计算结果与实验测量的比较表明:正向动力学方法可将肢体运动状态、肌肉收缩力、神经控制信号等联系起来,求解人体步态的控制模式。
The results show that forward dynamics theory can model the limb movements, muscular forces and neural control signals to simulate the control of a natural gait.
目的比较恩氟烷、异氟烷和地氟烷对交感神经活动和血流动力学的影响。
Objective To investigate the effects of inhalational anesthetic agents on sympathetic nerve activity and hemodynamics.
但是对于具有脉冲的细胞神经网络所具有动力学性质,现阶段所得的成果还比较少。
However, the results about the dynamic properties of cellular neural network with impulse are still relatively rare.
我们将此方程的预测与原神经元网络动力学的蒙特卡洛模拟结果进行比较,从而展示了新方程的数值精确性。
We demonstrate the numerical accuracy of our kinetic theory by comparing its results to Monte Carlo simulations of the full integrate-and-fire neuronal network.
我们将此方程的预测与原神经元网络动力学的蒙特卡洛模拟结果进行比较,从而展示了新方程的数值精确性。
We demonstrate the numerical accuracy of our kinetic theory by comparing its results to Monte Carlo simulations of the full integrate-and-fire neuronal network.
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