J
Jean-Michel Redoute
Researcher at University of Liège
Publications - 193
Citations - 2376
Jean-Michel Redoute is an academic researcher from University of Liège. The author has contributed to research in topics: Electromagnetic interference & EMI. The author has an hindex of 17, co-authored 184 publications receiving 1703 citations. Previous affiliations of Jean-Michel Redoute include ON Semiconductor & Monash University.
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An Autonomous Wireless Body Area Network Implementation Towards IoT Connected Healthcare Applications
TL;DR: The proposed system with solar energy harvesting demonstrates that long-term continuous medical monitoring based on WBAN is possible provided that the subject stays outside for a short period of time in a day.
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A survey on signals and systems in ambulatory blood pressure monitoring using pulse transit time
TL;DR: A literature survey covering recent developments is presented in order to identify gaps in the literature regarding the calibration of pulse transit/arrival times to blood pressure, acquisition and processing of physiological signals and the design of fully integrated blood pressure measurement systems.
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A Rigid-Flex Wearable Health Monitoring Sensor Patch for IoT-Connected Healthcare Applications
TL;DR: The design of a compact wearable sensor patch is presented for measurements of different physiological signals, such as the electrocardiogram, photoplethysmography, and body temperature, and the experimental results demonstrate the feasibility of the overall platform for IoT-connected healthcare applications.
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WE-Safe: A Self-Powered Wearable IoT Sensor Network for Safety Applications Based on LoRa
TL;DR: A wearable Internet of Things sensor network aimed at monitoring harmful environmental conditions for safety applications via a Lora wireless network based on a customized sensor node, which is self-powered, low-power, and supports multiple environmental sensors.
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Propagation, Power Absorption, and Temperature Analysis of UWB Wireless Capsule Endoscopy Devices Operating in the Human Body
TL;DR: The path loss, specific absorption rate (SAR), specific absorption (SA), and temperature variation of the human body caused by an impulse-radio ultra-wideband (UWB) based WCE operating inside the human abdomen is studied.