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A mathematical model of skeletal muscle contraction based on two recent single myosin molecule exper...
<p>Profiles of (A) action potential, (B) Intracellular CaT, and (C) Active tension.</p
The relationship between muscle anatomy and physiology and its corresponding electromyography activi...
The convolution of the transmembrane current of an excitable cell and a weighting function generates...
The convolution of the transmembrane current of an excitable cell and a weighting function generates...
An Electromyogram (EMG) is an electrical signal, which is measured from a skeletal muscle during vol...
Neuromuscular physiology is a vibrant research field that has recently seen exciting advances. Previ...
Contains fulltext : mmubn000001_095221174.pdf (publisher's version ) (Open Access)...
International audienceEMG-based muscle model has many applications in human-machine interface and re...
Modelling fibrillation potentials – Analysis of time parameters in the muscle intracellular action p...
Abstract—The single-fiber action potential (SFAP) can be mod-eled as a convolution of a biolectrical...
A new mathematical model is presented to describe both the active and passive mechanics of muscles. ...
Generally, single muscle fiber action potentials (SFAPs) are modeled as a convolution of the bioelec...
Neuromuscular physiology is a vibrant research field that has recently seen exciting advances. Previ...
International audienceEMG-to-force estimation for voluntary muscle contraction has many applications...
A mathematical model of skeletal muscle contraction based on two recent single myosin molecule exper...
<p>Profiles of (A) action potential, (B) Intracellular CaT, and (C) Active tension.</p
The relationship between muscle anatomy and physiology and its corresponding electromyography activi...
The convolution of the transmembrane current of an excitable cell and a weighting function generates...
The convolution of the transmembrane current of an excitable cell and a weighting function generates...
An Electromyogram (EMG) is an electrical signal, which is measured from a skeletal muscle during vol...
Neuromuscular physiology is a vibrant research field that has recently seen exciting advances. Previ...
Contains fulltext : mmubn000001_095221174.pdf (publisher's version ) (Open Access)...
International audienceEMG-based muscle model has many applications in human-machine interface and re...
Modelling fibrillation potentials – Analysis of time parameters in the muscle intracellular action p...
Abstract—The single-fiber action potential (SFAP) can be mod-eled as a convolution of a biolectrical...
A new mathematical model is presented to describe both the active and passive mechanics of muscles. ...
Generally, single muscle fiber action potentials (SFAPs) are modeled as a convolution of the bioelec...
Neuromuscular physiology is a vibrant research field that has recently seen exciting advances. Previ...
International audienceEMG-to-force estimation for voluntary muscle contraction has many applications...
A mathematical model of skeletal muscle contraction based on two recent single myosin molecule exper...
<p>Profiles of (A) action potential, (B) Intracellular CaT, and (C) Active tension.</p
The relationship between muscle anatomy and physiology and its corresponding electromyography activi...
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