Patent application number | Description | Published |
20080218528 | Determination method of edge direction - An edge direction determination method for a pixel of a display picture. The display picture has a corresponding edge map. The pixel has corresponding pixel direction pairs. First, in step (a), it is judged whether the pixel is an edge pixel according to the edge map. Next, in step (b), it is judged whether the pixel has a right-inclined edge direction or a left-inclined edge direction when the pixel is the edge pixel. Then, in step (c), the edge direction of the pixel is determined according to specific pixel direction pairs corresponding to the same inclined edge direction if a judged result in step (b) is affirmative. Finally, in step (d), if the judged result in step (b) is negative, it is judged whether the pixel has a horizontal edge direction or a vertical edge direction. | 09-11-2008 |
20080232642 | System and method for 3-D recursive search motion estimation - A method for 3-D recursive search motion estimation is provided to estimate a motion vector for a current block in a current frame. The method includes the following steps. First, provide a spatial prediction by selecting at least one motion vector for at least one neighboring block in the current frame. Then, provide a temporal prediction. After that, estimate the motion vector for the current block based on the spatial prediction and the temporal prediction. The temporal prediction is obtained by selecting at least one most frequent motion vector from a plurality of motion vectors for a plurality of blocks in a corresponding region of a previous frame, wherein the corresponding block encloses a previous block which is location corresponding to the current block in the current frame. | 09-25-2008 |
20080285653 | Motion estimation method - A method for estimating the motion vector for a current macroblock within a current frame is provided by reference to a number of reference macroblocks within the previous frame. The method includes the following steps. First, an error between the current macroblock within a current frame and each of the reference macroblocks is determined according to a weighted sum of absolute differences (SAD) operation. The weighted SAD operation is to emphasize the absolute differences for high-frequency pixels within the current macroblock. Next, the reference macroblock having the lowest error may be determined as a matched macroblock. Finally, the motion vector for the current macroblock can be defined as the displacement between the macroblock and the matched macroblock. | 11-20-2008 |
Patent application number | Description | Published |
20090146738 | OPERATIONAL AMPLIFIER - The operational amplifier adapting to a source driver is provided herein. The operational amplifier includes the input module, the first and the second current mirror module, the switch control module and output stage module, wherein the input module includes the first and the second differential pairs. The first current mirror module provides the first bias current to the first differential pairs and outputs the first mirrored current. The second current mirror module receives the second bias currents and the second mirrored current from the second differential pairs. The first and the second mirrored currents are respectively generated by mirroring the first and the second bias currents. The switch control module adjusts the first and the second bias currents for controlling the operation of the output stage module. The output stage module generates an output voltage terminal to a panel load according to the first and the second mirrored currents. | 06-11-2009 |
20110164022 | Common Voltage Driving Circuit for High-Resolution TFT-LCD - A common voltage driving circuit configured to output a common voltage to high-resolution TFT-LCD is provided. The common voltage driving circuit includes: a first pad coupled to a common electrode loading of an LCD for sensing a common voltage of the common electrode loading; a second pad coupled to the common electrode loading; a first amplifying device receiving a high level voltage and the sensed common voltage of the common electrode loading for generating a first overdrive voltage to the second pad thereby improving transient response of the common voltage with high level; and a second amplifying device receiving a low voltage level voltage and the sensed common voltage of the common electrode loading for generating a second overdrive voltage to the second pad thereby improving transient response of the common voltage with low level. | 07-07-2011 |
20120001857 | Filter for Removing DC Signal and High Frequency Noise and Method Thereof for Touch Sensor - A filtering system, adapted to remove a direct current (DC) component and a high frequency noise component of a touch-sensed signal is provided. The filtering system includes: an analog to digital converter for transforming the touch-sensed signal into a discrete-time input signal; a direct current removing unit for removing direct current components of the discrete-time input signal to obtain a differentiated signal; a de-noise unit for removing noise components of the differentiated signal to obtain a de-noise signal; and a reconstructive unit for processing the de-noise signal to obtain an output signal. | 01-05-2012 |
20120004880 | Temperature Sensor and Temperature Sensing Method - A temperature sensor is provided. The temperature sensor includes: a temperature sensing unit for sensing a temperature and outputting a temperature sensing signal; an analog-to-digital converter (ADC), coupled to the temperature sensing unit, for converting the temperature sensing signal to a digital value, having an ADC output range; a calibration unit, coupled to the ADC, for correlating the ADC output range with at least one temperature range; a memory unit, coupled to the calibration unit, recording the ADC output range, and the at least one temperature range, and the correlation therebetween. | 01-05-2012 |
20120056842 | Sensing Apparatus for Touch Panel and Sensing Method Thereof - A sensing apparatus for a touch panel includes: sensitive capacitors formed between intersections of first electrodes and the second electrodes; a first sensing circuit, for positioning two locations of the first electrodes by sensing changed capacitance values of the sensitive capacitors corresponding to the two locations of the first electrodes; a second sensing circuit, for positioning two locations of the second electrodes by two objects by sensing changed capacitance values of the sensitive capacitors corresponding to the two locations of the second electrodes; and a third sensing circuit for sequentially positioning two locations of the scanned electrodes by sensing changed capacitance values of the sensitive capacitors corresponding to the two locations of the scanned electrodes, wherein a control circuit determines the two touch points according to the two locations of the first electrodes, and the two locations of the second electrodes and the two locations of the scanned electrodes. | 03-08-2012 |
20120169615 | Sensing Device for Sensing a Touch Panel - A sensing device for sensing a touch panel. The sensing device includes a touch sensor and a touch controller. The touch sensor senses touch events on the touch panel to generate raw data representing sensed values of the pixels on the touch panel, and further filters the raw data to generate filtered data. The data size of the filtered data is smaller than the data size of the raw data. The touch controller receives the filtered data from the touch sensor and processes the filtered data so as to determine positions of the touch events on the touch panel. | 07-05-2012 |