Professor, Department of Electrical and Computer Engineering, McMaster University
Canada Research Chair in High-frequency Electromagnetics
March 31, 2011
admission is free
14:30 - 16:30
Room C0136, School of Information Technology and Engineering (SITE)
University of Ottawa. 800 King Edward Ottawa, ON K1N 6N5
Parking: paid parking in campus, Refreshment provided
RSVP required. Please reply to firstname.lastname@example.org
IEEE Ottawa EMBS Chapter and IEEE Ottawa AP/MTT Chapter
More than 40 years ago Larsen and Jacobi experimented with microwaves in the imaging of canine kidney. Their pioneering work triggered high hopes for a new diagnostic modality in medicine but also identified serious challenges. Research effort in this area continues unabated, focused especially on early-stage breast-cancer detection.
The need for alternative cancer diagnostic tools is urgent and perceived worldwide as a high priority for research and development. Yet the very few clinical trials of experimental microwave imaging systems have not satisfied the requirements of today’s medical diagnostics. This talk briefly reviews past and recent developments in near-field microwave methods for tissue imaging. In the context of these developments, the major challenges are discussed – challenges which have so far prevented microwave imaging from becoming a clinically viable modality. Promising new directions of research are described that have the potential to bring about a breakthrough. These include advances in hardware design and characterization (sensor arrays, custom and laboratory measurement instrumentation), methodologies for tissue-parameter characterization, and the development of data-processing and reconstruction algorithms. Many of these new developments draw upon recent successes of microwave and millimetre-wave imaging systems used for concealed-weapon detection, through-the-wall imaging and underground surveillance. Thus it is shown how the ever expanding field of microwave imaging is converging to address some of society’s most urgent needs.
Natalia K. Nikolova received the Dipl. Eng. (Radioelectronics) degree from the Technical University of Varna, Bulgaria, in 1989, and the Ph.D. degree from the University of Electro-Communications, Tokyo, Japan, in 1997. From 1998 to 1999, she held a Postdoctoral Fellowship of the Natural Sciences and Engineering Research Council of Canada (NSERC), during which time she was initially with the Microwave and Electromagnetics Laboratory, Dalhousie University, Halifax, Canada, and, later, for a year, with the Simulation Optimization Systems Research Laboratory, McMaster University, Canada. In 1999, she joined the Department of Electrical and Computer Engineering, McMaster University, where she is currently a Professor. Her research interests include theoretical and computational electromagnetism with applications in inverse scattering, microwave imaging, as well as computer-aided analysis and design of high-frequency structures and antennas. Prof. Nikolova has published more than 190 refereed manuscripts (82 journal manuscripts and 113 conference papers). She has authored 3 book chapters and has given many invited lectures on the computer-aided analysis and design of microwave systems as well as on microwave near-field imaging.
Prof. Nikolova held a University Faculty Award of NSERC from 2000 to 2005. Since 2008, she holds a Canada Research Chair in High-frequency Electromagnetics. She is a Fellow of the IEEE, a member of the Applied Computational Electromagnetics Society (ACES) and a correspondent of the International Union of Radio Science (URSI).
Last modified 11-05-27