The aim of this research project is to observe the difference in function between the dominant and non-dominant lower limb in elite youth hockey athletes. Further, to observe how this difference is altered when the athlete is fatigued. Reducing or eliminating limb imbalances is thought to have a positive outcome on reducing injury risk, ensuring optimal development, and allowing for the greatest functional capabilities.
Chronic pain (CP) is a prevalent, disabling, and costly disorder. The gold standard treatment for chronic pain is care from an interdisciplinary pain clinic (IPC) - a rare resource in Canada that is often associated with long wait times (up to five years). These long wait times increase the risk of physical and mental deterioration for the patient and so there need to develop tools to assist CP patients who are on an IPC waitlist. Research suggests that the use of web-based clinical platforms are helpful in health domains (e.g., migraine management).
The generation of a huge amount of plastic waste creates serious social and environmental concerns. As such, there has been a movement to develop fully biodegradable compostable biocomposites in recent years. To join this initiative, Nanomaterials and Polymer Nanocomposites Laboratory (NPNL) at UBCO, in collaboration with Advanced BioCarbon 3D (ABC3D) seeks to develop fully biodegradable polymer biocomposites filaments with appropriate physical properties for 3D printing.
The data centre management is paramount to ensure the uptime operation. This research aims to develop a digital twin platform using the industrial Internet of Things, edge and cloud computing, and artificial intelligence for predictive maintenance of data centre. The facilitate maintenance scheduling and data centre energy consumption could be further optimized through the digital twin platform, which enables the prediction with a virtual representation of the physical asset or a process. The interns will have the chance to work with industry partner in a multi-disciplinary team.
As oxygen demand increases (e.g., exercise), the availability of oxygen decreases (e.g., high altitude) or cardiopulmonary function is impaired (e.g., respiratory disease), our cardiopulmonary system works at a greater percentage of its maximal capacity to supply oxygenated blood to tissues. Currently, there is no reliable way of determining the blood flow to the respiratory muscles. The current technique (near-infrared spectroscopy with injectable dyes) has conflicting data and limitations which hinders our understanding of respiratory muscle blood flow.
Textile industry has been revolutionized over the years with inventions and creative innovations on fabrics to improve performance, comfort and durability. Developing such high performance and durable textiles without compromising human safety is a major challenge. This project will investigate the interactions between fabric systems with human skin and major skin colonizing bacteria. In addition, durability of these fabrics when exposed to skin bacteria under moist conditions be investigated through this project. Three interns will look into these aspects in collaboration with lululemon inc.
Battery and energy storage units are one of the main sources of backup power in modern power systems to support the renewable power generation deficiencies in meeting the load demand. In recent years, the advancements in the charge/discharge efficiency, low cost, and long life of super-capacitor energy storage (SCES) technology have challenged conventional battery technologies. Besides, due to their high-power delivery capability, the SCES units are a strong candidate for supporting uncertain wind power production in a wind power generation complex. Atlas power generation Inc.
Natural gas power generation is a cost-effective method of generating electricity. NG power generators have been successfully installed in a wide variety of energy intensive facilities in Canada, including district energy systems, wastewater treatment facilities, schools, nursing homes, hospitals, office buildings, and residential buildings. However, more than 60% of the energy is wasted in the form of heat loss, and major heat loss is carried by the hot flue gas.
In this project, we will develop software-based models to monitor and to predict the performance of Perovskites-based
PVBlindsTM for optimal energy management and optimal integration into buildings, as well as to diagnose faults of PV cells for
safe, efficient, and reliable operation. The PVBlindsTM are developed by Solaires Inc. and will be deployed at various locations
within the Greater Vancouver area, and in various types of buildings. To develop the software-based models, machine learning
approaches will be studied and implemented.
Food production and agriculture in Canada’s far North is met with many challenges. Short growing seasons, poor soil, extreme weather all impact the ability to effectively and efficiently produce food locally. In addition, Northern communities are at the end of a South to North supply chain, suspectable to multiple disruptions, both physical and economic. Our mobile lab allows for exponential plant cloning through sustainable processes.