Limited by the structure, the high-efficiency vibration energy harvesting and vibration suppression have always been a theoretical bottleneck and technical challenge in this field. The nonlinear design of the new vibration structure is an indispensable link in the development of vibration energy harvesting and vibration suppression technologies. Nonlinear technologies not only have the potential to improve the efficiency of the energy harvesters by increasing the useful frequency bandwidth and output power but also have the potential to improve the efficiency of vibration suppressors by reducing the transmission rate and transfer energy. Nonlinear vibration energy harvesting and vibration suppression technologies have been salient topics in the literature and have attracted widespread attention from researchers. The present work provides a comprehensive review on the recent advances in nonlinear vibration energy harvesting and vibration suppression technologies. In particular, the latest developments in multifunctional hybrid technologies are proposed. Various key aspects to improve the performance of nonlinear vibration energy harvesting and vibration suppression systems are discussed, including implementations and configuration designs, nonlinear dynamics mechanisms, various optimizations, multifunctional hybrid, application prospects, and future outlooks.

中文翻译：

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非线性振动能量收集和振动抑制技术：设计、分析和应用

受限于结构，高效的振动能量收集和振动抑制一直是该领域的理论瓶颈和技术挑战。新型振动结构的非线性设计是振动能量收集和振动抑制技术发展不可或缺的环节。非线性技术不仅有可能通过增加有用的频率带宽和输出功率来提高能量收集器的效率，而且还有可能通过降低传输速率和传递能量来提高振动抑制器的效率。非线性振动能量收集和振动抑制技术一直是文献中的突出主题，并引起了研究人员的广泛关注。目前的工作对非线性振动能量收集和振动抑制技术的最新进展进行了全面回顾。特别是提出了多功能混合技术的最新发展。讨论了提高非线性振动能量收集和振动抑制系统性能的各个关键方面，包括实现和配置设计、非线性动力学机制、各种优化、多功能混合、应用前景和未来展望。