Keywords: سنسورهای اینرسی; Gait; Stance phase; Inertial sensors; Pressure insoles; Temporal parameters; Ankle osteoarthritis;
مقالات ISI سنسورهای اینرسی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: سنسورهای اینرسی; Cervical spine; Movement; Daily monitoring; Arthrodesis; Inertial sensors;
Keywords: سنسورهای اینرسی; 2330; Motor control; Coordination; Ski jumping; Take-off; Continuous relative phase; Inertial sensors;
The iFST: An instrumented version of the Fukuda Stepping Test for balance assessment
Keywords: سنسورهای اینرسی; Stepping; Balance impairment; Postural coordination; Stroke; Upper-body accelerations; Inertial sensors;
Three-dimensional primary and coupled range of motions and movement coordination of the pelvis, lumbar and thoracic spine in standing posture using inertial tracking device
Keywords: سنسورهای اینرسی; Lumbar/thoracic spine; Pelvis; Range of motion; Inertial sensors; Couple rotations;
Quantification of gait parameters with inertial sensors and inverse kinematics
Keywords: سنسورهای اینرسی; Gait recording; Human; Inertial sensors; Kalman filter;
A novel hybrid approach based-SRG model for vehicle position prediction in multi-GPS outage conditions
Keywords: سنسورهای اینرسی; GPS outages; Prediction method; Fuzzy estimation; Vehicle position errors; Inertial sensors;
Ship navigation via GPS/IMU/LOG integration using adaptive fission particle filter
Keywords: سنسورهای اینرسی; Ship navigation; Particle filter; GPS; Inertial sensors; MEMS-based IMU;
I sense overeating: Motif-based machine learning framework to detect overeating using wrist-worn sensing
Keywords: سنسورهای اینرسی; Wrist-worn sensors; Wearables; Hand-to-mouth gestures; Overeating; Inertial sensors; Motif-based segmentation; K-Spectral Centroid Clustering; Fusion; Classification; Feeding gesture;
IDNet: Smartphone-based gait recognition with convolutional neural networks
Keywords: سنسورهای اینرسی; Biometric gait analysis; Target recognition; Classification methods; Convolutional neural networks; Support vector machines; Inertial sensors; Feature extraction; Signal processing; Accelerometer; Gyroscope;
Gait initiation is impaired in subjects with Parkinson's disease in the OFF state: Evidence from the analysis of the anticipatory postural adjustments through wearable inertial sensors
Keywords: سنسورهای اینرسی; Inertial sensors; Force plate; Accelerometry; Spatio-temporal parameters; APA phases; Levodopa;
Evaluation of the performance of accelerometer-based gait event detection algorithms in different real-world scenarios using the MAREA gait database
Keywords: سنسورهای اینرسی; Gait events; Inertial sensors; Gait database; Heel-Strike; Toe-Off;
Shape from sensors: Curve networks on surfaces from 3D orientations
Keywords: سنسورهای اینرسی; Curve networks; Shape acquisition; Surface reconstruction; Inertial sensors; 3D sketching;
Temporal-spatial reach parameters derived from inertial sensors: Comparison to 3D marker-based motion capture
Keywords: سنسورهای اینرسی; Inertial sensors; Toddler reaching; Temporal-spatial; Motion capture;
Rotigotine for nocturnal hypokinesia in Parkinson's disease: Quantitative analysis of efficacy from a randomized, placebo-controlled trial using an axial inertial sensor
Keywords: سنسورهای اینرسی; Hypokinesia; Night-time; Parkinson's disease; Rotigotine; Wearable technology; Inertial sensors;
Objective assessment of movement competence in children using wearable sensors: An instrumented version of the TGMD-2 locomotor subtest
Keywords: سنسورهای اینرسی; Children movement competence; Test instrumentation; Inertial sensors;
Quantifying performance and effects of load carriage during a challenging balancing task using an array of wireless inertial sensors
Keywords: سنسورهای اینرسی; Balance; Inertial sensors; Performance; Stability; Load effects
Experimental Validation of the Tyndall Portable Lower-limb Analysis System with Wearable Inertial Sensors
Keywords: سنسورهای اینرسی; Inertial Sensors; Wearable; Knee Joint; Rehabilitation; Athletes;
The reliability of the quantitative timed up and go test (QTUG) measured over five consecutive days under single and dual-task conditions in community dwelling older adults
Keywords: سنسورهای اینرسی; Timed up and go; Inertial sensors; Test–retest reliability; Community dwelling older adults; Dual-task
Validity and reliability of an IMU-based method to detect APAs prior to gait initiation
Keywords: سنسورهای اینرسی; Gait initiation; Inertial sensors; Force plates; Parkinson's disease
Estimating 3D L5/S1 moments and ground reaction forces during trunk bending using a full-body ambulatory inertial motion capture system
Keywords: سنسورهای اینرسی; Inertial measurement unit (IMU); Inertial sensors; Low back loading; Physical exposure; Occupational biomechanics
Human localization based on inertial sensors and fingerprints in the Industrial Internet of Things
Keywords: سنسورهای اینرسی; Industrial Internet of Things; Human localization; Inertial sensors; WiFi fingerprints;
Capacitive inertial sensing at high temperatures of up to 400 °C
Keywords: سنسورهای اینرسی; High temperature; Harsh environment; Inertial sensors; Capacitive detection; Accelerometer;
The accuracy of the Oculus Rift virtual reality head-mounted display during cervical spine mobility measurement
Keywords: سنسورهای اینرسی; Inertial sensors; Motion analysis; Neck range of motion;
Analysis of several methods and inertial sensors locations to assess gait parameters in able-bodied subjects
Keywords: سنسورهای اینرسی; Inertial sensors; Gait events detection; Temporal parameters; Accuracy
Forward and backward processes for INS compass alignment
Keywords: سنسورهای اینرسی; Inertial navigation systems (INS); Forward and backward processes; Compass alignment; Inertial sensors; Classical control theory; Vehicle motions
Navigation sensors and systems in GNSS degraded and denied environments
Keywords: سنسورهای اینرسی; Doppler velocity; GNSS; GPS; Inertial sensors; Integration
CAD-based 3D objects recognition in monocular images for mobile augmented reality
Keywords: سنسورهای اینرسی; 3D object recognition; Mobile augmented reality; Monocular image; Inertial sensors; CAD model
Recognizing upper limb movements with wrist worn inertial sensors using k-means clustering classification
Keywords: سنسورهای اینرسی; 2330; 3380; Activities of daily living; Activity recognition; Inertial sensors; k-Means clustering; Minimum distance classifier; Remote telehealth monitoring;
An inertial sensor-based system for spatio-temporal analysis in classic cross-country skiing diagonal technique
Keywords: سنسورهای اینرسی; Cross-country skiing; Diagonal stride; Inertial sensors; Phase detection; Spatio-temporal parameters;
Objective diagnosis of ADHD using IMUs
Keywords: سنسورهای اینرسی; Objective diagnosis; Inertial sensors; Attention deficit/hyperactivity disorder; Machine learning; Classification
Detection of the onset of gait initiation using kinematic sensors and EMG in transfemoral amputees
Keywords: سنسورهای اینرسی; Electromyography; Transfemoral amputee; Intention detection; Gait initiation; Inertial sensors;
An optimization-based approach to human body motion capture using inertial sensors
Keywords: سنسورهای اینرسی; Human body motion capture; optimization; maximum a posteriori estimation; inertial sensors; 6D pose estimation
An EMD threshold de-noising method for inertial sensors
Keywords: سنسورهای اینرسی; Inertial sensors; Empirical Mode Decomposition (EMD); Colored noise; Threshold de-noising; Fractional Gaussian noise
Study and development of a low cost “OptInertial” 3D scanner
Keywords: سنسورهای اینرسی; Reverse engineering; 3D scanners; Inertial sensors;
Localization and velocity tracking of human via 3 IMU sensors
Keywords: سنسورهای اینرسی; Human velocity tracking; IMUs; Inertial sensors;
Measurement of foot placement and its variability with inertial sensors
Keywords: سنسورهای اینرسی; Inertial sensors; Gait measurement; Foot placement; Variability;
Measurement of lumbar spine range of movement and coupled motion using inertial sensors – A protocol validity study
Keywords: سنسورهای اینرسی; Lumbar spine; Range of movement; Inertial sensors
An analytical solution for the complete sensor network attitude estimation problem
Keywords: سنسورهای اینرسی; Attitude estimation; Quaternionic methods; Inertial sensors
Gait identification by means of box approximation geometry of reconstructed attractors in latent space
Keywords: سنسورهای اینرسی; Singular spectrum analysis; Gait recognition; Inertial sensors; Box approximation geometry
Do inertial sensors represent a viable method to reliably measure cervical spine range of motion?
Keywords: سنسورهای اینرسی; Cervical spine; Inertial sensors; Neck; Range of motion
Multi-segment foot kinematics after total ankle replacement and ankle arthrodesis during relatively long-distance gait
Keywords: سنسورهای اینرسی; Inertial sensors; Gait analysis; Multi-segment foot kinematics; Outcome evaluation; Ankle osteoarthritis;
Recurrence quantification analysis of gait in normal and hypovestibular subjects
Keywords: سنسورهای اینرسی; Vestibular hypofunction; Inertial sensors; Nonlinear analysis; Balance; Human locomotion;
Human velocity and dynamic behavior tracking method for inertial capture system
Keywords: سنسورهای اینرسی; Personal velocity tracking; Dynamic behavior tracking; Inertial motion capture; Inertial sensors;
Recognizing multiple human activities and tracking full-body pose in unconstrained environments
Keywords: سنسورهای اینرسی; Human motion analysis; Manifold learning; Inertial sensors
Handheld Augmented Reality involving gravity measurements
Keywords: سنسورهای اینرسی; Augmented Reality; Feature descriptors; Visual tracking; Inertial sensors; Computer vision; Sensor fusion
Excellent test-retest and inter-rater reliability for Tardieu Scale measurements with inertial sensors in elbow flexors of stroke patients
Keywords: سنسورهای اینرسی; Spasticity; Reliability; Inertial sensors; Goniometry; Tardieu Scale;
Ambulatory measurement of ankle kinetics for clinical applications
Keywords: سنسورهای اینرسی; Ankle kinetics; Ambulatory measurement; Inverse dynamics; Inertial sensors; Pressure insole
Early recognition of upper limb motor tasks through accelerometers: real-time implementation of a DTW-based algorithm
Keywords: سنسورهای اینرسی; Classification; Dynamic Time Warping; Motor function evaluation; Inertial sensors
In-plane dead reckoning with knee and waist attached gyroscopes
Keywords: سنسورهای اینرسی; Inertial sensors; Gyroscope; MEMs; IMU; Position Estimation; Personal navigation; Dead reckoning