TH37771B - Methods and kits for modeling film grain patterns in the frequency domain. - Google Patents

Abstract

DC60 (14/10/47) Film grain patterns can be modeled in the frequency domain by An estimation of the cutoff frequency bounded to a 2D band pass filter. The film grain can be inserted into SEI messages in accordance with the ITU-T H.264IMPEG-4 AVC standard, which allows for further film grain insertion at the decoder. Film grain patterns can be modeled in the frequency domain by An estimation of the cutoff frequency bounded to a 2D band pass filter. The film grain can be inserted into SEI messages in accordance with the ITU-T H.264IMPEG-4 AVC standard, which allows for further film grain insertion at the decoder.

Claims (1)

Claims (all) that will not appear on the advertisement page: 1. Methods for modeling film grain in digital images. Consists of the steps of Sample conversion of a batch of film grains Where a sample of film grain consists of a group of At least one adjacent group of pixels that store information about film grain size and shape as a frequency domain (101), storing each set of coefficients resulting from that conversion (102). Such transformed coefficients (104, 105, 106); And an estimation of the cut-off frequency of the filter circuit, which can simulate the distribution of the transformed coefficient (107, 108). 2. The method of claim 1 consists of at least the stage of transmission of the cut-off frequency. One of the frequencies is an additional supplementary message. 3. Any method of claim 1 to 2 where the cut-off frequency is evaluated to simulate the frequency of one claim. The distribution of the coefficients converted by the random noise filtering 4. Any method of claim 1 to 3 where the clipped frequency is evaluated to simulate. The distribution of the coefficients was transformed by filtering random noise. 4. Any one of claim 1 to 3 method in which film grain samples were processed in N x N pixel blocks. Claim 4, where the transformed coefficient analysis procedure consists of Further, the procedure for calculating the mean block of the transformation coefficient N x N by mean coefficient. Converting from all retained blocks based on transformation of each N x N pixel block Defining the horizontal and vertical mean vectors of each N component by averaging the N x N number coefficient intermediate blocks along the rows and columns along the order Representing the horizontal and vertical mean vectors as separate curves; And the generation of horizontally and vertically clipped frequencies from the curves presented by the vectors. Machiches, horizontally and vertically, respectively, respectively 6. Method of claim 5 consists of additions. The process of low-pass filtration, at least One mean vector 7, claim method 4, where the transformed coefficient analysis procedure is supplemented by the procedure for calculating the mean block of the transforming coefficient N x N by means of the mean of the transformation coefficients from that block. All are collected according to the conversion of each pixel block. Determination of the horizontal and vertical mean vectors of each component N by averaging The middle block of the transformation coefficient N x N in rows and columns, respectively. Averaging the horizontal and vertical mean vectors into a single mean vector. Representing a single word vector as a curve; And the generation of horizontally and vertically clipped frequencies from the curves presented by a single mean vector 8. Method according to claim 7 is supplemented with The process of low-pass filtration. Vector Medium 9. Any method of claim 5-8 where part of the frequency is cut horizontally. And the vertical is formed from the intersection in the curve represented by the horizontal and vertical mean vectors, along with The mean calculated values for the horizontal and vertical mean vectors, respectively, 1 0. Method for one of the 5-8 claims, where each frequency is cut horizontally and The verticals are formed from the first and second intersection in the curves represented by the horizontal and vertical mean vectors. Together with the mean calculated for the horizontal and vertical mean vectors, respectively 1. 1. Any of the preceding claims methods where the conversion coefficient from the pattern and A filter that can simulate a 2D stripe filter pattern.