Advances in Physiological Computing [electronic resource] /
edited by Stephen H. Fairclough, Kiel Gilleade.
- XV, 238 p. 33 illus. online resource.
- Human-Computer Interaction Series, 1571-5035 .
- Human-Computer Interaction Series, .
Introduction -- Meaningful Interaction with Physiological Computing -- Engineering Issues in Physiological Computing -- Eye Tracking and Eye-Based Human-Computer Interaction -- Towards BCI-based Implicit Control in HCI -- Bio cybernetic Adaptation as Biofeedback Training -- Using fNIRS to Measure Mental Workload in the Real World -- Psychophysiological Feedback for Adaptive HRI -- The Drive to Explore -- The Vitality Bracelet -- Capturing HDM for Assisted Memory Recall.
In the domain of physiological computing, human physiology is directly monitored and used as input to a technological system. Signals from the brain and body can be used to infer a user's intentions and psychological state which enables a physiological computing system to respond and adapt in an appropriate fashion. A computer game could modify its level of difficulty according to the player's motivation or a word processor could disable incoming e-mail notifications when the user is concentrating. Physiological computing is an exciting area of research which provides a speculative vision of how we may interact with technology in the future. The field is inherently interdisciplinary and encapsulates a significant breadth of knowledge from neuroscience to engineering. Advances in Physiological Computing provides a broad overview across this emerging area of research and emphasizes the common ground between the different disciplines in the field. .
9781447163923
10.1007/978-1-4471-6392-3 doi
Computer science.
User interfaces (Computer systems).
Biometrics (Biology).
Application software.
Health psychology.
Biological psychology.
Psychology--Methodology.
Psychological measurement.
Computer Science.
User Interfaces and Human Computer Interaction.
Biological Psychology.
Biometrics.
Computer Applications.
Psychological Methods/Evaluation.
Health Psychology.
QA76.9.U83 QA76.9.H85
005.437 4.019
Introduction -- Meaningful Interaction with Physiological Computing -- Engineering Issues in Physiological Computing -- Eye Tracking and Eye-Based Human-Computer Interaction -- Towards BCI-based Implicit Control in HCI -- Bio cybernetic Adaptation as Biofeedback Training -- Using fNIRS to Measure Mental Workload in the Real World -- Psychophysiological Feedback for Adaptive HRI -- The Drive to Explore -- The Vitality Bracelet -- Capturing HDM for Assisted Memory Recall.
In the domain of physiological computing, human physiology is directly monitored and used as input to a technological system. Signals from the brain and body can be used to infer a user's intentions and psychological state which enables a physiological computing system to respond and adapt in an appropriate fashion. A computer game could modify its level of difficulty according to the player's motivation or a word processor could disable incoming e-mail notifications when the user is concentrating. Physiological computing is an exciting area of research which provides a speculative vision of how we may interact with technology in the future. The field is inherently interdisciplinary and encapsulates a significant breadth of knowledge from neuroscience to engineering. Advances in Physiological Computing provides a broad overview across this emerging area of research and emphasizes the common ground between the different disciplines in the field. .
9781447163923
10.1007/978-1-4471-6392-3 doi
Computer science.
User interfaces (Computer systems).
Biometrics (Biology).
Application software.
Health psychology.
Biological psychology.
Psychology--Methodology.
Psychological measurement.
Computer Science.
User Interfaces and Human Computer Interaction.
Biological Psychology.
Biometrics.
Computer Applications.
Psychological Methods/Evaluation.
Health Psychology.
QA76.9.U83 QA76.9.H85
005.437 4.019