Metamaterial is an artificial material with unique material properties that cannot be found in a naturally existing one, and hence it is able to perform functions that a conventional material cannot do. Consequently, it has shown great potential in various engineering applications such as resonancecoupled mid-range wireless power transmission (R-WPT) systems. However, the analysis and design of an application-oriented metamaterial include both the unit cells and their combinations, and thus are very complex. Moreover, the performance of a metamaterial is very sensitive to uncertainties in both manufacturing and operating conditions. In this regard, a two-phase methodology for robust design optimizations of metamaterial slabs in R-WPT applications is proposed and applied to the design optimization of a prototype R-WPT system with promising results.

中文翻译：

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具有相同谐振频率但L / C组合不同的无线电力传输超材料的设计和分析

超材料是一种具有独特材料特性的人工材料，这种材料在自然存在的材料中无法找到，因此它能够执行常规材料无法实现的功能。因此，它在诸如共振耦合中程无线电力传输（R-WPT）系统等各种工程应用中显示了巨大的潜力。但是，面向应用程序的超材料的分析和设计同时包含单位单元及其组合，因此非常复杂。而且，超材料的性能对制造和操作条件中的不确定性非常敏感。在这方面，提出了一种用于R-WPT应用中的超材料平板稳健设计优化的两阶段方法，并将其应用于原型R-WPT系统的设计优化中，并取得了可喜的结果。