Noncontact Vital Sign Monitoring Using IR-UWB Radar

Vital sign is recorded by the radar and bedside ECG simultaneously in supine position within an open-air crib.

The three electrodes of the ECG are attached at the standard positions and connected to the BSM-6501K patient monitor (Nihon Kohden, Tokyo, Japan), and vital signs are recorded and extracted.

The data from the radar is connected to a computer through a USB interface, and signal processing has been automatically performed by a software algorithm described by our previous study. A Fourier transform decomposes a signal with respect to time into a frequency component.

Vital sign is recorded continuously, and digital outputs are extracted from periods when no large noise or fluctuation occurs in both methods. While vital sign acquisition is significantly interfered with moving extensively, being in nursing care, repetitive myoclonus, hiccupping, flopping, or crying, the IR-UWB radar system stops the measurements and deletes the motion-contaminated observations automatically by itself. To investigate the artifact and interference by body movement during measurement, the level of movement is integrated based on the change of distance of the body from the radar. The radar transmits dozens of these signals (frames) to the computer every second, and the frame would not be changed if there was no movement within the range of the radar. However, if there is any movement, the difference of two frames (previous - current) is calculated.