Analytical robustness of quantitative NIR chemical imaging for Islamic paper characterization

Recently, spectral imaging techniques such as Multispectral (MSI) and Hyperspectral Imaging (HSI) have gained importance in the field of heritage conservation. This paper explores the analytical robustness of quantitative chemical imaging for Islamic paper characterization by focusing on the effect of different measurement and processing parameters, i.e. acquisition conditions and calibration on the accuracy of the collected spectral data. This will provide a better understanding of the technique that can provide a measure of change in collections through imaging. For the quantitative model, special calibration target was devised using 105 samples from a well-characterized reference Islamic paper collection. Two material properties were of interest: starch sizing and cellulose degree of polymerization (DP). Multivariate data analysis methods were used to develop discrimination and regression models which were used as an evaluation methodology for the metrology of quantitative NIR chemical imaging. Spectral data were collected using a pushbroom HSI scanner (Gilden Photonics Ltd) in the 1000-2500 nm range with a spectral resolution of 6.3 nm using a mirror scanning setup and halogen illumination. Data were acquired at different measurement conditions and acquisition parameters. Preliminary results showed the potential of the evaluation methodology to show that measurement parameters such as the use of different lenses and different scanning backgrounds may not have a great influence on the quantitative results. Moreover, the evaluation methodology allowed for the selection of the best pre-treatment method to be applied to the data.

[1]  Matija Strlič,et al.  Quantitative NIR chemical imaging in heritage science. , 2011, Analytical chemistry.

[2]  Haibo Yao,et al.  Spectral Preprocessing and Calibration Techniques , 2010 .

[3]  Marcelo Blanco,et al.  NIR spectroscopy: a rapid-response analytical tool , 2002 .

[4]  Jitendra Paliwal,et al.  Near-infrared spectroscopy and imaging in food quality and safety , 2007 .

[5]  K. Mclauchlan Molecular Spectroscopy , 1971, Nature.

[6]  Irving Harry Isenberg,et al.  Pulp and paper microscopy , 1967 .

[7]  Richard G. Brereton,et al.  Chemometrics for Pattern Recognition , 2009 .

[8]  T. Fearn,et al.  Material properties of Islamic paper , 2016, Heritage Science.

[9]  M. Manley Near-infrared spectroscopy and hyperspectral imaging: non-destructive analysis of biological materials. , 2014, Chemical Society reviews.

[10]  Robert Evans,et al.  Cellulose molecular weights determined by viscometry , 1989 .

[11]  Lindsay MacDonald The limits of resolution , 2010, EVA.

[12]  Paola Ricciardi,et al.  Mapping of egg yolk and animal skin glue paint binders in Early Renaissance paintings using near infrared reflectance imaging spectroscopy. , 2013, The Analyst.

[13]  Yud-Ren Chen,et al.  Hyperspectral imaging for safety inspection of food and agricultural products , 1999, Other Conferences.

[14]  Manfred Anders,et al.  Nondestructive analysis and dating of historical paper based on IR spectroscopy and chemometric data evaluation. , 2007, Analytical chemistry.

[15]  W. R. Windham,et al.  CALIBRATION OF A PUSHBROOM HYPERSPECTRAL IMAGING SYSTEM FOR AGRICULTURAL INSPECTION , 2003 .

[16]  R. Brereton,et al.  Partial least squares discriminant analysis: taking the magic away , 2014 .

[17]  Matija Strlič,et al.  Ageing and Stabilisation of Paper , 2005 .

[18]  Ioanna Kakoulli,et al.  Multispectral and hyperspectral imaging technologies in conservation: current research and potential applications , 2006 .

[19]  Haida Liang,et al.  Advances in multispectral and hyperspectral imaging for archaeology and art conservation , 2012 .

[20]  Jianwei Qin,et al.  Hyperspectral Imaging Instruments , 2010 .

[21]  Tormod Næs,et al.  A user-friendly guide to multivariate calibration and classification , 2002 .

[22]  Gamal ElMasry,et al.  Principles of Hyperspectral Imaging Technology , 2010 .

[23]  Maria Kubik,et al.  Chapter 5 Hyperspectral Imaging: A New Technique for the Non-Invasive Study of Artworks , 2007 .

[24]  Eric R. Ziegel,et al.  Statistics and Chemometrics for Analytical Chemistry , 2004, Technometrics.