Enhancing Implantable Healthcare Devices with Dual-Band Wireless Communication
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Updated time:2025-12-23 13:21:21 Views:98
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Abstract
Changing medical diagnosis and therapy, implantable healthcare devices provide real-time physiological monitoring and therapeutic action. Especially in important uses like heart health monitoring, dual-band wireless connection significantly increases the data transmission dependability and efficiency of these devices. Particularly in dynamic and multi-device contexts, current systems might suffer from restricted data bandwidth, signal interference, and poor communication dependability. Apart from making it difficult for health data to be immediately available, these restrictions may impact patient safety and clinical results. Our work presents a new framework combining dual-band wireless communication with Hardware-in- Loop Testing (H-LT) and continuous health monitoring in cardiac implants in order to overcome these obstacles. By simulating real-time cardiac events, the H-LT method allows strict performance assessment and adaptive modification of implanted devices in a simulated yet responsive environment. For simultaneous short-range and long-range communication, the suggested approach makes use of the 2.4 GHz and sub-GHz frequencies. This dual-band technique guarantees continuous data flow, reduces interference, and enhances system resilience in numerous working contexts—including highly dense medical environments. Using H-LT experimental validation shows that the dual-band system provides up to 40% increase in data dependability and 30% decrease in latency over standard single-band systems. These results highlight how realistic the suggested design is to greatly improve the safety, efficiency, and real-time responsiveness of cardiac implanted devices, hence opening the path for next-generation smart healthcare solutions.
Keywords
Healthcare Devices, Dual-Band Wireless Communication, Real-time Physiological Monitoring, H-LT, Data Transmission.
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