Random forest Algorithm for the Classification of Spectral Data of Astronomical Objects

Over time, human beings have built increasingly large astronomical observatories to increase the number of discoveries related to celestial objects. However, the amount of collected elements far exceeds the human capacity to analyze findings without help. For this reason, researchers must now turn t...

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Bibliographic Details
Published in:Algorithms 2023-06, Vol.16 (6), p.293
Main Authors: Solorio-Ramírez, José-Luis, Jiménez-Cruz, Raúl, Villuendas-Rey, Yenny, Yáñez-Márquez, Cornelio
Format: Article
Language:English
Subjects:
Algorithms
Analysis
associative algorithm
Astronomical observatories
Celestial bodies
Classification
Data analysis
Data mining
Datasets
Decision trees
diseases
Machine learning
Neural networks
Observatories
Star maps
Stars & galaxies
supervised classification
Support vector machines
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Summary:Over time, human beings have built increasingly large astronomical observatories to increase the number of discoveries related to celestial objects. However, the amount of collected elements far exceeds the human capacity to analyze findings without help. For this reason, researchers must now turn to machine learning to analyze such data, identifying and classifying transient objects or events within extensive observations of the firmament. Algorithms from the family of random forests (an ensemble of decision trees) have become a powerful tool that can be used to classify astronomical events and objects. This work aims to illustrate the versatility of machine learning algorithms, such as decision trees, to facilitate the identification and classification of celestial bodies by manipulating hyperparameters and studying the attributes of celestial body datasets. By applying a random forest algorithm to a well-known dataset that includes three types of celestial bodies, its effectiveness was compared against some supervised classifiers of the most important approaches (Bayes, nearest neighbors, support vector machines, and neural networks). The results show that random forests are a good alternative for data analysis and classification in astronomical observations.
ISSN:1999-4893
1999-4893
DOI:10.3390/a16060293