Can we exploit the geometry existing in a problem to find better solutions?
Thomas G. Fevens
- Associate Professor and Associate Chair
- Department of Computer Science and Software Engineering
- bioimaging15
- deep learning10
- computer vision12
- image processing19
- computational geometry3
- 3D digital imaging15
- computer-assisted medical diagnosis3
- technology for surgical innovation2
- computer graphics13
- biomedical engineering32
- digital games24
- machine learning41
- pattern recognition16
- mobile ad hoc networks8
- animation9
- visual computing2
- combinatorial geometry
- wireless sensor networks8
- location-based computing
- shape representation and detection7
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Sudhir Mudur
computer graphics, 3D digital imaging, 3D data acquisition
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Tiberiu Popa
computer graphics, computational geometry, 3D data acquisition technologies
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Charalambos Poullis
computer vision, computer graphics, deep learning
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Nizar Bouguila
computer vision, data analytics, machine learning
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Hassan Rivaz
bioimaging, ultrasound elastography, image processing
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Marta Kersten-Oertel
medical image visualization, cerebral vascular imaging, human-computer interaction
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Peter Grogono
machine learning, programming languages, process-oriented programming
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M. Omair Ahmad
signal processing, image processing, video signal processing
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Tien D. Bui
computer vision, biometrology, artificial intelligence
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Andrew Delong
machine learning, deep learning, genomics
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Serguei A. Mokhov
Forensic Lucid, formal methods, software engineering
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Salim Lahmiri
artificial intelligence, data science, predictive analytics
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Ching Yee Suen
pattern recognition, handwriting, design of type fonts
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Arash Mohammadi
signal processing, information systems security, nonlinear systems
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Tsz Ho Kwok
advanced 3D printing techniques, CAD/CAM, design automation
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Nawwaf Kharma
soft computing, synthetic biology, image processing
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Miao Song
performing arts, interactive projection mapping, cinema
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M. N. S. Swamy
image processing, video signal processing, statistical signal processing
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Attila Michael Zsaki
geotechnical engineering, rock mechanics, soil mechanics
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Jonathan Lessard
history of games, game studies and design, digital games
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Brandon Helfield
therapeutic ultrasound, microbubbles, ultrasound imaging
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Jun Yan
smart grids, cyberphysical security, machine learning
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Habib Benali
computational neuroscience, neuroimaging, brain functions
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Maryse Fortin
spine, chronic spinal disorders, bioimaging
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Yan Liu
big data, distributed/parallel systems, deep learning
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Essam Mansour
distributed/parallel systems, web data management, large-scale analytics on strings
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Najmeh Khalili-Mahani
neuroscience, biomedical engineering, brain functions
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Jun Cai
machine learning, distributed/parallel systems, energy efficiency
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Rastko Selmic
control systems, formation flight control, artificial neural networks
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Glenn Cowan
high-speed integrated circuit design, CMOS image sensors, VLSI
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Dhrubajyoti Goswami
high performance computing, parallel architectural skeletons, distributed/parallel systems
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Amir Asif
signal processing, array processing, distributed particle filter
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Simone Brugiapaglia
data science, computational mathematics, compressed sensing
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Leila Kosseim
computational linguistics, natural language processing, artificial intelligence
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Lyes Kadem
cardiovascular health, biomechanics, biomedical engineering
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Walaa Hamouda
wireless communications, compressed sensing, channel coding
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Wei-Ping Zhu
signal processing, speech processing, image processing
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Roch Glitho
end-user services architectures, virtualization, cloud computing
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Krzysztof Skonieczny
planetary rovers, robotics, vehicle-terrain interactions
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Jung Kwon (John) Oh
biomedical engineering, materials science, biomacromolecules
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Lata Narayanan
networks, algorithm design, robotics
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Wen Fang Xie
mechatronics, nonlinear system control, industrial robots
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John Capobianco
lanthanide-doped nanoparticles, magnetic nanoparticles, luminescence
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Christophe Grova
neuroimaging, bioimaging, biomedical engineering