A KAIST research team led by Professor Keon Jae Lee has proposed an innovative theoretical framework and research strategies for AI-based wearable blood pressure sensors, paving the way for continuous ...

This small, stretchy skin patch uses ultrasound to continuously monitor blood pressure deep inside the body. A comprehensive clinical validation on 117 subjects, including patients in the intensive ...

Add Yahoo as a preferred source to see more of our stories on Google. 5×4 ultrasonic transducer array developed by Dr. Shin Hur’s research team at KIMM. (CREDIT: KIMM) Every heartbeat pushes pressure ...

Some cuffless #bloodpressure monitors don’t measure pressure at all,they infer it from pulse wave signals and map that waveform to #BP values using algorithms, not direct pressure readings.

A new technology has been developed that enables cuffless non-invasive blood pressure monitoring by using ultrasonic to track real-time changes in vascular diameter-without the need for a traditional ...

Flexible piezoelectric sensors are essential to monitor the motions of both humans and humanoid robots. However, existing designs are either are costly or have limited sensitivity. In a recent study, ...

How researchers are modifying basic materials to enhance and tailor transducer performance. Efforts and results achieved with piezoelectric materials. Efforts and results achieved with triboelectric ...

A close-up image of a dark crystal held between two metal rods on a yellow background Researchers created a lead-free piezoelectric material (shown under a microscope), which could provide a ...

(Nanowerk News) A team of researchers at the University of California San Diego has developed a new and improved wearable ultrasound patch for continuous and noninvasive blood pressure monitoring.