Professor Rachel Ward has been awarded a National Science Foundation (NSF) Transdisciplinary Research in Principles of Data Science, or TRIPODS, Phase II. The NSF recently announced these two new awards - totaling $20 million - that bring together scientists and engineers from different research communities to further the theoretical foundations of data science through integrated research and training activities.
Data science is becoming a key driver of innovation across virtually all sectors of society. It impacts how industry, government and academia operate day to day. But with ever-growing data sets, the complexities of accurately compiling and interpreting all this information is a challenge that requires the expertise of computer scientists, engineers, mathematicians, and statisticians. Rachel Ward is a professor of mathematics at the College of Natural Sciences and core faculty member at the Oden Institute for Computational Engineering and Sciences at the University of Texas at Austin. Her research lies broadly in the mathematics of data, with applications in signal and image processing, dynamical systems, and biology.
Her work often synthesizes tools from optimization, numerical linear algebra, dynamical systems, scientific computing, sparse approximation, random matrix theory and machine learning.
"I'm honored to even be considered for this award," Ward said. "The NSF are committed to leading the nation in foundational data science research and support for this kind of collaborative, interdisciplinary approach is a big step towards making that happen."
TRIPODS is tied to NSF's Harnessing the Data Revolution Big Idea, which aims to accelerate discovery and innovation in data science algorithms, data infrastructure and education and workforce development.
The aim is to design algorithms for analyzing large, complex, noisy and changing data sets that include historical biases and elements influenced by self-interested and possibly malicious parties; and the need for fair, ethical and understandable results.
Phase II of the program will continue to support the development of collaborative institutes to delve deeper into foundational issues in data science, such as "design of algorithms for analyzing large, complex, noisy and changing data sets; data that includes historical biases and elements influenced by self-interested and possibly malicious parties; and the need for fair, ethical and understandable results from complex data-driven decision-making processes."
This project establishes a new institute on the Foundations of Data Science at UT Austin and will be a collaboration between eight P.I.s in the Departments of Electrical and Computer Engineering, Computer Science, Mathematics and Statistics and Data Sciences.
"The NSF TRIPODS Institutes will bring advances in data science theory that improve health care, manufacturing, and many other applications and industries that use data for decision-making," said NSF Division Director for Electrical, Communications and Cyber Systems Shekhar Bhansali.
TRIPODS awards aim to achieve these goals and other long-term major impacts in areas ranging from basic science to commerce and law by bringing together electrical engineering, mathematics, statistics, and theoretical computer science communities in synergistic and mutually beneficial ways to develop a unified foundation for data science.
NSF is supporting two new teams over five years focused on these topics. UT Austin will be a part of The Institute for Emerging CORE Methods in Data Science, or EnCORE, alongside UC San Diego, UCLA and University of Pennsylvania.
By John Holden
