Abstract
Continuous monitoring of vital signs, such as respiration and heartbeat, plays a crucial role in early detection and even prediction of conditions that may affect the wellbeing of the patient. Sensing vital signs can be categorized into: contact-based techniques and contactless based techniques. Conventional clinical methods of detecting these vital signs require the use of contact sensors, which may not be practical for long duration monitoring and less convenient for repeatable measurements. On the other hand, wireless vital signs detection using radars has the distinct advantage of not requiring the attachment of electrodes to the subject’s body and hence not constraining the movement of the person and eliminating the possibility of skin irritation. In addition, it removes the need for wires and limitation of access to patients, especially for children and the elderly. This paper presents a thorough review on the traditional methods of monitoring cardio-pulmonary rates as well as the potential of replacing these systems with radar-based techniques. The paper also highlights the challenges that radar-based vital signs monitoring methods need to overcome to gain acceptance in the healthcare field. A proof-of-concept of a radar-based vital sign detection system is presented together with promising measurement results.
Highlights
The four major vital signs are body temperature (BT), heart rate (HR), breath rate (BR) and blood pressure (BP)
Similar to the CW and frequency-modulated continuous-wave (FMCW) radars, the Stepped-Frequency Continuous-Wave (SFCW) radars suffer from the motion artifact of the Similar to the CW and FMCW radars, the SFCW radars suffer from the motion artifact of the subject as the major bottleneck
Doppler radars have the capability of detecting beat-to-beat signal of human cardiac classification accuracy as high as 82% was obtained, which is sufficient for mental state classification
Summary
The four major vital signs are body temperature (BT), heart rate (HR), breath rate (BR) and blood pressure (BP). They provide almost a complete picture of individuals’ body vital functions and help to assess their general physical health. There are two main techniques of the cardio-pulmonary vital signs detection: the contact-based methods and the contactless-based methods using radars. Since cardiac health issues can be complex and do not exhibit any apparent symptoms [9], it is vital to monitor the cardio-respiratory rates in order to adjust the appropriate intensity of exercise for the body. We review different methods used in contact-based (Section 2) and contactless radar-based (Section 3) cardio-pulmonary signals’ detection and monitoring as well as their challenges in biomedical applications.
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