Ron Sun


Ron Sun is a cognitive scientist. He is currently Professor of Cognitive Sciences at Rensselaer Polytechnic Institute, and formerly the James C. Dowell Professor of Engineering and Professor of Computer Science at University of Missouri. He received his Ph.D in 1992 from Brandeis University.

Overview

His research interests center around the study of human cognition and psychology, especially in the areas of cognitive architectures, human reasoning and learning, cognitive social simulation, and hybrid connectionist-symbolic models. Over the years, his work has been wide-ranging, and spans cognitive science, psychology, philosophy, computer science, artificial intelligence, and social sciences.
He has been known for his work in cognitive modeling. For his paper on integrating rule-based and connectionist models for accounting for human everyday reasoning, he received the 1991 David Marr Award from Cognitive Science Society. For his work on human skill learning, he received the 2008 Hebb Award from the International Neural Network Society. In 2013, he received a Leadership and Vision award from the president of INNS. He is an IEEE Fellow and a fellow of Association for Psychological Science.
He was the founding co-editor-in-chief of the journal Cognitive Systems Research, and serves on the editorial boards of many other journals. He was the general chair and the program chair of CogSci 2006, and the program chair of IJCNN 2007. He was a member of the Governing Boards of Cognitive Science Society and of International Neural Networks Society. He served as the president of INNS for two years from January 2011 to December 2012.

Research

Throughout the past two decades, he has been conducting research in the fields of psychology of learning and hybrid neural network. Specifically, he has worked on the integrated effect of "top-down" and "bottom-up" learning in human skill acquisition, in a variety of task domains, for example, navigation tasks, reasoning tasks, and implicit learning tasks. This inclusion of bottom-up learning processes has been revolutionary in cognitive psychology, because most previous models of learning had focused exclusively on top-down learning. This research has culminated with the development of an integrated cognitive architecture that can be used to provide a qualitative and quantitative explanation of empirical psychological learning data. The model, CLARION, is a hybrid neural network that can be used to simulate problem solving and social interactions as well. More importantly, CLARION was the first psychological model that proposed an explanation for the "bottom-up learning" mechanisms present in human skill acquisition: His numerous papers on the subject have brought attention to this neglected area in cognitive psychology.
Relatedly, he has done pioneering work on dual process theory. Also known as two-system or two-level theories, his dual-process theories posit the co-existence of and the interaction between implicit and explicit processes.
Another strand of his work is a theoretical model of creative problem solving. In this work, he proposed an integrative theory that is much broader in explanatory scope and used it to account for a range of empirical phenomena.
Yet another strand is what he called cognitive social sciences --- the re-unification of the cognitive and social sciences through grounding the social sciences in the cognitive sciences.
In recent years, he attempted the difficult task of laying the theoretical and meta-theoretical foundation for computational cognitive modeling.

Books