My community-engaged research collaborations focus on the interplay between citizens – particularly young women and women in northern communities – and the framing and development of public policy.
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.
I am interested in German and Austrian literature and thought from the late 18th to the early 20th century. My focus is on the fantastic and uncanny, myth and fairy tales. My current research deals with the aesthetics of terror in the romantic period.
One of my main research activities addresses the development of Electronic Design Automation (EDA) tools for Application Specific Integrated Circuits (ASIC) and Field Programmable Gate Arrays (FPGAs) which are used today in all types of applications including security systems, consumer products, medical equipment, manufacturing systems, robotics to name just a few.
My research uses mathematical models and computer simulation to help identify improved infectious disease prevention and control strategies in both humans and animals. Our work has a significant impact on public health and veterinary health, by strengthening planning and disease control strategies to prevent infectious disease outbreaks.