broadcast data by using a first received signal transmitted through a first communication network (S401).

In detail, the hierarchical broadcast reception system decodes a first received signal transmitted through a first communication network by a first decoding method to generate left image data that is first broadcast data. Here, the first communication network may be a broadcasting network for broadcasting a broadcast signal, and may be, for example, an ATSC standard broadcasting network supporting digital broadcasting. In addition, the present invention is not limited thereto, and the first communication network may be a communication network supporting mobile broadcasting or satellite broadcasting.

Subsequently, the hierarchical broadcast receiving system generates a second received signal by processing additional information of synchronization and content limited reception to a signal transmitted to a second communication network, and generates a residual signal using the second received signal (S403). .

In detail, the hierarchical broadcast reception system extracts, decodes, or descrambles synchronization information with a first received signal transmitted through a first communication network from a second received signal transmitted through a second communication network. In this case, the second communication network may be a communication network different from the first communication network, for example, a network-based internet network, or may be the same communication network as the first communication network.

Thereafter, the hierarchical broadcast reception system decodes the second received signal by a second decoding method to generate a residual signal between the first and second broadcast data, that is, a residual signal between the left image data and the right image data.

Subsequently, the hierarchical broadcast reception system generates second broadcast data from the first broadcast data and the residual signal (S405).

Specifically, the hierarchical broadcast receiving system adds the residual signal between the left image data and the right image data, which are residual signals between the left image data of the first broadcast data and the first and second broadcast data, and corresponds to the second broadcast data. Right image data can be generated.

Subsequently, the hierarchical broadcast receiving system displays a stereoscopic image using the first broadcast data and the second broadcast data (S407).

That is, the hierarchical broadcast reception system may provide a hierarchical stereoscopic video broadcasting service by displaying a stereoscopic video by using the left video data of the first broadcast data and the right video data of the second broadcast data. In this case, the hierarchical broadcast reception system may display a stereoscopic image by using a field sequence method or a line-by-line method, but is not limited thereto.

The hierarchical broadcast reception system for stereoscopic broadcasting according to an embodiment of the present invention may simultaneously receive a first reception signal transmitted through a first communication network and a second reception signal transmitted through a second communication network, but are not limited thereto. You can also receive in sequence or at staggered times. In addition, information indicating a hierarchical 3D broadcasting service may be inserted into at least one of the first and second received signals.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

1 and 2 are views showing the configuration of a hierarchical broadcasting system for stereoscopic broadcasting according to an embodiment of the present invention.

3 is a flowchart illustrating a hierarchical broadcast transmission method for stereoscopic broadcasting according to an embodiment of the present invention.

4 is a flowchart illustrating a hierarchical broadcast receiving method for stereoscopic broadcasting according to an exemplary embodiment of the present invention.

Claims (12)

A hierarchical broadcast transmission system using a heterogeneous network different from the broadcast network and providing a hierarchical stereoscopic video service while maintaining compatibility with an existing broadcast apparatus, A first encoder unit generating a first encoded signal by encoding the first broadcast data by a first encoding scheme; A first transmitter for transmitting the first encoded signal through a broadcast network for broadcasting a broadcast signal; A residual signal generator for generating a residual signal between left image data and right image data from the first broadcast data and the second broadcast data; A second encoder unit generating the second encoded signal by encoding the residual signal by a second encoding scheme having a higher coding efficiency than the first encoding scheme; A synchronization processor configured to process synchronization information between the first encoded signal and the second encoded signal in the first encoded signal and the second encoded signal; And A second transmitter for transmitting the second encoded signal through a network-based internet network; When the first broadcast data is left image data, the second broadcast data is right image data. When the first broadcast data is right image data, the second broadcast data is left image data, The second encoded signal is transmitted simultaneously with the first encoded signal, or the second encoded signal is transmitted with a time difference from the first encoded signal, Hierarchical broadcast transmission system for stereoscopic broadcasting. delete delete delete The method of claim 1, And a content limited reception processor configured to encrypt or scramble the second encoded signal. The method of claim 1, And at least one signal of the first encoded signal and the second encoded signal is inserted with information indicating that a hierarchical stereoscopic image broadcasting service is inserted. A hierarchical broadcast receiving system for receiving a hierarchical stereoscopic video service while maintaining compatibility with an existing broadcasting service by using a broadcasting network and a heterogeneous network different from the broadcasting network. A first receiver configured to receive a first received signal transmitted through a broadcast network in which a broadcast signal is broadcast; A first decoder to decode the first received signal by a first decoding method to generate first broadcast data; A second receiver configured to receive a second received signal transmitted through a network based internet network; A synchronization processor configured to process synchronization information between the second received signal and the first received signal from the second received signal; A second decoder to decode the second received signal by a second decoding method having a higher decoding efficiency than the first decoding method to generate a residual signal between left image data and right image data; And A broadcast data generator configured to generate second broadcast data from the first broadcast data and the residual signal, When the first broadcast data is left image data, the second broadcast data is right image data. When the first broadcast data is right image data, the second broadcast data is left image data, The second received signal is received at the same time as the first received signal, or the second received signal, characterized in that received with a time difference from the first received signal, Hierarchical broadcast reception system for stereoscopic broadcasting. delete delete delete The method of claim 7, wherein And a content limited reception processor configured to decode or descramble the second received signal. The method of claim 7, wherein Hierarchical broadcast receiving system for stereoscopic broadcasting, characterized in that information indicating that the hierarchical stereoscopic video broadcasting service is inserted into at least one of the first and second received signals.

Images