On Classification of the Human Emotions from Facial Thermal Images: A Case Study Based on Machine Learning

On Classification of the Human Emotions from Facial Thermal Images: A Case Study Based on Machine Learning

(1) Background: This paper intends to accomplish a comparative study and analysis regarding the multiclass classification of facial thermal images, i.e., in three classes corresponding to predefined emotional states (neutral, happy and sad). By carrying out a comparative analysis, the main goal of t...

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Bibliographic Details
Main Authors: Marius Sorin Pavel, Simona Moldovanu, Dorel Aiordachioaie
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Machine Learning and Knowledge Extraction
Subjects:
thermal images
emotional states recognition
machine learning
deep learning
database expansion techniques
multiclass classification
Online Access:https://www.mdpi.com/2504-4990/7/2/27
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Summary:(1) Background: This paper intends to accomplish a comparative study and analysis regarding the multiclass classification of facial thermal images, i.e., in three classes corresponding to predefined emotional states (neutral, happy and sad). By carrying out a comparative analysis, the main goal of the paper consists in identifying a suitable algorithm from machine learning field, which has the highest accuracy (ACC). Two categories of images were used in the process, i.e., images with Gaussian noise and images with “salt and pepper” type noise that come from two built-in special databases. An augmentation process was applied to the initial raw images that led to the development of the two databases with added noise, as well as the subsequent augmentation of all images, i.e., rotation, reflection, translation and scaling. (2) Methods: The multiclass classification process was implemented through two subsets of methods, i.e., machine learning with random forest (RF), support vector machines (SVM) and k-nearest neighbor (KNN) algorithms and deep learning with the convolutional neural network (CNN) algorithm. (3) Results: The results obtained in this paper with the two subsets of methods belonging to the field of artificial intelligence (AI), together with the two categories of facial thermal images with added noise used as input, were very good, showing a classification accuracy of over 99% for the two categories of images, and the three corresponding classes for each. (4) Discussion: The augmented databases and the additional configurations of the implemented algorithms seems to have had a positive effect on the final classification results.
ISSN:2504-4990

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