M Khelif scite author profile

M Khelif

5Publications

38Citation Statements Received

44Citation Statements Given

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Affiliations

University of Abou Bekr Belkaïd

Publications

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Application of active contour models in medical image segmentation

Derraz

Beladgham

Khelif

2004

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Recent developments on medical imaging techniques have brought a completely new research field on image processing. The principal aim is to improve medical diagnosis through segmented images. Techniques have been developed to help for identifying specific structures within a magnetic resonance image: MRI. The Active Contour methods, these methods are adaptable to the desired features in the image. In our work, we describe two classes of active contour models and discussing application aspects in medical imaging area.

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Electromagnetic analysis of the slotted-tube resonator with a circular cross section for MRI applications

Benabdallah

Benahmed²,

Benyoucef³

et al. 2007

Phys. Med. Biol.

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In this paper we present electromagnetic (EM) analysis of the unloaded slotted-tube resonator (STR) with a circular cross section, using the finite element method (FEM) and method of moments (MoM) in two dimensions. This analysis allows the determination of the primary parameters: [L] and [C] matrices, optimization of the field homogeneity, and simulates the frequency response of S(11) at the RF port of the designed STR. The optimum configuration is presented, taking into account the effect of the thickness of the STR and the effect of the RF shield. As an application, we present the design results of a MRI probe using the STR and operating at 500 MHz (proton imaging at 11.74 T). The resonator has -69.37 dB minimum reflection and an unloaded quality factor (Q(o)) > 500 at 500 MHz.

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MRI Images Compression Using Curvelets Transforms

Beladgham¹,

Hacene²,

Taleb‐Ahmed³

et al. 2008

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Analysis and design of a coupled coaxial line TEM resonator for magnetic resonance imaging

Benahmed

Feham²,

Khelif³

2006

Phys. Med. Biol.

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In this paper, we have successfully realized a numerical tool to analyse and to design an n-element unloaded coaxial line transverse electromagnetic (TEM) resonator. This numerical tool allows the determination of the primary parameters, matrices [L], [C] and [R], and simulates the frequency response of S11 at the RF port of the designed TEM resonator. The frequency response permits evaluation of the unloaded quality factor Q0. As an application, we present the analysis and the design of an eight-element unloaded TEM resonator for animal studies at 4.7 T. The simulated performance has a -62.81 dB minimum reflection and a quality factor of 260 around 200 MHz.

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Evaluation of segmentation quality for the geometrical active contour method

Derraz

Taleb‐Ahmed²,

Beladgham³

et al. 2005

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M Khelif

Application of active contour models in medical image segmentation

Electromagnetic analysis of the slotted-tube resonator with a circular cross section for MRI applications

MRI Images Compression Using Curvelets Transforms

Analysis and design of a coupled coaxial line TEM resonator for magnetic resonance imaging

Evaluation of segmentation quality for the geometrical active contour method

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