Broadband and large-aperture metasurface edge encoders for incoherent infrared radiation

Author:

Swartz Brandon T.1ORCID,Zheng Hanyu1ORCID,Forcherio Gregory T.2ORCID,Valentine Jason1ORCID

Affiliation:

1. Vanderbilt University, 2301 Vanderbilt Place, Nashville, TN 37235, USA.

2. Naval Surface Warfare Center, Crane, 300 Highway 361, Crane, IN 47522, USA.

Abstract

The prevalence of computer vision systems necessitates hardware-based approaches to relieve the high computational demand of deep neural networks in resource-limited applications. One solution would be to off-load low-level image feature extraction, such as edge detection, from the digital network to the analog imaging system. To that end, this work demonstrates incoherent, broadband, low-noise optical edge detection of real-world scenes by combining the wavefront shaping of a 24-mm aperture metasurface with a refractive lens. An inverse design approach is used to optimize the metasurface for Laplacian-based edge detection across the 7.5- to 13.5-μm LWIR imaging band, allowing for facile integration with uncooled microbolometer-based LWIR imagers to encode edge information. A polarization multiplexed approach leveraging a birefringent metasurface is also demonstrated as a single-aperture implementation. This work could be applied to improve computer vision capabilities of resource-constrained systems by leveraging optical preprocessing to alleviate the computational requirements for high-accuracy image segmentation and classification.

Publisher

American Association for the Advancement of Science (AAAS)

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