![]() ![]() We implemented a comprehensive, state-of-the-art, multi-scale multi-physics model framework that can simulate surface EMG signals and muscle contraction as a result of neuromuscular stimulation. We tackled this challenge by providing scalable software employing instruction-level and task-level parallelism, suitable numerical methods and efficient data handling. The numerical solution of such multi-scale models imposes high computational work loads, which restricts their application to short simulation time spans or coarse resolutions. ![]() Computer simulations with detailed biophysical models provide a non-invasive tool to interpret EMG signals and gain new insights into the system. Surface electromyography (EMG) can be used to study muscle behavior from the outside. The human neuromuscular system consisting of skeletal muscles and neural circuits is a complex system that is not yet fully understood.
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