	US 11,706,531 B2
	Image data encoding/decoding method and apparatus
Ki Baek Kim, Seoul (KR)
Assigned to B1 INSTITUTE OF IMAGE TECHNOLOGY, INC., Seoul (KR)
Filed by B1 INSTITUTE OF IMAGE TECHNOLOGY, INC., Seoul (KR)
Filed on Nov. 11, 2022, as Appl. No. 17/985,396.
Application 17/985,396 is a continuation of application No. 17/085,935, filed on Oct. 30, 2020, granted, now 11,533,429.
Application 17/085,935 is a continuation of application No. 16/372,270, filed on Apr. 1, 2019, abandoned.
Application 16/372,270 is a continuation of application No. PCT/KR2017/011149, filed on Oct. 10, 2017.
Claims priority of application No. 10-2016-0127893 (KR), filed on Oct. 4, 2016; application No. 10-2016-0129391 (KR), filed on Oct. 6, 2016; and application No. 10-2017-0090621 (KR), filed on Jul. 17, 2017.
Prior Publication US 2023/0082621 A1, Mar. 16, 2023
Int. Cl. H04N 5/20 (2006.01); G06T 3/40 (2006.01); H04N 19/17 (2014.01); H04N 23/698 (2023.01); H04N 19/176 (2014.01); H04N 19/103 (2014.01); H04N 19/159 (2014.01); H04N 19/13 (2014.01); H04N 19/129 (2014.01); H04N 19/124 (2014.01); H04N 19/134 (2014.01); H04N 19/625 (2014.01); H04N 19/51 (2014.01); H04N 19/119 (2014.01); H04N 19/11 (2014.01)

CPC H04N 23/698 (2023.01) [G06T 3/40 (2013.01); H04N 19/103 (2014.11); H04N 19/11 (2014.11); H04N 19/119 (2014.11); H04N 19/124 (2014.11); H04N 19/129 (2014.11); H04N 19/13 (2014.11); H04N 19/134 (2014.11); H04N 19/159 (2014.11); H04N 19/176 (2014.11); H04N 19/51 (2014.11); H04N 19/625 (2014.11)]

8 Claims

1. A method for decoding a 360-degree image, the method comprising:

receiving a bitstream in which the 360-degree image is encoded, the bitstream including data of an extended 2-dimensional image, the extended 2-dimensional image including a 2-dimensional image and a predetermined extension region, and the 2-dimensional image being projected from an image with a 3-dimensional projection structure and including at least one face; and

reconstructing the extended 2-dimensional image by decoding the data of an extended 2-dimensional image,

wherein, based on a projection format for the 3-dimensional projection structure is a first projection format, a size of the extension region is determined based on first width information for specifying a width of the extension region on a left side of the face and second width information for specifying a width of the extension region on a right side of the face, both the first width information and the second width information being obtained from the bitstream,

wherein, based on a projection format for the 3-dimensional projection structure is a second projection format, a size of the extension region is determined based on first width information for specifying a width of the extension region on a left side of the face, second width information for specifying a width of the extension region on a right side of the face, third height information for specifying a height of the extension region on a top side of the face and fourth height information for specifying a height of the extension region on a bottom side of the face, all of the first width information, the second width information, the third height information and the fourth height information being obtained from the bitstream,

wherein sample values of the extension region are determined differently according to a padding method selected from a plurality of padding methods,

wherein the reconstructing the extended 2-dimensional image comprises generating a prediction image,

wherein the prediction image is generated by selecting one prediction mode among a plurality of prediction modes including intra prediction and inter prediction, and performing prediction based on the selected prediction mode, and

information on the selected prediction mode is obtained from the bitstream.