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Neuroergonomics : the Brain at Work and in Everyday Life /

Neuroergonomics: The Brain at Work and in Everyday Life details the methodologies that are useful for keeping an ideal human-machine system up-to-date, along with information on how to prevent potential overload and minimize errors. It discusses neural measures and the proper methods and technologie...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Ayaz, Hasan (Editor ), Dehais, Frédéric (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, United Kingdom ; San Diego, CA, United States : Academic Press is an imprint of Elsevier, [2019]
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Neuroergonomics; Neuroergonomics: The Brain at Work and in Everyday Life; Copyright; Dedication; Contents; List of Contributors; I
  • Introduction; 1
  • Progress and Direction in Neuroergonomics; INTRODUCTION; UNDERSTANDING THE BRAIN IN EVERYDAY ACTIVITIES; Adapting Interaction; Augmenting Cognition; CONCLUSION AND FUTURE CHALLENGES; BOOK ORGANIZATION; REFERENCES; II
  • Methods; 2
  • The Use of Electroencephalography in Neuroergonomics; INTRODUCTION; PHYSIOLOGICAL FOUNDATION OF THE EEG; EEG Amplifiers; EEG Sensors; SIGNAL PROCESSING
  • Data Analysis in the Time Domain-Event-Related Potentials data Analysis in the Frequency Domain-Spectral Variations; APPLICATIONS; SUMMARY; REFERENCES; 3
  • The Use of Functional Near-Infrared Spectroscopy in Neuroergonomics; INTRODUCTION; MEASURE; Physiological and Physical Principles; PROCESSING; Motion Artifacts; Superficial Layers; Physiological Signals; ANALYZE; APPLICATIONS; Aerospace: Cognitive Workload Assessment of Air Traffic Controllers; Aerospace: Expertise Development With Piloting Tasks; Healthcare: Cognitive Aging; CONCLUSION; REFERENCES
  • 4
  • Why is Eye Tracking an Essential Part of Neuroergonomics?EYE MOVEMENTS; PUPIL DIAMETER; EYE-COMPUTER INTERFACE; REFERENCES; 5
  • The Use of tDCS and rTMS Methods in Neuroergonomics; INTRODUCTION; TMS PRINCIPLES; TDCS PRINCIPLES; CONCLUSION; REFERENCES; 6
  • Transcranial Doppler Sonography in Neuroergonomics; TCD INSTRUMENTATION AND APPLICATION; TCD AND TASK CHARACTERISTICS; TCD and Supervisory Control; TCD AND OPERATOR CHARACTERISTICS; TCD and the Effects of Operator Experience; TCD and the Effects of Cognitive Aging; CONCLUSION; REFERENCES; FURTHER READING
  • 7
  • Brain-Computer Interface Contributions to NeuroergonomicsINTRODUCTION; SIGNAL PROCESSING; Preprocessing; Feature Extraction; Classification; Adaptation; CONTRIBUTIONS TO NEUROERGONOMICS; Mental States; Offline Use: Evaluation; Online Use: Adaptation; PERSPECTIVES; REFERENCES; 8
  • Neuroergonomics of Simulators and Behavioral Research Methods; OVERVIEW; SIMULATIONS AND NEUROERGONOMICS; Advantages; Challenges; IMPORTANT ISSUES; Transfer of Training; Fidelity; Validity; Generalizability; Part Task; Whole Task; Simulator Sickness; Adaptation Period; BEHAVIORAL RESEARCH METHODS
  • Baseline PerformanceControl Conditions; CONCLUSION; REFERENCES; 9
  • Neuroergonomics for Aviation; INTRODUCTION; CHALLENGES; ELECTRO-ENCEPHALOGRAPHY; FUNCTIONAL NEAR INFRA RED SPECTROSCOPY; Brain Computer Interface and Neuro-Adaptive Technology; NEUROSTIMULATION; CONCLUSION; REFERENCES; 10
  • MoBI-Mobile Brain/Body Imaging; INTRODUCTION; PHYSIOLOGICAL PRINCIPLES; INSTRUMENTATION; Signal Processing and Analysis Approaches; APPLICATIONS; REFERENCES; 11
  • Experiments With Participants: Some Ethical Considerations; INTRODUCTION; WHO IS INVOLVED IN THE EXPERIMENT?; The Investigator; The Participants