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In this EBook, we highlight how newly emerging techniques for non-invasive manipulation of the human brain, combined with simultaneous recordings of neural activity, contribute to the understanding of brain functions and neural dynamics in humans. A growing body of evidence indicates that the neural dynamics (e.g., oscillations, synchrony) are important in mediating information processing and networking for various functions in the human brain. Most of previous studies on human brain dynamics, however, show correlative relationships between brain functions and patterns of neural dynamics measured by imaging methods such as electroencephalography (EEG), magnetoencephalography (MEG), near-infrared spectroscopy (NIRS), positron emission tomography (PET) and functional magnetic resonance imaging (fMRI). In contrast, manipulative approaches by non-invasive brain stimulation (NIBS) have been developed and extensively used. These approaches include transcranial magnetic stimulation (TMS) and transcranial electric stimulation (tES) such as transcranial direct current stimulation (tDCS), alternating current stimulation (tACS), and random noise stimulation (tRNS), which can directly manipulate neural dynamics in the intact human brain. Although the neural-correlate approach is a strong tool, we think that manipulative approaches have far greater potential to show causal roles of neural dynamics in human brain functions. There have been technical challenges with using manipulative methods together with imaging methods. However, thanks to recent technical developments, it has become possible to use combined methods such as TMS–EEG coregistration. We can now directly measure and manipulate neural dynamics and analyze functional consequences to show causal roles of neural dynamics in various brain functions. Moreover, these combined methods can probe brain excitability, plasticity and cortical networking associated with information processing in the intact human brain. The contributors to this EBook have succeeded in showcasing cutting-edge studies and demonstrate the huge impact of their approaches on many areas in human neuroscience and clinical applications.

non-invasive brain stimulation NIBS --- TMS-EEG --- Transcranial magnetic stimulation TMS --- transcranial electric stimulation tES --- Coregistration --- Near-infrared spectroscopy NIRS --- Functional magnetic resonance imaging fMRI --- transcranial direct current stimulation tDCS --- transcranial alternating current stimulation tACS --- transcranial random noise stimulation tRNS

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In this EBook, we highlight how newly emerging techniques for non-invasive manipulation of the human brain, combined with simultaneous recordings of neural activity, contribute to the understanding of brain functions and neural dynamics in humans. A growing body of evidence indicates that the neural dynamics (e.g., oscillations, synchrony) are important in mediating information processing and networking for various functions in the human brain. Most of previous studies on human brain dynamics, however, show correlative relationships between brain functions and patterns of neural dynamics measured by imaging methods such as electroencephalography (EEG), magnetoencephalography (MEG), near-infrared spectroscopy (NIRS), positron emission tomography (PET) and functional magnetic resonance imaging (fMRI). In contrast, manipulative approaches by non-invasive brain stimulation (NIBS) have been developed and extensively used. These approaches include transcranial magnetic stimulation (TMS) and transcranial electric stimulation (tES) such as transcranial direct current stimulation (tDCS), alternating current stimulation (tACS), and random noise stimulation (tRNS), which can directly manipulate neural dynamics in the intact human brain. Although the neural-correlate approach is a strong tool, we think that manipulative approaches have far greater potential to show causal roles of neural dynamics in human brain functions. There have been technical challenges with using manipulative methods together with imaging methods. However, thanks to recent technical developments, it has become possible to use combined methods such as TMS–EEG coregistration. We can now directly measure and manipulate neural dynamics and analyze functional consequences to show causal roles of neural dynamics in various brain functions. Moreover, these combined methods can probe brain excitability, plasticity and cortical networking associated with information processing in the intact human brain. The contributors to this EBook have succeeded in showcasing cutting-edge studies and demonstrate the huge impact of their approaches on many areas in human neuroscience and clinical applications.

non-invasive brain stimulation NIBS --- TMS-EEG --- Transcranial magnetic stimulation TMS --- transcranial electric stimulation tES --- Coregistration --- Near-infrared spectroscopy NIRS --- Functional magnetic resonance imaging fMRI --- transcranial direct current stimulation tDCS --- transcranial alternating current stimulation tACS --- transcranial random noise stimulation tRNS --- non-invasive brain stimulation NIBS --- TMS-EEG --- Transcranial magnetic stimulation TMS --- transcranial electric stimulation tES --- Coregistration --- Near-infrared spectroscopy NIRS --- Functional magnetic resonance imaging fMRI --- transcranial direct current stimulation tDCS --- transcranial alternating current stimulation tACS --- transcranial random noise stimulation tRNS

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This book focuses on new sensing technologies, measurement techniques, and their applications in medicine and healthcare. Specifically, the book briefly describes the potential of smart sensors in the aforementioned applications, collecting 24 articles selected and published in the Special Issue “Smart Sensors for Healthcare and Medical Applications”. We proposed this topic, being aware of the pivotal role that smart sensors can play in the improvement of healthcare services in both acute and chronic conditions as well as in prevention for a healthy life and active aging. The articles selected in this book cover a variety of topics related to the design, validation, and application of smart sensors to healthcare.

Humanities --- Social interaction --- radiation-induced current --- dosimetry --- photodiodes --- phototransistors (MOSFETs) --- photovoltaic sensor --- CCD/CMOS --- cancer nodules detection --- phantom --- stiffness analysis --- ultrasound analysis --- visual analysis --- automatic robotic platform --- remote support for pathologists --- gait analysis --- gait correction --- electrostatic gait signal --- improved Detrended Cross-Correlation Analysis cross-correlation coefficient --- measuring system --- measurements --- contactless --- respiratory rate --- breathing pattern --- ECG electrode swaps --- ECG electrode potentials --- WCT potential change --- reconstructing correct ECG leads --- MSMinv transformation --- unicolor limb–chest electrodes --- torsional wave --- cervix --- pregnancy --- cervical stiffness --- fiber Bragg gratings --- smart textiles --- wearable systems --- cardiac monitoring --- respiratory monitoring --- precision sports --- archery --- body pressure distribution --- air-filled cell --- alternating pressure air mattress --- time of flight --- air flow --- active control system --- mobile EEG recordings --- montage-replaceable headsets --- BCI --- fiber Bragg grating --- plastic optical fiber --- non-invasive measurement --- pulse wave signals --- blood pressure --- partial least squares regression --- people counting --- bi-directional --- motion detection --- time of flight sensor --- force myography --- prosthetic fitting --- regression --- calibration --- error reduction --- linear regression --- random forest --- general regression neural network --- cross-talk --- force sensitive resistor --- MRI --- EMG --- graph theory --- electrical network --- muscle activity --- forearm --- COPD --- oxygen concentrator --- oxygen therapy --- automatic oxygen concentrator --- physical activity --- machine learning --- respiratory medicine --- portable oxygen concentrator --- oxygen delivery --- cerebral palsy --- game-based rehabilitation exercises --- computerized assessment methods --- motion tracking sensors --- Kinect sensor --- EEG --- PPG --- epilepsy --- signal processing --- brain monitoring --- artificial neural network --- predictive analysis --- dietary monitoring --- healthcare --- ring-type biosensor --- personalized digital medicine --- frailty syndrome --- sit-to-stand --- 30-s chair stand test --- wearable sensors --- fetal movement simulator --- fetal movement monitor --- maternal abdomen model --- acoustic sensor --- accelerometer --- piezoelectric diaphragm --- fiber Bragg grating sensors (FBGs) --- functional magnetic resonance imaging (fMRI) --- grasping actions detection --- motor assessment --- MR-compatible measuring systems --- abdominal movement signal --- hypopnea --- LSTM-RNN --- neural network --- oxygen saturation --- sleep apnea syndrome --- sleep–wake detection --- synchrosqueezing transform --- triaxial accelerometer --- thoracic movement signal --- multiple sclerosis --- kinematics --- surface EMG --- accelerator --- inertial sensor --- T10MW --- markerless motion capture --- automatic pushing analysis --- SCI patients --- RGB-D sensors --- respiration monitoring --- non-contact monitoring --- body movements detection --- thermal imaging --- natural sleep environments --- n/a --- unicolor limb-chest electrodes --- sleep-wake detection

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book focuses on new sensing technologies, measurement techniques, and their applications in medicine and healthcare. Specifically, the book briefly describes the potential of smart sensors in the aforementioned applications, collecting 24 articles selected and published in the Special Issue “Smart Sensors for Healthcare and Medical Applications”. We proposed this topic, being aware of the pivotal role that smart sensors can play in the improvement of healthcare services in both acute and chronic conditions as well as in prevention for a healthy life and active aging. The articles selected in this book cover a variety of topics related to the design, validation, and application of smart sensors to healthcare.

Humanities --- Social interaction --- radiation-induced current --- dosimetry --- photodiodes --- phototransistors (MOSFETs) --- photovoltaic sensor --- CCD/CMOS --- cancer nodules detection --- phantom --- stiffness analysis --- ultrasound analysis --- visual analysis --- automatic robotic platform --- remote support for pathologists --- gait analysis --- gait correction --- electrostatic gait signal --- improved Detrended Cross-Correlation Analysis cross-correlation coefficient --- measuring system --- measurements --- contactless --- respiratory rate --- breathing pattern --- ECG electrode swaps --- ECG electrode potentials --- WCT potential change --- reconstructing correct ECG leads --- MSMinv transformation --- unicolor limb-chest electrodes --- torsional wave --- cervix --- pregnancy --- cervical stiffness --- fiber Bragg gratings --- smart textiles --- wearable systems --- cardiac monitoring --- respiratory monitoring --- precision sports --- archery --- body pressure distribution --- air-filled cell --- alternating pressure air mattress --- time of flight --- air flow --- active control system --- mobile EEG recordings --- montage-replaceable headsets --- BCI --- fiber Bragg grating --- plastic optical fiber --- non-invasive measurement --- pulse wave signals --- blood pressure --- partial least squares regression --- people counting --- bi-directional --- motion detection --- time of flight sensor --- force myography --- prosthetic fitting --- regression --- calibration --- error reduction --- linear regression --- random forest --- general regression neural network --- cross-talk --- force sensitive resistor --- MRI --- EMG --- graph theory --- electrical network --- muscle activity --- forearm --- COPD --- oxygen concentrator --- oxygen therapy --- automatic oxygen concentrator --- physical activity --- machine learning --- respiratory medicine --- portable oxygen concentrator --- oxygen delivery --- cerebral palsy --- game-based rehabilitation exercises --- computerized assessment methods --- motion tracking sensors --- Kinect sensor --- EEG --- PPG --- epilepsy --- signal processing --- brain monitoring --- artificial neural network --- predictive analysis --- dietary monitoring --- healthcare --- ring-type biosensor --- personalized digital medicine --- frailty syndrome --- sit-to-stand --- 30-s chair stand test --- wearable sensors --- fetal movement simulator --- fetal movement monitor --- maternal abdomen model --- acoustic sensor --- accelerometer --- piezoelectric diaphragm --- fiber Bragg grating sensors (FBGs) --- functional magnetic resonance imaging (fMRI) --- grasping actions detection --- motor assessment --- MR-compatible measuring systems --- abdominal movement signal --- hypopnea --- LSTM-RNN --- neural network --- oxygen saturation --- sleep apnea syndrome --- sleep-wake detection --- synchrosqueezing transform --- triaxial accelerometer --- thoracic movement signal --- multiple sclerosis --- kinematics --- surface EMG --- accelerator --- inertial sensor --- T10MW --- markerless motion capture --- automatic pushing analysis --- SCI patients --- RGB-D sensors --- respiration monitoring --- non-contact monitoring --- body movements detection --- thermal imaging --- natural sleep environments --- radiation-induced current --- dosimetry --- photodiodes --- phototransistors (MOSFETs) --- photovoltaic sensor --- CCD/CMOS --- cancer nodules detection --- phantom --- stiffness analysis --- ultrasound analysis --- visual analysis --- automatic robotic platform --- remote support for pathologists --- gait analysis --- gait correction --- electrostatic gait signal --- improved Detrended Cross-Correlation Analysis cross-correlation coefficient --- measuring system --- measurements --- contactless --- respiratory rate --- breathing pattern --- ECG electrode swaps --- ECG electrode potentials --- WCT potential change --- reconstructing correct ECG leads --- MSMinv transformation --- unicolor limb-chest electrodes --- torsional wave --- cervix --- pregnancy --- cervical stiffness --- fiber Bragg gratings --- smart textiles --- wearable systems --- cardiac monitoring --- respiratory monitoring --- precision sports --- archery --- body pressure distribution --- air-filled cell --- alternating pressure air mattress --- time of flight --- air flow --- active control system --- mobile EEG recordings --- montage-replaceable headsets --- BCI --- fiber Bragg grating --- plastic optical fiber --- non-invasive measurement --- pulse wave signals --- blood pressure --- partial least squares regression --- people counting --- bi-directional --- motion detection --- time of flight sensor --- force myography --- prosthetic fitting --- regression --- calibration --- error reduction --- linear regression --- random forest --- general regression neural network --- cross-talk --- force sensitive resistor --- MRI --- EMG --- graph theory --- electrical network --- muscle activity --- forearm --- COPD --- oxygen concentrator --- oxygen therapy --- automatic oxygen concentrator --- physical activity --- machine learning --- respiratory medicine --- portable oxygen concentrator --- oxygen delivery --- cerebral palsy --- game-based rehabilitation exercises --- computerized assessment methods --- motion tracking sensors --- Kinect sensor --- EEG --- PPG --- epilepsy --- signal processing --- brain monitoring --- artificial neural network --- predictive analysis --- dietary monitoring --- healthcare --- ring-type biosensor --- personalized digital medicine --- frailty syndrome --- sit-to-stand --- 30-s chair stand test --- wearable sensors --- fetal movement simulator --- fetal movement monitor --- maternal abdomen model --- acoustic sensor --- accelerometer --- piezoelectric diaphragm --- fiber Bragg grating sensors (FBGs) --- functional magnetic resonance imaging (fMRI) --- grasping actions detection --- motor assessment --- MR-compatible measuring systems --- abdominal movement signal --- hypopnea --- LSTM-RNN --- neural network --- oxygen saturation --- sleep apnea syndrome --- sleep-wake detection --- synchrosqueezing transform --- triaxial accelerometer --- thoracic movement signal --- multiple sclerosis --- kinematics --- surface EMG --- accelerator --- inertial sensor --- T10MW --- markerless motion capture --- automatic pushing analysis --- SCI patients --- RGB-D sensors --- respiration monitoring --- non-contact monitoring --- body movements detection --- thermal imaging --- natural sleep environments