首页 /研究 /A physics-informed deep learning liquid crystal camera with data-driven diffractive guidance
PERCEPTION

A physics-informed deep learning liquid crystal camera with data-driven diffractive guidance

Jiashuo Shi, Taige Liu, Liang Zhou, Pei Yan, Zhe Wang, Xinyu Zhang

发表年份
2024
引用次数
8
访问权限
开放获取

摘要

Abstract Whether in the realms of computer vision, robotics, or environmental monitoring, the ability to monitor and follow specific targets amidst intricate surroundings is essential for numerous applications. However, achieving rapid and efficient target tracking remains a challenge. Here we propose an optical implementation for rapid tracking with negligible digital post-processing, leveraging an all-optical information processing. This work combines a diffractive-based optical nerual network with a layered liquid crystal electrical addressing architecture, synergizing the parallel processing capabilities inherent in light propagation with liquid crystal dynamic adaptation mechanism. Through a one-time effort training, the trained network enable accurate prediction of the desired arrangement of liquid crystal molecules as confirmed through numerical blind testing. Then we establish an experimental camera architecture that synergistically combines an electrically-tuned functioned liquid crystal layer with materialized optical neural network. With integrating the architecture into optical imaging path of a detector plane, this optical computing camera offers a data-driven diffractive guidance, enabling the identification of target within complex backgrounds, highlighting its high-level vision task implementation and problem-solving capabilities.

关键词

Liquid crystalPhysicsDeep learningOpticsComputer scienceArtificial intelligence

相关论文

查看 PERCEPTION 分类全部论文