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clinical trials, advanced computational methods, neuroimaging, brain stimulation, body-machine interfacing, gamification of therapy, assistive technology design, development and evaluation, outcome measure
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to provide the following current verification(s) where 'Yes' is indicated below. Further information is available at: https://careers.usask.ca/tips-for-applying.php Criminal Record Check: Yes Driver's License
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(On-site) Category Type Engineering - Electrical Position Type Faculty (Includes Asst. Professors, Associate Professors) College/Administrative Portfolio College of Natural And Applied Sciences Faculty
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: Edward S. Rogers Sr. Department of Electrical and Computer Engineering Campus: St. George (Downtown Toronto) Description: The Edward S. Rogers Sr. Department of Electrical and Computer Engineering (ECE) in
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https://engineering.ok.ubc.ca/ | Northern British Columbia Fort Nelson, British Columbia | Canada | about 2 months ago
https://engineering.ok.ubc.ca/, School of Engineering Position ID: https://engineering.ok.ubc.ca/-School of Engineering-ASSISTANTASSOCIATEPROFESSOR [#31259, JR22840] Position Title: Position Type
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Positions in the Department of Electrical & Computer Engineering for the Winter 2026 semester. These positions are open to McGill University Graduate students only. This position requires in-person work and
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Advisor - Life Sciences/Biotechnology This is a one-year, part-time term position, with the possibility of renewal. The position is based in the McGill Engine Centre (https://www.mcgill.ca/engine/), in
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Location: On Campus The successful applicant will be required to provide the following current verification(s) where 'Yes' is indicated below. Further information is available at: https://careers.usask.ca
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Word format. For more information on the University of Toronto, and the Department of Mechanical & Industrial Engineering, please visit http://www.mie.utoronto.ca . If you have any questions about this
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electric fields to polarize interfaces and drive induced-charge electro-osmosis, reorganizing ion clouds faster than diffusion. Quantify time-dependent zeta potentials and Debye lengths to switch double