Software Defined Radio Based Sensing for Breathing Monitoring: Design, Challenges, and Performance Evaluation

Author First name, Last name, Institution

Najah AbuAli, United Arab Emirates University
Muhammad Bilal Khan, COMSATS University Islamabad
Farman Ullah, United Arab Emirates University
Mohammad Hayajneh, United Arab Emirates University
Mohammed Hussain, Zayed University
Mobeen Ur Rehman, Khalifa University of Science and Technology
Kil To Chong, Jeonbuk National University

Document Type

Article

Source of Publication

IEEE Sensors Journal

Publication Date

1-1-2024

Abstract

Software Defined Radio Frequency (SDRF) sensing technology has revolutionized healthcare by enabling real-time monitoring and early diagnosis of patient health status with higher reliability, diagnostic accuracy, and enhanced healthcare services in a non-contact and non-invasive manner. However, RF sensing for breathing disorder diagnosis and monitoring is still an open research challenge. Further research is necessary to determine RF sensing accuracy and reliability for breathing disorders in different environments and applications. RF sensing is sensitive to environmental changes and shows non-linear responses. Existing studies have explored RF sensing for breathing monitoring using fixed RF parameters to evaluate the system’s performance. However, several key parameters in RF sensing, such as operating frequency, sampling rate, bandwidth, gain, power, the height of antennas, and distance between transmitter and receiver, affect the system’s performance practicality. In this paper, we used a re-configurable SDRF sensing system to evaluate the RF parameters for monitoring breathing in order to understand their effects and enhance the performance of the sensing system. The correlation between RF sensing characteristics and wearable breathing sensors is evaluated using the correlation coefficient (CC) and mean square error (MSE). The findings reveal that a higher operating frequency of 4.8 GHz, a sampling rate of 300 samples/s, antennas on the line of sight and distance up to 2 feet show the best performance, with an MSE of less than 0.1111 and a CC of 0.9943, indicating a significant correlation. The experimental study concludes that breathing monitoring performance using RF sensing heavily depends on RF parameters.

DOI Link

10.1109/jsen.2024.3443419

ISSN

1530-437X

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Disciplines

Computer Sciences

Keywords

Accuracy, Antennas, Breathing Abnormalities, Correlation Coefficients, Mean Square Error, Monitoring, Radio frequency, RF Sensing, Robot sensing systems, Sensors, Software Defined Radio, Wireless fidelity

Scopus ID

85202739240

Recommended Citation

AbuAli, Najah; Khan, Muhammad Bilal; Ullah, Farman; Hayajneh, Mohammad; Hussain, Mohammed; Rehman, Mobeen Ur; and Chong, Kil To, "Software Defined Radio Based Sensing for Breathing Monitoring: Design, Challenges, and Performance Evaluation" (2024). All Works. 6820.
https://zuscholars.zu.ac.ae/works/6820

Indexed in Scopus

yes

Open Access

no