Handbook of Neuroengineering
portes grátis
Handbook of Neuroengineering
Thakor, Nitish V.
Springer Verlag, Singapore
02/2023
3702
Dura
Inglês
9789811655395
15 a 20 dias
7702
Descrição não disponível.
Editorial / Excerps.- Subcellular Compartmentalization for Neurobiology: Focusing on the Axon.- Microfluidic Culture Platforms in Neuroscience Research.- Flexible and Soft Materials and Devices for Neural Interface.- Coatings for Microneural Implants: Biological and Mechanical Considerations.- Coatings for Microneural Implants: Electrical Considerations.- Quantitative Assessment of the Mechanical Properties of the Neural Interface.- Biomimetic Approaches Towards Device-Tissue Integration.- Implantable Device Fabrication and Packaging.- State-of-the-Art Technology on MEAs for Interfacing Live Neurons.- Distributed Neural Interfaces: Challenges and Trends in Scaling Implantable Technology.- Challenges for Large Scale Brain-Machine Interfaces.- Organic Bioelectronics.- High-Density Fiberless Optoelectrodes with Integrated Waveguides and ?LEDs.- Nanostructured Platforms Interfacing with Nervous System.- Neuroflex: Intraneural and Extraneural Flexible Sensor Architectures for Neural Probing.- Regenerative Electrodes for Peripheral Nerve Interfacing.- Neurochemical Sensing.- Ultrasonic Wireless Neural Recording and Stimulation Interfaces.- Neural Drug Delivery.- Design Considerations for Implantable Neural Circuits and Systems.- Neuroprosthesis and Functional Electrical Stimulation (Peripheral).- Analogue Front-End Design for Neural Recording.- Implantable Direct Current Neural Modulation.- Energy-Efficient Electrical Stimulation Systems.- Wireless Bioelectronic Interfaces Electromagnetic Performance and Safety.- State-of-the-art technology on Highly Miniaturized Free-Floating Neural Implants.- Peripheral Neural Interfaces (PNIs) for Decoding Motor Intentions and Encoding Somatosensations in Upper-Limb Amputees.- Modeling Peripheral Nerve Stimulation.- Spinal Interfacing via Muscle Recordings for Neuroprosthesis Control.- Towards a wireless implantable brain-machine interface for locomotion control.- Visual Prostheses: Neuroengineering Handbook.- Vision: Optogenetics Addressing AMD Diseases.- Brain-Machine Interfaces for Upper and Lower Limb Prostheses.- Developing a Neuroprosthesis for Memory: The Past, Present, and Future.- Noninvasive and Invasive BCIs and Hardware and Software Components for BCIs.- Brain Co-processors: Using AI to Restore and Augment Brain Function.- Artificial Sensory Feedback to the Brain: Somatosensory Feedback for Neural Devices and BCI.- Brain-Computer Interface for Stroke Rehabilitation.- Brain-Machine Interfaces for Closed-Loop Electrical Brain Stimulation in Neuropsychiatric Disorders.- Brain-machine interfaces: from restoring sensorimotor control to augmenting cognition.- Motor BMIs Have Entered the Clinical Realm.- Neuromorphic Neural Interfaces.- Neuromorphic Circuits and Systems: From Neuron Models to Integrate-and-Fire Arrays.- Neuromorphic spiking neural network algorithms.- Programming Neuromorphics Using the Neural Engineering Framework.- Sensing-to-Learn and Learning-to-Sense: Principles for Designing NeuromorphicSensors.- Neuromorphic Tactile Sensing and Encoding.- Neuromorphic Sensing, Perception and Control for Robotics.- Emerging Technologies in Neuroengineering to Advance Rehabilitation, Improve Quality of Care Delivery, and Encourage Independent Living.- Neural Interfaces involving the CNS and PNS combined with upper limb actuators for motor rehabilitation after stroke: technical and clinical considerations.- Hybrid robotics and neuroprosthetics for associative neurorehabilitation.- Neuroprosthesis and Functional Electrical Stimulation (Peripheral).- Brain-Machine Interfaces for Neurorobotics.- Neurorehabilitation with Virtual and Augmented Reality Tools.- Content Augmentation in Virtual Reality with Cognitive-Conflict-Based Brain-Computer Interface.- Neuroengineering of the Upper Limb: Manipulation of the Peripheral and Central Nervous System to Improve Function.- Optimal and Adaptive Stimulation Design.- Mechanisms and Targeting of Deep-Brain Stimulation Therapies.- Noninvasive Electrical Brain Stimulation of the Central Nervous System.- Transcranial Ultrasound Stimulation.- Biophysics and Mechanisms of Spinal Cord Stimulation for Chronic Pain.- Modeling of the Peripheral Nerve to Investigate Advanced Neural Stimulation (Sensory Neural Prosthesis).- Closed-Loop Visceral Bioelectronics Therapies.- Models for Closed-Loop Cardiac Control Using Vagal Nerve Stimulation.- Sacral Nerve Stimulation for Gastrointestinal Disorders.- Sudden Deaths: A Failure of Feedback Control.- Electrical Block of Peripheral Nerves.- EEG Models and Analysis.- EEG-Based Machine Learning: Theory and Applications.- Neural Encoding and Decoding.- State Space Models for Spike Data.- Quantitative Modeling on Nonstationary Neural Spikes: From Reinforcement Learning to Point Process.- Real-Time Detection of Acute Pain Signals Based on Spikes/LFP.- Graph Theory for Brain Signal Processing.- Neuroscience of Cognitive Functions: From Theory to Applications.- Brain's Networks and Their Functional Significance in Cognition.- Cognitive State Analysis, Understanding, and Decoding from the Perspective of Brain Connectivity.- Vigilance Assessment and Enhancement.- Cognitive State Assessment and Monitoring: A Brain Connectivity Perspective.- Deep Learning Methods for EEG Neural Classification.- Consumer Neuroscience: A Neural Engineering Approach.- Multimodal Neuroimaging with Simultaneous fMRI and EEG.- Structural Neuroimaging: From Macroscopic to Microscopic Scales.- Shape Diffeomorphometry of Brain Structures in Neurodegeneration and Neurodevelopment.- Mapping Brain Networks Using Multimodal Data.- Multimodal and Multiparametric Neuroimaging of Gliomas.- Functional Monitoring and Imaging in Deep Brain Structures.- Optical Imaging of Epileptic Seizures.- Photoacoustic Imaging Tools for Neurological Applications.- Quantitative EEG Analysis in Intensive Care Patients.- Using Connectivity to Explain Neuropsychiatric Conditions: The Example of Autism.- Determining the Role of Synchrony Dynamics in Epileptic Brain Networks.- Computational Approaches for Diagnosis and Monitoring of Epilepsy from Scalp EEG.- Somatosensory neuromodulation with a focus towards clinical systems.- A Neuroprosthetic for Individuals with Tetraplegia: The path from a clinical research tool to a home-use assistive device.- Towards Real-World Neuromonitoring and Applications in Cognitive Engineering.- The 2020 Roadmap for Bioelectronic Medicine.- Neurotechnology: Patenting Roadmap.- Quality Management Systems for Neural Engineering: Principles and Practices.- Invasive Neural Integration and Clinical Translation.- Neurosurgical Considerations for the Brain Computer Interface.- Developing ethical guidelines for implantable neurotechnology: The importance of incorporating stakeholder input.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Brain structure and function;Visceral nervous system;Neuromuscular junction;Neural circuits;Neurotechnology;Neural regeneration;Microelectrode array;Neurochips;Neural Interface;Optical microsensors;Optogenetic microprobes;Electrode-tissue interface;Neural recording and stimulation;Neuroprosthesis;Neurorehabilitation;Robotic Assisted Therapy;Human Augmentation;Brain Computer Interface;Bio-Robotics;Connectome imaging
Editorial / Excerps.- Subcellular Compartmentalization for Neurobiology: Focusing on the Axon.- Microfluidic Culture Platforms in Neuroscience Research.- Flexible and Soft Materials and Devices for Neural Interface.- Coatings for Microneural Implants: Biological and Mechanical Considerations.- Coatings for Microneural Implants: Electrical Considerations.- Quantitative Assessment of the Mechanical Properties of the Neural Interface.- Biomimetic Approaches Towards Device-Tissue Integration.- Implantable Device Fabrication and Packaging.- State-of-the-Art Technology on MEAs for Interfacing Live Neurons.- Distributed Neural Interfaces: Challenges and Trends in Scaling Implantable Technology.- Challenges for Large Scale Brain-Machine Interfaces.- Organic Bioelectronics.- High-Density Fiberless Optoelectrodes with Integrated Waveguides and ?LEDs.- Nanostructured Platforms Interfacing with Nervous System.- Neuroflex: Intraneural and Extraneural Flexible Sensor Architectures for Neural Probing.- Regenerative Electrodes for Peripheral Nerve Interfacing.- Neurochemical Sensing.- Ultrasonic Wireless Neural Recording and Stimulation Interfaces.- Neural Drug Delivery.- Design Considerations for Implantable Neural Circuits and Systems.- Neuroprosthesis and Functional Electrical Stimulation (Peripheral).- Analogue Front-End Design for Neural Recording.- Implantable Direct Current Neural Modulation.- Energy-Efficient Electrical Stimulation Systems.- Wireless Bioelectronic Interfaces Electromagnetic Performance and Safety.- State-of-the-art technology on Highly Miniaturized Free-Floating Neural Implants.- Peripheral Neural Interfaces (PNIs) for Decoding Motor Intentions and Encoding Somatosensations in Upper-Limb Amputees.- Modeling Peripheral Nerve Stimulation.- Spinal Interfacing via Muscle Recordings for Neuroprosthesis Control.- Towards a wireless implantable brain-machine interface for locomotion control.- Visual Prostheses: Neuroengineering Handbook.- Vision: Optogenetics Addressing AMD Diseases.- Brain-Machine Interfaces for Upper and Lower Limb Prostheses.- Developing a Neuroprosthesis for Memory: The Past, Present, and Future.- Noninvasive and Invasive BCIs and Hardware and Software Components for BCIs.- Brain Co-processors: Using AI to Restore and Augment Brain Function.- Artificial Sensory Feedback to the Brain: Somatosensory Feedback for Neural Devices and BCI.- Brain-Computer Interface for Stroke Rehabilitation.- Brain-Machine Interfaces for Closed-Loop Electrical Brain Stimulation in Neuropsychiatric Disorders.- Brain-machine interfaces: from restoring sensorimotor control to augmenting cognition.- Motor BMIs Have Entered the Clinical Realm.- Neuromorphic Neural Interfaces.- Neuromorphic Circuits and Systems: From Neuron Models to Integrate-and-Fire Arrays.- Neuromorphic spiking neural network algorithms.- Programming Neuromorphics Using the Neural Engineering Framework.- Sensing-to-Learn and Learning-to-Sense: Principles for Designing NeuromorphicSensors.- Neuromorphic Tactile Sensing and Encoding.- Neuromorphic Sensing, Perception and Control for Robotics.- Emerging Technologies in Neuroengineering to Advance Rehabilitation, Improve Quality of Care Delivery, and Encourage Independent Living.- Neural Interfaces involving the CNS and PNS combined with upper limb actuators for motor rehabilitation after stroke: technical and clinical considerations.- Hybrid robotics and neuroprosthetics for associative neurorehabilitation.- Neuroprosthesis and Functional Electrical Stimulation (Peripheral).- Brain-Machine Interfaces for Neurorobotics.- Neurorehabilitation with Virtual and Augmented Reality Tools.- Content Augmentation in Virtual Reality with Cognitive-Conflict-Based Brain-Computer Interface.- Neuroengineering of the Upper Limb: Manipulation of the Peripheral and Central Nervous System to Improve Function.- Optimal and Adaptive Stimulation Design.- Mechanisms and Targeting of Deep-Brain Stimulation Therapies.- Noninvasive Electrical Brain Stimulation of the Central Nervous System.- Transcranial Ultrasound Stimulation.- Biophysics and Mechanisms of Spinal Cord Stimulation for Chronic Pain.- Modeling of the Peripheral Nerve to Investigate Advanced Neural Stimulation (Sensory Neural Prosthesis).- Closed-Loop Visceral Bioelectronics Therapies.- Models for Closed-Loop Cardiac Control Using Vagal Nerve Stimulation.- Sacral Nerve Stimulation for Gastrointestinal Disorders.- Sudden Deaths: A Failure of Feedback Control.- Electrical Block of Peripheral Nerves.- EEG Models and Analysis.- EEG-Based Machine Learning: Theory and Applications.- Neural Encoding and Decoding.- State Space Models for Spike Data.- Quantitative Modeling on Nonstationary Neural Spikes: From Reinforcement Learning to Point Process.- Real-Time Detection of Acute Pain Signals Based on Spikes/LFP.- Graph Theory for Brain Signal Processing.- Neuroscience of Cognitive Functions: From Theory to Applications.- Brain's Networks and Their Functional Significance in Cognition.- Cognitive State Analysis, Understanding, and Decoding from the Perspective of Brain Connectivity.- Vigilance Assessment and Enhancement.- Cognitive State Assessment and Monitoring: A Brain Connectivity Perspective.- Deep Learning Methods for EEG Neural Classification.- Consumer Neuroscience: A Neural Engineering Approach.- Multimodal Neuroimaging with Simultaneous fMRI and EEG.- Structural Neuroimaging: From Macroscopic to Microscopic Scales.- Shape Diffeomorphometry of Brain Structures in Neurodegeneration and Neurodevelopment.- Mapping Brain Networks Using Multimodal Data.- Multimodal and Multiparametric Neuroimaging of Gliomas.- Functional Monitoring and Imaging in Deep Brain Structures.- Optical Imaging of Epileptic Seizures.- Photoacoustic Imaging Tools for Neurological Applications.- Quantitative EEG Analysis in Intensive Care Patients.- Using Connectivity to Explain Neuropsychiatric Conditions: The Example of Autism.- Determining the Role of Synchrony Dynamics in Epileptic Brain Networks.- Computational Approaches for Diagnosis and Monitoring of Epilepsy from Scalp EEG.- Somatosensory neuromodulation with a focus towards clinical systems.- A Neuroprosthetic for Individuals with Tetraplegia: The path from a clinical research tool to a home-use assistive device.- Towards Real-World Neuromonitoring and Applications in Cognitive Engineering.- The 2020 Roadmap for Bioelectronic Medicine.- Neurotechnology: Patenting Roadmap.- Quality Management Systems for Neural Engineering: Principles and Practices.- Invasive Neural Integration and Clinical Translation.- Neurosurgical Considerations for the Brain Computer Interface.- Developing ethical guidelines for implantable neurotechnology: The importance of incorporating stakeholder input.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Brain structure and function;Visceral nervous system;Neuromuscular junction;Neural circuits;Neurotechnology;Neural regeneration;Microelectrode array;Neurochips;Neural Interface;Optical microsensors;Optogenetic microprobes;Electrode-tissue interface;Neural recording and stimulation;Neuroprosthesis;Neurorehabilitation;Robotic Assisted Therapy;Human Augmentation;Brain Computer Interface;Bio-Robotics;Connectome imaging
