Two SALA projects awarded SSHRC funds
Two SALA projects awarded SSHRC funds matthew.wattier Fri, 09/13/2024 - 14:35 SALA External This article originally appeared on UBC Research + Innovation. Strategic Priority Areas...
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The applied sciences – architecture, landscape architecture, engineering, nursing, and planning – change society's conception of what is possible as a matter of course. Applied scientists make dreams real, turn ideas into practice. We embody the interface between present and future.
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.
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 UBC faculty members with a primary appointment in the Faculty of Applied Science.
Recent Thesis Submissions
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Design recipe automation for silicon photonics (EECE - MASC)
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Energy distribution of thermal electron emission (EECE - PHD)
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Towards a unified electro-optic circuits co-simulation (EECE - MASC)
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Low-cost scanning electron microscope (EECE - MASC)
Doctoral Citations
A doctoral citation summarizes the nature of the independent research, provides a high-level overview of the study, states the significance of the work and says who will benefit from the findings in clear, non-specialized language, so that members of a lay audience will understand it.
| Year | Citation | Program |
|---|---|---|
| 2019 | Dr. Hendra developed and tested mathematical models for the simulation of turbulence, chemistry, and their interactions. These models could aid in the development of cleaner and more efficient internal combustion and jet engines. | Doctor of Philosophy in Mechanical Engineering (PhD) |
| 2019 | Dr. Nguyen studied the fabrication method, the electrochemomechanical properties, and the modeling of ultrathin conducting polymer transducers. This research assists us in understanding the performance and demonstrates the adaptability in microsystems of such a thin beam. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2019 | Water distribution networks are one of the most important elements in urban infrastructure systems and require huge investment for construction. Dr. Moosavian studied several optimization methods and applied multi-objective models for a reliable design of pipe networks. This work will contribute to more efficient evaluation and optimal design of water systems. | Doctor of Philosophy in Civil Engineering (PhD) |
| 2019 | Dr. Li studied the planning issues when applying mobile sensing robots in environmental monitoring. He proposed a systematic planning framework for navigating the robots in an environmental survey. His work improves the effectiveness and efficiency of the mobile sensing process and the application in aquatic monitoring. | Doctor of Philosophy in Mechanical Engineering (PhD) |
| 2019 | Dr. Jiang studied the temperature dependent conductivity and flexibility of large area single layer graphene. She integrated graphene films with charge selective materials to fabricate flexible transparent conductors and subsequently applied them as electrodes in flexible organic photovoltaic devices. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2019 | Dr. Mahapatra completed his doctoral studies in the field of Electrical and Computer Engineering. His research concentrated on developing energy-efficient and secure models for the Internet-of-Everything systems. His findings will help the vendors as well as consumers save energy and cost while maintaining high quality of service. | Doctor of Philosophy in Electrical and Computer Engineering (PhD) |
| 2019 | Dr. Tuysuz studied virtual process modeling of machining complex thin-walled components used in the aerospace industry. He developed novel mathematical models and algorithms for digital manufacturing of jet engine rotors. His work helps identify manufacturing related defects so they can be solved before the actual part is produced. | Doctor of Philosophy in Mechanical Engineering (PhD) |
| 2019 | Dr. Fabris developed a simulation-based framework to encourage the systematic integration and aggregation of the composites manufacturing science base. Known as Knowledge in Practice, this framework formalizes knowledge use to enable the composites industry to adopt science-based practices to minimize production risk, cost, and development time. | Doctor of Philosophy in Materials Engineering (PhD) |
| 2019 | Dr. Ugarte examined the evolution of Indigenous policy in Chile, and how it has enabled Indigenous dispossession and ignored Indigenous legal orders. Her research suggests that the tensions between the state and Indigenous peoples today are the visible face of different legal orders clashing, making a call for planners to engage in legal pluralism. | Doctor of Philosophy in Planning (PhD) |
| 2019 | Dr. Stewart studied the origin and growth of fibre misalignments during carbon fibre composite manufacturing. He developed automated strategies which regressed data sets several orders of magnitude larger than those found in the literature. Using these datasets, he created new models which should lead to less expensive and lighter planes and cars. | Doctor of Philosophy in Materials Engineering (PhD) |