Proceedings ArticleDOI
An efficient VLSI architecture for variable threshold simple edge preserved denoising algorithm with improved signal to noise ratio
P. Praneeth,R. Sakthivel,S Sumanth Kumar Reddy,Harish M. Kittur +3 more
- pp 448-453
TLDR
A new intelligent low cost hardware module suitable for reduction of impulse noise is proposed and the technique which is followed here is Improved Simple Edge Preserved Denoising (ISEPD) technique with variable threshold.Abstract:
Image acquisition and transmission stands challenging in applications such as medical imaging, underwater imaging, image segmentation and face recognition where images are often corrupted by impulse noise. The key aim is to reduce the impulse noise effectively by less number of computations, less memory, less power consumption and yet achieving good visual quality of the images compared to the existing techniques. In this paper, a new intelligent low cost hardware module suitable for reduction of impulse noise is proposed. The technique which we follow here is Improved Simple Edge Preserved Denoising (ISEPD) technique with variable threshold. Simulation results show that the PSNR has improved compared to other previous techniques. Synthesis results show that the processing rate is 133 M samples/second by using TSMC 0.18µm technology.read more
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More filters
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Detail-preserving median based filters in image processing
Tong Sun,Yrjö Neuvo +1 more
TL;DR: A switching scheme for median filtering which is suitable to be a prefilter before some subsequent processing e.g. edge detection or data compression is presented to remove impulse noises in digital images with small signal distortion.
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TL;DR: A new impulse noise detection technique for switching median filters is presented, which is based on the minimum absolute value of four convolutions obtained using one-dimensional Laplacian operators, and is directed toward improved line preservation.
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A New Fast and Efficient Decision-Based Algorithm for Removal of High-Density Impulse Noises
K.S. Srinivasan,D. Ebenezer +1 more
TL;DR: A new decision-based algorithm is proposed for restoration of images that are highly corrupted by impulse noise that removes the noise effectively even at noise level as high as 90% and preserves the edges without any loss up to 80% of noise level.
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An iterative procedure for removing random-valued impulse noise
TL;DR: Simulation results indicate that the proposed two-stage iterative method for removing random-valued impulse noise is significantly better than those using just nonlinear filters or regularization only.
Journal ArticleDOI
An efficient detail-preserving approach for removing impulse noise in images
TL;DR: A new efficient algorithm for the removal of impulse noise from corrupted images while preserving image details is presented, based on the alpha-trimmed mean, which is a special case of the order-statistics filter.