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Current Research in Neuroadaptive Technology
Examines the latest research in neuroadaptive technology and its applications to human-computer interaction, signal processing, machine learning, applied neuroscience
Stephen H. Fairclough (Edited by), Thorsten O. Zander (Edited by)
9780128214138, Elsevier Science
Paperback, published 18 November 2021
482 pages, 60 illustrations (20 in full color)
23.5 x 19 x 3 cm, 1 kg
Current Research in Neuroadaptive Technology provides readers with insight into the state-of-the-art field of neuroadaptive technology. The book covers the breadth and depth of current research in this field, covering a range of application domains in sufficient technical detail. The multidisciplinary character of this field means that the publication of key research is often fragmented across specialist journals. Here, the editors have consolidated current research, carefully selecting key topics that are clustered around the concept of neuroadaptive technology. In summary, the book meets the needs of readers by consolidating multidisciplinary research around a nascent technological concept. The topic of neuroadaptive technology is novel and contemporary and editors Dr. Stephen H. Fairclough and Dr. Thorsten O. Zander have captured issues related to this emerging technology at the point of inception. It is a key reference for biomedical engineers and researchers in neural engineering, biomedical engineering, computer science, and mathematics.
1. Designing Human-Computer Interaction with Neuroadaptive Technology 2. Defining Neuroadaptive Technology: The Trouble with Implicit Human-Computer Interaction 3. The Multi-Stage Theory of Neurofeedback Learning: A Framework for Understanding Mechanisms 4. Towards Neuroadaptive Modeling: Assessing the Cognitive States of Pilots through Passive Brain-Computer Interfacing 5. Tangible Physiological Devices for Positive Computing, a Retrospective 6. The Influence of a Neuroadaptive Game as Distraction from Pain: A fNIRS study 7. Ecological Measures of Cognitive Impairments in Aeronautics: Theory and Application 8. Transcranial Direct-Current Stimulation (tDCS) Attenuates Perceived Temporal Demand During Simulated Laparoscopic Tasks 9. Adaptive Virtual Reality 10. Possibilities and Pitfalls for the Co-Registration of Mobile EEG and Eye- Tracking in the Study of Economic Decision-Making in Naturalistic Settings 11. The impact of electrode shifts on BCI Classifier accuracy 12. Walking Improves The Perfomance of a Brain-Computer Interface for Group Decision Making 13. Spontaneous Radiofrequency Emission from Electron Spins within Drosophila: a novel biological signal Appendix A. Abstracts from the First Neuroadaptive Technology Conference, 2017 B. Abstracts from the Second Neuroadaptive Technology Conference, 2019
Subject Areas: Biomedical engineering [MQW]
