MULTI-SENSOR UPPER ARM BAND FOR PHYSIOLOGICAL MEASUREMENTS AND ALGORITHMS TO PREDICT GLYCEMIC EVENTS

Organization Name

THE TEXAS A&M UNIVERSITY SYSTEM

Inventor(s)

Kimberly Branan of College Station TX (US)

Cody Lewis of College Station TX (US)

Richard Horner of College Station TX (US)

Gerard L. Cote of College Station TX (US)

Darpit Dave of College Station TX (US)

Kathan Vyas of College Station TX (US)

Madhav Erraguntla of College Station TX (US)

Ricardo Gutierrez-osuna of College Station TX (US)

Justin Mcmurray of College Station TX (US)

MULTI-SENSOR UPPER ARM BAND FOR PHYSIOLOGICAL MEASUREMENTS AND ALGORITHMS TO PREDICT GLYCEMIC EVENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18418861 titled 'MULTI-SENSOR UPPER ARM BAND FOR PHYSIOLOGICAL MEASUREMENTS AND ALGORITHMS TO PREDICT GLYCEMIC EVENTS

Simplified Explanation:

The patent application describes a wearable multi-sensor device that measures physiological properties by securing sensors to a user's skin. The device can predict glycemic events in the user.

• Includes non-invasive sensors like electrocardiography, bioimpedance, electrodermal activity, skin temperature, and photoplethysmography.
• Sensors are placed on the skin-facing side of the device.
• Communication module receives signals from sensors and outputs data.
• Suitable for predicting glycemic events in the user.

Key Features and Innovation:

• Wearable multi-sensor device for measuring physiological properties.
• Non-invasive sensors for accurate data collection.
• Predicts glycemic events in the user.
• Communication module for data output.

Potential Applications:

• Healthcare monitoring.
• Fitness tracking.
• Medical research.

Problems Solved:

• Non-invasive monitoring of physiological properties.
• Prediction of glycemic events.
• Convenient data collection for users.

Benefits:

• Early detection of health issues.
• Continuous monitoring of vital signs.
• Improved management of medical conditions.

Commercial Applications:

• Healthcare industry for patient monitoring.
• Fitness industry for performance tracking.
• Research institutions for data collection.

Questions about Wearable Multi-Sensor Device: 1. How does the device secure sensors to the user's skin? 2. What makes this device suitable for predicting glycemic events?

2. Another relevant generic question, with a detailed answer.

Original Abstract Submitted

A wearable multi-sensor device for measuring physiological properties includes a plurality of non-invasive sensors, such as a single-sided electrocardiography sensor, a bioimpedance and electrodermal activity sensor, a skin temperature sensor, and a photoplethysmography sensor. The device is configured to secure a skin-facing side of the sensors to exposed skin of a user and includes a communication module configured to receive signals from the plurality of non-invasive sensors and output data from the device, the being suitable for use in predicting glycemic events in the user.