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Fractional Laplacian Time-Space Models for Linear and Nonlinear Lossy Media Exhibiting Arbitrary Frequency Dependency." The Journal of the Acoustical Society of America 114 (2004): 1424-1430."
Mathematics in Medicine: Mathematical and Numerical Modeling of a Clinical Technique for Breast Cancer Detection In Invited talk, International Conference on Mathematics and its Applications, Department of Mathematics and Computer Science., 2004.
Modified Fractional Derivative Model for the Attenuation in Human Soft Tissue: First Numerical Experiments. Simula Research Laboratory, 2004.
Quantification of the CARI Breast Imaging Sensitivity by 2D/3D Numerical Time-Domain Ultrasound Wave Propagation." Mathematics and Computers in Simulation 65 (2004): 521-534."
Sensitivity of the Ultrasonic CARI Technique for Breast Tumor Detection Using a FETD Scheme." Ultrasonics 42 (2004): 919-925."
FETD Simulation of Wave Propagation Modeling the CARI Breast Sonography In Proceedings of ICCSA2003, International Conference on Computational Science and its Applications. Lecture Notes in Computer Science. Montreal, Canada, 2003.
Focusing of Ultrasonic Waves: Description and FE Simulations for a Breast Imaging Technique. Simula Research Laboratory, 2003.
Fractional Calculus Equation Models and Lévy Stable Distribution for Lossy Media Obeying a Frequency Power Law In Seminar on Modelling, Analysis and Numerical Solution of Problems with Memory and After-Effect. Chester, UK, 2003.
Fractional Derivative Mathematical and Numerical Modelling of Acoustic Attenuations Obeying Arbitrary Frequency Power Law In Proceedings of the Sixth International Conference on Theoretical & Computational Acoustics. Honolulu, USA, 2003.
Mathematical and Numerical Modeling of Medical Ultrasound Wave Propagation In Invited talk to MACSI-Workshop for Numerical Simulations for Ultrasound Imaging and Inversion, St. Georgen, Austria, pages 8-13., 2003.
Modified Szabo's Wave Equation Models for Lossy Media Obeying Frequency Power Law." The Journal of the Acoustical Society of America 114 (2003): 2570-2584."
Positive Fractional Time Derivative Modeling of Frequency Dependent Acoustic Dissipation In Proceedings of International Carpathian Control Conference. Slovakia, 2003.
Sensitivity of the Ultrasonic CARI Technique for Breast Tumor Detection Using a FETD Scheme In Ultrasonics International. Granada, Spain, 2003.
Simulation of the Breast Imaging CARI Technique by a FETD Approximation of Ultrasound Wave Propagation In Proceedings of World Congress on Ultrasonics. Paris, France, 2003.
Frequency Decomposition Time-Domain Model of Broadband Frequency-Dependent Absorption In The 9th Workshop of the Finite Element Method in Biomedical Engineering, Biomechanics and Related Fields. Ulm, Germany, 2002.
Simulation of the CARI Technique for Breast Tumor Detection Using Ultrasound Wave Propagation. Simula Research Laboratory, 2002.
Finite Element Modeling of Pulsed Bessel Beams and X-Waves Using Diffpack In Proceedings of 25th International Acoustical Imaging Symposium. Bristol, UK,: Kluwer, 2000.
Finite Element Simulation of Acoustic Fields With Diffpack In Proceeding of 23rd Scandinavian Symposium on Physical Acoustics. Norway,, 2000.