and Work. His work explores the cognitive, embodied and social processes involved in learning and instruction in STEM education. Prof. Nathan received his Ph.D. in experimental (cognitive) psychology. He holds a B.S. in electrical and computer engineering, mathematics and history. He has worked in research and development in artificial intelligence, computer vision, robotics, and sensor fusion. Prof. Nathan also has worked on computer-based tutoring environments for mathematics education that rely heavily on students' own comprehension processes for self-evaluation and self-directed learning (so-called unintelligent tutoring systems). Prof. Nathan directed the STAAR Project, which studied the transition from arithmetic to algebraic reasoning. He served as Co-PI for the NSF-funded AWAKEN Project, which documented how people learn engineering in K-12, college, and the workplace. Dr. Nathan recently served as a member of The National Academy of Engineering (NAE)/National Research Council Committee on Integrated STEM Education. Currently, Prof. Nathan is co-PI for the National Center for Cognition and Mathematics Instruction, co-PI of the grant Connecting Mathematical Ideas through Animated Multimodal Instruction, and Director of the Postdoctoral Training Program in Mathematical Thinking, Learning, and Instruction, funded by the U. S. Dept. of Education-Institute of Educational Sciences (IES). Links to current and past research can be found at http://website.education.wisc.edu/˜mnathan/
This panel will report the results of a workshop and symposium on the technological literacy of undergraduates convened at the National Academy of Engineering (NAE) on March 26-27, 2007. The NAE advocates that all Americans become more knowledgeable about technology. Here technological literacy is defined as the broad understanding of all types of technological devices and process not just computers. The opportunity to utilize undergraduate education to further technological literacy of all students must not be neglected. Educators in Computer Science, Engineering and Technology have a responsibility to educate all students not just those intending technical careers. Despite the need for all Americans to become technologically literate, technical literacy is not likely to gain wide acceptance until the scholarly community develops standard courses that are supported by textbooks and other course materials. This National Science Foundation (NSF) sponsored workshop sought to identify and define several models of technological literacy courses. In this FIE panel, short presentations about these models will be made by participants in the NAE/NSF symposium. This will be followed by a discussion with the audience. A goal of the discussion will be to seek the input from FIE participants on the technological literacy course models.
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