How can we develop signal processing algorithms and architectures to improve the quality of multimedia and biomedical applications?
M. Omair Ahmad
- Honorary Concordia University Research Chair in Multimedia Signal Processing
- Professor
- Department of Electrical and Computer Engineering
- signal processing19
- image processing23
- video signal processing3
- speech processing7
- biomedical signal processing
- bioimaging17
- computer vision19
- protein sequence alignment
- biometrology3
- fast discrete domain transforms2
- watermarking4
- image denoising
- adaptive signal processing
- shape representation and detection8
- object tracking
- multi-target tracking
- communication signal processing
- biomedical engineering37
- aerospace69
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M. N. S. Swamy
image processing, video signal processing, statistical signal processing
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Hassan Rivaz
bioimaging, ultrasound elastography, image processing
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Habib Benali
computational neuroscience, neuroimaging, brain functions
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Wei-Ping Zhu
signal processing, speech processing, image processing
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William E. Lynch
video technology, video compression, error resilience
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Thomas G. Fevens
bioimaging, deep learning, computer vision
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Arash Mohammadi
signal processing, information systems security, cyberphysical systems
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Nizar Bouguila
computer vision, data analytics, machine learning
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Mahdi S. Hosseini
deep learning, computer vision, computational pathology
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Brandon Helfield
therapeutic ultrasound, microbubbles, ultrasound imaging
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Yiming Xiao
bioimaging, biomedical engineering, image processing
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Tien D. Bui
computer vision, biometrology, artificial intelligence (AI)
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Charalambos (Charis) Poullis
computer vision, computer graphics, deep learning
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Sivakumar Narayanswamy
micro/nanometrology, MEMS/NEMS, laser interferometry
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Tiberiu Popa
computer graphics, computational geometry, 3D data acquisition technologies
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Rabin Raut
CMOS technology, VLSI technologies, high-speed integrated circuit design
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Tsz Ho Kwok
advanced 3D printing techniques, CAD/CAM, design automation
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Sofiène Tahar
communication protocols, hardware specification, functional verification
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Ching Yee Suen
pattern recognition, handwriting, design of type fonts
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Kaustubha Mendhurwar
computer graphics, 3D motion capture, 3D data acquisition technologies
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Maryse Fortin
spine, chronic spinal disorders, bioimaging
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Ion Stiharu
micromachining, microfabrication, tribology
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Yang Wang
computer vision, machine learning, deep learning
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Jerin John
aerospace, rocket propulsion, spacecraft and satellites
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Glenn Cowan
high-speed integrated circuit design, CMOS image sensors, VLSI technologies
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Christophe Grova
neuroimaging, bioimaging, biomedical engineering
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Sudhir Mudur
computer graphics, 3D digital imaging, 3D data acquisition
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Robin A. L. Drew
materials science, light metal foams, biomedical engineering
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Krzysztof Skonieczny
planetary rovers, robotics, vehicle-terrain interactions
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Nawwaf Kharma
synthetic biology, machine learning, biological computing
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Jung Kwon (John) Oh
biomedical engineering, materials science, biomacromolecules
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Ahmed A. Kishk
advanced antenna design, energy harvesting, multifunction antennas
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Wen Fang Xie
mechatronics, nonlinear system control, industrial robots
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Mamoun Medraj
materials characterization, thermodynamics of materials, metals
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Marta Kersten-Oertel
medical image visualization, cerebral vascular imaging, human-computer interaction (HCI)
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John Capobianco
lanthanide-doped nanoparticles, magnetic nanoparticles, luminescence