Artificial neural network weights penalization and initialization for spectroscopic data

abstract

English

Nowadays, Artificial Neural Networks (ANNs) are among the most utilized techniques for the advanced processing of spectroscopic data. However, several problems have emerged from such a broad adoption that are limiting their performance and trustworthiness. The most significant shortcomings are: 1) “blackbox-like” utilization of ANNs, 2) overtrained and overparametrized models, and 3) a direct transition of ANN architecture from different tasks and data types (e.g. image processing). In this work, we mainly focus on the third mentioned problem and propose several adjustments to the architecture and learning process of ANNs, which are suitable for spectroscopic data. Our approach is based on the unique properties of spectroscopic data and their direct exploitation in form of special weight initialization strategies or penalizations of the loss function. Adjusted models provide improved analytical performance and interpretability.

spectroscopic data, artificial neural networks, machine learning, weights, initialization

VRÁBEL, J.; KÉPEŠ, E.; POŘÍZKA, P.; KAISER, J.

30. 11. 2021