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Sensors for Gait, Posture, and Health Monitoring Volume 2



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Autore: Lockhart Thurmon Visualizza persona
Titolo: Sensors for Gait, Posture, and Health Monitoring Volume 2 Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica: 1 electronic resource (392 p.)
Soggetto topico: Humanities
Social interaction
Soggetto non controllato: step detection
machine learning
outlier detection
transition matrices
autoencoders
ground reaction force (GRF)
micro electro mechanical systems (MEMS)
gait
walk
bipedal locomotion
3-axis force sensor
shoe
force distribution
multi-sensor gait classification
distributed compressed sensing
joint sparse representation classification
telemonitoring of gait
operating range
accelerometer
stride length
peak tibial acceleration
running velocity
wearable sensors
feedback technology
rehabilitation
motor control
cerebral palsy
inertial sensors
gait events
spatiotemporal parameters
postural control
falls in the elderly
fall risk assessment
low-cost instrumented insoles
foot plantar center of pressure
flexible sensor
gait recognition
piezoelectric material
wearable
adaptability
force sensitive resistors
self-tuning triple threshold algorithm
sweat sensor
sweat rate
dehydration
IoT
PDMS
surface electromyography
handgrip force
force-varying muscle contraction
nonlinear analysis
wavelet scale selection
inertial measurement unit
gyroscope
asymmetry
feature extraction
gait analysis
lower limb prosthesis
trans-femoral amputee
MR damper
knee damping control
inertial measurement units
motion analysis
kinematics
functional activity
repeatability
reliability
biomechanics
cognitive frailty
cognitive-motor impairment
Alzheimer's disease
motor planning error
instrumented trail-making task
ankle reaching task
dual task walking
nondestructive
joint moment
partial weight loading
muscle contributions
sit-to-stand training
motion parameters
step length
self-adaptation
Parkinson's disease (PD)
tremor dominant (TD)
postural instability and gait difficulty (PIGD)
center of pressure (COP)
fast Fourier transform (FFT)
wavelet transform (WT)
fall detection system
smartphones
accelerometers
machine learning algorithms
supervised learning
ANOVA analysis
Step-detection
ActiGraph
Pedometer
acceleration
physical activity
physical function
physical performance test
chair stand
sit to stand transfer
wearables
gyroscopes
e-Health application
physical rehabilitation
shear and plantar pressure sensor
biaxial optical fiber sensor
multiplexed fiber Bragg gratings
frailty
pre-frail
wearable sensor
sedentary behavior
moderate-to-vigorous activity
steps
fall detection
elderly people monitoring
telerehabilitation
virtual therapy
Kinect
eHealth
telemedicine
insole
injury prevention
biomechanical gait variable estimation
inertial gait variable
total knee arthroplasty
falls in healthy elderly
fall prevention
biometrics
human gait recognition
ground reaction forces
Microsoft Kinect
high heels
fusion data
ensemble classifiers
accidental falls
older adults
neural networks
convolutional neural network
long short-term memory
accelerometry
obesity
nonlinear
electrostatic field sensing
gait measurement
temporal parameters
artificial neural network
propulsion
aging
walking
smart footwear
frailty prediction
fall risk
smartphone based assessments
adverse post-operative outcome
intelligent surveillance systems
human fall detection
health and well-being
safety and security
movement control
anterior cruciate ligament
kinetics
real-time feedback
biomechanical gait features
impaired gait classification
pattern recognition
sensors
clinical
knee
osteoarthritis
shear stress
callus
woman
TUG
IMU
geriatric assessment
semi-unsupervised
self-assessment
domestic environment
functional decline
symmetry
trunk movement
autocorrelation
gait rehabilitation
wearable device
IMU sensors
gait classification
stroke patients
neurological disorders
scanning laser rangefinders (SLR), GAITRite
cadence
velocity and stride-length
power
angular velocity
human motion measurement
sensor fusion
complementary filter
fuzzy logic
inertial and magnetic sensors
ESOQ-2
Parkinson's disease
UPDRS
movement disorders
human computer interface
RGB-Depth
hand tracking
automated assessment
at-home monitoring
Parkinson's Diseases
motorized walker
haptic cue
gait pattern
statistics study
walk detection
step counting
signal processing
plantar pressure
flat foot
insoles
force sensors
arch index
sports analytics
deep learning
classification
inertial sensor
cross-country skiing
classical style
skating style
batteryless strain sensor
wireless strain sensor
resonant frequency modulation
Ecoflex
human activity recognition
smartphone
human daily activity
ensemble method
running
velocity
smart shoe
concussion
inertial motion units (IMUs)
vestibular exercises
validation
motion capture
user intent recognition
transfemoral prosthesis
multi-objective optimization
biogeography-based optimization
smart cane
weight-bearing
health monitoring
wearable/inertial sensors
regularity
variability
human
motion
locomotion
UPDRS tasks
posture
postural stability
center of mass
RGB-depth
neurorehabilitation
hallux abductus valgus
high heel
proximal phalanx of the hallux
abduction
valgus
ultrasonography
Achilles tendon
diagnostic
imaging
tendinopathy
foot insoles
electromyography
joint instability
muscle contractions
motorcycling
wearable electronic devices
validity
relative movement
lower limb prosthetics
biomechanic measurement tasks
quantifying socket fit
rehabilitation exercise
dynamic time warping
automatic coaching
exergame
fine-wire intramuscular EMG electrode
non-human primate model
traumatic spinal cord injury
wavelet transform
relative power
linear mixed model
VO2
calibration
MET
VO2net
speed
equivalent speed
free-living
children
adolescents
adults
gait event detection
hemiplegic gait
appropriate mother wavelet
acceleration signal
wavelet-selection criteria
conductive textile
stroke
hemiparetic
real-time monitoring
lower limb locomotion activity
triplet Markov model
semi-Markov model
on-line EM algorithm
human kinematics
phase difference angle
Persona (resp. second.): LockhartThurmon
Sommario/riassunto: In recent years, many technologies for gait and posture assessments have emerged. Wearable sensors, active and passive in-house monitors, and many combinations thereof all promise to provide accurate measures of physical activity, gait, and posture parameters. Motivated by market projections for wearable technologies and driven by recent technological innovations in wearable sensors (MEMs, electronic textiles, wireless communications, etc.), wearable health/performance research is growing rapidly and has the potential to transform future healthcare from disease treatment to disease prevention. The objective of this Special Issue is to address and disseminate the latest gait, posture, and activity monitoring systems as well as various mathematical models/methods that characterize mobility functions. This Special Issue focuses on wearable monitoring systems and physical sensors, and its mathematical models can be utilized in varied environments under varied conditions to monitor health and performance
Titolo autorizzato: Sensors for Gait, Posture, and Health Monitoring Volume 2  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557672103321
Lo trovi qui: Univ. Federico II
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