Part I. Background and Methodology: 1. Applied perception research: an introduction to this handbook; 2. Some highlights in the history of applied perception research; 3. Psychophysical methods and signal detection: recent advances in theory; 4. The measurement of perceptual resources and workload; 5. Methods and applications of eye tracking; 6. Applied perception and neuroergonomics; Part II. Attention and Perceptual Processes: 7. Perception and attention: a multidimensional approach to human performance modeling; 8. Attention as a cause and an effect of perception; 9. Probing plasticity of attention and working memory processes induced by video game play; 10. Visual attention and emotion: studying influence on a two-way street; 11. Perception and human information processing in visual search; 12. Motivation and emotion in sustained attention; 13. Vigilance: a perceptual challenge; 14. Psychology of time: basic and applied issues; Part III. Modality: 15. Multimodal and multisensory displays for perceptual tasks; 16. Multi-modal and cross-modal perception: audition; 17. Haptic perception; 18. Visual information in the coordination and control of isometric force; 19. Guidelines for vibrotactile display design: front-end, intensitive, and spatial considerations; 20. Olfactory interfaces; Part IV. Perception in Context: 21. Biological motion perception; 22. Perceptual segmentation of natural events: theory, methods, and applications; 23. Attention in the wild: visual attention in complex, dynamic, and social environments; 24. Perception of trust in automation; 25. Applied ecological acoustics; 26. Affordance perception research; 27. Perceiving the nesting of affordances for complex goal-directed actions; 28. Perception of collision; 29. Hazard awareness in driving: measurement and training; Part V. Perception and Design: 30. Applied perception and virtual environment training systems; 31. Using task analysis and computational cognitive models to design and evaluate interfaces; 32. Interface design: a control theoretic context for a triadic meaning processing approach; 33. Ecological interface design: a selective overview; 34. Perceptual learning in the comprehension of animation and animated diagrams; 35. Towards empirically verified cartographic displays; Part VI. Perception and Domains of Work and Professional Experience: 36. Perceptual learning and expertise; 37. Noticing events in the visual workplace: the SEEV and NSEEV models; 38. Sustained attention in operational settings; 39. Using simulation to examine perceptual challenges faced by healthcare providers; 40. Color vision in aviation; 41. Eye, robot: visual perception and human-robot interaction; 42. Human-robot interaction as extending human perception to new scales; 43. Applied perception in military applications: detection of hidden explosive hazards; 44. Situation awareness in command and control; 45. Spatial orientation and motion perception in microgravity; 46. Evaluating visually induced motion sickness; 47. Predicting the future in perceptual-motor domains: perceptual anticipation, option generation, and expertise; Part VII. Individual and Population Differences: 48. Sustained attention in infants and children; 49. Gender differences in time perception; 50. Early visual processing abnormalities related to schizophrenia and autistic spectrum disorders; 51. Considering older adults' perceptual capabilities in the design process; 52. Comparative applied perception research: the case of working dogs; Part VIII. Pedagogical and Professional Issues: 53. Pedagogical issues in teaching the psychology of perception; 54. Graduate training and experiences for careers in applied experimental psychology.
Focusing on everything from basic research practices to cutting-edge technology, this book is essential for student learning and professional research.
Robert R. Hoffman, Ph.D. specializes in cognitive systems engineering and human-centered computing. He is a Fellow of the Association for Psychological Science, a Fellow of the Human Factors and Ergonomics Society, and a Fulbright Scholar. Hoffman has been recognized internationally for his research and work on human factors in remote sensing, on the psychology of expertise and the methodology of cognitive task analysis, and on human-centered computing issues and intelligent systems technology, as well as the design of macrocognitive work systems. Hoffman is a co-editor for the Department on Human-Centered Computing in IEEE: Intelligent Systems, editor for the book series Expertise: Research and Applications, and co-founder of the Journal of Cognitive Engineering and Decision Making. His current research focuses on the psychology of intelligence analysis, methodological issues in the analysis of complex systems, and performance measurement for macrocognitive work systems. A full vita and all of his publications are available at www.ihmc.us/users/rhoffman/main. Peter A. Hancock, D.Sc., Ph.D. is Provost Distinguished Research Professor, Pegasus Professor, and Trustee Chair in the Department of Psychology and the Institute for Simulation and Training, as well as in the Department of Civil and Environmental Engineering and the Department of Industrial Engineering and Management Systems at the University of Central Florida. He also directs the MIT2 (Minds in Technology, Machines in Thought) Research Laboratories. He is the author of more than 700 refereed scientific articles and publications and author or editor of fifteen books, including Human Performance and Ergonomics (1999), Stress, Workload, and Fatigue (2001), and Performance under Stress (2008). He is a Fellow of numerous scientific societies and was the president of the Human Factors and Ergonomics Society in 2000. His work revolves primarily around the reciprocal influence between human beings and technology. He also works on the theoretical and empirical exploration of time and is an award-winning historian. Details of his work can be found at www.peterhancock.ucf.edu. Mark W. Scerbo, Ph.D. is Professor of human factors psychology at Old Dominion University, Virginia. He began his career as a research assistant at AT&T Bell Laboratories in 1980, received his Ph.D. in experimental psychology from the University of Cincinnati in 1987, and then returned to AT&T where he managed the Systems Evaluation Center in New Jersey from 1987 to 1990, introducing usability engineering to the Network Operations Division. He is a Fellow of the Human Factors and Ergonomics Society and received his Modeling and Simulation Professional Certification in 2002. He has more than 160 scientific publications and currently serves as an associate editor for the journals Simulation in Healthcare and Human Factors. He has more than thirty years of experience researching and designing systems and displays that improve user performance in academic, military, and industrial work environments. His current research interests are focused on user interaction with medical simulation technology. In addition, he has studied human factors issues related to the behavioral and physiological factors that affect human interaction with virtual environments, automated systems, and adaptive interfaces. Raja Parasuraman, Ph.D. is University Professor of Psychology at George Mason University, Virginia. He is also director of the Graduate Program in Human Factors and Applied Cognition and of the Center of Excellence in Neuroergonomics, Technology, and Cognition. His primary research is in human factors and cognitive neuroscience, as well as in molecular genetics of cognition and in neuroergonomics, which he defines as the study of brain and behavior at work. His books include The Attentive Brain (1998), Neuroergonomics: The Brain at Work (2007), and Nurturing the Older Brain and Mind (2012). Parasuraman is Fellow of numerous organizations, including the American Psychological Association (1991) and the International Ergonomics Association (2006), and is a National Associate of the National Academy of Sciences. He is the recipient of numerous awards and honors, including the Jerome H. Ely Award for best paper in the journal Human Factors (1997, 2001), the Franklin V. Taylor Award for Lifetime Achievement in Applied Experimental and Engineering Psychology from the American Psychological Association (2004), the inaugural Raymond S. Nickerson Award for Best Paper in the Journal of Experimental Psychology: Applied (2010), and the Admiral Kollmorgen Spirit of Innovation Award for Contributions to Neuroergonomics (2010). His recent awards include the Triennial Outstanding Educators Award from the International Ergonomics Association and the Celebration of Scholarship Award from the College of Humanities and Social Sciences at George Mason University (both in 2012). James L. Szalma, Ph.D. is an Associate Professor in the Psychology Department at the University of Central Florida. He received a B.S. in chemistry from the University of Michigan, and an M.A. and Ph.D. in applied experimental/human factors psychology from the University of Cincinnati. His Human Performance Research Laboratory studies how variations in task characteristics interact with the characteristics of the person (i.e. cognitive abilities, personality, emotion, motivation) to influence performance, workload, and stress of cognitively demanding tasks. His primary research interests include signal/threat detection (e.g. friend/foe identification), training for threat detection, and how the characteristics of tasks and operators interact to influence performance in the context of tasks that require sustained attention or that include human-automation interaction. He is currently conducting research on the application of video game-based tasks to train sustained attention, and on the validity of Fuzzy Signal Detection Theory for performance evaluation in threat detection.
'A comprehensive review of current research by the top-tier authors
in the field, with wide application to human-system integration.'
Thomas Sheridan, Professor Emeritus of Applied Psychology,
Massachusetts Institute of Technology
'A handbook of applied perception research is a challenging
undertaking. This one meets the challenge with 54 chapters authored
by an impressive array of experts, spanning multiple sensory
modalities, diverse methodologies, processes ranging from sensory
to emotional, individual variation along with norms - and all of
these from a basic and applied perspective. Among the welcome
expansions on traditional topics like ergonomics and attention are
chapters on the modalities of touch and olfaction, human-robot
interaction, effects of video-game play, ecological approaches, and
development across the life span. Each chapter offers a concise
introduction that will send the interested reader further, and the
1100+ pages as a whole provide an exciting and comprehensive
portrait of this rapidly evolving field.' Roberta Klatzky, Carnegie
Mellon University, Pennsylvania
'The Cambridge Handbook of Applied Perception Research is not just
for perception researchers - it is the comprehensive resource on
perception that all practitioners and researchers who hope to make
an applied contribution have been waiting for.' Frank Durso,
Georgia Institute of Technology
'This stimulating collection dramatically illustrates the breadth
of applied perception research: from the effects of video-game play
on visual attention to the possibilities of olfactory interfaces.
The book is also a testimony to the enduring impact of Joel Warm on
the study of vigilance in particular and applied perception
research in general.' Jeremy Wolfe, Brigham and Women's Hospital,
Harvard Medical School
'The Cambridge Handbook of Applied Perception Research weaves
stories of the challenges faced by application-inspired researchers
into the fabric of today's core disciplinary ideas. Contributors
note that the story of applied perception research is the story of
experimental psychology more broadly, and many of the chapters in
this volume provide evidence that this claim has merit.
Forward-looking chapters also show how questions posed in the
context of emerging applications, such as human-robot coordination,
virtual environments, and security management, might provide
direction for both experimental psychology and cognitive science in
the years to come.' C. Melody Carswell, Associate Director, Center
for Visualization and Virtual Environments, University of
Kentucky
'… an exciting and comprehensive assessment of developments in
experimental psychology and the role perception plays in
human-system engineering. The Handbook represents an extraordinary
achievement with 54 expert chapters covering every sensory
modality, methodologies, and applications … Tapping on what is
known in perceptual research and applying this knowledge to
understand behavior and performance in working environments is the
real challenge this work has managed to address so well … The
Handbook is a unique, comprehensive resource on
application-inspired research in perception that will benefit many
researchers and practitioners involved in the ever increasing
number of emerging applications.' John L. Barbur, Perception
'The high complexity and importance of this work may be understood
considering the vital fields implicated herein, such as, for
instance, brain and its mechanism, cognitive processes, memory,
attention, senses, biological substrates and processes; as well as
the interrelation between the latter elements. The large number
(ca. 100) of pioneer contributors to the work at hand reflects its
great impact. This handbook constitutes a milestone in the field of
applied perception. Its main target group refers to perception
scientists and -generally speaking- to psychologists. Moreover, it
is of great importance for computer scientists as well as for
applications engineers; finally, for signal or/and sensor
scientists/engineers.' Nikolaos E. Myridis, Contemporary Physics
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