0000000000852277

AUTHOR

Maaria Rantala

showing 4 related works from this author

"Towards a "fingerprint" of paper network; separating forgeries from genuine by the properties of fibre structure"

2014

A novel method is introduced for distinguishing counterfeit banknotes from genuine samples. The method is based on analyzing differences in the networks of paper fibers. The main tool is a curvelet-based algorithm for measuring the distribution of overall fiber orientation and quantifying its anisotropy. The use of a couple or more appropriate parameters makes it possible to distinguish forgeries from genuine samples as concentrated point clouds in a two- or three-dimensional parameter space. Furthermore, the techniques of making watermarks is investigated by comparing genuine and counterfeit €50 banknotes. In addition, the so-called wire markings are shown to differ significantly from each…

Structure (mathematical logic)Engineeringta114business.industryFiber orientationPoint cloudFingerprint recognitionCounterfeitFingerprintCurveletComputer visionArtificial intelligencebusinessta216Digital watermarking
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Using the fibre structure of paper to determine authenticity of the documents: analysis of transmitted light images of stamps and banknotes.

2014

A novel method is presented for distinguishing postal stamp forgeries and counterfeit banknotes from genuine samples. The method is based on analyzing differences in paper fibre networks. The main tool is a curvelet-based algorithm for measuring overall fibre orientation distribution and quantifying anisotropy. Using a couple of more appropriate parameters makes it possible to distinguish forgeries from genuine originals as concentrated point clouds in two- or three-dimensional parameter space.

Structure (mathematical logic)ta114business.industryOrientation (computer vision)Computer scienceTransmitted lightPoint cloudFiber networkPattern recognitionPathology and Forensic MedicineCounterfeitCurveletArtificial intelligencebusinessLawForensic science international
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Modelling and analysing oriented fibrous structures

2014

Abstract. A mathematical model for fibrous structures using a direction dependent scaling law is presented. The orientation of fibrous nets (e.g. paper) is analysed with a method based on the curvelet transform. The curvelet-based orientation analysis has been tested successfully on real data from paper samples: the major directions of fibrefibre orientation can apparently be recovered. Similar results are achieved in tests on data simulated by the new model, allowing a comparison with ground truth. peerReviewed

wood fibresREPRESENTATIONHistoryScaling lawGround truthMathematical modelfibrous structuresIMAGEComputer scienceOrientation (computer vision)Curvelet transformComputer Science ApplicationsEducationOrientation analysisPAPER111 MathematicsCurveletCONTINUOUS CURVELET TRANSFORMRepresentation (mathematics)AlgorithmJournal of Physics: Conference Series
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Towards a "fingerprint" of paper network; separating forgeries from genuine by the properties of fibre structure

2014

A novel method is introduced for distinguishing counterfeit banknotes from genuine samples. The method is based on analyzing differences in the networks of paper fibers. The main tool is a curvelet-based algorithm for measuring the distribution of overall fiber orientation and quantifying its anisotropy. The use of a couple or more appropriate parameters makes it possible to distinguish forgeries from genuine samples as concentrated point clouds in a two- or three-dimensional parameter space. Furthermore, the techniques of making watermarks is investigated by comparing genuine and counterfeit e50 banknotes. In addition, the so-called wire markings are shown to differ significantly from each…

curveletforensic sciencecounterfeit banknotesber networkber orientation
researchProduct