Litcius/Paper detail

Plastic Classification With NIR Hyperspectral Images and Deep Learning

Attilio Sbrana, Aline Gabriel de Almeida, Andre Mobaier de Oliveira, Henrique Seschin Neto, Joao Paulo Cesar Rimes, Maria Cristina Belli

2023IEEE Sensors Letters18 citationsDOI

Abstract

Because most plastics are incompatible and cannot be blended, polymers must be separated before recycling. We propose a sensor-based classifier that collects NIR wavelengths from polymers to estimate their composition. Unlike prior research, this work aims to apply machine learning to the difficult problem of categorizing low-reflectance black polymers in NIR and without complimentary sensory data. We collected 1491 hyperspectral pictures of roughly 4500 plastic pieces from an industrial recycling operation. Using N-BEATS, an ensemble deep learning approach for waveform decomposition, we achieved an overall f1-score of 0.79 and accuracy of 0.79 for all plastics, 0.9 for colored plastics, and 0.67 for black plastics. The method achieves noteworthy performance results, as black polymer differentiation in the NIR has been deemed unfeasible by the majority of the existing literature.

Topics & Concepts

Hyperspectral imagingClassifier (UML)Computer sciencePolymerArtificial intelligenceColoredPattern recognition (psychology)ReflectivitySpectral signatureDeep learningMaterials scienceRemote sensingComposite materialOpticsGeologyPhysicsSpectroscopy and Chemometric AnalysesAdvanced Chemical Sensor TechnologiesIndustrial Vision Systems and Defect Detection