1) extinguishability
可扑灭性
3) topology observability
拓扑可观测性
1.
A speedy and general analysis method of power network topology observability is studied based on properties of PMU and topological structure information of the power network, and an improved binary particle swarm optimization algorithm combined with the information processing mechanism of immune system is proposed to solve the optimization.
以电力系统状态完全可观测和相量测量单元PMU配置数目最小为优化目标,基于PMU的功能特点和电力网络的拓扑结构信息,形成快速且通用的电网拓扑可观测性判别方法,并设计了一种结合免疫系统信息处理机制的二进制粒子群优化算法对目标函数进行求解,该算法综合了粒子群优化算法简单快速和免疫系统种群多样性的优点,明显改善了进化后期算法的收敛性能和全局寻优能力。
4) The removability of topological term
拓扑项的可移性
5) topology credibility validation
拓扑可信性验证
6) metrizability of topological groups
拓扑群可度量性
补充资料:连续性与非连续性(见间断性与不间断性)
连续性与非连续性(见间断性与不间断性)
continuity and discontinuity
11an父ux泊g四f“山。麻以角g、.连续性与非连续性(c。nt,n琳t:nuity一)_见间断性与不间断性。and diseo红ti-
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参考词条