Group Classification for the Search and Identification of Related Patterns Using a Variety of Multivariate Techniques Boukichou Abdelkader, Nisa Montero Alonso, Miguel Ángel Muñoz García, Alberto Classification Cluster analysis Principal component analysis Recently, many methods and algorithms have been developed that can be quickly adapted to different situations within a population of interest, especially in the health sector. Success has been achieved by generating better models and higher-quality results to facilitate decision making, as well as to propose new diagnostic procedures and treatments adapted to each patient. These models can also improve people’s quality of life, dissuade bad health habits, reinforce good habits, and modify the pre-existing ones. In this sense, the objective of this study was to apply supervised and unsupervised classification techniques, where the clustering algorithm was the key factor for grouping. This led to the development of three optimal groups of clinical pattern based on their characteristics. The supervised classification methods used in this study were Correspondence (CA) and Decision Trees (DT), which served as visual aids to identify the possible groups. At the same time, they were used as exploratory mechanisms to confirm the results for the existing information, which enhanced the value of the final results. In conclusion, this multi-technique approach was found to be a feasible method that can be used in different situations when there are sufficient data. It was thus necessary to reduce the dimensional space, provide missing values for high-quality information, and apply classification models to search for patterns in the clinical profiles, with a view to grouping the patients efficiently and accurately so that the clinical results can be applied in other research studies. 2024-05-27T07:55:37Z 2024-05-27T07:55:37Z 2024-03-09 journal article Boukichou-Abdelkader, N.; Montero-Alonso,M.Á.;Muñoz-García, A. Group Classification for the Search and Identification of Related Patterns Using a Variety of Multivariate Techniques. Computation 2024, 12, 55. https://doi.org/10.3390/ computation12030055 https://hdl.handle.net/10481/92094 10.3390/computation12030055 eng http://creativecommons.org/licenses/by/4.0/ open access Atribución 4.0 Internacional MDPI