Broadcast receiver and 3d video data processing method thereof
Abstract
A broadcast receiver and a 3D video data processing method thereof are disclosed herein. a 3D video data processing method of a broadcast receiver according to an embodiment of the present invention includes receiving, by a receiving unit, a broadcast signal including 3D video data and 3D complementary video information, wherein the 3D video data include half-resolution base video data and complementary video data for configuring a full-resolution image; parsing, by 3D video information processing unit, a 3D complementary video information; decoding, by a base video decoder, the half-resolution base video data; decoding, by a complementary video decoder, the complementary video data for configuring a full-resolution image; and combining and formatting, by an output formatter, the base video data and the complementary video data using the 3D complementary video information, thereby outputting a full-resolution 3D image.
Claims
exact text as granted — not AI-modified1 - 10 . (canceled)
11 . A 3D video data processing method of a broadcast transmitter, the method comprising:
encoding 3D video data which corresponds to half-resolution video data for a 3D content, complementary video data for configuring a full-resolution image for the 3D content, and 3D complementary video information, wherein the 3D complementary video information includes complementary type information indicating a configuration type of frames of the complementary video data or the 3D video data, and order information indicating a combination order of the 3D video data and the complementary video data, and transmitting the 3D video data via a base layer, and 3D complementary video information and the complementary video data via an enhancement layer, wherein the 3D complementary video information is included in a Supplemental Enhancement Information (SEI) message of the enhancement layer.
12 . The method of claim 11 ,
wherein the 3D video data and the complementary video data are combined to configure a full-resolution 3D image using the complementary type information and the order information
13 . The method of claim 11 ,
wherein the configuration type includes any one of a side-by-side type and a top-andbottom type.
14 . The method of claim 11 ,
wherein the half-resolution video data corresponds to spatially half-resolution video data.
15 . The method of claim 11 ,
wherein the half-resolution video data corresponds to temporally half-resolution video data.
16 . A broadcast receiver, comprising:
a receiving unit receiving 3D video data which corresponds to half-resolution video data for a 3D content via a base layer, complementary video data for configuring a full-resolution image for the 3D content via an enhancement layer, and 3D complementary video information via the enhancement layer, wherein the 3D complementary video information includes complementary type information indicating a configuration type of frames of the complementary video data or the 3D video data, and order information indicating a combination order of the 3D video data and the complementary video data; a 3D video information processing unit parsing the 3D complementary video information, wherein the 3D complementary video information is included in a Supplemental Enhancement Information (SEI) message of the enhancement layer; a base video decoder decoding the 3D video data; a complementary video decoder decoding the complementary video data; and an output formatter combining the 3D video data and the complementary video data using the complementary type information and the order information, thereby outputting full-resolution 3D images.
17 . The broadcast receiver of claim 16 ,
wherein the configuration type includes any one of a side-by-side type and a top-andbottom type.
18 . The broadcast receiver of claim 16 ,
wherein the half-resolution video data corresponds to spatially half-resolution video data.
19 . The broadcast receiver of claim 16 ,
wherein the half-resolution video data corresponds to temporally half-resolution video data.Cited by (0)
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