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Laser-based technique captures 3D images of impressionist-style brushstrokes

May 20, 2020

WASHINGTON -- Researchers have developed a new strategy that uses optical coherence tomography (OCT) to acquire both the surface and underlying details of impressionist style oil paintings. This information can be used to create detailed 3D reconstructions to enhance the viewing experience and offer a way for the visually impaired to experience paintings.

"Visitors to art museums can't closely examine paintings and see the artists' techniques because of security and conservation concerns," said research team leader Yi Yang from Penn State Abington. "Our new technology can create 3D reconstructions that can be rotated and magnified to view details such as brushstrokes. This would be especially useful for online classes."

Yang and colleagues from Penn State University Park and New Jersey Institute of Technology report the new technique in the Optical Society journal Applied Optics. The research team brought together specialists in art history and conservation with electrical and optical engineers.

The new approach combines OCT with a mechanical scanning stage and new software that allows real-time sampling and removal of image artifacts. Information captured by the technique can be used to 3D print samples so that people with vision impairments can use touch to experience painting techniques such as Van Gogh's brushstrokes and the pointillism of Seurat's works.

"The ultra-high definition 3D information can also be used to repair damaged art by allowing a conservator to 3D print the damaged portion and attach it to the original painting," said Yang. "In addition, the imaging technique can capture high resolution details of artworks that can preserve a digital copy in case of worst-case scenarios such as war, terrorism, natural disaster, heist and other catastrophes."

Making OCT useful for art analysis

OCT is a laser-based non-invasive imaging technique that can capture images with micrometer resolution. Although it is commonly used for biomedical applications, the imaging technique is useful for art analysis because it can simultaneously capture both topographical information from a painting's surface and the structure of underlying layers.

"Because today's OCT systems are optimized for biomedical applications, they have a limited scanning range that severely limits the speed of collecting data from large areas," said Yang. "We integrated a robotic scanning platform with an advanced OCT system and image processing software to capture the OCT data of paintings beyond the scanning range of typical commercial OCT systems."

To increase the field of view, individual OCT images captured using the robotic scanner are digitally stitched together to form a larger image. To improve this process, the team developed software that removes distortions and other image artifacts that commonly arise during this type of digital stitching.

The researchers demonstrated their new technique by acquiring OCT images of a portion of an oil painting that mimics the unique impressionist style brushstrokes and measured 10 by 10 centimeters. They also produced a digital 3D model of the scanned area of the painting.

Now that the researchers have proved the new concept, they plan to optimize their system by making improvements in both the hardware and software.
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After generating the 3D digital reconstruction of the scanned area, users can interact with the 3D model to gain more insights about the painting, such as brushstrokes. View the Digital 3D Model video based on OCT imaging data, here - https://youtu.be/OUusA1Q0N8k. Video credit: Yi Yang, Penn State Abington

Paper: X. Zhou, D. In, X. Chen, H. M. Bruhn, X. Liu, Y. Yang, "Spectral 3D reconstruction of Impressionist oil paintings based on macroscopic OCT imaging," Applied Optics, 59, 15, 4733-4738 (2020). DOI: https://doi.org/10.1364/AO.390326

About Applied Optics

Applied Optics publishes in-depth peer-reviewed content about applications-centered research in optics. These articles cover research in optical technology, photonics, lasers, information processing, sensing and environmental optics. Applied Optics is published three times per month by The Optical Society and overseen by Editor-in-Chief Ronald Driggers, University of Central Florida, USA. For more information, visit OSA Publishing.

About The Optical Society

Founded in 1916, The Optical Society (OSA) is the leading professional organization for scientists, engineers, students and business leaders who fuel discoveries, shape real-life applications and accelerate achievements in the science of light. Through world-renowned publications, meetings and membership initiatives, OSA provides quality research, inspired interactions and dedicated resources for its extensive global network of optics and photonics experts. For more information, visit osa.org.

Media Contact

mediarelations@osa.org

The Optical Society

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