-
M. Javad Shafiee
My research interests include Computer Vision, Machine Learning and Biomedical Image Processing while my main focus is on Graphical Models specially Conditional Random Fields and Markov Random Fields
-
Elnaz Barshan
My research interests lie in the area of Machine Learning, Computer Vision and Cognitive Science. I am especially interested in developing new Machine Learning algorithms for analyzing structures in massive data sources as well as learning predictive models based on those structures. Besides this, I am researching about the functionality of human visual system and…
-
Keyvan Kasiri
My research interests mainly lie in the fields of image processing and computer vision and problems related to pattern recognition, machine learning, biomedical signal and image analysis.
-
Ahmed Gawish
My research areas include image processing (statistical), machine learning, and computer vision. I am working under the supervision of Professor Fieguth.
-
Kurtis McBride
During his MASc, he conducted research in the VIP lab building algorithms to interpret the movement of vehicles through a traffic intersection in a digital video.
-
Neil Cavan
My research interests include robotics and computer vision, specifically 3D reconstruction of unknown scenes and simultaneous localization and mapping (SLAM) for robotic vehicles.
-
Abhishek Kumar
My research interests are in the field of pattern recognition, robotics, and computer vision. My interests particularly revolves around practical applications like surveillance and object tracking.
-
Aanchal Jain
My research interests are in the field of non-parametric methods for image processing. Currently I am working with wavelets and their applications in non-parametric image processing techniques.
-
Wesley Campaigne
-
Shiva Zaboli
My research interests mainly lie in the areas of image processing and computer vision including steganography, digital image watermarking and medical image processing using statistical and digital signal processing methods. My current research focuses on investigation of hypoxia induced changes in the attenuation coefficient of the human cornea using ultrahigh resolution optical coherence tomography images.