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Review details about the recently announced changes to study and work permits that apply to master’s and doctoral degree students. Read more
The Faculty of Applied Science comprises a unique constellation of professional disciplines including; Architecture & Landscape Architecture, Engineering, Nursing and Community & Regional Planning. The core purpose shared across all of our four disciplines is to discover, create and apply knowledge, provide unwavering top-tier education and champion a community of responsible professionals devoted to serving a thriving, sustainable and healthy society. Our work and the professions which our graduates represent span the entire human-centred built environment.Ìý
The disciplines within the Faculty of Applied Science are celebrated for the scope, strength and impact of their research activities. Our Faculty claims the spotlight in the global arena for our research in clean energy, communication and digital technologies, health and health technology among many others. We offer disciplinary-specific research based graduate programs as well as a range of professional graduate programs and pride ourselves on our ability to open doors of opportunity to students beyond their time within our Faculty.
Research Centres
Schools / Departments
Graduate Degree Programs
Recent Publications
This is an incomplete sample of recent publications in chronological order by ÑÇÖÞÌìÌà faculty members with a primary appointment in the Faculty of Applied Science.
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Recent Thesis Submissions
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(BMEG - MASC)
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(CIVL - PHD)
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(EECE - PHD)
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(MINE - PHD)
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(EECE - MASC)
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(CHBE - PHD)
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(CHBE - PHD)
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(EECE - PHD)
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(CHBE - MASC)
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(CHBE - MASC)
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(BMEG - PHD)
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(EECE - PHD)
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(BMEG - MASC)
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(NURS - PHD)
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(EECE - MASC)
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(CIVL - PHD)
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(EECE - MASC)
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(MTRL - PHD)
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(BMEG - MASC)
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(BMEG - MASC)
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(BMEG - MASC)
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(PLAN - PHD)
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(CHBE - MASC)
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(CHBE - MSC)
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(CIVL - MASC)
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(MTRL - MASC)
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(MINE - MASC)
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(CIVL - MASC)
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(PLAN - PHD)
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(CHBE - PHD)
Doctoral Citations
| Year | Citation | Program |
|---|---|---|
| 2013 | Dr. Emami studied an advanced wireless communication system for underground mines and tunnels. She used radio-frequency measurements and mathematical analyses to model the ways in which wireless signals behave. The design of the best antenna configurations for these environments will contribute to enhanced safety and productivity in underground mines. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2013 | Dr. Sharma studied the inertial motion sensors which deploy air bags, navigate aircraft and detect hand motions with devices such as Wii. He developed techniques to make micro-sensors smaller and more sensitive, relying on coupling between mechanical and electronics subsystems. This technology is evolving quickly and opening doors for new applications. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2013 | Dr. Cheng modeled a reactor for treating nitric oxides in industrial flue gas. This novel reactor would overcome some difficulties in nitric oxide reduction technology. The model developed in this study could help with designing and optimizing the reactor, to further improve its performance and benefit both the environment and human health. | Doctor of Philosophy in Chemical and Biological Engineering (PhD) |
| 2013 | Dr. Huft developed new methods for manufacturing small silicone chips for biomedical research. This new generation of microfluidic chips allows experiments to be automated so multiple experiments can be run at the same time with minimal resources. His work could facilitate advancements in prenatal diagnostics, drug development and DNA analysis | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2013 | Dr. Lodha developed environmentally-friendly, magnesia-based ceramics for metal convertors, which operate like furnaces. These non-ferrous, metallurgical convertors are used to extract metals other than iron. Since the improved liners require lower heat treatment temperatures they result in a more efficient and energy-saving extraction process. | Doctor of Philosophy in Materials Engineering (PhD) |
| 2013 | Dr. Monroy developed an equation to predict lateral soil forces on pipelines buried in trenches. By conducting full-scale tests and numerical modeling, he simulated the development of soil forces. His research adds to our knowledge about the seismic design of buried pipelines, which will contribute to efforts to make pipelines safer. | Doctor of Philosophy in Civil Engineering (PhD) |
| 2013 | Dr. Xu examined an inexpensive and sustainable method to remediate acid rock drainage with efficiency. She applied the regeneration routine to treat drainage resulting in less waste water volume. In this way, the used sorbent can also be re-utilized thereby reducing the solid waste generation. | Doctor of Philosophy in Chemical and Biological Engineering (PhD) |
| 2013 | Dr. Pandey investigated the motion that buildings experience in earthquakes. He analyzed seismic records for buildings and developed a model that incorporates interaction between soil, foundation and structure. He found that the current building code provisions relating to motion in buildings with slab foundation are inaccurate and need re-examination | Doctor of Philosophy in Civil Engineering (PhD) |
| 2013 | Dr. Kulakov studied the evolution of microstructure during the processing of ferrite-martensite dual-phase steels. He then developed a mathematical model to describe the microstructure evolution. The model will be used for the optimization of the industrial processing of dual-phase steels. | Doctor of Philosophy in Materials Engineering (PhD) |
| 2013 | Dr. Pawliuk completed his doctoral studies in the field of Electrical and Computer Engineering. His focus was on microscopy and he searched for ways of improving the resolution of imaging systems. His most notable contributions were in the development of novel electromagnetic scattering models. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |