Variable step euler method for real-time simulation

机译：可变步长欧拉法实时仿真

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Many systems have stiff characteristics. To simulate such system in real-time demands solver of differential equation having small fixed step size to guarantee stability and accuracy even if it may cost large number of computing resource. An adaptive variable minor step size Euler method is developed for real-time simulation. It alternately uses forward Euler and backward Euler method based on morbid degree. And then it divides fixed major step equally into multiple minor steps in according to local truncation error. Because of this, it is more precise and more robust than classic Euler method. While simulating large scale system, it realizes computing resource dynamic allocation in different sub-systems. The advantageous abilities are verified by typical real-time simulation problems and the usage in a flight simulator. These shows the method is very suitable for a long real-time simulation.

机译：许多系统具有刚性特征。为了实时地仿真这样的系统，即使需要花费大量计算资源，也需要具有固定步长小的微分方程求解器以确保稳定性和准确性。开发了一种自适应可变小步长欧拉方法，用于实时仿真。它根据病态度交替使用前向欧拉法和后向欧拉法。然后根据局部截断误差将固定的主要步骤均等地分为多个次要步骤。因此，它比经典的欧拉方法更精确，更可靠。在模拟大型系统的同时，实现了在不同子系统中计算资源的动态分配。典型的实时仿真问题和在飞行模拟器中的使用证明了其优越的能力。这些说明该方法非常适合于长时间的实时仿真。

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《International Conference on Computer Science and Network Technology》|2012年|2006-2010|共5页
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Lei Zhang; Hongzhou Jiang;
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Euler method; Real-time simulation; ordinary differential equations; stiff system;

机译：欧拉法实时仿真常微分方程刚性系统;

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Variable step euler method for real-time simulation

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