18491921. CUFFLESS BLOOD PRESSURE ESTIMATING DEVICE USING HYDROSTATIC PRESSURE DIFFERENCE AND OPERATING METHOD THEREOF simplified abstract (ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTE)
CUFFLESS BLOOD PRESSURE ESTIMATING DEVICE USING HYDROSTATIC PRESSURE DIFFERENCE AND OPERATING METHOD THEREOF
Organization Name
ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTE
Inventor(s)
Hyun Soon Shin of Daejeon (KR)
CUFFLESS BLOOD PRESSURE ESTIMATING DEVICE USING HYDROSTATIC PRESSURE DIFFERENCE AND OPERATING METHOD THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 18491921 titled 'CUFFLESS BLOOD PRESSURE ESTIMATING DEVICE USING HYDROSTATIC PRESSURE DIFFERENCE AND OPERATING METHOD THEREOF
The patent application describes a cuffless blood pressure estimating device that utilizes a hemodynamic parameter estimating circuit to measure height levels and user bio-signals for blood pressure estimation using machine learning or state estimation algorithms.
- The device measures at least two height levels based on position information from position detection sensors.
- User bio-signals are measured at the height levels.
- Blood pressure is estimated using the height levels and bio-signals with a hemodynamic state space model.
- The device is controlled by at least one processor.
Potential Applications: - Healthcare monitoring devices - Wearable health technology - Remote patient monitoring systems
Problems Solved: - Eliminates the need for traditional cuff-based blood pressure monitoring - Provides a more convenient and continuous blood pressure monitoring solution
Benefits: - Improved user comfort and convenience - Continuous and non-invasive blood pressure monitoring - Enhanced accuracy in blood pressure estimation
Commercial Applications: Title: "Innovative Cuffless Blood Pressure Estimating Device for Healthcare Monitoring" This technology can be utilized in medical devices, wearable health tech, and remote patient monitoring systems, potentially revolutionizing the way blood pressure is monitored in various healthcare settings.
Prior Art: No specific prior art information provided in the abstract.
Frequently Updated Research: No information provided in the abstract.
Questions about Cuffless Blood Pressure Estimating Device: 1. How does this device compare to traditional cuff-based blood pressure monitors? 2. What are the potential implications of using machine learning algorithms for blood pressure estimation in this device?
Original Abstract Submitted
Disclosed is a cuffless blood pressure estimating device, which includes a hemodynamic parameter estimating circuit that measures at least two height levels based on position information output from at least one position detection sensor, measures user's bio-signals respectively at the height levels, and estimates a blood pressure from the height levels and the user's bio-signals based on a machine learning algorithm or a state estimation algorithm with a hemodynamic state space model, and at least one processor that controls the hemodynamic parameter estimating circuit.
