Add to ORKGDoctorIn this dissertation, the methods of extracting vital-signs from the FMCW radar are proposed, and its applications are described. The FMCW radar can detect not only distance of a target, but also the micro-displacement in the target. Furthermore, owing to the small-size packaging and low power-consumption, the FMCW radar has been used for vital-sign monitoring. The vital-sign extraction from the FMCW radar signal mainly consists of spectral decomposition and range-bin selection. After the demodulation process, the intermediate frequency (IF) signal is calculated. The frequency of the IF signal corresponds to the range of a target. Discrete Fourier transform is used to decompose the IF signal. The magnitude and phase of each range-b...
Nowadays, thanks to the modern technologies, the human being has been able todevelop new techniques ...
This paper deals with a continuous wave (CW) radar system as applied to medical environment with the...
This paper presents the study of a radar system for indoor human localization and vital signs monito...
Respiration and heartbeat are basic indicators of the physiological state of human beings. Frequency...
Supervision of human vital signs has always been an essential part in healthcare. Nowadays there is ...
We propose a novel range-bin selection method, temporal phase coherency (TPC), to improve the accura...
A vision on the migration from contact standard health monitoring measurement devices to non-contact...
The paper centres on an assessment of the modelling approaches for the processing of signals in CW a...
Using 60GHz and 77GHz frequency modulation continuous wave (FMCW) radars, multiple signal processing...
Research on radar-based non-contact vital sign monitoring systems is critical during the COVID-19 ep...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this work the ability of a frequency modulated continuous wave (FMCW) radar to measure the respir...
Remote monitoring of vital signs for studying sleep is a user-friendly alternative to monitoring wit...
A novel non-contact vital-sign sensing algorithm for use in cases of multiple subjects is proposed. ...
This paper presents a 24 GHz FMCW radar system for detection of movement and respiration using chang...
Nowadays, thanks to the modern technologies, the human being has been able todevelop new techniques ...
This paper deals with a continuous wave (CW) radar system as applied to medical environment with the...
This paper presents the study of a radar system for indoor human localization and vital signs monito...
Respiration and heartbeat are basic indicators of the physiological state of human beings. Frequency...
Supervision of human vital signs has always been an essential part in healthcare. Nowadays there is ...
We propose a novel range-bin selection method, temporal phase coherency (TPC), to improve the accura...
A vision on the migration from contact standard health monitoring measurement devices to non-contact...
The paper centres on an assessment of the modelling approaches for the processing of signals in CW a...
Using 60GHz and 77GHz frequency modulation continuous wave (FMCW) radars, multiple signal processing...
Research on radar-based non-contact vital sign monitoring systems is critical during the COVID-19 ep...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this work the ability of a frequency modulated continuous wave (FMCW) radar to measure the respir...
Remote monitoring of vital signs for studying sleep is a user-friendly alternative to monitoring wit...
A novel non-contact vital-sign sensing algorithm for use in cases of multiple subjects is proposed. ...
This paper presents a 24 GHz FMCW radar system for detection of movement and respiration using chang...
Nowadays, thanks to the modern technologies, the human being has been able todevelop new techniques ...
This paper deals with a continuous wave (CW) radar system as applied to medical environment with the...
This paper presents the study of a radar system for indoor human localization and vital signs monito...