This research paper presents a novel approach to wireless communication with deep-tissue sensor implants.
Bibliographic Information: Yener, U. C., Toymus, A. T., Esat, K., Alem, M., & Beker, L. (Year). Electronics-free passive ultrasonic communication link for deep-tissue sensor implants. [Journal Name].
Research Objective: The study aims to develop a wireless, passive, and electronics-free ultrasonic communication method for deep-tissue sensor implants, addressing the limitations of existing electromagnetic and active ultrasonic approaches.
Methodology: The researchers designed a passive ultrasonic communication (PUC) system consisting of a piezoelectric crystal ultrasonic antenna connected to a capacitive sensor. Changes in the sensor's capacitance, induced by the monitored parameter, cause shifts in the anti-resonance frequency of the antenna. An external interrogator transducer transmits and receives ultrasound waves, detecting these frequency shifts to extract sensor readings wirelessly.
Key Findings:
Main Conclusions: The PUC method offers a promising alternative for deep-tissue sensor communication, enabling simpler, smaller, and potentially more biocompatible implants for real-time monitoring applications.
Significance: This research significantly advances the field of implantable biomedical devices by providing a simplified and effective solution for wireless communication, potentially leading to improved patient outcomes and expanded applications in healthcare monitoring.
Limitations and Future Research:
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by Umut Can Yen... klo arxiv.org 10-10-2024
https://arxiv.org/pdf/2410.07116.pdfSyvällisempiä Kysymyksiä