Опубликован 02.11.2025
Ключевые слова
- biomimicry, acoustic camouflage, sensory adaptation, metamaterials, bio-inspired design, stealth technology.
Как цитировать
Аннотация
The concept of camouflage has evolved from simple visual concealment to sophisticated multisensory strategies that include acoustic and sensory dimensions. Inspired by biological systems, biometric design provides new frameworks for creating adaptive materials and devices that can manipulate sound, vibration, and sensory perception. This article explores the principles, mechanisms, and technological applications of biometric sensory and acoustic camouflage, emphasizing the integration of bioinspired structures, metamaterials, and adaptive feedback systems. The study reviews examples from nature, such as the silent flight of owls, the dynamic skin of cephalopods, and the vibrational stealth of insects, to illustrate how these models inform modern engineering solutions in defense, architecture, and robotics.
Библиографические ссылки
- Lilley, G. M. (2018). A Study of the Silent Flight of the Owl. Journal of Sound and Vibration, 431, 300–315.
- Zhang, X., Ma, G., & Sheng, P. (2020). Acoustic Metamaterials and Phononic Crystals: Advances and Applications. Nature Reviews Materials, 5(8), 623–640.
- Denny, M. (2021). Biomimetic Materials and Structures for Acoustic Control. Annual Review of Materials Research, 51, 149–176.
- Liu, Z., & Chan, C. T. (2019). Acoustic Cloaking by Metamaterials: From Theory to Application. Physical Review Letters, 122(11), 114301.
- Hanlon, R. T., & Messenger, J. B. (2018). Cephalopod Behaviour and Camouflage. Biological Reviews, 93(2), 727–749.
- Xu, H., & Wang, Y. (2022). Bio-Inspired Smart Skins for Sensory and Acoustic Camouflage. Advanced Functional Materials, 32(12), 2108574.