Keywords: راه رفتن انسان; Musculoskeletal modeling; Surface electromyography; Muscle forces; Human gait; Static optimization;
مقالات ISI راه رفتن انسان (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: راه رفتن انسان; Synchronisation; Crowd dynamics; Pedestrian-pedestrian interaction; Pedestrian-structure interaction; Wireless sensor network; Human gait;
Keywords: راه رفتن انسان; Human gait; Cell phone; Dual-task; Kinematics; Local dynamic stability; Entropy;
Keywords: راه رفتن انسان; Type 2 diabetes; Diabetic foot; Plantar pressure; Human gait; Non-linear dynamics; Gait entropy; Diabetic peripheral neuropathy;
Keywords: راه رفتن انسان; Control; Forward Dynamics; Human Gait; Biomechanics; Multibody Dynamics;
Keywords: راه رفتن انسان; Joint kinematics; Human gait; Asymmetric gait; Turning corners; Foot pressure; Plantar pressure; Vertical ground reaction impulse;
Keywords: راه رفتن انسان; Multiscale entropy; Human gait; Gait maturation;
Keywords: راه رفتن انسان; Elastic energy; Work of internal forces; Mechanical energy theorem; Energy transfers; Human gait
Keywords: راه رفتن انسان; Human gait; Total knee arthroplasty; Rehabilitation; Muscle weakness; Joint force; Multi-body dynamics;
Keywords: راه رفتن انسان; Variability; Human gait; Modeling;
Keywords: راه رفتن انسان; Human gait; Cloth invariant; Gait Energy Image; Statistical features; Features reliability test; Performance metrics
Keywords: راه رفتن انسان; Instrumented treadmill; Human gait; Sprint running
Keywords: راه رفتن انسان; 2330; 2221Equine assisted activities; Therapeutic horse riding; Pelvis kinematics; Human gait; Motion capture
Keywords: راه رفتن انسان; Emotion perception; Bodily expressions; Human gait; Near-infrared spectroscopy;
Keywords: راه رفتن انسان; Human gait; Time irreversibility; Complexity; Nonlineal dynamics; Multiscale;
Keywords: راه رفتن انسان; Bipedal locomotion; Hybrid automata; BIP framework; Opensim; Human gait
Análisis cinemático tridimensional de la marcha en pacientes con diplejÃa espástica
Keywords: راه رفتن انسان; Rehabilitación; DiplejÃa espástica; Marcha humana; Biomecánica; Rehabilitation; Spastic diplegia cerebral palsy; Human gait; Biomechanics;
Modelo mecánico acoplado para la simulación 2D del tránsito peatonal por estructuras esbeltas
Keywords: راه رفتن انسان; Interacción dinámica; Fuerzas de contacto; Marcha andando; Vibraciones verticales; Dynamic interaction; Human gait; Ground reaction force; Vertical vibrations;
High and low gamma EEG oscillations in central sensorimotor areas are conversely modulated during the human gait cycle
Keywords: راه رفتن انسان; Electroencephalography (EEG) source imaging; Human gait; High gamma oscillations; Sensorimotor system; Robotic gait training;
A kinematic characterization of human walking by using CaTraSys
Keywords: راه رفتن انسان; Biomechanics; Human gait; Experimental mechanics; CaTraSys
The emergence of design in pedestrian dynamics: Locomotion, self-organization, walking paths and constructal law
Keywords: راه رفتن انسان; Human gait; Walk–run transition speed; Fundamental pedestrian diagram; Self-organization; Walking paths; Constructal law
A novel remote sensing technique for recognizing human gait based on the measurement of induced electrostatic current
Keywords: راه رفتن انسان; Induced electrostatic current; Non-contact detection; Human gait
Three-dimensional analysis of horse and human gaits in therapeutic riding
Keywords: راه رفتن انسان; Equine-facilitated interventions; Horse gait; Human gait; Three-dimensional analysis; Horse riding
Changes in the gait characteristics caused by external load, ground slope and velocity variation
Keywords: راه رفتن انسان; Human gait; Locomotion characteristics
Contributions of individual muscles to hip joint contact force in normal walking
Keywords: راه رفتن انسان; Human gait; Musculoskeletal modeling; Dynamic optimization; Muscle coordination
Force transmitted below the soil surface by human gait
Keywords: راه رفتن انسان; Force profile; Subsoil Layers; Human gait; Landmine Neutralization;
Compact time-independent pattern representation of entire human gait cycle for tracking of gait irregularities
Keywords: راه رفتن انسان; Human gait; Gait analysis; Gait imaging; Human motion capture; Gait data compression
Biologically based design of an actuator system for a knee–ankle–foot orthosis
Keywords: راه رفتن انسان; Actuator; Biomechanics; Human gait; Knee–ankle–foot orthosis; Rehabilitation; Wearable robot
Efficient tracking and ego-motion recovery using gait analysis
Keywords: راه رفتن انسان; Tracking; Ego-motion; 3-D reconstruction; Human gait; Efficiency
Micro-Doppler-based target detection and feature extraction in indoor and outdoor environments
Keywords: راه رفتن انسان; Micro-Doppler; S-method; Viterbi algorithm; Time-frequency analysis; Human gait;
Reliability of the intrinsic and extrinsic patterns of level walking in older women
Keywords: راه رفتن انسان; Upper body kinematics; Harmonic analysis reliability; Head and trunk coordination; Human gait
Human gait recognition based on matching of body components
Keywords: راه رفتن انسان; Human gait; Recognition; Verification
An alternative approach to normalization and evaluation for gait patterns: Procrustes analysis applied to the cyclograms of sprinters and middle-distance runners
Keywords: راه رفتن انسان; Human gait; Running kinematics; Cyclogram; Geometric morphometrics; Multivariate statistics
The six determinants of gait and the inverted pendulum analogy: A dynamic walking perspective
Keywords: راه رفتن انسان; Biomechanics; Energetics; Passive dynamic walking; Robotics; Human gait; Bipeds
Inverse dynamics calculations during gait with restricted ground reaction force information from pressure insoles
Keywords: راه رفتن انسان; Inverse dynamics; Pressure insoles; 3D gait analysis; Human gait
Simulation of human gait and associated muscle activation strategies using sliding-mode control techniques
Keywords: راه رفتن انسان; Biomechanics; Sliding-mode control; Human gait; Simulation; Antagonism