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Objective biometric methods for the diagnosis and treatment of nervous system disorders /
Objective Biometric Methods for the Diagnosis and Treatment of Nervous System Disorders provides a new and unifying methodological framework, introducing new objective biometrics to characterize patterns of sensory motor control underlying symptoms. Its goal is to radically transform the ways in whi...
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London, United Kingdom :
Academic Press, an imprint of Elsevier,
[2018]
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Objective Biometric Methods for the Diagnosis and Treatment of Nervous System Disorders; Copyright Page; Contents; Preface; 1 The Closed Feedback Loops Between the Peripheral and the Central Nervous Systems, the Principle of Reafference and Its Co ... ; Part I: Searching for Volition While in a Comma State; Serendipitous Encounters; From Spontaneous Random Noise to Well-Structured Signals; The Micro-Movements Perspective; Distinguishing Deliberateness From Spontaneity in Kinematics Signals; From Volition to the Path of Rehabilitation; Revisiting the Principle of Reafference.
- Part II: Physical Growth and Neurodevelopment in NeonatesSome Detective Work; The USC Baby Data; The Pre-Labeled Data Showed Differences in the Rates of Anatomical Increment Across the Babies; Data-Driven Approach; Scale-Free Relation Between Two Nonlinear and Non-Gaussian Processes of a Complex System; Conclusions; Appendix-First-Order Stochastic Rule; References; 2 Critical Ingredients for Proper Social Interactions: Rethinking the Mirror Neuron System Theory; Part I; The Human Mirror Neuron Systems; Mirror Neuron Systems Without Reafferent Codes; Rethinking Simulation Theory.
- Dissecting Simulation TheoryHow Do I Know It's Me Moving My Own Body With Agency?; A Different Paradigm to Study Decision-Making; Blindly Predicting the Task From the Performance Variability; Some Additional Thoughts; Part II: A Small Pedagogical Parenthesis About Taking Motor Control to the Classroom in a Do-It-Yourself Setting; Physical Movement Kinematics as a Window Into Mental Decisions; Where to Go With This?; Self-Supervision: Distinguishing My Self-Generated Kinesthetic Noise From Extraneous Noise; Self-Discovering Cause and Effect: Autonomy From the Bottom-Up.
- The Bridge Between Mental Intent and Physical VolitionHabilitation and Enhancement of Volition to Evoke Vocalization; References; 3 The Case of Autism Spectrum Disorders: When One Cannot Properly Feel the Body and Its Motions From the Start of Life; Part I: How do you Measure Autism?; Measuring ASD Objectively, That is; One Plain Random Process in Nature vs Many Running in Tandem Within Interconnected Systems Poised to Develop Intelligence; An AHA! Moment; Empirically Driven Ideas Inspired on Biorhythms' Statistics; Back to the Drawing Board?
- Anchors of Known Etiology and Longitudinal Dynamic DiagnosesMind the Gap: Behavior is Much More Than Mouse Clicks; Science Meets Technology Transfer and Commercialization; Parameterizing Changes in the Nervous Systems in Near Real Time; Part II: Physiological Signals Underlying Cognitive Decisions; Designing Appropriate Cognitive-Motor Tasks; Motor Research With Children is More Challenging so it Requires New Methods; Increase in Cognitive Loads Induces Adaptive Motor Learning; Adaptive Motor Learning Helps Decision Accuracy; Sensing Through Movement: When not all Noise is Created Equal.