A Framework for Holographic Scene Representation and Image

... show that this approach allows for an elegant modeling of the camera optics. A crucial step in the rendering of digital holograms on a conventional 2D screen is the reconstruction of the depth buffer. We will present a novel algorithm to reliably reconstruct object depth from the digital hologram an ...

Working with Fonts, Colors, and Graphics

Building a Java First-Person Shoote

... The startX and startY is the top-left location in the image to start moving into the pixel array. The next two parameters the width and height (w and h) or the number of pixels across and the number of pixels down in the image are set to the actual width and height of the image. The rgbArray holds t ...

Book cover slide

MATLAB as a Tool in Nuclear Medicine Image Processing

... window. Then a new window opens and the next step is loading an image. In the menu, there are many functions already installed in order to use it as simple image processing software. The tools include image information appearance, image zooming in and out, panning, adjustment of the window level and ...

stefanov

Adobe Photoshop CS Overview

CSCE 590E Spring 2007

... translation between the back buffer and the front buffer Usually eight bits in size and usually interleaved with 24-bit depth buffer Can write to stencil buffer ...

RTS Noise and Dark Current White Defects Reduction Using

... 1-poly 4-metal CIS process with the pinned photodiode [12]. The image from the CIS is separated into nine regions by the lens array. The pixel count in each region is . The data is processed by MATLAB. In the simulation, the selective averaging method is compared with the single aperture counterpart ...

cgintroandhardware_0d

Introduction to GPU - Movement Research Lab

... Modern GPUs support “real” precision ◦ 32 bit floating point throughout the pipeline  High enough for many (not all) applications  Vendors committed to double precision soon ...

stefanov

... ● Advantages in the MAPS design:  High granularity could improve the position resolution and/or reduce the number of layers (thus cost) for the same resolution  More uniform thermal dissipation from larger area, although the overall power could be ...

CHAPTER 3 : Data Representation

... The number of pixels used to represent a picture Raster Graphics Storage of data on a pixel-by-pixel basis Bitmap (BMP), GIF, JPEG, and PNG are rastergrahics formats ...

Slide 1

SAPPHIRE R7 240 2GB DDR3 WITH BOOST

... Anti-aliasing features Supports advanced AA (Anti-aliasing) features to maximise your enjoyment of high ...

Computer-Generated Pen-and-Ink Illustration of Trees Abstract Oliver Deussen

Introduction to Computer Graphics

... All data transferred between host memory and coprocessor memory must go through both CPU ...

Superresolution Reflectance Fields

... BRDF for the surface point visible at a given camera pixel, such as analytic BRDF models [DHT∗ 00], which, however, do not account for global effects. More general functions such as spherical harmonics and wavelets [MPDW04] on the other hand can at best provide a smooth interpolation between given s ...

Class 4

chapter03

... The number of pixels used to represent a picture Raster Graphics Storage of data on a pixel-by-pixel basis Bitmap (BMP), GIF, JPEG, and PNG are rastergrahics formats ...

Slide 1

... The number of pixels used to represent a picture Raster Graphics Storage of data on a pixel-by-pixel basis Bitmap (BMP), GIF, JPEG, and PNG are rastergrahics formats ...

LCD Monitors - Faculty of Information Technology

... Each subpixel has its own transistor, ITO electrode and capacitor. Note: in mono monitor there should be no subpixels but just one TFT (transistor) for each pixel. By scanning the gate bus-lines sequentially, and by applying signal voltages to all signal lines in a specified sequence, we can address ...

Data Structures - SIUE Computer Science

... THIS ALGORITHM MAY BE USED TO SPEED UP RAY TRACING (BY DETERMINING THAT A RAY DOESN’T INTERSECT PARTICULAR PORTIONED SECTORS). ...

The QBIC Project Querying Images By Content Using Color, Texture

MR Image Encoding

... space. Blipping on a gradient to wind a helix and then sample the MR signal for a measure of a spatial frequency component is referred to as phase encoding. Spin warp imaging (the bread and butter MR encoding method) Reconsidering frequency encoding it is clear that a similar helix is wound, the onl ...

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Spatial anti-aliasing

In digital signal processing, spatial anti-aliasing is the technique of minimizing the distortion artifacts known as aliasing when representing a high-resolution image at a lower resolution. Anti-aliasing is used in digital photography, computer graphics, digital audio, and many other applications.Anti-aliasing means removing signal components that have a higher frequency than is able to be properly resolved by the recording (or sampling) device. This removal is done before (re)sampling at a lower resolution. When sampling is performed without removing this part of the signal, it causes undesirable artifacts such as the black-and-white noise near the top of figure 1-a below.In signal acquisition and audio, anti-aliasing is often done using an analog anti-aliasing filter to remove the out-of-band component of the input signal prior to sampling with an analog-to-digital converter. In digital photography, optical anti-aliasing filters are made of birefringent materials, and smooth the signal in the spatial optical domain. The anti-aliasing filter essentially blurs the image slightly in order to reduce the resolution to or below that achievable by the digital sensor (the larger the pixel pitch, the lower the achievable resolution at the sensor level).

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Spatial anti-aliasing