中文

All-optical Edge Computing for Speckle Sensing Interrogation

光学 2026-05-26 v1

摘要

Speckle-based sensing exploits the rich environmental information of its high-dimensional spatial intensity patterns. However, the requirement for camera-based acquisition and subsequent electronic digitization introduces significant latency and bandwidth bottlenecks that forbid real-time operation and higher temporal resolutions. Aiming to bypass this imaging processing pipeline, this manuscript presents an optically reconfigurable edge-computing platform for speckle-based sensors that performs task-specific computation directly in the optical domain. This is achieved by projecting output speckle patterns onto a digital micromirror device, using it as a programmable optical layer whose parameters are trained in situ using an evolutionary optimization strategy solely from detector feedback. We demonstrate the concept with a multi-point optical fiber sensing task, where multiple piezoelectric actuators simultaneously perturb the fiber, modifying the speckle pattern. Optimizing a set of masks to decouple these concurrent signals, the system successfully achieves real-time signal separation, achieving a target signal enhancement exceeding 4 dB while suppressing crosstalk leakage below -10 dB. Operating with bandwidths limited only by the photodetector, this approach paves the way for real-time and ultrafast optical sensing via an all-optical edge computing solution.

关键词

引用

@article{arxiv.2605.25805,
  title  = {All-optical Edge Computing for Speckle Sensing Interrogation},
  author = {Tomás Lopes and Joana M. Teixeira and Tiago D. Ferreira and Catarina S. Monteiro and Pedro A. S. Jorge and Nuno A. Silva},
  journal= {arXiv preprint arXiv:2605.25805},
  year   = {2026}
}

备注

8 pages, 5 figures