TH34197A - Method of reducing the interference elements in a correlated digital signal. - Google Patents

Abstract

DC60 (31/07/41) The noise element is extracted from the correlated digital input signal, such as the digital image signal, in which the image information is the same. Significantly from frame to frame. The noise that has been extracted will be Multiplication by feedback coefficient which varies nonlinearly with respect to noise. That has been extracted Such feedback coefficients are switched with either a random or pseudo-random basis. The noise element is extracted from the correlated digital input signal, such as the digital video signal. The information of the image is the same. Significantly from frame to frame. The noise that has been extracted will be Multiplication by feedback coefficient which varies nonlinearly with respect to noise. The feedback coefficient is extracted as such, it is switched with either a random or pseudo-random basis.

Claims (2)

1. a method of reducing the interference elements in a correlated digital signal, which It consists of a procedure of: detecting the non-correlated elements in such a digital signal to produce a displayed magnitude value. Instead of this element; Correction of the known element gain by a non-linear coefficient K where K represents the value at < = 1 and that value of K is a function of the magnitude of the body. The operator who received such checks; Switching between different tables K, in which the value of K in one of the tables of the stored tables differs from the value of K in the other table of the stored table; By generating a multi-bit M-series signal, generating a multi-control signal of the value selected by the user, combining the said M-series signal with the control signal, and the selection of K's stored grid as a function of the signal That were included; And the removal of the sensed and gain corrected elements from the signal. Such digital To produce a digital signal that has been reduced to noise. 2. Method of claim No. 1, in which the digital signal with such correlation is a signal. Digital image 3. The method of claim No. 2 in which the digital image signal will include the luminance (mono) and chrominance (color) and non-correlated elements. The only holes in the luminance component are examined. 4. Method of claim No. 2, in which the digital image signal includes the luminance and chrominance elements. Such uncoordinated elements will be identified as "uncoordinated" elements. The non-correlated luminance and the non-correlated chrominance element, the luminance element and Non-correlated chrominance Gain adjustment, gain adjustment, and non-correlated luminance and chrominance components that have been corrected for gain will be removed. The luminance and chrominance components of the digital video signal respectively 5. Method of claim 2, in which the procedure of non-correlated component detection. It consists of a process of retrieving a predetermined interval of the oriented video signal. Such digital And the deletion of the stored digital video signal from the 6. Method of claim 5, in which the said pre-defined interval is one frame. 7. Method of claim 5 in which the signal The digital image that is stored will be Noise reduction digital video signal 8. Method of Clause 7, which is also included. Stages of signal decimation Digital before such non-correlated elements The gain correction elements are detected and removed from the decimed digital image signal to produce a decimed digital image signal. Which has been through noise reduction In such a way that The decimedized digital video signal, which has been noise reduction, is retained 9. Method of Clause 1, whereby such step of the switch between the storage tables is the same. K will be processed randomly 1 0. Clause 1 method whereby the aforementioned step of the aforementioned switch between stored tables. The stated information of K is processed in an artificial random manner 1 1. Method of Clause 1 where each signal of the said M-series signal and its The controlled signal is a n-bit signal, a combined signal consisting of a n + 1-bit signal, and the K's stored table is selected as a function of the most significant bit of the traditional signal. n + 1 such bits 1 2. The unit is for reducing the noise elements in correlated digital signals including A detection method for detecting the non-correlated elements in such digital signals. In order to produce a less than this element Non-linear pathway for the magnitude correction of the detected elements. This is done by a non-linear coefficient of K, where K represents the O < = K < = 1 And that value of K is a function of the magnitude of the detected element, such non-linear path It includes a number of K's repository table, where the value of K in the first table of the repository table. This is different from the value of K in another table of the table where the data is stored. A path for switching between different tables of K's such repository table is to select the table whose coefficient K is selected from that table. The overall path to building Multi bit serial signal M, A path for generating a multi-bit control signal of a user-selected value. The path for the addition of the M-series signal to the control signal and the path for the selection of the K-storage table, Table 1, is the function of the combined signal and the negative path for the subtraction of the passive component. Adjust the gain and exit the signal. Such digital To produce a digital signal that has been noise reduction. 1 3. The success of Clause 12 in which the digital signal that correlates there is a signal. Digital Image 1 4. The success of Clause 12 in which such digital video signals are included. With luminance and chrominance elements And the aforementioned methods of detecting the elements It is not correlated, only in the aforementioned aluminance components. 1 5. The successor of Clause 13, which the digital video signal contains With luminance and chrominance elements And the aforementioned methods of detecting the elements Not correlation, as said Is the non-correlated luminance element and the non-correlated chrominant element. Will adjust the gain of the luminance element and Such detected non-correlated chrominants and such negative pathways are constituted. Luminance and non-correlated chrominance Which has been modified, the gain is then removed from the element The luminance and chrominance of such digital video signals, respectively, 1 6. The success of Clause 13, which the method of detection consists of For presetting the preset intervals of such digital video signals and the method for removing stored digital video signals. Out of the interval that followed 1 7. Success of Clause 16 in which the pre-set interval will be one frame. 1. 8. Success of Clause 16. Which has been kept It is a digital image signal that has undergone noise reduction. 1 9. The success of Clause 18, which also includes a method for The digital video signal decimeter preceded the non-correlated element. Will get to know And a method for removing gain-adjusted elements from an optical image signal. Decimated digital To produce decimed digital image signals Which reduction Interference already In such a way that Decimed digital video signal that has been reduced The interference will then be collected data 2 0. Success of Clause 12, which means for such switching. Between tables K's stored data will be processed at random 2. 1. Apparatus of Clause 12, which means for such switch Between tables K's stored data will be processed in a pseudo-random manner 2. 2. The successor of clause 12, where each signal of the said M-series signal and the control signal is a n-bit signal, the combined signal consists of a n + 1-bit signal and its path. For the selection of K stored tables, one can be executed to select one table as a function of the most significant bit of the n + 1 bit signal.