Coherent UWB radar-on-chip for in-body measurement of cardiovascular dynamics

Autor: Tor Sverre Lande, Mathias Tommer, Timo Lauteslager, Timothy G. Constandinou
Rok vydání: 2019
Předmět:
UWB radar
Adult
Male
Technology
Electrical & Electronic Engineering
Monitoring
Computer science
Acoustics
Biomedical Engineering
02 engineering and technology
in-body sensing
law.invention
Imaging
Electrocardiography
Engineering
Cardiovascular monitoring
0903 Biomedical Engineering
law
Heart Rate
Radar imaging
0202 electrical engineering
electronic engineering
information engineering
Medical imaging
Humans
radar-on-chip
Electrical and Electronic Engineering
Radar
Wideband
Biomedical measurement
Image resolution
Engineering
Biomedical
ARTERY
Signal processing
Spatial resolution
Science & Technology
Sensors
020208 electrical & electronic engineering
Engineering
Electrical & Electronic
Heart
Signal Processing
Computer-Assisted
Pulse (physics)
TIME
0906 Electrical and Electronic Engineering
microwave imaging
Female
Microwave
Popis: Coherent ultra-wideband (UWB) radar-on-chip technology shows great promise for developing portable and low-cost medical imaging and monitoring devices. Particularly monitoring the mechanical functioning of the cardiovascular system is of interest, due to the ability of radar systems to track sub-mm motion inside the body at a high speed. For imaging applications, UWB radar systems are required, but there are still significant challenges with in-body sensing using low-power microwave equipment and wideband signals. Recently it was shown for the first time, on a single subject, that the arterial pulse wave can be measured at various locations in the body, using coherent UWB radar-on-chip technology. The current work provides more substantial evidence, in the form of new measurements and improved methods, to demonstrate that cardiovascular dynamics can be measured using radar-on-chip. Results across four participants were found to be robust and repeatable. Cardiovascular signals were recorded using radar-on-chip systems and electrocardiography (ECG). Through ECG-aligned averaging, the arterial pulse wave could be measured at a number of locations in the body. Pulse arrival time could be determined with high precision, and blood pressure pulse wave propagation through different arteries was demonstrated. In addition, cardiac dynamics were measured from the chest. This work serves as a first step in developing a portable and low-cost device for long-term monitoring of the cardiovascular system, and provides the fundamentals necessary for developing UWB radar-on-chip imaging systems.
Databáze: OpenAIRE
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