Wireless Silent Speech Interface Using Multi-Channel Textile EMG Sensors Integrated into Headphones

April 11, 2025 Β· Declared Dead Β· πŸ› IEEE Transactions on Instrumentation and Measurement

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Authors Chenyu Tang, JosΓ©e Mallah, Dominika Kazieczko, Wentian Yi, Tharun Reddy Kandukuri, Edoardo Occhipinti, Bhaskar Mishra, Sunita Mehta, Luigi G. Occhipinti arXiv ID 2504.13921 Category cs.HC: Human-Computer Interaction Cross-listed eess.SP Citations 3 Venue IEEE Transactions on Instrumentation and Measurement Last Checked 4 months ago
Abstract
This paper presents a novel wireless silent speech interface (SSI) integrating multi-channel textile-based EMG electrodes into headphone earmuff for real-time, hands-free communication. Unlike conventional patch-based EMG systems, which require large-area electrodes on the face or neck, our approach ensures comfort, discretion, and wearability while maintaining robust silent speech decoding. The system utilizes four graphene/PEDOT:PSS-coated textile electrodes to capture speech-related neuromuscular activity, with signals processed via a compact ESP32-S3-based wireless readout module. To address the challenge of variable skin-electrode coupling, we propose a 1D SE-ResNet architecture incorporating squeeze-and-excitation (SE) blocks to dynamically adjust per-channel attention weights, enhancing robustness against motion-induced impedance variations. The proposed system achieves 96% accuracy on 10 commonly used voice-free control words, outperforming conventional single-channel and non-adaptive baselines. Experimental validation, including XAI-based attention analysis and t-SNE feature visualization, confirms the adaptive channel selection capability and effective feature extraction of the model. This work advances wearable EMG-based SSIs, demonstrating a scalable, low-power, and user-friendly platform for silent communication, assistive technologies, and human-computer interaction.
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