This paper combines theoretical mechanics with computer, takes rigid spheres as an example to introduce the step and method of physical movement simulation of multi rigid bodies.
该文将计算机科学与理论力学相结合,以刚性球体为例介绍了多刚体物理运动仿真的步骤和方法。
The linear multi step integral method (LMIM) was presented for the transient simulation of the inter connects in high speed VLSI.
利用线性多步积分法分析了高速VLSI中互连线的瞬态响应问题。
And the simulation experiment also indicates that the model can not only detect multi-step attacks but also forecast the next attack.
最后,通过模拟实验说明了本模型的有效性,用它不仅能检测出复合攻击,还能预测攻击者将要采取的攻击行为。
Based on the assumption of ideal forming theory and plain stress, the FE equations for axisymetric multi-step deep drawing inverse simulation are formulated with linear membrane element and .
针对增量有限元求解用时过多的问题 ,采用形变理论并利用理想形变的假设 ,导出用于板料成形设计的一步法 。
Simulation res ults prove that this new multi-step prediction based on PID-like neural network control system can effectively attenuate random noise interference and is more robust and adaptive.
仿真实验表明,基于多步预测的PID型神经网络控制系统能有效抑制随机干扰,具有较强的适应性和鲁棒性。
The simulation results show that the multi-step forming can improve the stress of sheet metal and avoid stress concentration;
结果表明:多道次多点模具成形与单工步多点模具成形相比改善了板材的受力状况,达到了消除变形集中的目的;
The simulation results show that the multi-step forming can improve the stress of sheet metal and avoid stress concentration;
结果表明:多道次多点模具成形与单工步多点模具成形相比改善了板材的受力状况,达到了消除变形集中的目的;
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