This project resulted in the submission and acceptance of a four page paper, "A New Stochastic Estimator for Tremor Frequency Tracking", to the refereed IEEE International Conference on Acoustics, Speech, and Signal Processing, April 2009. A preprint can be found on my publications page.

I also presented my research to faculty and students at the Undergraduate Engineering Research Day at the University of Toronto. A Quicktime movie of my presentation (with embedded videos) can be found on my talks page.

This project resulted in the submission of a four page paper, "A New Stochastic Estimator for Tremor Frequency Tracking", to the refereed IEEE International Conference on Acoustics, Speech, and Signal Processing, April 2009. A preprint can be found on my publications page.

With partial funding from NSERC, I worked under the supervision of Professor Konstantinos N. Plataniotis over the period of sixteen weeks on a biomedical signal processing project.
I investigated the effect of nonlinearities in state estimation problems, particularly the importance of initial conditions in extended Kalman filtering. I developed and implemented a new Kalman-variant filter, the multiple extended Kalman filter (M-EKF), for instantaneous physiological tremor frequency tracking from neural microelectrode recordings (MER).
This project resulted in the submission of a four page paper, "A New Stochastic Estimator for Tremor Frequency Tracking", to the refereed IEEE International Conference on Acoustics, Speech, and Signal Processing, April 2009. A preprint can be found on my publications page.

I also presented my research to faculty and students at the Undergraduate Engineering Research Day at the University of Toronto. A Quicktime movie of my presentation (with embedded videos) can be found here. (Click on the slides to progress - around 9MB).

I also presented my research to faculty and students at the Undergraduate Engineering Research Day at the University of Toronto. A Quicktime movie of my presentation (with embedded videos) can be found here. (Click on the slides to progress - 9MB)

With partial funding from NSERC, I worked under the supervision of Professor Konstantinos N. Plataniotis over the period of sixteen weeks on a video camera based location estimation project.

With partial funding from NSERC, I collaborated with Professor Konstantinos N. Plataniotis over the period of sixteen weeks on a video camera based location estimation project.

I also presented my research to faculty and students at the Undergraduate Engineering Research Day at the University of Toronto.

I developed a complete visual tracking system using three off-the-shelf network cameras, capable of tracking and estimating the location of multiple users in indoor environments. I researched and implemented techniques including foreground segmentation, camera calibration, occlusion resolution and Kalman filtering.

I developed a complete visual tracking system using three off-the-shelf network cameras, capable of tracking and estimating the location of multiple users in indoor environments. I researched and implemented techniques including foreground segmentation, camera calibration, basic occlusion resolution and Kalman filtering.