Taleb-Ahmed Abdelmalik

Work place: Bechar University/Department of Electronic, Bechar, 08000, Algeria

E-mail: taleb@univ-valenciennes.fr

Website:

Research Interests: Mathematical Analysis, Medical Image Computing, Image Processing, Image Manipulation, Image Compression

Biography

AbdelmalikTALEB-AHMED Was born in Roubaix, France, in 1962. He received a post graduate degree and a Ph. D. in Electronics and Microwaves from the University of Lille1 in 1988 and 1992. From 1992 to 2004, He was an Associate Professor at the University of Littoral, Calais. Since 2004, He is currently a Professor at the University of Valenciennes in the department GE2I, and does his research at the LAMIH FRE CNRS 3304 UVHC, His research interests includes signal and image processing. Image segmentation, Prior knowledge integration in image analysis, Partial Differential Equations and Variational Methods in image analysis, Image compression, Multimodal signal processing, Medical image analysis, including multimodal image registration, etc.

Author Articles
Application of 16-State TCM-UGM and TCM for Improving the Quality of Compressed Color Image Transmission

By Benaissa Mohamed Bassou Abdesselam Beladgham Mohammed Taleb-Ahmed Abdelmalik Moulay Lakhdar Abdelmounaim

DOI: https://doi.org/10.5815/ijigsp.2014.10.02, Pub. Date: 8 Sep. 2014

The aim of this paper is to investigate the quality of transmitted color images using 16-state TCM-UGM or TCM channel code over Rayleigh fading channel. Considering SPIHT-based compression algorithm and image quality metrics (IQMs), the simulation results for throughput of 2 bit/s/Hz, showed that the communication system using TCM-UGM allows better performance compared to TCM and better protects the compressed color image during transmission. For transmission tests compressed colors images, the TCM-UGM system outperforms the performance of the TCM by 3 dB at BER = 10-5 and 4.59 dB at FER = 3.10-3. For example, for Lena color image, the 16-state TCM-UGM system gives best performance that the 16-state TCM system. The gain is the 5.02 dB and 17.90 % for the PSNR and MMSIM respectively.

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Performance Evaluation of DWT Compared to DCT for Compression Biomedical Image

By Beladgham Mohammed Habchi Yassine Moulay Lakhdar Abdelmouneim Bassou Abdesselam Taleb-Ahmed Abdelmalik

DOI: https://doi.org/10.5815/ijmecs.2014.04.02, Pub. Date: 8 Apr. 2014

The image compression has for objective to reduce the volume of data required by the encoding of image, for applications of transmission or saving. For this we use the redundancies which exists within an image (a pixel has a good chance of having a luminance close to those of its neighbors) or between successive images in a sequence. We limit ourselves to the exploitation of redundancies within an image and we will work on gray level images of size 512x512. For image coding we chose an encoder based on progressive coding of data, coder is EZW (EMBEDDED WAVELET ZeroTree ENCODING, Shapiro 1993), the basis of this encoder a comparison is made between two types of transforms DWT (DISCREET WAVELETS TRANSFORM) and DCT (DISCRETE COSINE TRANSFORM) just to have the type of transformation that allows us to have a better visual quality of the image after decomposition. . Visual quality image is judged by two important devaluation parameters PSNR and MSSIM.

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The Performance of Discret Bandelet Transform Coupled by SPIHT Coder to Improve the Visuel Quality of Biomedical Color Image Compression

By Beladgham Mohammed Habchi Yassine Moulay Lakhdar Abdelmouneim Bassou Abdesselam Taleb-Ahmed Abdelmalik

DOI: https://doi.org/10.5815/ijigsp.2014.05.08, Pub. Date: 8 Apr. 2014

The search for a good representation is a central problem of image processing, this paper explores a new transform type to solve this problem. Color Image compression is now essential for applications such as transmission and storage in data. In the field of medical diagnostics, interested parties have resorted increasingly to color medical imaging. It is well established that the accuracy and completeness of diagnosis are initially connected with the image quality. This paper introduces an algorithm for color medical image compression based on the bandelet transform coupled with SP?HT coding algorithm;bandelet transform is a new method based on capturing the complex geometric content in image. The goal of this paper is to examine the capacity of this transform proposed to offer an optimal representation for image geometric, In order to enhance the compression by our algorithm, we have compared the results obtained with bandelet transform application in satellite image field. For this reason, we evaluated two parameters known for their calculation speed. The first parameter is the PSNR; the second is MSSIM (structural similarity) to measure the quality of compressed image. We concluded that the results obtained are very satisfactory for color medical image domain.

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New Contribution on Compression Color Images: Analysis and Synthesis for Telemedicine Applications

By Beladgham Mohammed Habchi Yassine Moulay Lakhdar Abdelmouneim Bassou Abdesselam Taleb-Ahmed Abdelmalik

DOI: https://doi.org/10.5815/ijieeb.2014.02.03, Pub. Date: 8 Apr. 2014

The wavelets are a recent tool for signal processing analysis, for multiple time scale. It gives rise to many applications in various fields such as geophysics, astrophysics, telecommunications, imaging, and video coding. They are the basis of new analytical techniques and signal synthesis and some nice applications for general problems such as compression. This paper introduces an application for color medical image compression based on the wavelet transform coupled with SP?HT coding algorithm. In order to enhance the compression by this algorithm, we have compared the results obtained with wavelet transform application in natural, medical and satellite color image field. For this reason, we evaluated two parameters known for their calculation speed. The first parameter is the PSNR; the second is MSSIM (structural similarity).

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A Comparative Study between X_Lets Family for Image Denoising

By Beladgham Mohammed Habchi Yassine Moulay Lakhdar Abdelmouneim Bassou Abdesselam Taleb-Ahmed Abdelmalik

DOI: https://doi.org/10.5815/ijigsp.2014.03.06, Pub. Date: 8 Feb. 2014

Research good representation is a problem in image processing for this, our works are focused in developing and proposes some new transform which can represent the edge of image more efficiently, Among these transform we find the wavelet and ridgelet transform these both types transforms are not optimal for images with complex geometry, so we replace this two types classical transform with other effectiveness transform named bandelet transform, this transform is appropriate for the analysis of edges of the images and can preserve the detail information of high frequency of noisy image. De-noising is one of the most interesting and widely investigated topics in image processing area. In order to eliminate noise we exploit in this paper the geometrical advantages offered by the bandelet transform to solve the problem of image de-noising. To arrive to determine which type transform allows us high quality visual image, a comparison is made between bandelet, curvelet, ridgelet and wavelet transform, after determining the best transform, we going to determine which type of image is adapted to this transform. Numerically, we show that bandelet transform can significantly outperform and gives good performances for medical image type TOREX, and this is justified by a higher PSNR value for gray images.

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A Comparative Study between Bandelet and Wavelet Transform Coupled by EZW and SPIHT Coder for Image Compression

By Beladgham Mohammed Habchi Yassine Moulay Lakhdar Abdelmouneim Taleb-Ahmed Abdelmalik

DOI: https://doi.org/10.5815/ijigsp.2013.12.02, Pub. Date: 8 Oct. 2013

Second generation bandelet transform is a new method based on capturing the complex geometric content in image; we use this transform to study medical and satellite image compressed using the bandelet transform coupled by SPIHT coder. The goal of this paper is to examine the capacity of this transform proposed to offer an optimal representation for image geometric. We are interested in compressed medical image, In order to develop the compressed algorithm we compared our results with those obtained by the bandelet transform application in satellite image field. We concluded that the results obtained are very satisfactory for medical image domain.

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