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All Journal IAES International Journal of Artificial Intelligence (IJ-AI) Semantik Jurnal Simetris Jurnal Transformatika Seminar Nasional Informatika (SEMNASIF) ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika International Journal of Artificial Intelligence Research Tekinfo | Scientific Journal of Industrial and Information Engineering Applied Industrial Engineering Journal Elektrika Indonesia Journal of Halal IJID (International Journal on Informatics for Development) Repertorium: Jurnal Ilmiah Hukum Kenotariatan Journal of Electronics, Electromedical Engineering, and Medical Informatics Abdimasku : Jurnal Pengabdian Masyarakat JTEIN: Jurnal Teknik Elektro Indonesia Jurnal Locus Penelitian dan Pengabdian
Sari Ayu Wulandari
Universitas Dian Nuswantoro
Religion Aerospace Engineering Agriculture, Biological Sciences & Forestry Automotive Engineering Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Health Professions Industrial & Manufacturing Engineering Law, Crime, Criminology & Criminal Justice Mathematics Social Sciences Other

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Journal : journal of electronics electromedical engineering and medical informatics

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MK–TripNet: A Deep Learning Framework for Real-Time Multi-Class Lung Sound Classification Erini, Widya Surya; Thomas, Gracia Putri; Badia, Giulia Salzano; Rahadian, Arief; Raharjo, Sofyan Budi; Wulandari, Sari Ayu
Journal of Electronics, Electromedical Engineering, and Medical Informatics Vol 8 No 2 (2026): April
Publisher : Department of Electromedical Engineering, POLTEKKES KEMENKES SURABAYA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35882/jeeemi.v8i2.1403

Abstract

Respiratory diseases such as asthma, pneumonia, and Chronic Obstructive Pulmonary Disease (COPD) remain major global health challenges, particularly in resource-limited settings where access to pulmonary specialists and early diagnostic tools is limited. Automatic lung sound classifications have emerged as a promising non-invasive screening approach; however, existing methods often rely on single-scale feature extraction, conventional loss functions, and offline analysis, which limit their discriminative capability and real-time applicability. The aim of this study is to develop and evaluate a deep learning framework for real-time multi-class lung sound classifications that improves discriminative representation and temporal sensitivity. To address limitations, this study proposes MK-TripNet, a novel deep learning architecture designed to integrate multi-scale feature extraction, discriminative embedding learning, and real-time inference within a unified framework. The main contribution of this work is the unified integration of a Multi-Kernel convolutional architecture, Triplet Loss-based embedding learning, and Sliding Window segmentation within a single end-to-end framework, enabling accurate segment-level lung sound classifications in real-time scenarios. Unlike prior approaches, the proposed method simultaneously captures fine-grained temporal patterns and broader spectral characteristics while explicitly maximizing inter-class separability in the embedding space. The proposed model was evaluated using a newly constructed dataset comprising 1,409 lung sound segments obtained from primary digital stethoscope recordings and publicly available respiratory sound databases. Experimental results demonstrate that MK-TripNet consistently outperforms several strong baseline models, including CNN-BiGRU, CNN-BiGRU-UMAP, and VGGish-Triplet, achieving an accuracy of 89.1%, an F1-score of 0.89, and a recall of 0.88. Ablation studies further confirm that the combined use of Multi-Kernel convolution, Triplet Loss, and Sliding Window segmentation yields the most robust and generalizable performances. These findings highlight the clinical potential of MK-TripNet for real-time digital auscultation and point-of-care respiratory screening, particularly in resource-limited and telemedicine settings.
Deep Electro-Impedance Analytics for Bone Mineral Profiling: A Rough-Fuzzy Neural Attention Model Aripin, Aripin; Wulandari, Mauldy Nawa Ayu; Agata, Eunike Laurensya; Kusuma, Zulhendra Adi; Susilo, Susilo; Wulandari, Sari Ayu
Journal of Electronics, Electromedical Engineering, and Medical Informatics Vol 8 No 2 (2026): April
Publisher : Department of Electromedical Engineering, POLTEKKES KEMENKES SURABAYA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35882/jeeemi.v8i2.1434

Abstract

Electrochemical Impedance Spectroscopy (EIS) has emerged as a promising modality for non-invasive biomedical diagnostics, particularly for radiation-free monitoring tasks such as Bone Mineral Density (BMD) assessment. However, the high dimensionality, noise, and non-linear behavior of impedance signals pose significant challenges for accurate and interpretable prediction. This study introduces Hybrid Rough Set-Attention Network (HRSA-Net), a hybrid regression framework that combines Rough Set-based feature selection with a self-attention neural architecture to enable continuous BMD estimation directly from raw EIS data. The proposed framework employs Artificial Neural Network (ANN) and Transformer-based regression models to learn complex impedance-density relationships. Unlike prior studies that are limited to classification tasks or rely on indirect physiological indicators, HRSA-Net is explicitly designed for direct regression of real-valued BMD scores. The model performance is evaluated against reference measurements obtained from Dual-energy X-ray Absorptiometry (DXA), the current clinical gold standard for bone density assessment. Through a comprehensive series of ablation experiments, HRSA-Net achieves an R² of 0.834 using an attention-guided ANN backbone, demonstrating the critical contribution of both Rough Set reduction and attention mechanisms. Performance further improves to an R² of 0.855 when incorporating a Transformer regressor and Huber loss, indicating superior robustness and generalizability under varying signal conditions. Comparative analysis with state-of-the-art EIS-based learning approaches shows that the proposed pipeline consistently outperforms conventional neural models and statistical methods. Overall, HRSA-Net provides an interpretable, accurate, and scalable foundation for future portable EIS-based BMD diagnostic systems, offering a safer alternative to radiological methods such as DXA and enabling feasible deployment in primary or community healthcare settings
Co-Authors Achmad Syarifuddin Affandy Affandy Agata, Eunike Laurensya Ahmad Zainul Fanani Arga Dwi Pambudi Aripin Arsita, Cynthia Badia, Giulia Salzano Dedi Nurcipto, Dedi Dian Retno Sawitri Dita Ayu Mayasari, Dita Ayu Dwi Nurul Izzhati Erini, Widya Surya Etika Kartikadarma Firdausy, Farah Mutia Harun Al Azies Hasan Mastrisiswadi Heryanto, M Ary I Ketut Swakarma JUANANTA, DENY Kurniatie, Menik Dwi Kusmiyati Kusmiyati Kusuma, Zulhendra Adi Listianingrum, Nia Yunita M Ary Heryanto Madnasri, Sutikno Maghfi, Risya Ulayyar Menik Dwi Kurniatie Muhammad Naufal, Muhammad Muljono Muljono Muslim, Zulkifli Alif Nadlirah, Tasnim Ahya Nurdin, Muhammad Rizal Paryanto Pramitasari, Ratih Pujiono Pujiono Pulung Nurtantio Andono Purnomo, Muhammad Agus Rachelina Nur Ilyasaf Rahadian, Arief Raharjo, Sofyan Budi Ramadhan, Rifky Daffa rexza berliyana Ridwan Ridwan Rudy Tjahyono Rudy Tjahyono, Rudy SADANARESWARI, AGATA Sari Wijayanti Sari Wijayanti Setiadi, Kristoforus Ardian SETYAWAN, YOGA Soeleman, M. Arief Susilo Susilo Thomas, Gracia Putri Tita Talitha Tjahyono, Rudi Triyotomo, Triyotomo Wisnu Adi Prasetyanto Wulandari, Mauldy Nawa Ayu Zaenal Arifin Zami , Farrikh Al