Studying the behavioural biology of cattle sheds light on how they see and experience the world, and ultimately offers us insight into their feelings. What drives their behaviour? How do the ways that we interact with them, house them, and manage them, impact their well-being? In our lab, answering these questions are fundamental to ensuring that the animals we farm, in this case cattle, live a good life.
My research program seeks to understand the underlying physiology of diseases common in horses, and how these diseases can be modified with targeted nutrition, with a focus on cartilage biology.
My research is in the area of mechanical and electrical engineering. It involves the development of intelligent control and estimation strategies with applications to mechatronic systems, robotics, and real-world problems.
Multiphase flow takes place in a wide spectrum of engineering applications such as food production, power generation, water treatment, oil production, water desalination, refrigeration and air conditioning, as well as in carbon capture and sequestration systems. My lab aims at providing reliable solutions for our many industrial problems and new technologies that can make these engineering systems more efficient and sustainable.
My research interests include bullying and cyberbullying, policing, and victimization. I am particularly interested in the ways in which the peer, family, and school contexts influence adolescents' involvement in cyberbullying, and how groups of adults collaborate to prevent and respond to cyberbullying.
Our program offers an opportunity to work with diverse faculty, develop and apply theory and qualitative, quantitative & mixed research skills and communicate in clear and accessible written, oral and visual forms with and for multiple audiences to affect positive social change.
I employ a quantitative approach to integrate observational, experimental and synthetic data sets, gathered by myself and others, to study this interaction of dispersal and environmental processes...