Abstract
Due to huge demand in engineering, vibration control technology and related studies have always been at the frontiers of research. Although traditional vibration control methods are stable and reliable, they have obvious shortcomings. Through evolution and natural selection, certain body-parts of animals in the natural world have been cleverly constructed and well designed. This provides a steady stream of inspiration for the design of vibration control equipment. The prime objective of this review is to highlight recent advances in the bionic design of vibration control devices. Current bionic vibration control devices were classified, and their bionic principles were briefly described. One kind was the bionic device based on the brain structure of the woodpecker, which is mostly used to reduce vibration at high frequencies. Another kind of bionic device was based on animal leg structure and showed outstanding performance in low frequency vibration reduction. Finally, we briefly listed the problems that need to be solved in current bionic vibration control technology and gave recommendations for future research direction.
Highlights
Vibration is a common physical phenomenon in industrial production
The bionic system used a neural network algorithm to control the actuator, and the results showed that the system can effectively reduce the impact of vibration caused by ground disturbance or direct disturbance on the target platform
Various kinds of bionic vibration control technology in mechanical engineering, reported in recent years, were reviewed. These bionic devices were divided into three types according to their bionic principle
Summary
Vibration is a common physical phenomenon in industrial production. On the one hand, vibration can play unique roles such as screening and cleaning; On the other hand, vibration brings a lot of serious harm. The vibration caused by the strong impact does not damage or destroy the woodpecker’s brain [35,36,37] It is one of the important development directions of current vibration control systems [38,39,40,41], which can simulate biological structures and functions in order to improve the performance of traditional vibration control devices. Various bionic vibration control mechanisms, devices, or systems in the field of mechanical engineering are classified and summarized, and their bionic basic principles are briefly analyzed On this basis, limitations and future development trends are analyzed
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