Development of a Wireless Monitoring System for Microwave-Based Comprehensive Vital Sign Measurement

Bibb, Darcy A.; Perron, Ruthsenne R. G.; Huang, Gui Chao; Iskander, Magdy F.

doi:10.1109/lawp.2015.2503402

Cited by 17 publications

(8 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Wireless monitoring system for microwave-based comprehensive vital sign measurement was proposed in [12]. In the work, a unique electromagnetic energy coupling sensor/antenna is equipped with a mobile app to display the processed values in real time for clinical use to monitor the health condition of remote patients.…”

Section: Related Workmentioning

confidence: 99%

An efficient IoT based biomedical health monitoring and diagnosing system using myRIO

Rathy¹,

Sivasankar²,

Fadhil

2020

TELKOMNIKA

View full text Add to dashboard Cite

With the growing and aging population, patient auto monitoring systems are becoming more popular. Smart sensors linked with the internet of things (IoT) make patients' auto monitoring system possible. Nowadays myRIO with LabVIEW is more popular for easy data acquisition, instrument control, and automation. This paper proposed myRIO and IoT based health monitoring and diagnosing system (HMDS) to acquire heartbeat rate, pulse, blood pressure (BP), temperature and activities of the patient using various smart sensors with more accuracy. The acquired raw data from the various sensors had been sent to the myRIO using ESP 8266 Wi-Fi module. The received raw data by the myRIO would be processed to the equivalent medical parameters using LabVIEW and the same might be transferred to the remote monitoring system (RMS) using cloud via a gateway. The abnormalities in the obtained data would be monitored and the diagnosis was made. The experimental setup was developed using various wearable sensors, ESP 8266, myRIO with LabVIEW and cloud with the gateway.

show abstract

Section: Related Workmentioning

confidence: 99%

An efficient IoT based biomedical health monitoring and diagnosing system using myRIO

Rathy¹,

Sivasankar²,

Fadhil

2020

TELKOMNIKA

View full text Add to dashboard Cite

show abstract

“…The system is also non-invasive as it can measure heart rate from distance. Other work in [10] proposes a wireless vital signs monitoring system that measure heart rate and respiratory rate in real time. It uses a custom-made microwave-based sensor that first measure the reflection coefficient on patient's chest.…”

Section: Related Workmentioning

confidence: 99%

“…Finally, we give our conclusion in Section 5. Heart rate in [9,10,11,12], respiratory rate in [10,11,12], and temperature in [11,12] Support multiple patient monitoring Yes Yes in [11] Wireless data transmission ZigBee Bluetooth in [10] and Wi-Fi in [12] Monitoring interface PC PC in [9,11,12] and smartphone in [10]…”

Section: Introductionmentioning

confidence: 99%

Design of Wireless Vital Signs Monitoring System for Indoor Monitoring Activity

Daely¹,

Rizal²,

Hadiyoso³

2018

IJET

View full text Add to dashboard Cite

Patient vital signs monitoring is an important activity in medical field, the situation in real medical facility usually does not allow for continuous monitoring. In a medical facility such as hospital or health care center, the patients outnumbered the staffs which makes it difficult to focus on each patient at a time. This problem can decrease chance to efficiently and effectively detecting medical condition. In this paper, we propose a wireless vital signs monitoring system, where multiple patients can be monitored at the same time. The system consists of two parts: Sensor Device to detect and measure patient's vital signs and Monitor Device to present the sensors' measurement result. We use ZigBee protocol for data transmission between devices. We compare our system to previous work to showcase the advantages of our work. We present the performance results related with the ZigBee communication and the display of Graphical User Interface (GUI). The results show that the system is capable of carrying out vital sign monitoring in indoor scenario with interactive measurement display that can help monitor multiple patients simultaneously.

show abstract

“…There are several sensing techniques available that can be used in portable medical devices, for example based on optics, acoustics, and microwaves [8][9][10][11][12][13][14][15][16][17][18][19]. Microwave -based detection techniques are recently recognized as emerging technology for portable medical monitoring and diagnostics devices since they are generally recognized as safe, reliable, low-power, and low-cost solutions [9].…”

Section: Introductionmentioning

confidence: 99%

Remote diagnostics and monitoring using microwave technique – improving healthcare in rural areas and in exceptional situations

et al. 2023

View full text Add to dashboard Cite

Interests towards wireless portable medical diagnostics and monitoring systems, which could be used outside hospital e.g. during pandemic or catastrophic situations, have increased recently. Additionally, portable monitoring solutions could partially address widely recognized challenges related to healthcare equality in rural areas. Microwave based sensing has recently been recognized as emerging technology for portable medical monitoring and diagnostics devices since they may enable development of safe, reliable, and low-cost solutions for future’s telemedicine. The aim of this paper is to present the basic idea of microwave -based medical monitoring and discuss its possibilities, advantages, and challenges. In particular, we show that microwaves could be exploited in three pre-diagnostics applications: 1) Detection of abnormalities in the brain with a helmet type of monitoring device, 2) Detection of breast cancer with a self-monitoring vest, 3) Detection of blood clots in leg with an antenna band. The technique is based on detecting differences in radio channel responses caused by the abnormalities having different dielectric properties than the surrounding tissues. Our results of realistic simulations and experimental measurements show that even small-sized abnormalities, e.g. tumors, can change channel characteristics in detectable level.

show abstract

Development of a Wireless Monitoring System for Microwave-Based Comprehensive Vital Sign Measurement

Cited by 17 publications

References 6 publications

An efficient IoT based biomedical health monitoring and diagnosing system using myRIO

An efficient IoT based biomedical health monitoring and diagnosing system using myRIO

Design of Wireless Vital Signs Monitoring System for Indoor Monitoring Activity

Remote diagnostics and monitoring using microwave technique – improving healthcare in rural areas and in exceptional situations

Contact Info

Product

Resources

About