TY - JOUR TI - Differentiation of blue gel pens using visible spectroscopy coupled with chemometric techniques AU - Bumbrah, Gurvinder Singh AU - Dhull, Naveen AU - Bhagat, Devidas S. AU - Chawla, Pooja A. TI - Differentiation of blue gel pens using visible spectroscopy coupled with chemometric techniques AB - Ink analysis is one of the most important and keydimension of forensic document examination (FDE). It is performed to compare, identify, characterize and discriminate different kinds of inks present on questioned document. It becomes key evidence in forensic document examination. In the present work, thirty-eight blue gel pens are discriminated using visible spectroscopy coupled with chemometric techniques. The recorded spectra were visually compared followed by chemometric techniques of principal component analysis (PCA) and linear discriminant analysis (LDA). Discriminating power for visual comparison, PCA and LDA are 58.18%, 100% and 100% respectively. Developed PCA model is validated and 100% accuracy, precision, sensitivity and specificity are achieved. Blue gel pen inks were 100% correctly differentiated on the basis of their brands using PCA followed by LDA. The utilized approach is fast and provides reproducible results. The results of present work demonstrate that potential utility of conventional and cost-effective visible spectroscopy can be improved by coupling it with these chemometric techniques. Major advantage of present research is the minimum damage caused to document. This study establishes a method which provides proof of concept discrimination of the gel pen samples. The methodology adopted in present work can be applied in the alteration cases in examination of suspected documents.  VL - 2023 IS - 135 PY - 2024 SN - 1230-7483 C1 - 2720-5983 SP - 255 EP - 268 DO - 10.4467/12307483PFS.23.015.19431 UR - https://ejournals.eu/czasopismo/problems-of-forensic-sciences/artykul/differentiation-of-blue-gel-pens-using-visible-spectroscopy-coupled-with-chemometric-techniques KW - Forensic document examination; Gel pen; Visible spectroscopy; Principal component analysis; Linear discriminant analysis