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A Study on Various Image Processing Techniques and Hardware Implementation Using Xilinx System Generator
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Author(s): Jyotsna Rani (National Institute of Technology Silchar, India), Ram Kumar (National Institute of Technology Silchar, India), Abahan Sarkar (National Institute of Technology Silchar, India)and Fazal A. Talukdar (National Institute of Technology Silchar, India)
Copyright: 2017
Pages: 16
Source title:
Feature Detectors and Motion Detection in Video Processing
Source Author(s)/Editor(s): Nilanjan Dey (Techno India College of Technology, Kolkata, India), Amira Ashour (Tanta University, Egypt)and Prasenjit Kr. Patra (Bengal College of Engineering and Technology, India)
DOI: 10.4018/978-1-5225-1025-3.ch010
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Abstract
This article reviews the various image processing techniques in MATLAB and also hardware implementation in FPGA using Xilinx system generator. Image processing can be termed as processing of images using mathematical operations by using various forms of signal processing techniques. The main aim of image processing is to extract important features from an image data and process it in a desired manner and to visually enhance or to statistically evaluate the desired aspect of the image. This article provides an insight into the various approaches of Digital Image processing techniques in Matlab. This article also provides an introduction to FPGA and also a step by step tutorial in handling Xilinx System Generator. The Xilinx System Generator tool is a new application in image processing and offers a friendly environment design for the processing. This tool support software simulation, but the most important is that can synthesize in FPGAs hardware, with the parallelism, robust and speed, this features are essentials in image processing. Implementation of these algorithms on a FPGA is having advantage of using large memory and embedded multipliers. Advances in FPGA technology with the development of sophisticated and efficient tools for modelling, simulation and synthesis have made FPGA a highly useful platform.
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