Your search keyword '"Rucco, M"' showing total 2 results

1. Topolnogical classifier for detecting the emergence of epileptic seizures.

Author

Piangerelli M, Rucco M, Tesei L, and Merelli E

Subjects

Algorithms, Child, Electroencephalography classification, Entropy, Humans, Seizures classification, Seizures physiopathology, Electroencephalography methods, Seizures diagnosis, Signal Processing, Computer-Assisted

Abstract

Objective: An innovative method based on topological data analysis is introduced for classifying EEG recordings of patients affected by epilepsy. We construct a topological space from a collection of EEGs signals using Persistent Homology; then, we analyse the space by Persistent entropy, a global topological feature, in order to classify healthy and epileptic signals., Results: The performance of the resulting one-feature-based linear topological classifier is tested by analysing the Physionet dataset. The quality of classification is evaluated in terms of the Area Under Curve (AUC) of the receiver operating characteristic curve. It is shown that the linear topological classifier has an AUC equal to [Formula: see text] while the performance of a classifier based on Sample Entropy has an AUC equal to 62.0%.

Published

2018

2. Neural hypernetwork approach for pulmonary embolism diagnosis.

Author

Rucco M, Sousa-Rodrigues D, Merelli E, Johnson JH, Falsetti L, Nitti C, and Salvi A

Subjects

Aged, Female, Humans, Lung diagnostic imaging, Male, Middle Aged, Pulmonary Embolism diagnostic imaging, Pulmonary Embolism mortality, Pulmonary Embolism pathology, ROC Curve, Survival Analysis, Ultrasonography, Lung pathology, Machine Learning, Neural Networks, Computer, Pulmonary Embolism diagnosis

Abstract

Background: Hypernetworks are based on topological simplicial complexes and generalize the concept of two-body relation to many-body relation. Furthermore, Hypernetworks provide a significant generalization of network theory, enabling the integration of relational structure, logic and analytic dynamics. A pulmonary embolism is a blockage of the main artery of the lung or one of its branches, frequently fatal., Results: Our study uses data on 28 diagnostic features of 1427 people considered to be at risk of pulmonary embolism enrolled in the Department of Internal and Subintensive Medicine of an Italian National Hospital "Ospedali Riuniti di Ancona". Patients arrived in the department after a first screening executed by the emergency room. The resulting neural hypernetwork correctly recognized 94% of those developing pulmonary embolism. This is better than previous results obtained with other methods (statistical selection of features, partial least squares regression, topological data analysis in a metric space)., Conclusion: In this work we successfully derived a new integrative approach for the analysis of partial and incomplete datasets that is based on Q-analysis with machine learning. The new approach, called Neural Hypernetwork, has been applied to a case study of pulmonary embolism diagnosis. The novelty of this method is that it does not use clinical parameters extracted by imaging analysis.

Published

2015