Abstract: An image processor includes a receiving unit, an information analyzer and an adjusting circuit. The receiving unit is arranged for receiving image/video data and corresponding metadata, the information analyzer is arranged for analyzing the metadata of the image/video data to generate at least one analyzing result for indicating a strength of an image/video quality enhancement, and the adjusting circuit is arranged for adjusting an image/video quality according to the analyzing result.

Abstract: An image processor includes a receiving unit, an information analyzer and an adjusting circuit. The receiving unit is arranged for receiving image/video data and corresponding metadata, the information analyzer is arranged for analyzing the metadata of the image/video data to generate at least one analyzing result for indicating a strength of an image/video quality enhancement, and the adjusting circuit is arranged for adjusting an image/video quality according to the analyzing result.

Abstract: A pixel structure including a substrate, an active device located on the substrate, a second reflective pattern, and a third reflective pattern is provided. The active device includes a gate, a channel, a source, and a drain. The source and the drain are connected to the channel and are separated from each other. The channel and the gate are stacked in a thickness direction. The second reflective pattern and the third reflective pattern are electrically connected to the drain of the active device. The second reflective pattern has second contact openings. The third reflective pattern is stacked on the second reflective pattern and covers the second contact openings of the second reflective pattern. The second reflective pattern is located between the third reflective pattern and the substrate. Moreover, other kinds of pixel structures are also provided.

Abstract: A pixel structure including a substrate, an active device located on the substrate, a second reflective pattern, and a third reflective pattern is provided. The active device includes a gate, a channel, a source, and a drain. The source and the drain are connected to the channel and are separated from each other. The channel and the gate are stacked in a thickness direction. The second reflective pattern and the third reflective pattern are electrically connected to the drain of the active device. The second reflective pattern has second contact openings. The third reflective pattern is stacked on the second reflective pattern and covers the second contact openings of the second reflective pattern. The second reflective pattern is located between the third reflective pattern and the substrate. Moreover, other kinds of pixel structures are also provided.

Abstract: An image processing apparatus for sharpening edge boundaries of an image is provided. The image processing apparatus includes a transient improvement (TI) circuit and a color protection circuit. The TI circuit receives multiple original pixel data and performs a TI process on an original target pixel data from the original pixel data to output first and second TI chroma signals corresponding to the original pixel data. The color protection circuit respectively compares the first and second TI chroma signals with first and second original chroma signals of the original pixel data to correspondingly generate a weighting value, and outputs first and second adjusted chroma signals according to the weighting value, the first and second original chroma signals, and the first and second TI chroma signals.

Abstract: A text protection device for de-interlacing operation includes a pixel value difference calculation unit, a text detection unit and a vertical interpolation unit. The pixel value difference calculation unit is utilized for calculating pixel value differences of a plurality of pixels of a field according to a position of a target pixel being inserted into the field. The plurality of pixels forms a detection area corresponding to the target pixel. The text detection unit is utilized for determining whether the detection area includes a text stroke and determining whether the target pixel is located within a range of the text stroke to generate a text detection signal. The vertical interpolation unit performs a vertical interpolation operation to generate a pixel value of the target pixel according to the text detection signal.

Abstract: A method for improving image quality in an image processing device comprises receiving an image signal comprising a plurality of field signals corresponding to a plurality of fields, each field signal comprising a plurality of pixel signals corresponding to a plurality of pixels, and each pixel signal comprising an original chrominance value and a compensating chrominance value; replacing the compensating chrominance value of a pixel signal in every field signal by the original chrominance value of another pixel signal of a same position in another field signal, and generating a primary compensating result corresponding to every pixel signal; calculating a primary weighted sum of a pixel signal corresponding to every pixel and a primary compensating result corresponding to the pixel signal according to a degree of variation corresponding to every pixel of every field; and outputting the primary weighted sum corresponding to every pixel, to output primary compensating field signals.

Abstract: A motion adaptive de-interlacing apparatus includes a motion detection unit, an adaptation unit and a motion recursion unit. The motion detection unit is for calculating multiple current motions of multiple pixels of an image block. The adaptation unit analyzes at least one image characteristic of the image block to accordingly adjust and determine an adaptive factor. The motion recursion unit blends the current motions and multiple previous motions corresponding to the pixels according to the adjusted adaptive factor to obtain multiple blending motions.

Abstract: An image transient improvement apparatus for suppressing aliasing patterns in an image is disclosed. The image transient improvement apparatus includes a limit detector for detecting a maximum gray level and a minimum gray level of a plurality of pixels of a sub-zone of the image, a filter for acquiring a frequency component of the plurality of pixels at a specific frequency, a weighted second-order derivative detector for calculating a plurality of second-order derivatives of the plurality of pixels and accordingly generating a gain, a multiplier for multiplying the frequency component by the gain to generate an amplified frequency component, an adder for adding the amplified frequency component to the plurality of pixels to generate an adding result, and a limiter for converting the adding result to a transient improved sub-zone according to the maximum gray level and the minimum gray level.

Abstract: An image processing method for adaptively removing noise from an image is disclosed. The image processing method includes computing a plurality of gradients for one of a plurality of pixels of the image, determining an edge level and an edge direction of the pixel according to the plurality of gradients, selecting a plurality of nearby pixels from the plurality of pixels according to the edge level and the edge direction, computing a plurality of likelihoods between the pixel and the plurality of nearby pixels, generating a plurality of weights according to the plurality of likelihoods, and applying weighted low-pass filtering to the plurality of nearby pixels and the pixel according to the plurality of weights to generate an output pixel.

Abstract: A text protection device for de-interlacing operation includes a pixel value difference calculation unit, a text detection unit and a vertical interpolation unit. The pixel value difference calculation unit is utilized for calculating pixel value differences of a plurality of pixels of a field according to a position of a target pixel being inserted into the field. The plurality of pixels forms a detection area corresponding to the target pixel. The text detection unit is utilized for determining whether the detection area includes a text stroke and determining whether the target pixel is located within a range of the text stroke to generate a text detection signal. The vertical interpolation unit performs a vertical interpolation operation to generate a pixel value of the target pixel according to the text detection signal.

Abstract: A method for improving image quality in an image processing device comprises receiving an image signal comprising a plurality of field signals corresponding to a plurality of fields, each field signal comprising a plurality of pixel signals corresponding to a plurality of pixels, and each pixel signal comprising an original chrominance value and a compensating chrominance value; replacing the compensating chrominance value of a pixel signal in every field signal by the original chrominance value of another pixel signal of a same position in another field signal, and generating a primary compensating result corresponding to every pixel signal; calculating a primary weighted sum of a pixel signal corresponding to every pixel and a primary compensating result corresponding to the pixel signal according to a degree of variation corresponding to every pixel of every field; and outputting the primary weighted sum corresponding to every pixel, to output primary compensating field signals.

Abstract: An apparatus and method for motion adaptive deinterlacing are provided. According to the method, a mean motion of a target pixel is obtained according to the target pixel and multiple neighboring pixels. A specific check area is obtained by setting the target pixel as a center and extending toward both sides of a first direction when the mean motion is higher than a first threshold value. The specific check area stops extending in reaching a pixel with a motion lower than a second threshold value. The second threshold value is lower than the first threshold value. The specific check area stops extending on a tail side of the first direction by reaching a first specific number of pixels from the target pixel. Combing of the specific check area is checked to determine a deinterlacing method for pixels within the specific check area.

Abstract: An apparatus and method for motion adaptive deinterlacing is provided. The apparatus includes a motion average unit, a check area defining unit, and a combing check unit. The motion average unit is configured to obtain a weighted mean motion of a target pixel by performing weighted mean for motions of the target pixel and a plurality of neighboring pixels according to similarity of the target pixel and the neighboring pixels. The check area defining unit is configured to search for a specific check area according to the weighted mean motion. The combing check unit is configured to check combing of the specific check area for a deinterlacing format determining unit to determine a deinterlacing method for the pixels within the specific check area.