Low-Cost Multispectral System Design for Pigment Analysis in Works of Art

To better understand and preserve works of art, knowledge is needed about the pigments used to create the artwork. Various noninvasive techniques have been used previously to create pigment maps, such as combining X-ray fluorescence and hyperspectral imaging data. Unfortunately, most museums have limited funding for the expense of specialized research equipment, such as hyperspectral reflectance imaging systems. However, many museums have hand-held point X-ray fluorescence systems attached to motorized easels for scanning artwork. To assist museums in acquiring data that can produce similar results to that of HSI systems, while minimizing equipment costs, this study designed and modeled a prototype system to demonstrate the expected performance of a low-cost multispectral system that can be attached to existing motorized easels. We show that multispectral systems with a well-chosen set of spectral bands can often produce classification maps with value on par with hyperspectral systems. This study analyzed the potential for capturing data with a point scanning system through predefined filters. By applying the system and noise modeling parameters to HSI data captured from a 14th-Century illumination, the study reveals that the proposed multispectral imaging system is a viable option for this need.

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Multispectral imaging system for the mapping of pigments in works of art by use of principal-component analysis

Applied Optics ◽

10.1364/ao.37.001299 ◽

1998 ◽

Vol 37 (8) ◽

pp. 1299 ◽

Cited By ~ 87

Author(s):

S. Baronti ◽

A. Casini ◽

F. Lotti ◽

S. Porcinai

Keyword(s):

Principal Component Analysis ◽

Multispectral Imaging ◽

Imaging System ◽

Principal Component ◽

Component Analysis ◽

Works Of Art

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Color Accuracy-Guided Data Reduction for Practical LED-based Multispectral Imaging

Archiving Conference ◽

10.2352/issn.2168-3204.2021.1.0.15 ◽

2021 ◽

Vol 2021 (1) ◽

pp. 65-70

Author(s):

Olivia Kuzio ◽

Susan Farnand

Keyword(s):

Multispectral Imaging ◽

Imaging System ◽

Optimal Combination ◽

Light Sources ◽

Spectral Image ◽

Image Capture ◽

Spectral Bands ◽

Color Profile ◽

Imaging Strategy ◽

Optimal Set

The color accuracy of an LED-based multispectral imaging strategy has been evaluated with respect to the number of spectral bands used to build a color profile and render the final image. Images were captured under select illumination conditions provided by 10-channel LED light sources. First, the imaging system was characterized in its full 10-band capacity, in which an image was captured under illumination by each of the 10 LEDs in turn, and the full set used to derive a system profile. Then, the system was characterized in increasingly reduced capacities, obtained by reducing the number of bands in two ways. In one approach, image bands were systematically removed from the full 10-band set. In the other, images were captured under illumination by groups of several of the LEDs at once. For both approaches, the system was characterized using different combinations of image bands until the optimal set, giving the highest color accuracy, was determined when a total of only 9, 8, 7, or 6 bands was used to derive the profile. The results indicate that color accuracy is nearly equivalent when rendering images based on the optimal combination of anywhere from 6 to 10 spectral bands, and is maintained at a higher level than that of conventional RGB imaging. This information is a first step toward informing the development of practical LED-based multispectral imaging strategies that make spectral image capture simpler and more efficient for heritage digitization workflows.

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Development of a Low-Cost Narrow Band Multispectral Imaging System Coupled with Chemometric Analysis for Rapid Detection of Rice False Smut in Rice Seed

Sensors ◽

10.3390/s20041209 ◽

2020 ◽

Vol 20 (4) ◽

pp. 1209 ◽

Cited By ~ 1

Author(s):

Haiyong Weng ◽

Ya Tian ◽

Na Wu ◽

Xiaoling Li ◽

Biyun Yang ◽

...

Keyword(s):

Multispectral Imaging ◽

Imaging System ◽

Narrow Band ◽

Low Cost ◽

False Negative ◽

False Negative Rate ◽

Rice False Smut ◽

Negative Rate ◽

False Smut ◽

Rice Seeds

Spectral imaging is a promising technique for detecting the quality of rice seeds. However, the high cost of the system has limited it to more practical applications. The study was aimed to develop a low-cost narrow band multispectral imaging system for detecting rice false smut (RFS) in rice seeds. Two different cultivars of rice seeds were artificially inoculated with RFS. Results have demonstrated that spectral features at 460, 520, 660, 740, 850, and 940 nm were well linked to the RFS. It achieved an overall accuracy of 98.7% with a false negative rate of 3.2% for Zheliang, and 91.4% with 6.7% for Xiushui, respectively, using the least squares-support vector machine. Moreover, the robustness of the model was validated through transferring the model of Zheliang to Xiushui with the overall accuracy of 90.3% and false negative rate of 7.8%. These results demonstrate the feasibility of the developed system for RFS identification with a low detecting cost.

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