{"id":93,"date":"2016-04-29T11:31:14","date_gmt":"2016-04-29T08:31:14","guid":{"rendered":"http:\/\/blog.metu.edu.tr\/ngencer\/?page_id=93"},"modified":"2024-09-19T17:28:34","modified_gmt":"2024-09-19T14:28:34","slug":"articles","status":"publish","type":"page","link":"https:\/\/blog.metu.edu.tr\/ngencer\/articles\/","title":{"rendered":"Articles"},"content":{"rendered":"
2024<\/strong><\/span><\/h5>\n
Damla Alptekin Soydan, Can Bar\u0131\u015f Top, Nevzat G. Gen\u00e7er, On the Utilization of the Adjoint Method in Microwave Tomography, International Journal for Numerical Methods in Biomedical Engineering<\/strong>, 40(6), June 2024.<\/h5>\n
Volkan Tanr\u0131verdi, Nevzat G. Gen\u00e7er, Induced Current Electro-Thermal Imaging for Breast Tumor Detection: A Numerical and Experimental Study, Annals of Biomedical Engineering, February 2024.\u00a0<\/strong><\/h5>\n
2021 <\/strong><\/span><\/h5>\n
\u00dcmit \u0130rgin, Can Bar\u0131\u015f Top, Nevzat G. Gen\u00e7er, The effect of Contrasts in electrical and mechanical properties between breast tissues on Harmonic Motion Microwave Doppler Imaging signal, IEEE Journal of Electromagnetics, RF, and Microwaves in Medicine and Biology, Pager 1-11, April 2021.<\/strong><\/h5>\n
2019<\/span><\/strong><\/h5>\n
Keivan Kaboutari, A. \u00d6nder Tetik, Elyar Ghalichi, M. Soner G\u00f6z\u00fc, Reyhan Zengin, Nevzat G. Gen\u00e7er, Data acquisition system for MAET with magnetic field measurements<\/a>, Physics in Medicine & Biology 64 (11), 115016.<\/h5>\n
2018<\/span><\/strong><\/h5>\n
Mehmet Soner G\u00f6z\u00fc, Reyhan Zengin, and Nevzat G. Gen\u00e7er, Numerical Solution of magneto-<\/a>acousto-electrical tomography (MAET) using a linear phased array transducer, Phy. Med. Biol<\/em>., Volume 63, Number 3, 035012, 2018.<\/h5>\n
2017<\/strong><\/span><\/h5>\n
Elyar Ghalichi, Nevzat G. Gen\u00e7er, \u00a0Theoretical limits to sensitivity and resolution in magneto-acousto electrical tomography<\/a>, Phys. Med. Biol<\/em>.,\u00a0 Volume 62, Number 20, 8025-2040 (October 2017).<\/span><\/h5>\n
Azadeh Kamali Tafreshi<\/span>, Can Bar\u0131\u015f Top,\u00a0<\/span><\/span>and Nevzat G. Gen\u00e7er,\u00a0<\/span>Two-dimensional multi-frequency imaging of a tumor inclusion in a homogeneous breast phantom using the harmonic motion Doppler imaging method<\/a>,\u00a0<\/span>Phys. Med. Biol.<\/em> , Vol 62, Number:12, 4852\u20134869 \u00a0May 2017<\/span>.<\/span><\/span><\/h5>\n
2016<\/strong><\/span><\/h5>\n
Can Bar\u0131\u015f Top, Azadeh Kamali Tafreshi, Nevzat G. Gen\u00e7er,\u00a0 Microwave Sensing of Acoustically Induced Local Harmonic Motion: Experimental and Simulation Studies on Breast Tumor Detection, IEEE Trans. Microwave Theory and Techniques<\/em>, Vol 64., Number:11, 3974-3986, November 2016.<\/span><\/a><\/span><\/h5>\n
Reyhan Zengin, Nevzat G. Gen\u00e7er, Lorentz Force Electrical Impedance Tomography using Magnetic measurements, Phys. Med. Biol<\/em>.<\/em><\/strong> 61 (2016) 5887-5905.<\/a>\u00a0This article is selected as a featured article<\/em> by the editorial board of the journal.<\/strong><\/span><\/h5>\n
H. Feza Carlak, Nevzat G. Gen\u00e7er, Cengiz Be\u015fikci,\u00a0Theoretical assessment of electro-thermal imaging: A new technique for medical diagnosis, Infrared Physics & Technology<\/em>, Vol. 76, pages 227-234, May 2016<\/a>.<\/span><\/h5>\n
2014<\/span><\/strong><\/h5>\n
Can Bar\u0131\u015f Top; Nevzat G. Gen\u00e7er, Harmonic Motion Microwave Doppler Imaging: A Simulation Study Using a Simple Breast Model, <\/u>IEEE Trans. Med. Imag<\/em>.<\/u>\u00a0 Volume: 33 \u00a0\u00a0Issue: 2 \u00a0\u00a0Pages: 290-300, February 2014<\/a>.<\/span><\/h5>\n
2013<\/strong><\/span><\/h5>\n
Can Bari\u015f Top; \u00a0Nevzat G. Gen\u00e7er, Simulation of the Scattered Field From a Vibrating Tumor Inside the Tissue Using 3D-FDTD Method, IEEE Microwave and Wireless Comp. Letters,<\/em> \u00a0Volume: 23 \u00a0\u00a0Issue: 6 \u00a0\u00a0Pages: 273-275, JUN 2013.<\/a><\/span><\/h5>\n
2009<\/strong><\/span><\/h5>\n
Katrina Wendel, Outi V\u00e4is\u00e4nen, Jaakko Malmivuo, Nevzat G. Gen\u00e7er, Bart Vanrumste, Piotr Durka, Ratko Magjarevi\u0107, Selma Supek, Mihail Lucian Pascu, Hugues Fontenelle, and Rolando Grave de Peralta Menendez, \u201cEEG\/MEG Source Imaging: Methods, Challenges, and Open Issues,\u201d\u00a0Computational Intelligence and Neuroscience<\/em>, Volume 2009, Article ID 656092.<\/a><\/span><\/h5>\n
Koray \u00d6. \u00d6zkan, Nevzat G. Gen\u00e7er, \u201cLow-frequency Magnetic Induction Imaging: Reconstructing high-resolution conductivity images of biological tissues\u201d, IEEE Trans. Med. Imag<\/em>. Vol. 28, No.4, April 2009.<\/a><\/span><\/h5>\n
2008<\/strong><\/span><\/h5>\n
Yolda\u015f Ataseven Z. Akal\u0131n-Acar,\u00a0 C. E. Acar, Nevzat G. Gen\u00e7er, \u201cParallel implementation of the accelerated BEM approach for EMSI of the human brain\u201d, Med. Biol. Eng. Comput., Vol. 46, No:7, 671-679, July 2008<\/a>.<\/span><\/h5>\n
2007<\/strong><\/span><\/h5>\n
B\u00fclent U\u015fakl\u0131, Nevzat G. Gen\u00e7er, \u201cUSB-Based 256-Channel Electroencephalographic Data Acquisition System for Electrical Source Imaging of the Human Brain\u201d, Instrumentation Science and Technology, 35: 255\u2013273, 2007<\/a>.<\/span><\/h5>\n
2005<\/strong><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Zeynep Akal\u0131n-Acar, \u201cUse of the Isolated Problem Approach for multi-compartment BEM models of electro-magnetic source imaging\u201d, Phys. Med.<\/em>\u00a0Biol<\/em>., 50, 3007-3022, (2005)<\/a><\/span><\/h5>\n
2004<\/strong><\/span><\/h5>\n
Zeynep Akal\u0131n-Acar, Nevzat G. Gen\u00e7er, \u201cAn advanced boundary element method implementation for the forward problem of electromagnetic source imaging,\u201d, \u00a0Phys. Med.<\/em> \u00a0Biol<\/em>., 49, No:21, 5011-5028, (2004).<\/a><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Can E. Acar, \u201cSensitivity of EEG and MEG measurements to tissue conductivity,\u201d\u00a0\u00a0Phys. Med. Biol<\/em>. 49, 701-717, February 2004.<\/a><\/span><\/h5>\n
2003<\/strong><\/span><\/h5>\n
Ba\u015fak \u00dclker Karbeyaz, Nevzat G. Gen\u00e7er, \u201cElectrical Impedance Imaging via contactless measurements: An Experimental Study\u201d,\u00a0IEEE Trans. Med. Imag<\/em>. Vol. 22, No.5, pp. 627-635, May 2003<\/a>.<\/span><\/h5>\n
2001<\/strong><\/span><\/h5>\n
Ba\u015fak \u00dclker, Nevzat G. Gen\u00e7er, \u201cImplementation of a Data Acquisition System for Contactless Conductivity Imaging\u201d,\u00a0IEEE Engineering in Medicine and Biology<\/em>, pp. 152-155, September\/October 2002<\/a><\/span>. This article tied for third-place in the 2001 EMBS Student Paper Competition.<\/strong><\/h5>\n
1999<\/strong><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, I. Oguz Tanzer, \u201cForward Problem Solution of Electro- Magnetic Source Imaging using a new BEM Formulation with High Order Elements,\u201d\u00a0\u00a0Phys. Med. Biol<\/em>. Vol. 44, Issue 9, pp. 2275-2287, September 1999<\/a>.<\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Nejat Tek, \u201cElectrical Conductivity Imaging Via Contactless Measurements,\u201d\u00a0IEEE Transactions on Medical Imaging<\/em>, Vol. 18, No: 7, pp. 617-627, July 1999<\/a>.<\/span><\/h5>\n
Nevzat G. Gen\u00e7er, M. Nejat Tek, \u201cForward Problem Solution for Electrical Conductivity Imaging via Contactless Measurements\u201d \u00a0\u00a0\u00a0Phy. Med. Biol<\/em>.\u00a0 44 \u00a0(4), pp. 927-940, April, 1999<\/a>.<\/span><\/h5>\n
1998<\/strong><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Kemal \u00d6zdemir, I. O\u011fuz Tanzer, Can Acar, Mert Sungur, \u201dState of Art in Realistic Head Modeling for Electro-Magnetic Source Imaging of the Human Brain\u201d,\u00a0Turkish Journal of Electrical Engineering \u2014 ELEKTRIK<\/em>, pp. 167-182, 1998<\/a>.<\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Nejat Tek, \u201dImaging Tissue Conductivity via contactless measurements: A Feasibility Study\u201d,\u00a0Turkish Journal of Electrical Engineering \u2014 ELEKTRIK,\u00a0<\/em>183-200, 1998<\/a>.<\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Samuel J. Williamson, \u201cDifferential Characterization of EEG and MEG sources with the Bimodal Truncated SVD Pseudo inverse\u201d\u00a0IEEE Transactions on Biomedical Engineering,\u00a0<\/em>45, No.7, pp. 827-838, July 1998.<\/a><\/span><\/h5>\n
1997<\/strong><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Samuel J. Williamson, \u201d Magnetic Source Images of Human Brain Functions\u201d, Behavior Research Methods, Instruments & Computers, Vol 29(1), pp. 78-83, 1997<\/a>.<\/span><\/h5>\n
1996<\/strong><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Samuel J. Williamson, Andre Gueziec, Robert Hummel, “Optimal Reference Electrode Location for Electric Source Imaging,\u201d\u00a0Electroencephalography and Clinical Neurophysiology<\/em>, Vol 99, pp. 163-173, 1996<\/a>.<\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Y. Ziya \u0130der, Samuel J. Williamson, \u201cElectrical Impedance Tomography: Induced Current Imaging Achieved with a Multiple Coil System\u201d,\u00a0IEEE Transactions on Biomedical Engineering<\/em>, Vol. 43, pp. 139-149, February 1996.<\/a><\/span><\/h5>\n
1994<\/strong><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Y. Z. \u0130der, \u201cA Comparative Study of Several Exciting Magnetic Fields for Induced Current EIT\u201d,\u00a0Physiological Measurement<\/em>,\u00a0 15, pp. A51-A57, 1994<\/a>.<\/span><\/h5>\n
Nevzat G. Gen\u00e7er, M. Kuzuo\u011flu, Y. Ziya \u0130der, \u201cElectrical Impedance Tomography Using Induced Currents\u201d,\u00a0IEEE Transaction on Medical Imaging,\u00a0<\/em>13, No.2, pp. 338-350, June 1994.<\/a><\/span><\/h5>\n
1992<\/strong><\/span><\/h5>\n
Ziya \u0130der, Bora Nakibo\u011flu, Mustafa Kuzuo\u011flu, Nevzat G. Gen\u00e7er, \u201cDetermination of the Boundary of an Object Inserted into a Water Filled Container\u201d,\u00a0Clinical Physics and Physiological Measurement<\/em>, Vol 13, Supp. A, pp. 151-154, 1992.<\/a><\/span><\/h5>\n
Nevzat G. Gen\u00e7er, Y. Ziya \u0130der, M. Kuzuo\u011flu, \u201cElectrical Impedance Tomography Using Induced and Injected Currents\u201d, Clinical Physics and Physiological Measurement, Vol 13, Supp. A, pp. 95-99, 1992.<\/a><\/span><\/h5>\n
1990<\/strong><\/span><\/h5>\n
Ziya \u0130der, Nevzat G. Gen\u00e7er, Ergin Atalar, Haluk Tosun, \u201cElectrical Impedance Tomography Of Translationally Uniform Cylindrical Objects With General Cross Sectional Boundaries\u201d,\u00a0IEEE Transactions on Medical Imaging<\/em>, Vol. 9, No.1, pp. 49-59, March 1990<\/a>.<\/span><\/h5>\n","protected":false},"excerpt":{"rendered":"

2024 Damla Alptekin Soydan, Can Bar\u0131\u015f Top, Nevzat G. Gen\u00e7er, On the Utilization of the Adjoint Method in Microwave Tomography, International Journal for Numerical Methods in Biomedical Engineering, 40(6), June 2024. Volkan Tanr\u0131verdi, Nevzat G. Gen\u00e7er, Induced Current Electro-Thermal Imaging for Breast Tumor Detection: A Numerical and Experimental Study, Annals of Biomedical Engineering, February 2024.\u00a0… Read More<\/a><\/p>\n","protected":false},"author":3861,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-93","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/pages\/93","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/users\/3861"}],"replies":[{"embeddable":true,"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/comments?post=93"}],"version-history":[{"count":0,"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/pages\/93\/revisions"}],"wp:attachment":[{"href":"https:\/\/blog.metu.edu.tr\/ngencer\/wp-json\/wp\/v2\/media?parent=93"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}