Опубликован 02.11.2025
Как цитировать
Аннотация
Adaptive optical systems inspired by biological vision are redefining the boundaries between artificial and natural sight. The bionic eye and adaptive lens technologies aim to replicate or enhance the human eye’s dynamic response to light, focus, and motion through the integration of neuromorphic sensors, electroactive polymers, and biomimetic materials. This paper explores the physiological foundations of visual adaptation, the design of bionic optical systems, and their applications in medical prosthetics, robotics, and augmented reality. The convergence of biomimicry, photonics, and neural engineering has enabled the creation of devices that not only restore sight but also exceed human optical capabilities in dynamic range, spectral sensitivity, and focus adaptability.
Библиографические ссылки
- Zhou, Y., et al. (2022). Bioinspired Adaptive Optics for Artificial Vision Systems. Nature Photonics, 16(5), 345–357.
- Wang, J., & Lee, T. (2021). Electroactive Polymer-Based Adaptive Lenses for Artificial Eyes. Advanced Optical Materials, 9(10), 2100072.
- Weiland, J. D., & Humayun, M. S. (2018). Retinal Prosthesis: Current Status and Future Challenges. Progress in Retinal and Eye Research, 67, 1–29.
- Chen, Z., & Liu, Q. (2020). Neuromorphic Vision Sensors for Dynamic Imaging. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 28(3), 672–684.
- Li, H., & Park, S. (2023). Liquid Crystal Lenses for Smart Optical Systems. Journal of Applied Physics, 134(2), 021101.
- Lovell, N. H., & Suaning, G. J. (2019). Bionic Vision: Engineering Challenges and Future Directions. Annual Review of Biomedical Engineering, 21, 227–249.
- Kim, S., & Cho, K. (2023). Optogenetic Approaches to Neural Vision Restoration. Nature Biomedical Engineering, 7(1), 34–49