摘要 |
Disclosed are a muscular cell activation modeling system capable of modeling a dynamic behavior of muscular cell activation for a case which is biologically suitable and has a wide range of a physiological input condition such as excitation frequency and muscle length, and a method thereof. The muscular cell activation modeling system comprises: a first module which receives a spinal nerves signal from spinal motoneurons and converts the spinal nerves signal into Ca^2+ concentration change in muscle cytoplasm; a second module which receives Ca^2+ concentration change information converted in the first module and converts the Ca^2+ concentration change information into muscle activation dynamics information; and a third module which receives the muscle activation dynamics information converted in the second module and converts the muscle activation dynamics information into muscular strength. Each of the first and second modules compensates dependency for the muscle length of Ca^2+ concentration and muscle activation. |