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33 results on '"Guven, H. Emre"'

1. Statistically Segregated k-Space Sampling for Accelerating Multiple-Acquisition MRI

Author

Senel, L Kerem, Kilic, Toygan, Gungor, Alper, Kopanoglu, Emre, Guven, H Emre, Saritas, Emine U, Koc, Aykut, and Cukur, Tolga

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

A central limitation of multiple-acquisition magnetic resonance imaging (MRI) is the degradation in scan efficiency as the number of distinct datasets grows. Sparse recovery techniques can alleviate this limitation via randomly undersampled acquisitions. A frequent sampling strategy is to prescribe for each acquisition a different random pattern drawn from a common sampling density. However, naive random patterns often contain gaps or clusters across the acquisition dimension that in turn can degrade reconstruction quality or reduce scan efficiency. To address this problem, a statistically-segregated sampling method is proposed for multiple-acquisition MRI. This method generates multiple patterns sequentially, while adaptively modifying the sampling density to minimize k-space overlap across patterns. As a result, it improves incoherence across acquisitions while still maintaining similar sampling density across the radial dimension of k-space. Comprehensive simulations and in vivo results are presented for phase-cycled balanced steady-state free precession and multi-echo T$_2$-weighted imaging. Segregated sampling achieves significantly improved quality in both Fourier and compressed-sensing reconstructions of multiple-acquisition datasets., Comment: 10 pages, 9 figures. Submitted to IEEE Transactions on Medical Imaging

Published
2017

2. Multi-parameter acoustic imaging of uniform objects in inhomogeneous media

Author

Guven, H. Emre, Miller, Eric L., and Cleveland, Robin O.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Physics - Medical Physics
Abstract

The problem studied in this paper is ultrasound image reconstruction from frequency-domain measurements of the scattered field from an object with contrast in attenuation and sound speed. The case where the object has uniform but unknown contrast in these properties relative to the background is considered. Background clutter is taken into account in a physically realistic manner by considering an exact scattering model for randomly located small scatterers that vary in sound speed. The resulting statistical characteristics of the interference is incorporated into the imaging solution, which includes applying a total-variation minimization based approach where the relative effect of perturbation in sound speed to attenuation is included as a parameter. Convex optimization methods provide the basis for the reconstruction algorithm. Numerical data for inversion examples are generated by solving the discretized Lippman-Schwinger equation for the object and speckle-forming scatterers in the background. A statistical model based on the Born approximation is used for reconstruction of the object profile. Results are presented for a two dimensional problem in terms of classification performance and compared to minimum-l2-norm reconstruction. Classification using the proposed method is shown to be robust down to a signal-to-clutter ratio of less than 1 dB., Comment: 25 pages, 10 figures

Published
2011

4. Fast computation of the acoustic field for ultrasound elements

Author

Guven, H. Emre, Miller, Eric L., and Cleveland, Robin O.

Subjects
Potential theory (Mathematics) -- Usage, Transducers -- Design and construction, Ultrasound imaging -- Analysis, Business, Electronics, Electronics and electrical industries
Abstract

A fast method is described for computing the acoustic field of ultrasound transducers with application to rectangular elements that are cylindrically focused. The efficiency is gained by using a separable approximation to the Green's function and the tradeoff between accuracy and spatial sampling rate is analyzed for determining appropriate parameters for a specific transducer.

Published
2009

19. An augmented Lagrangian method for complex-valued compressed SAR imaging

Author

Güven, H. Emre, Guven, H. Emre, Güngör, Alper, Gungor, Alper, Çetin, Müjdat, Cetin, Mujdat, Güven, H. Emre, Guven, H. Emre, Güngör, Alper, Gungor, Alper, Çetin, Müjdat, and Cetin, Mujdat

Abstract

In this paper, we present a solution to the complex synthetic aperture radar (SAR) imaging problem within a constrained optimization formulation where the objective function includes a combination of the ℓ1-norm and the total variation of the magnitude of the complex valued reflectivity field. The technique we present relies on recent advances in the solution of optimization problems, based on Augmented Lagrangian Methods, and in particular on the Alternating Direction Method of Multipliers (ADMM). We rigorously derive the proximal mapping operators, associated with a linear transform of the magnitude of the reflectivity vector and magnitude-total-variation cost functions, for complex-valued SAR images, and thus enable the use of ADMM techniques to obtain computationally efficient solutions for radar imaging. We study the proposed techniques with multiple features (sparse and piecewise-constant in magnitude) based on a weighted sum of the 1-norm and magnitude-total-variation. We derive a fast implementation of the algorithm using only two transforms per iteration for problems admitting unitary transforms as forward models. Experimental results on real data from TerraSAR-X and SARPER-airborne SAR system developed by ASELSAN-demonstrate the effectiveness of the proposed approach.

Published
2016

27. Joint reconstruction of multi-contrast images: compressive sensing reconstruction using both joint and individual regularization functions

Author

Kopanoglu, Emre, Güngör, Alper, Kilic, Toygan, Saritas, Emine Ulku, Çukur, Tolga, and Guven, H. Emre

Abstract

In many clinical settings, multi-contrast images of a patient are acquired to maximize complementary information. With the underlying anatomy being the same, the mutual information in multi-contrast data can be exploited to improve image reconstruction, especially in accelerated acquisition schemes such as Compressive Sensing (CS). This study proposes a CS-reconstruction algorithm that uses four regularization functions; joint L1-sparsity and TV-regularization terms to exploit the mutual information, and individual L1-sparsity and TV-regularization terms to recover unique features in each image. The proposed method is shown to be robust against leakage-of-features across contrasts, and is demonstrated using simulations and in-vivo experiments.

32. Joint reconstruction of multi-contrast images: compressive sensing reconstruction using both joint and individual regularization functions

Author

Kopanoglu, Emre, Güngör, Alper, Kilic, Toygan, Saritas, Emine Ulku, Çukur, Tolga, Guven, H. Emre, Kopanoglu, Emre, Güngör, Alper, Kilic, Toygan, Saritas, Emine Ulku, Çukur, Tolga, and Guven, H. Emre

Abstract

In many clinical settings, multi-contrast images of a patient are acquired to maximize complementary information. With the underlying anatomy being the same, the mutual information in multi-contrast data can be exploited to improve image reconstruction, especially in accelerated acquisition schemes such as Compressive Sensing (CS). This study proposes a CS-reconstruction algorithm that uses four regularization functions; joint L1-sparsity and TV-regularization terms to exploit the mutual information, and individual L1-sparsity and TV-regularization terms to recover unique features in each image. The proposed method is shown to be robust against leakage-of-features across contrasts, and is demonstrated using simulations and in-vivo experiments.

33. Compressed multi-contrast magnetic resonance image reconstruction using augmented lagrangian method

Author

Gungor, Alper, Kopanoglu, Emre, Cukur, Tolga, Guven, H. Emre, Gungor, Alper, Kopanoglu, Emre, Cukur, Tolga, and Guven, H. Emre

Abstract

In this paper, a Multi-Channel/Multi-Contrast image reconstruction algorithm is proposed. The method, which is based on the Augmented Lagrangian Method uses joint convex objective functions to utilize the mutual information in the data from multiple channels to improve reconstruction quality. For this purpose, color total variation and group sparsity are used. To evaluate the performance of the method, the algorithm is compared in terms of convergence speed and image quality using Magnetic Resonance Imaging data to FCSA-MT [1], an alternative approach on reconstructing multi-contrast MRI data.

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