# An Accurate Measurement System Comprising of Wireless Thermometers for   Neonate Body Temperature Monitoring

**Authors:** Abdollah Javadpour, abolfazl rahimi, Amir Javadpour, Hossien vazini,, Zeynab Farhadi, Gholam hossein baghdadpour, Zahra Mardani Korani

arXiv: 1908.06800 · 2019-08-20

## TL;DR

This paper presents a real-time wireless temperature monitoring system for neonates in ICUs, utilizing accurate sensors, secure wireless protocols, and custom software for visualization and alerts.

## Contribution

It introduces a novel wireless thermometer system with secure tagging and real-time monitoring tailored for neonatal care in ICU settings.

## Key findings

- Successful implementation and testing in various scenarios
- Reasonably accurate temperature measurements
- Effective on-body testing results

## Abstract

This paper addresses the design and implementation of a real-time monitoring system consisting of wireless thermometers for continuous recording of neonate body temperature in an intensive care unit (ICU). Each wireless thermometer incorporates an accurate semiconductor temperature sensor, a transceiver operating on ISM frequency band (i.e., 915 MHz) as well as a microcontroller which is used to control the thermometers functionalities including wireless medium access (e.g., free space or body channel), transmission and reception. A voltage regulator and a low-pass filter were also used for removing spurious signals and environmental noise from the thermometer feed line. In order to distinguish the reading of each thermometer from measurements performed by other thermometers, the I-wire protocol was used. This protocol can securely tag the temperature value by incorporating a unique ID (provided by the manufacturer) into the packet sent wirelessly. An array of two thermometers was implemented and successfully tested in different scenarios, namely free-space, water (immersed thermometers) and on a volunteers wrist. Moreover, an in-house developed computer software was used in order to visualize the readings in addition to alerting rapid increase and high body temperature. The software also compares the measurement results with actual values. The agreement between the experimental data and real temperature values is reasonably acceptable and that of the on-body testing is significant. Keywords : Temperature measurement, Wireless thermometer, Temperature sensors, Wireless sensor networks, Wireless communication, Monitoring, Protocols, Time measurement

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Source: https://tomesphere.com/paper/1908.06800