I am Philip Lee, an Electrical Engineering and Computer Science Ph.D. candidate under the direction of Ying Wu in the area of Computer Vision. I graduated summa cum laude from Clemson University in 2008 with a B.S. in Mathematics, concentration in Computer Science. I studied at Northwestern University since 2009 and obtained my Ph.D. in 2014.
Please see my LinkedIn page.
Lee, Philip G. Towards Efficient and Accurate Image Matting, a Thesis. (2014). pdf
Lee, Philip G. and Wu, Ying. Scalable Matting: A Sub-linear Approach. (2014). arXiv:1404.3933 [cs.CV]. pdf
Mikhelson, Ilya V. and Lee, Philip G. and Sahakian, Alan V. and Wu, Ying and Katsaggelos, Aggelos K. Automatic, Fast, Online Calibration Between Depth and Color Cameras. (2013). Journal of Visual Communication and Image Representation. Elsevier.
Mikhelson, I and Lee, Philip G. and Bakhtiari, Sasan and Elmer, T and Katsaggelos, A and Sahakian, A. Non-Contact Millimeter-Wave Real-Time Detection and Tracking of Heart Rate on an Ambulatory Subject. (2012). IEEE.
Lee, Philip G. and Wu, Ying. Nonlocal matting. (2011). Computer Vision and Pattern Recognition (CVPR), 2011 IEEE Conference on, 2193--2200. IEEE. pdf, supplementary materials, code (matlab)
Lee, Philip G. and Wu, Ying. L1 matting. (2010). Image Processing (ICIP), 2010 17th IEEE International Conference on, 4665--4668. IEEE. pdf
Calkin, Neil and Drake, Nate and James, Kevin and Law, Shirley and Lee, Philip G. and Penniston, David and Radder, Jeanne. Divisibility properties of the 5-regular and 13-regular partition functions. (2008). INTEGERS: ELECTRONIC JOURNAL OF COMBINATORIAL NUMBER THEORY, 8(A60). pdf
Full list on my Google Scholar page.
NonlocalMatting Matlab code for the Nonlocal Matting paper above.
KregularKompute Parallelized code (MPI) to compute k-regular partition numbers, created to discover and prove theorems developed in (Calkin et al., 2008).
"(1) (2), burning out his fuse up here alone." Elton John