Abstract:
An image processing apparatus receives an image signal and generates a display image having an image range associated with a display area of a display unit from an image based on the image signal. The image processing apparatus includes a position-of-interest-calculating-unit, a frame-out-accuracy-calculation-unit, an alteration-variable-decision-unit and an image-alteration-unit. The position-of-interest-calculating-unit calculates a position of interest as a position of an object of interest in the image. The frame-out-accuracy-calculation-unit calculates a frame-out accuracy representing an accuracy that the position of interest deviates from the image range based on the position of interest and the image range. The alteration-variable-decision-unit decides a processing variable of alteration processing performed with respect to the image in conformity with the frame-out accuracy. The image-alteration-unit performs the alteration processing with respect to the image in conformity with the decided processing variable to generate a signal of the display image.
Abstract:
An image processing apparatus receives an image signal and generates a display image having an image range associated with a display area of a display unit from an image based on the image signal. The image processing apparatus includes a position-of-interest-calculating-unit, a frame-out-accuracy-calculation-unit, an alteration-variable-decision-unit and an image-alteration-unit. The position-of-interest-calculating-unit calculates a position of interest as a position of an object of interest in the image. The frame-out-accuracy-calculation-unit calculates a frame-out accuracy representing an accuracy that the position of interest deviates from the image range based on the position of interest and the image range. The alteration-variable-decision-unit decides a processing variable of alteration processing performed with respect to the image in conformity with the frame-out accuracy. The image-alteration-unit performs the alteration processing with respect to the image in conformity with the decided processing variable to generate a signal of the display image.
Abstract:
An imaging device that captures an image using an imaging section includes a control section that controls a signal modulation process that decreases or increases a signal level of an image signal acquired by the imaging section during an exposure period from a start of exposure to an end of exposure when the imaging section captures an image, and a blur correction section that performs a blur correction process on the image signal subjected to the signal modulation process.
Abstract:
Among a plurality of CFA images obtained by shooting the same subject, one image is a standard image, and another image is a reference image, and the displacement amount calculation portion calculates the displacement amount of the reference image with respect to the standard image. A synthesis processing portion performs a synthesis processing based on the displacement amount calculated by the displacement amount calculation portion, according to the pixel values of a standard image pixel and a reference image pixel that are corresponding pixels between the standard image and the reference image, so as to generate a combination CFA image. Here, when colors of the corresponding pixels differ between the standard image pixel and the reference image pixel, the synthesis processing portion generates, from the reference image, the pixel value of the same color as the color of the standard image pixel by interpolation processing, and performs the synthesis processing according to the pixel value generated by the interpolation processing and the pixel value of the standard image pixel.