Details

Autor(en) / Beteiligte

• Abou-Abbas, Lina
• Henni, Khadidja
• Jemal, Imene
• Mitiche, Amar
• Mezghani, Neila

Titel

Patient-independent epileptic seizure detection by stable feature selection

Ist Teil von

• Expert systems with applications, 2023-12, Vol.232, p.120585, Article 120585

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2023

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• The detection of epileptic seizures in EEG signals is a challenging task because it requires careful review of multi-channel EEG recordings over a lengthy time interval. In general, EEG-based seizure detection is strongly dependent on the ability to select descriptive features that are also stable in the sense that they are not sensitive to changes in the training data. This study proposes and investigates a patient-independent seizure detection model that uses stable EEG-based features obtained by comparing multiple feature selection methods. The schemes considered can be divided into five categories, often referred to as similarity, information theoretic, sparse learning, statistical, and graph centrality feature selection methods. The stability of the features these schemes produce was evaluated by random forest classification, using the intersection, frequency, correlation, and similarity measures. In experiments with Temple University Hospital’s Seizure database of EEG records of 341 patients, unsupervised graph centrality feature selection was the most effective method, with a correct classification rate of 91.5%. •This study introduces a patient-independent method for detecting epileptic seizures.•Stability of features selection methods is considered.•Highest stability obtained via an unsupervised graph-based feature selection method.•The stable selected features were mostly extracted from the F8 and T3 channels.•The proposed method achieves 91.5% classification accuracy.