Novedades Ayuda Acceso institucional
← Volver a resultados
Ficha bibliográfica · Consulta y acceso
Artículo

MGO-CRNN: a bio-inspired deep learning framework for accurate phonocardiogram classification

Asmaa Ameen et al · SpringerOpen · 2026

Acceso abierto disponible
Lectura rápida. Revisá los datos básicos del recurso y luego accedé al contenido desde el botón principal. En esta ficha solo se muestra la información necesaria para identificar la obra, citarla y abrirla.
Autor / responsable
Asmaa Ameen et al
Editorial
SpringerOpen
Año
2026
ISSN
2196-1115
ISSN
2196-1115
Idioma
eng

Acceso al recurso

Entrá al contenido desde la opción principal o elegí otra fuente disponible.

Acceso principal

Acceso abierto disponible

Recurso identificado como acceso abierto, sin confirmar automáticamente si es texto completo directo.
Abrir recurso

Resumen

Descripción general del contenido del recurso.

Abstract Accurate classification of phonocardiogram (PCG) signals is vital for the early detection of cardiovascular diseases (CVDs), a leading cause of global mortality. However, conventional machine learning and deep learning approaches often suffer from suboptimal feature extraction, class imbalance, and inefficient hyperparameter tuning. This study proposes an optimized hybrid CNN-RNN (CRNN) model, enhanced through the Mountain Gazelle Optimization (MGO) algorithm for automated hyperparameter tuning. The model incorporates onset peak detection for precise heartbeat localization, segmentation for structured analysis, and Synthetic Minority Over-sampling Technique (SMOTE) to address class imbalance. Evaluated on two benchmark datasets—PASCAL and PhysioNet2022—the MGO-CRNN model demonstrated substantial improvements in classification accuracy. Specifically, accuracy on the PASCAL dataset improved from 54.23% to 99.67%, and on PhysioNet 2022 from 99.50% to 99.99% after optimization. The optimized model significantly reduced classification errors and outperformed traditional tuning methods such as grid search and Bayesian optimization. These results underscore the effectiveness of MGO in enhancing model performance and generalization. The integration of advanced signal processing techniques and intelligent optimization provides a robust, real-time solution for AI-assisted cardiac screening and clinical decision support.

Cómo citar

Elegí el formato que necesitás y copiá la referencia al portapapeles.

APA 7

al, A. A. E. (2026). MGO-CRNN: a bio-inspired deep learning framework for accurate phonocardiogram classification. https://doi.org/10.1186/s40537-026-01426-4

MLA

al, Asmaa Ameen et. "MGO-CRNN: a bio-inspired deep learning framework for accurate phonocardiogram classification." 2026. https://doi.org/10.1186/s40537-026-01426-4.

Chicago

al, Asmaa Ameen et. 2026. "MGO-CRNN: a bio-inspired deep learning framework for accurate phonocardiogram classification.". https://doi.org/10.1186/s40537-026-01426-4.

Harvard

al, A. A. E. 2026, MGO-CRNN: a bio-inspired deep learning framework for accurate phonocardiogram classification, SpringerOpen, available at: https://doi.org/10.1186/s40537-026-01426-4 [Accessed 28 Jun. 2026].

Compartir e imprimir

Guardá la ficha, copiá su enlace permanente o imprimila como PDF.

Exportar referencia

Si usás un gestor bibliográfico, podés exportar el registro en los formatos más comunes.

RIS BibTeX

Detalles del recurso

Información bibliográfica útil para confirmar que se trata del material correcto.

Título
MGO-CRNN: a bio-inspired deep learning framework for accurate phonocardiogram classification
Autor / colaboradores
Asmaa Ameen et al
Editorial
SpringerOpen
Año de publicación
2026
ISSN
2196-1115
ISSN
2196-1115
Idioma
eng

Materias

Explorá otros recursos relacionados a partir de estas materias.

Cardiovascular diseases; PCG signals; Phonocardiogram; Mountain Gazelle Optimization (MGO); Hyperparameter tuning; CRNN
Copiado