The discrete world: cellular automata in action
Dr. Anna Lawniczak and Dr. Dan Ashlock each use Mathematical Science to design algorithms and systems that can be used to model and predict many important natural phenomena.
Dr. Anna Lawniczak and Dr. Dan Ashlock each use Mathematical Science to design algorithms and systems that can be used to model and predict many important natural phenomena.
Dr. Matt Demers uses Mathematical Science to understand how fractals can be applied to image compression, reconstruction, detection and the embedding of watermarks.
Dr. Herb Kunze uses Mathematical Science to understand the complexities of heat flow through materials with holes, such as rocks, soil, bones, tissue, concrete and ceramic.
Dr. Herb Kunze uses Mathematical Science to determine the role taxation plays in the maintaining profits for companies while encouraging them to reduction pollution levels.
Dr. Dan Ashlock uses Mathematical Science to develop computational tools to automatically generate gaming level maps.
Dr. Julie Horrocks uses Mathematical Science to develop techniques to accurately count animals that cannot be seen, but rather, detected using acoustic sensors.
Dr. Hermann Eberl uses Mathematical Science to understand the complex dynamics between honeybees, mites and the viruses they carry.
Dr. Allan Willms uses Mathematical Science to understand cytokine storms, which result in your own immune system causing you more harm than good.
Dr. Monica Cojocaru uses Mathematical Science to understand how diverse driving behaviours contribute to efficient traffic networks and how this can be used to motivate traffic system design.
Dr. Zeny Feng uses Mathematical Science to understand how to analyze genetic data in order to ensure dairy farmers can safely and intelligently maximize economic production.