Keywords: نیروهای عضلانی; Wrist simulator; Muscle forces; Abductor pollicis longus;
مقالات ISI نیروهای عضلانی (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: نیروهای عضلانی; Muscle forces; Musculoskeletal model; Forward dynamics; Electromyography; Direct multiple shooting;
Keywords: نیروهای عضلانی; Musculoskeletal modeling; Surface electromyography; Muscle forces; Human gait; Static optimization;
Keywords: نیروهای عضلانی; Muscle forces; Rotator cuff; Computational model; Glenohumeral; Kinematics; Older adult;
Keywords: نیروهای عضلانی; Diabetic foot prevention; Muscle forces; Musculoskeletal modelling; Finite element modelling; Multisegment foot model;
Keywords: نیروهای عضلانی; Pushing; Pulling; Muscle forces; Orientation; Elevation; Spine forces; Stability;
Keywords: نیروهای عضلانی; Modelling approaches; Muscle forces; Gait; Lower limb;
Keywords: نیروهای عضلانی; Simulator; Control; Muscle forces; Hand orientation; Circumduction;
Keywords: نیروهای عضلانی; Inverse statics; Musculoskeletal modeling; Spinal loads; Spinal disc stiffness; Muscle forces;
Keywords: نیروهای عضلانی; Muscle forces; Spinal loads; Sitting; Wobble chair; Trunk biodynamics
Keywords: نیروهای عضلانی; FA; Femoral anteversion; FE; Finite element; FNDD; Femoral neck shaft axis deflection direction; GP; Growth plate; HCF; Hip contact force; MF; Muscle forces; MRI; Magnetic resonance imaging; NSA; Neck shaft angle; PSD; Principal stress direction; Deformit
Keywords: نیروهای عضلانی; Amputation; Gait; Muscle forces; Spinal loads; Low back pain;
Keywords: نیروهای عضلانی; Muscle forces; Femoral bending; Musculoskeletal simulation; Inverse dynamics
Keywords: نیروهای عضلانی; Wrist; Simulator; Kinematics; Control strategy; Muscle forces;
Keywords: نیروهای عضلانی; Musculoskeletal modeling; Shoulder; Rotator cuff; Rehabilitation; Muscle forces
Keywords: نیروهای عضلانی; Basic Science; Computer ModelingReverse total shoulder arthroplasty; biomechanical study; computer modeling; lateralization; glenoid loading; implant design; muscle forces; moment arms
Keywords: نیروهای عضلانی; Subject-specific musculoskeletal models; Sensitivity analysis; Anatomical variability; Muscle forces; Dynamic simulations;
Keywords: نیروهای عضلانی; Body segment parameters; Inverse dynamics; Dynamic simulations of motion; Joint moments; Muscle forces;
Keywords: نیروهای عضلانی; Patellofemoral joint; Kinematics; Quadriceps; Muscle forces
Keywords: نیروهای عضلانی; Basic Science; Computer ModelingNonconforming total shoulder replacement; posterior glenohumeral translation; joint contact force; muscle forces; 6-degrees-of-freedom computational model; physical shoulder simulator
Keywords: نیروهای عضلانی; Trunk model; Muscle forces; Spine loads; Stability; Optimization; Kinematics
Keywords: نیروهای عضلانی; Gait; Knee joint; Hip joint; Finite element; Muscle forces; Ligaments; Optmization; Cartilage; Contact;
Keywords: نیروهای عضلانی; Static lifting; Muscle forces; Spine loads; Models; Regression; Artificial neural networks;
Subject-specific 2D/3D image registration and kinematics-driven musculoskeletal model of the spine
Keywords: نیروهای عضلانی; Spinal loads; Muscle forces; Image registration; Musculoskeletal model; Kinematics;
Elevation and orientation of external loads influence trunk neuromuscular response and spinal forces despite identical moments at the L5-S1 level
Keywords: نیروهای عضلانی; Spine; Load height; Load orientation; Finite element; Compression; Muscle forces;
Finite element analysis on the biomechanical stability of open porous titanium scaffolds for large segmental bone defects under physiological load conditions
Keywords: نیروهای عضلانی; Finite element analysis; Segmental bone defect; Osteosynthesis system; Bone scaffolds; Titanium; Physiological loading; Muscle forces
Computational biodynamics of human knee joint in gait: From muscle forces to cartilage stresses
Keywords: نیروهای عضلانی; Gait; Knee joint; Finite element method; Cartilage; Muscle forces; Ligaments;
Combined multi-body and finite element investigation of the effect of the seat height on acetabular implant stability during the activity of getting up
Keywords: نیروهای عضلانی; Multi-body simulation; Finite element analysis; Hip; Muscle forces; Micromotion; Implant–bone-interface; Patient activity
Femoral loads during gait in a patient with massive skeletal reconstruction
Keywords: نیروهای عضلانی; Subject-specific musculoskeletal modelling; Human gait biomechanics; Child; Computed tomography; Muscle forces
Finite element modeling of TMJ joint disc behavior
Keywords: نیروهای عضلانی; Biomechanics; Joint disc; Mastication; Joint resiliency; Muscle forces; 3D imagery;
Principles of determination and verification of muscle forces in the human musculoskeletal system: Muscle forces to minimise bending stress
Keywords: نیروهای عضلانی; Muscle forces; Femur; Physiological loading; Compression; Finite element analysis
In vitro investigation of biomechanical changes of the hip after Salter pelvic osteotomy
Keywords: نیروهای عضلانی; Dysplasia; Salter osteotomy; Biomechanics; Joint force; Muscle forces; Geometry
Forces and motor control mechanisms during biting in a realistically balanced experimental occlusion
Keywords: نیروهای عضلانی; Jaw muscles; Joint forces; Muscle forces; EMG; Optimisation
Trunk biomechanics during maximum isometric axial torque exertions in upright standing
Keywords: نیروهای عضلانی; Spine; Trunk muscle; Axial exertion; Finite element method; Kinematics, Stability; Muscle forces; Spinal loads
Modeling and simulation of muscle forces of trans-tibial amputee to study effect of prosthetic alignment
Keywords: نیروهای عضلانی; Musculoskeletal model; Muscle forces; Prosthetic alignment; Trans-tibial; Joint loading
The effect of muscle loading on the kinematics of in vitro glenohumeral abduction
Keywords: نیروهای عضلانی; Shoulder; Kinematics; In vitro testing; Muscle forces
A global optimization method for prediction of muscle forces of human musculoskeletal system
Keywords: نیروهای عضلانی; Optimization; Joint biomechanics; Inverse dynamic optimization; Muscle forces
Determination of trunk muscle forces for flexion and extension by using a validated finite element model of the lumbar spine and measured in vivo data
Keywords: نیروهای عضلانی; Lumbar spine; Muscle forces; Finite element method; Posture
Muscle forces predicted using optimization methods are coordinate system dependent
Keywords: نیروهای عضلانی; Optimization; Joint biomechanics; Inverse dynamic optimization; Elbow joint; Joint reaction forces; Muscle forces;
Determination of muscle loading at the hip joint for use in pre-clinical testing
Keywords: نیروهای عضلانی; Hip joint; Loading; Joint contact; Muscle forces; Simulation; Pre-clinical testing;
Comparison between two muscle models under dynamic conditions
Keywords: نیروهای عضلانی; Motor control; Muscle model; Motor units; Hill-model; Muscle forces; Genetic algorithm; Neural control;