Patent application number | Description | Published |
20080244273 | CRYPTOGRAPHIC METHOD USING REDUNDANT BITS AND ADAPTIVE CLOCK FREQUENCY - The present invention discloses a cryptographic method using redundant bits and an adaptive clock frequency, which adds redundant bits and modifies clock frequency to change the contents and transmission rate of the bit sequence to encrypt data. The present invention can combine with the existing security mechanism or cryptographic algorithm, such as AES (Advanced Encryption Standard) or DES (Data Encryption Standard), to achieve a multi-fold security function. Thereby, the present invention can apply to various communication devices to increase the immunity against attacks, promote information security and protect personal privacy. | 10-02-2008 |
20110058603 | LOW-COMPLEXITY INVERSE TRANSFORM AND SUB-SAMPLING - Disclosed is a method of inverse transform and sub-sampling having low computational complexity, wherein, a complicated inverse transform process is simplified, meanwhile, a sub-sampling is performed, in particular said simplified process is provided with a compensation scheme, and that is utilized to solve a distortion problem as incurred by said simplified process. This method can be utilized in a video or image codec, for an inverse transform and a sub-sampling from a frequency domain to a spatial domain, thus reducing computational complexity of a frame-size reduction transform, and increasing decoding speed. Said method is applicable in equal and unequal reduction ratios of a frame length and width. | 03-10-2011 |
20120166502 | LOW-COMPLEXITY INVERSE TRANSFORM COMPUTATION METHOD - A low-complexity inverse transform computation method, comprising following steps: firstly, analyzing an end-of-block (EOB) point in a matrix of a block; next, determining whether a bottom-left corner coefficient or a top-right coefficient before said EOB point is zero, and if it is zero, reducing further size of said matrix; then, determining an adequate operation mode to reduce computational complexity; and finally, realizing 2-D inverse transform through simplified 1-D inverse transforms. An inverse transform process of said method mentioned above is capable of lowering computation amount, reducing burden and computational complexity of a decompression system, and shortening effectively computation time of said 2-D inverse transform, such that it is applicable to inverse transforms of various video and still image codecs. | 06-28-2012 |
Patent application number | Description | Published |
20120068053 | 2D/3D DUAL-MODE IMAGE SENSING CIRCUITRY - A 2D/3D dual-mode image sensing circuitry is composed of a photodiode, an active sensing unit, and a pull-down unit. The photodiode is to detect and convert optical signals into electronic signals. The active sensing unit is electrically connected with one end of the photodiode for receiving electronic signals outputted by the photodiode, having an output. The pull-down unit is electrically connected with the output, providing a pull-down path. The pull-down unit has a pull-down control terminal, by which the pull-down unit can be externally controllably switched on/off, for sinking the potential or not to the aforesaid end of the photodiode. In this way, as the 2D mode is switched on, the 3D mode is switched off; on the other hand, as the 3D mode is switched on, the 2D mode is switched off. | 03-22-2012 |
20130268273 | METHOD OF RECOGNIZING GENDER OR AGE OF A SPEAKER ACCORDING TO SPEECH EMOTION OR AROUSAL - A method of recognizing gender or age of a speaker according to speech emotion or arousal includes the following steps of A) segmentalizing speech signals into a plurality of speech segments; B) fetching the first speech segment from the plural speech segments to further acquire at least one of emotional features or arousal degree in the speech segment; C) determining whether at least one of the emotional feature and the arousal degree conforms to some condition; if yes, proceed to the step D); if no, return to the step B) and then fetch the next speech segment; D) fetching the feature indicative of gender or age from the speech segment to further acquire at least one feature parameter; and E) recognizing the at least one feature parameter to further determine the gender or age of the speaker at the currently-processed speech segment. | 10-10-2013 |