提出了精细瞬时最优控制算法。
Precise instantaneous optimal control algorithm is presented in this thesis.
瞬时最优控制算法适用于激励不可预知的情况,例如冰和地震。
Instantaneous optimal control algorithm is feasible if excitations are not known apriori, such as ice and earthquake excitations.
对时滞线性系统的瞬时最优控制方法进行了研究,并给出控制具体实现过程。
Instantaneous optimal control method for linear systems with time delay in control is investigated in this paper.
对基于瞬时最优控制的这两个算法进行了仿真分析,且与瞬时最优控制进行了比较。
Simulations of the two algorithms corresponding to instantaneous optimal control are carried out, and comparison between the two algorithms and instantaneous optimal control algorithm is done.
采用子空间模态分析法建立了适合一致地震激励下桥梁振动控制分析的瞬时最优控制算法。
The Instantaneous Optimal Control(IOC) algorithm suitability for the vibration control analysis of bridges under uniform earthquake excitation is proposed based on the subspace mode analysis method.
结果表明:序列最优控制算法的减震效果优于经典最优和瞬时最优。
The result shows that the effect of sequential control algorithm is better than classical optimal control algorithm and instantaneous optimal control algorithm.
结果表明:序列最优控制算法的减震效果优于经典最优和瞬时最优。
The result shows that the effect of sequential control algorithm is better than classical optimal control algorithm and instantaneous optimal control algorithm.
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