- Parallel Non-divergent Flow Accumulation For Trillion Cell Digital Elevation Models On Desktops Or Clusters
- 65 Million Years of Change in Temperature and Topography Explain Evolutionary History in Eastern North American Plethodontid Salamanders
- Parallel Priority-Flood Depression Filling For Trillion Cell Digital Elevation Models On Desktops Or Clusters
- A Pipeline Strategy For Crop Domestication
- The Reflective Plant Breeding Paradigm: A Robust System of Germplasm Development to Support Strategic Diversification of Agroecosystems
- An Efficient Assignment of Drainage Direction Over Flat Surfaces in Raster Digital Elevation Models
- Priority-Flood: An Optimal Depression-Filling and Watershed-Labeling Algorithm for Digital Elevation Models
- Modeling of Bovine Spongiform Encephalopathy in a Two-Species Feedback Loop
- E-tracers: Development of a low cost wireless technique for exploring sub-surface hydrological systems
- Trading Space for Time: Constant-Speed Algorithms for Managing Future Events in Scientific Simulations
- Distributed Parallel D8 Up-Slope Area Calculation in Digital Elevation Models
- Development of Continuous Living Cover Breeding Programs to Enhance Agriculture’s Contribution to Ecosystem Services
People / Alumni
Richard Barnes
Algorithms for, and Applications of, Global Terrain Analysis (PhD ’20)
Richard applies computational and mathematical techniques to better understand the complex interface of society and the environment. His work includes developing (a) in silico models to exlore ecoevolutionary interactions over long time scales and (b) high-speed algorithms for understanding landscape use and evolution. A recipient of both the DOE CSGF and the NSF GRFP fellowships, he holds a M.S. in Ecology, B.S. in Physics, and a B.A. in Philosophy from the University of Minnesota.
Publications