Frequency-modulated continuous-wave (FMCW) radars have shown to be suitable for non-contact detection and monitoring of vital signs. Their coherent deramping-based architecture is beneficial in two aspects: i) it permits to attain high-resolution range profiles circumventing the necessity of expensive high-sampling-rate analog-to-digital converters and ii) its coherence feature enables a very-precise phase-based extraction of the range-displacement information. On the other hand, Doppler radars do not possess range resolution, leading to the fact that they can only detect the vital signs of a single patient with conventional baseband spectrum analysis. This work shows that FMCW radars can handle multiple patients located at different range cells. Simulations of vital-sign acquisitions confirm the isolation capabilities of FMCW radars in contrast to conventional Doppler radar systems.
[1]
Changzhan Gu,et al.
Application of Linear-Frequency-Modulated Continuous-Wave (LFMCW) Radars for Tracking of Vital Signs
,
2014,
IEEE Transactions on Microwave Theory and Techniques.
[2]
Changzhi Li,et al.
A Review on Recent Advances in Doppler Radar Sensors for Noncontact Healthcare Monitoring
,
2013,
IEEE Transactions on Microwave Theory and Techniques.
[3]
A Koelpin,et al.
The Six-Port in Modern Society
,
2010,
IEEE Microwave Magazine.
[4]
Andrew Gerald Stove,et al.
Linear FMCW radar techniques
,
1992
.
[5]
Changzhi Li,et al.
A Review on Recent Progress of Portable Short-Range Noncontact Microwave Radar Systems
,
2017,
IEEE Transactions on Microwave Theory and Techniques.