| Selected papers (by topic):
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| 4D and 5D
image processing:
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Spatio-temporal
processing of gated SPECT images using deformable mesh modeling
Jovan G. Brankov, Yongyi Yang, and Miles N. Wernick,
Medical Physics , vol. 32, no. 9, pp. 2839-2849, 2005
4D Smoothing of gated SPECT images using a left-ventricle shape model and a
deformable mesh
Jovan G Brankov, Y. Yang, B. Feng, M. A. King, and M. N. Wernick
Conference Record of the 2004 IEEE Nuclear Science Symposium &
Medical Imaging Conference, 2004.
Motion compensated reconstruction of gated SPECT
data
Jovan G. Brankov, Yongyi Yang, Miles N. Wernick, and Manoj V. Narayanan,
Conference Record of the 2002 IEEE Nuclear Science Symposium &
Medical Imaging Conference, 2002.
Spatially adaptive temporal smoothing for reconstruction of dynamic PET and
gated SPECT images
Jovan G. Brankov, Yongyi Yang, Manoj V. Narayanan, and Miles N. Wernick,
Conference Record of the 2000 IEEE Nuclear Science Symposium &
Medical Imaging Conference, 2000.
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| X-ray
imaging methods:
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A computed tomography implementation of multiple-image radiography
Jovan G. Brankov, Miles N. Wernick, Yongyi Yang, Jun Li, Carol Muehleman,
Zhong Zhong and Mark A. Anastasio
Medical Physics vol.33, no. 2, pp. 278-289, Feb. 2006.
A
physical model of multiple-image radiography
Gocha Khelashvili, Jovan G. Brankov, Dean Chapman, Mark A Anastasio, Yongyi Yang,
Zhong Zhong, and Miles N. Wernick
Physics in Medicine and Biology, vol. 51, no. 2, pp. 221-236, Jan. 2006.
Multiple-image radiography for human soft tissue
C. Muehleman, J. Li, Z. Zhong, J. G. Brankov, and M. N. Wernick,
Journal of Anatomy, vol. 208, pp.
115-124, 2006.
Yes,
You Can See Cartilage With X-rays (Diffraction Enhanced Imaging for Cartilage
and Bone)
Carol Muehleman, Jun Li, Miles Wernick, Jovan Brankov, Klaus Kuettner, and
Zhong Zhong,
Journal of Musculosketal and Neuronal Interactions, vol. 4, no. 4, pp.
369-370, 2004
Multiple-image
radiography
Miles N. Wernick, Oliver Wirjadi,
Dean Chapman, Oral Oltulu, Zhong Zhong, Nikolas P. Galatsanos, Yongyi Yang,
Jovan G. Brankov, and Mark A. Anastasio
Journal of Physics in Medicine and Biology, vol 48, issue: 23, pp. 3875-3895,
Dec. 2003.
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Mesh
generation and mesh modeling of images:
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Tomographic
image reconstruction based on content-adaptive mesh model
Jovan G. Brankov, Yongyi Yang, and
Miles N. Wernick
IEEE Transactions on Medical Imaging, vol 23, issue: 2, pp. 202-212,
February 2004.
A
fast algorithm for accurate content-adaptive mesh generation
Yongyi Yang, Miles N. Wernick and
Jovan G. Brankov
IEEE Transactions on Image Processing, vol 12, issue: 8, pp. 866-881, August
2003
Image
restoration using content-adaptive mesh modeling
Jovan G. Brankov, Yongyi Yang, and Nikolas P. Galatsanos
Proc. IEEE ICIP 2003.
Multi-modality tomographic image reconstruction using mesh modeling
Jovan G. Brankov, Yongyi Yang, Richard M. Leahy, and Miles N. Wernick,
Proc. IEEE/NIH International Symposium on Biomedical Imaging, pp.
405-408, 2002.
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| Numerical
observer methodologies:
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Learning
a nonlinear channelized observer for image quality assessment
Jovan G. Brankov, Issam El Naqa, Yongyi
Yang, Miles N. Wernick,
Conference Record of the 2003 IEEE Nuclear Science Symposium &
Medical Imaging Conference, 2003.
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| Other
image processing and signal processing methods:
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Digital
watermarking robust to geometric distortions
Ping Dong, Jovan G. Brankov,
Nikolas P. Galatsanos, Yongyi Yang, and Franck Davoine
IEEE Transactions on Image Processing, pp. 2140-2150, vol. 14, no.12,
2005
Estimating the standard deviation from extreme gaussian values
Henry Stark and Jovan G. Brankov
IEEE Signal Processing Letters, vol. 11, issue: 3, pp 320-322, March 2004.
Segmentation
of dynamic PET or fMRI images based on a similarity metric
Jovan G. Brankov, Yongyi Yang, and
Miles N. Wernick
IEEE Transaction on Nuclear Science, vol 50, issue: 5, pp. 1410-1414, October
2003.
PET
Image reconstruction with allowance for errors in the system model
Conference Record of the 1999 IEEE Nuclear Science Symposium &
Medical Imaging Conference,1999
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| IDEA
DISCLOSURE:
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Method
of generating a mesh representation of an image or other function
Yongyi Yang, Miles N. Wernick and
Jovan G. Brankov
Tomographic
image reconstruction based on content-adaptive mesh modeling
Yongyi Yang, Miles N. Wernick and
Jovan G. Brankov
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