Topic
Alpha compositing
About: Alpha compositing is a research topic. Over the lifetime, 482 publications have been published within this topic receiving 11035 citations. The topic is also known as: alpha blend & alpha channel.
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01 Jan 2014
TL;DR: A new approach for digital image watermarking for real time applications based on 2-level Discrete Wavelet Transform is introduced and the watermark is embedded in the original image using Alpha blending technique and implemented using Matlab Simulink.
Abstract: Digital watermarking is an essential technique to add hidden copyright notices or secret messages to digital audio, image, or image forms. In this paper we introduce a new approach for digital image watermarking for real time applications. We have successfully implemented the digital watermarking technique on digital images based on 2-level Discrete Wavelet Transform and compared the performance of the proposed method with Level-1 and Level-2 and Level-3 Discrete Wavelet Transform using the parameter peak signal to noise ratio. To make the watermark robust and to preserve visual significant information a 2-Level Discrete wavelet transform used as transformation domain for both secret image and original image. The watermark is embedded in the original image using Alpha blending technique and implemented using Matlab Simulink.
5 citations
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26 Feb 2009TL;DR: In this paper, a computer-implemented method is proposed to identify an intersection point on a first graphical object from an incident ray. But the method is not suitable for the detection of the intersection point in the presence of noise.
Abstract: A computer-implemented method includes identifying a intersection point on a first graphical object from an incident ray. The incident ray originates from an image viewpoint. The method also includes directing a compositing ray from the image viewpoint to the intersection point. Further, the method includes determining color information associated with the intersection point from color information provided by the compositing ray.
5 citations
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TL;DR: A method is proposed using which a large size secret image can be hidden into small size cover image securely and does not require the sender to send the cover image to the receiver for obtaining the secret image.
Abstract: steganography is the art and science of hiding secret image into digital media such that no one apart from the intended recipient is able to detect the existence of the information. There are many different carriers that can be used to hide the information such as digital images, videos, sound files and other computer files but digital images are the most popular. In this paper, a method has been proposed using which a large size secret image can be hidden into small size cover image securely. The main aim here is the absolute invisibility of the large size secret image. The secret image is first scrambled by using Arnold transformation. Haar Discrete Wavelet Transformation (DWT) is then applied on cover image and Arnold transformed secret image, followed by Alpha Blending operation. Then the Haar Inverse Discrete Wavelet Transformation (IDWT) is applied to obtain the stego image. At the receiver side, first the cover image is obtained from the stego image. Then Haar DWT is applied on the cover image and the stego image followed by the alpha blending operation. Haar IDWT is applied on the resulting image. Then by applying Arnold transformation, the secret image is obtained. The proposed method does not require the sender to send the cover image to the receiver for obtaining the secret image. The performance of the proposed method is investigated by comparing the cover image and the stego image in terms of Peak Signal to Noise Ratio (PSNR), Mean Square Error (MSE) and Normalized Cross Correlation (NCC). Experimental results demonstrate the effectiveness and accuracy of the proposed method.
5 citations
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17 Sep 2001
TL;DR: In this article, the authors propose a method to obtain an image equivalent to an image obtained by zooming during the exposure by segmenting a plurality of images with different magnification from one piece of image data.
Abstract: PROBLEM TO BE SOLVED: To provide an image compositing device for obtaining an image equivalent to an image obtained by zooming during the exposure by segmenting a plurality of images with different magnification from one piece of image data and compositing the plurality of images. SOLUTION: In a recording mode, an image fetched by a CCD 1 is sent to a YUV processor 3 to be subjected to color process processing, and image data are sent to an image memory 4 via a memory controller 5. A through image is simultaneously displayed. If it is in a composite zoom photographing mode here, a plurality of images are prepared by zooming the image data obtained at the moment a shutter is pressed down and stored in the image memory 4 as an original image to a plurality of stages. A composite zoom image equivalent to an image obtained be zooming during the exposure is prepared by compositing the plurality of the images.
5 citations
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21 Jun 2001TL;DR: In this article, a data processing method for a print controller and drawing controller is provided with a drawing section for executing drawing according to an input drawing command to a first bitmap image and a drawing process specifying section for performing alpha blending specification (transparency degree specification).
Abstract: If a drawing section does not support the alpha blending drawing, or the bit depth of a first bitmap image is less than that of the alpha blending value, the alpha blending drawing is unavailable. To solve the problem even in such cases, a data processing method for a print controller and drawing controller, which is provided with a drawing section for executing drawing according to an input drawing command to a first bitmap image and a drawing process specifying section for performing alpha blending specification (transparency degree specification) for executing drawing according to an input object as a drawing command to the first bitmap image, includes an alpha value replacing section for replacing the alpha blending specification with area information corresponding to an alpha value and a drawing command converting section for converting the drawing command into another drawing command for performing a process corresponding to the area information.
5 citations