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Hierarchical Multi-Stage Feature Fusion Network (HMSFF-Net) for Advanced miRNA Biomarker Classification

N N Jose, Manivannan. Manivannan, Bhukya Krishna, Jangam Ravali, B. Venkatesh, P. Thirumaraiselvan

20255 citationsDOI

Abstract

MiRNA profiles are important indicators for cancer diagnosis and treatment. To address these issues, this study offers the Hierarchical Multi-Stage Feature Fusion Network (HMSFF-Net) for reliable miRNA biomarker categorization. HMSFF-Net uses a novel DSRF net with Dual-Stage Resolution Fusion module to capture localized and global features in several miRNA data resolutions. The Self-Adaptive Feature Relevance Mechanism of HMSFF-Net regulates the pass-through of biologically important characteristics to accurately classify cancer. The model uses a Progressive Transfer Learning Framework to fine-tune deeper layers of pre-trained neural networks and gradually adjust earlier levels for improved domain-specific feature extraction. To decrease temporal inconsistency of miRNA datasets [39], HMSFF-Net uses a Temporal Discrepancy Minimization Loss (TDML) method to scale feature extraction to a consistent time. When biomedical applications lack labeled samples, the model's Self-Adaptive Semi-Supervised Learning Strategy refines the pseudo label to enhance learning. Experiments reveal that HMSFF-Net has 98.3% classification accuracy in miRNA benchmark datasets, outperforming previous methods. The model has better noise tolerance, huge data handling, and cancer biomarker pattern universality. The microscopic application of HMSFF-Net's hierarchical analysis, transfer learning, and temporal alignment approach allows oncologists classify miRNA biomarkers with great accuracy.

Topics & Concepts

Stage (stratigraphy)Computer scienceNet (polyhedron)Artificial intelligenceFeature (linguistics)BiomarkerFusionPattern recognition (psychology)Machine learningMathematicsBiologyBiochemistryPhilosophyGeometryPaleontologyLinguisticsAdvanced Image and Video Retrieval TechniquesAntenna Design and OptimizationAntenna Design and Analysis