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ORCIDJovan G. Brankov
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2020 – today
- 2024
[c39]Xirang Zhang, Yongyi Yang, Jovan G. Brankov, P. Hendrik Pretorius, Michael A. King:
Improving Temporal Resolution in Clinical Cardiac-gated SPECT Studies via Surrogate Training in Deep Learning Denoising. ISBI 2024: 1-4- 2022
- [c38]Craig K. Abbey, Sourya Sengupta, Weimin Zhou, Andreu Badal, Rongping Zeng, Frank W. Samuelson, Miguel P. Eckstein, Kyle J. Myers, Mark A. Anastasio, Jovan G. Brankov
:
Analyzing neural networks applied to an anatomical simulation of the breast. Medical Imaging: Image Perception, Observer Performance, and Technology Assessment 2022 - 2021
- [j9]Emil Y. Sidky, Iris Lorente, Jovan G. Brankov, Xiaochuan Pan:
Do CNNs Solve the CT Inverse Problem? IEEE Trans. Biomed. Eng. 68(6): 1799-1810 (2021) - [c37]Iris Lorente, Craig K. Abbey, Jovan G. Brankov:
CNN based anthropomorphic model observer for defect localization. Medical Imaging: Image Perception, Observer Performance, and Technology Assessment 2021 - [c36]Iris Lorente, Craig K. Abbey, Jovan G. Brankov:
Understanding CNN based anthropomorphic model observer using classification images. Medical Imaging: Image Perception, Observer Performance, and Technology Assessment 2021 - 2020
- [c35]Iris Lorente, Craig K. Abbey, Jovan G. Brankov:
Deep learning based model observer by U-Net. Medical Imaging: Image Perception, Observer Performance, and Technology Assessment 2020: 113160F
2010 – 2019
- 2019
- [c34]Veronica C. Torres, Lagnojita Sinha, Chengyue Li, Kenneth M. Tichauer, Jovan G. Brankov:
Excised Whole Lymph Node Imaging for Cancer Staging with Angular Restriction Dual Fluorescent Optical Projection Tomography. ISBI 2019: 507-511 - 2018
- [c33]Francesc Massanes, Alexandre Ba, François O. Bochud, Jovan G. Brankov:
Resampling techniques comparison for CHO's performance and uncertainty estimation. Medical Imaging: Image Perception, Observer Performance, and Technology Assessment 2018: 105770V - 2016
- [c32]Felipe M. Parages, J. Michael O'Connor, P. Hendrik Pretorius, Jovan G. Brankov:
Machine-learning model observer for detection and localization tasks in clinical SPECT-MPI. Medical Imaging: Image Perception, Observer Performance, and Technology Assessment 2016: 97870W - 2015
- [c31]Oriol Caudevilla, Jovan G. Brankov:
Learning based prior for analyzer-based phase contrast image reconstruction. ISBI 2015: 1612-1615 - 2014
- [j8]Thibault Marin, Mahdi M. Kalayeh, Felipe M. Parages, Jovan G. Brankov:
Numerical Surrogates for Human Observers in Myocardial Motion Evaluation From SPECT Images. IEEE Trans. Medical Imaging 33(1): 38-47 (2014) - [c30]Iris Lorente, Jovan G. Brankov:
Active learning for image quality assessment by model observer. ISBI 2014: 1352-1355 - 2012
- [c29]Francesc Massanes, Jovan G. Brankov:
Parallel computation of a SPECT projection operator for a content adaptative mesh model. ISBI 2012: 58-61 - 2011
- [j7]Francesc Massanes, Marie Cadennes, Jovan G. Brankov:
Compute-unified device architecture implementation of a block-matching algorithm for multiple graphical processing unit cards. J. Electronic Imaging 20(3): 033004 (2011) - [c28]Jovan G. Brankov:
Optimization of the internal noise models for channelized Hotelling observer. ISBI 2011: 1788-1791 - 2010
- [j6]Miles N. Wernick, Yongyi Yang, Jovan G. Brankov, Grigori Yourganov, Stephen C. Strother:
Machine Learning in Medical Imaging. IEEE Signal Process. Mag. 27(4): 25-38 (2010) - [c27]Jovan G. Brankov, Thibault Marin, P. Hendrik Pretorius, Yongyi Yang, Miles N. Wernick:
Numerical observer for cardiac motion assessment. Computational Imaging 2010: 75330 - [c26]Thibault Marin, Miles N. Wernick, Yongyi Yang, Jovan G. Brankov:
Motion-compensated reconstruction of gated cardiac SPECT images using a deformable mesh model. ISBI 2010: 520-523 - [c25]Thibault Marin, Miles N. Wernick, Yongyi Yang, Jovan G. Brankov:
4D reconstruction of cardiac gated SPECT images using a content-adaptive deformable mesh model. Medical Imaging: Image Processing 2010: 76230E
2000 – 2009
- 2009
- [j5]Jovan G. Brankov, Yongyi Yang, Liyang Wei, Issam El-Naqa, Miles N. Wernick:
Learning a Channelized Observer for Image Quality Assessment. IEEE Trans. Medical Imaging 28(7): 991-999 (2009) - [c24]Felipe M. Parages, Miles N. Wernick, Thomas S. Denney Jr., Jovan G. Brankov:
Deformable Mesh Model of Cardiac Motion from Tagged MRI Data. ISBI 2009: 213-216 - [c23]Thibault Marin, Miles N. Wernick, Yongyi Yang, Jovan G. Brankov:
Motion-compensated post-processing of gated cardiac SPECT images using a deformable mesh model. Medical Imaging: Image Processing 2009: 72592E - 2008
- [c22]Jovan G. Brankov, Ricard Delgado-Gonzalo, Yongyi Yang, Mingwu Jin, Miles N. Wernick:
Progress in mesh based spatio-temporal reconstruction. Computational Imaging 2008: 68140 - [c21]Keivan Majidi, Jovan G. Brankov, Miles N. Wernick:
Sampling strategies in multiple-image radiography. ISBI 2008: 688-691 - 2007
- [c20]Mingwu Jin, Yongyi Yang, Jovan G. Brankov, Miles N. Wernick, Bing Feng, Michael A. King:
Four-Dimensional Reconstruction of Gated Cardiac Spect with Attenuation and Scatter Compensation. ISBI 2007: 169-172 - [c19]Luis Carlos Cobo Rus, Jovan G. Brankov:
Evaluation of Model Based Parametric Image Estimation in Mir. ISBI 2007: 452-455 - [c18]Keivan Majidi, Jovan G. Brankov, Miles N. Wernick:
Tomosynthesis Implementation of Multiple Image Radiography. ISBI 2007: 832-835 - 2006
- [c17]Miles N. Wernick, Jovan G. Brankov, Dean Chapman, Yongyi Yang, Gocha Khelashvili, Mark A. Anastasio, Zhong Zhong, Christopher Parham, Jun Li, Carol Muehleman:
Progress in multiple-image radiography. Computational Imaging 2006: 60650W - [c16]Miles N. Wernick, Yongyi Yang, Jovan G. Brankov, Liyang Wei, Nikolas P. Galatsanos, Issam El-Naqa:
Machine learning of human responses to images. Computational Imaging 2006: 60650S - [c15]Bruno Marquet, Jovan G. Brankov, Miles N. Wernick:
Noise and sampling analysis for multiple-image radiography. ISBI 2006: 1232-1235 - [c14]Christopher Parham, Etta D. Pisano, Chad Livasy, Laura Faulconer, Miles N. Wernick, Jovan G. Brankov, Miklos Kiss, Dean M. Connor, Jeddy Chen, Ann Wu, Zhong Zhong, Dean Chapman:
Application of the Multiple Image Radiography Method to Breast Imaging. Digital Mammography / IWDM 2006: 289-298 - 2005
- [j4]Ping Dong, Jovan G. Brankov, Nikolas P. Galatsanos, Yongyi Yang, Franck Davoine:
Digital watermarking robust to geometric distortions. IEEE Trans. Image Process. 14(12): 2140-2150 (2005) - 2004
- [j3]Henry Stark, Jovan G. Brankov:
Estimating the standard deviation from extreme Gaussian values. IEEE Signal Process. Lett. 11(3): 320-322 (2004) - [j2]Jovan G. Brankov, Yongyi Yang, Miles N. Wernick:
Tomographic image reconstruction based on a content-adaptive mesh model. IEEE Trans. Medical Imaging 23(2): 202-212 (2004) - [c13]Miles N. Wernick, Jovan G. Brankov, Dean Chapman, Mark A. Anastasio, Zhong Zhong, Carol Muehleman, Jun Li:
Multiple-Image Computed Tomography. ISBI 2004: 948-951 - [c12]Miles N. Wernick, Jovan G. Brankov, Alejandro Saiz-Herranz:
Noise Analysis for Diffraction Enhanced Imaging. ISBI 2004: 1428-1431 - 2003
- [j1]Yongyi Yang, Miles N. Wernick, Jovan G. Brankov:
A fast approach for accurate content-adaptive mesh generation. IEEE Trans. Image Process. 12(8): 866-881 (2003) - [c11]Yongyi Yang, Jovan G. Brankov, Nikolas P. Galatsanos:
Content-adaptive mesh modeling for image restoration. Computational Imaging 2003: 173-184 - [c10]Jovan G. Brankov, Yongyi Yang, Miles N. Wernick:
Accurate mesh representation of vector-valued (color) images. ICIP (1) 2003: 705-708 - [c9]Jovan G. Brankov, Yongyi Yang, Nikolas P. Galatsanos:
Image restoration using content-adaptive mesh modeling. ICIP (2) 2003: 997-1000 - 2002
- [c8]Jovan G. Brankov, Yongyi Yang, Nikolas P. Galatsanos, Miles N. Wernick:
Similarity based clustering using the expectation maximization algorithm. ICIP (1) 2002: 97-100 - [c7]Ping Dong, Jovan G. Brankov, Nikolas P. Galatsanos, Yongyi Yang:
Geometric robust watermarking based on a new mesh model correction approach. ICIP (3) 2002: 493-496 - [c6]Jovan G. Brankov, Yongyi Yang, Miles N. Wernick:
Content-adaptive mesh modeling for fully-3D tomographic image reconstruction. ICIP (2) 2002: 621-624 - [c5]Jovan G. Brankov, Yongyi Yang, Miles N. Wernick:
Content-adaptive 3D mesh modeling for representation of volumetric images. ICIP (3) 2002: 849-852 - [c4]Jovan G. Brankov, Yongyi Yang, Richard M. Leahy, Miles N. Wernick:
Multi-modality tomographic image reconstruction using mesh modeling. ISBI 2002: 405-408 - 2001
- [c3]Jovan G. Brankov, Yongyi Yang, Miles N. Wernick:
Tomographic image reconstruction using content-adaptive mesh modeling. ICIP (1) 2001: 690-693 - [c2]Jovan G. Brankov, Yongyi Yang, Miles N. Wernick:
A fast algorithm for accurate content-adaptive mesh generation. ICIP (3) 2001: 868-871
1990 – 1999
- 1999
- [c1]Jovan G. Brankov, Jaksa Djordjevic, Miles N. Wernick, Nikolas P. Galatsanos:
Tomographic Image Reconstruction for Systems with Partially-Known Blur. ICIP (3) 1999: 881-885
Coauthor Index
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