This volume provides an exceptional perspective on the nature, evolution, contributions and future of the field of Cognitive Systems Engineering (CSE). It is a resource to support both the teaching and practice of CSE. It accomplishes this through its organization into two complementary approaches to the topic.
Dr. Philip J. Smith is a Professor in the Department of Integrated Systems Engineering at The Ohio State University and a Fellow of the Human Factors and Ergonomics Society. His research and teaching focus on cognitive systems engineering, human-automation interaction and the design of distributed work systems. This research has been supported by the FAA, NASA, the National Heart, Lung and Blood Institute, the U.S. Army and the U.S. Department of Education. Of particular significance has been his work on:
Dr. Smith, his students and his colleagues have won numerous awards, including the Air Traffic Control Association David J. Hurley Memorial Award for Research in Collaborative Decision Making, the Airline Dispatchers Federation National Aviation Safety Award and best paper awards in Human Factors and Clinical Laboratory Science.
Hoffman is a recognized world leader in cognitive systems engineering and Human-Centered Computing. He is a Fellow of the Association for Psychological Science, Fellow of the Human Factors and Ergonomics Society, Senior Member of the Association for the Advancement of Artificial Intelligence, Senior Member of the Institute of Electrical and Electronics and Engineers, and a Fulbright Scholar. His Ph.D. is in experimental psychology from the University of Cincinnati. His Postdoctoral Associateship was at the Center for Research on Human Learning at the University of Minnesota. He was on the faculty of the Institute for Advanced Psychological Studies at Adelphi University. Hoffman has been recognized internationally in psychology, remote sensing, human factors engineering, intelligence analysis, weather forecasting, and artificial intelligence-for his research on the psychology of expertise, the methodology of cognitive task analysis, HCC issues for intelligent systems technology, and the design of macrocognitive work systems. A full vita and all of his publications are available for download at:
[www.ihmc.us/users/rhoffman/main].
Introduction. Many Paths, One Journey: Pioneers of Cognitive Systems Engineering. Reflections on the Origins of Cognitive Systems Engineering. Medication Reconciliation Is a Window into "Ordinary" Work. Engineering the Morality of Cognitive Systems and the Morality and of Cognitive Systems Engineering. Understanding Cognitive Work. Adaptation in Sociotechnical Systems. A Taxonomy of Emergent Trusting in the Human-Machine Relationship. Improving Sensemaking Through the Design of Representations. Making Brittle Technologies Useful. Design-Induced Error and Error-Informed Design: A Two-Way Street. Speaking for the Second Victim. Work, and the Expertise of Workers. Designing Collaborative Planning Systems: Putting Joint Cognitive Systems Principles to Practice. The FireFox Fallacy: Why Intent Should be an Explicit Part of the External World in Human Automation Interaction. A One-Day Workshop for Teaching Cognitive Systems Engineering Skills. From Cognitive Systems Engineering to Human Systems Integration: A Short but Necessary Journey. Future Directions for Cognitive Engineering.