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Image decoding method, image encoding method, image decoding device, image encoding device, image decoding program, and image encoding program

An encryption method and image technology, which is applied in image communication, television, electrical components, etc., can solve problems such as the inability to improve encryption/decryption efficiency, the difficulty of improving the prediction accuracy of the reference mode, and the difficulty of accurately predicting the encrypted object block, so as to improve the prediction The effect of precision

Inactive Publication Date: 2013-06-12
FUJITSU LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0019] However, in the aforementioned prior art, it is difficult to accurately predict the encryption target block only by spatial prediction such as the encrypted blocks around the encryption target block of the encryption target picture.
If the block to be encrypted cannot be accurately predicted, it is difficult to improve the prediction accuracy of the reference pattern, and the efficiency of encryption / decryption cannot be improved

Method used

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  • Image decoding method, image encoding method, image decoding device, image encoding device, image decoding program, and image encoding program
  • Image decoding method, image encoding method, image decoding device, image encoding device, image decoding program, and image encoding program
  • Image decoding method, image encoding method, image decoding device, image encoding device, image decoding program, and image encoding program

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0062] Figure 4 It is a block diagram showing an example of the configuration of the picture encryption device 100 in the first embodiment. Such as Figure 4 As shown, the image encryption device 100 in Embodiment 1 includes: a prediction error signal generation unit 101, an orthogonal transformation unit 102, a quantization unit 103, an entropy encryption unit 104, an inverse quantization unit 105, an inverse orthogonal transformation unit 106, a decrypted image Generation unit 107, deblocking filter (deblocking filter) unit 108, picture memory 109, intra prediction image generation unit 110, inter prediction image generation unit 111, motion vector calculation unit 112, encryption control and header (head) generation unit 113, and A predicted image selection unit 114 . The outline of each part is explained below.

[0063] The prediction error signal generation unit 101 acquires macroblock data (hereinafter also referred to as block MB) in which the encryption target imag...

Embodiment 2

[0090] Figure 7 It is a block diagram showing an example of the configuration of the image decryption device 300 in the second embodiment. The image decryption device 300 in Embodiment 2 decrypts the bit stream (encrypted data) encrypted by the image encryption device 100 in Embodiment 1.

[0091] Such as Figure 7 As shown, the image decryption device 300 includes an entropy decryption unit 301, an inverse quantization unit 302, an inverse orthogonal transformation unit 303, an intra-prediction image generation unit 304, a decryption information storage unit 305, an inter-frame prediction image generation unit 306, and a prediction image selection unit 307 , a decrypted image generation unit 308 , a deblocking filter unit 309 , and a picture memory 310 . The outline of each part is explained below.

[0092] The entropy decryption unit 301 performs entropy decryption corresponding to the entropy encryption of the image encryption device 100 after receiving a bit stream. T...

Embodiment 3

[0113] Next, the image encryption device in Embodiment 3 will be described. The composition of the image encryption device in embodiment 3 and Figure 4 The configuration shown is the same. use with Figure 5 The same symbols as the functions shown will describe the functions related to the prediction of the reference mode of the image encryption device in the third embodiment.

[0114] The GOP configuration used in the examples shown below will be described. Figure 9 is a diagram showing an example of the GOP configuration used in the embodiment. exist Figure 9 In the example shown, I, P, and B represent picture types, and numbers adjacent to I, P, and B represent time order. In addition, the encryption order is I0, P8, B4, B2, B6, B1, B3, B5, B7. Figure 9 Arrows shown represent forward or backward direction vectors.

[0115] In Embodiment 3, a case of encrypting a B6 picture is taken as an example for description below. In the case of encrypting the B6 picture, the ...

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Abstract

An image decoding method for decoding an image that is segmented into a plurality of blocks. In said image decoding method: decoded information from decoded blocks is obtained from a storage means that stores both decoded information from decoded blocks in an image being decoded and decoded information from each block in decoded images; a decoded image is selected from among a plurality of decoded images such that the image being decoded lies between said decoded image and a reference image for said decoded image; decoded information from a prescribed block in the selected decoded image is obtained from the storage means; the obtained decoded information from decoded blocks and decoded information from a prescribed block is used to predict a reference mode which indicates the prediction direction of a block to be decoded, said block being capable of referring to decoded images in a plurality of directions; reference-mode information for determining the reference mode is decoded from encoded data; and the reference mode of the block to be decoded is determined from the predicted reference mode and the decoded reference-mode information.

Description

technical field [0001] The present invention relates to an image decryption method, an image encryption method, an image decryption device, an image encryption device, an image decryption program, and an image encryption program related to prediction of a reference pattern. Background technique [0002] Since image data, especially moving image data, generally has a large amount of data, it is efficiently encrypted when being transmitted from a sending device to a receiving device or when being stored in a storage device. Here, "high-efficiency encryption" refers to an encryption process of converting a certain data column into another data column, and refers to a process of compressing the amount of data. [0003] Video data mainly includes video data composed of only frames and video data composed of fields. [0004] As an efficient encryption method for video data, an intra-picture prediction (intra prediction) encryption method is known. In this encryption method, the ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04N7/32
CPCH04N19/105H04N19/159H04N19/176H04N19/46H04N19/513H04N19/13
Inventor 三好秀诚小山纯平数井君彦岛田智史中川章
Owner FUJITSU LTD