18418887. MULTISPECTRAL OPTICAL FINGER SYSTEM FOR PHYSIOLOGICAL MEASUREMENTS simplified abstract (THE TEXAS A&M UNIVERSITY SYSTEM)
Contents
- 1 MULTISPECTRAL OPTICAL FINGER SYSTEM FOR PHYSIOLOGICAL MEASUREMENTS
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 MULTISPECTRAL OPTICAL FINGER SYSTEM FOR PHYSIOLOGICAL MEASUREMENTS - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Questions about Wearable Optical Devices for Physiological Monitoring
- 1.11 Original Abstract Submitted
MULTISPECTRAL OPTICAL FINGER SYSTEM FOR PHYSIOLOGICAL MEASUREMENTS
Organization Name
THE TEXAS A&M UNIVERSITY SYSTEM
Inventor(s)
Kimberly Branan of College Station TX (US)
Gerard L. Cote of College Station TX (US)
Justin Mcmurray of College Station TX (US)
MULTISPECTRAL OPTICAL FINGER SYSTEM FOR PHYSIOLOGICAL MEASUREMENTS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18418887 titled 'MULTISPECTRAL OPTICAL FINGER SYSTEM FOR PHYSIOLOGICAL MEASUREMENTS
Simplified Explanation
This patent application discloses wearable optical devices that use PPG sensors to obtain dynamic and static physiological parameters from a subject. The devices can reconstruct an image of the inner appendage using diffuse optical tomography for additional information.
- Wearable optical devices with PPG sensors
- Obtain dynamic and static physiological parameters
- Reconstruct images of inner appendages using diffuse optical tomography
- Real-time data acquisition
- Accurate images of physiological parameters
Key Features and Innovation
- Wearable devices with PPG sensors for physiological monitoring
- Utilization of diffuse optical tomography for reconstructing images of inner appendages
- Real-time data acquisition for dynamic and static physiological parameters
Potential Applications
- Medical monitoring
- Fitness tracking
- Research studies on physiological parameters
- Rehabilitation monitoring
Problems Solved
- Lack of accurate and real-time physiological monitoring
- Limited information on inner appendage physiology
- Invasive methods for obtaining physiological parameters
Benefits
- Real-time monitoring of physiological parameters
- Accurate images of inner appendages
- Non-invasive method for data acquisition
Commercial Applications
Wearable Optical Devices for Physiological Monitoring: Market Implications
This technology has significant potential in the medical monitoring and fitness tracking industries. The ability to obtain accurate physiological parameters in real-time can revolutionize the way healthcare professionals and individuals monitor their health.
Questions about Wearable Optical Devices for Physiological Monitoring
How can wearable optical devices with PPG sensors improve medical monitoring?
Wearable optical devices with PPG sensors can provide real-time and accurate physiological data, allowing for better monitoring of patients' health conditions.
What are the potential applications of wearable optical devices with PPG sensors beyond medical monitoring?
Apart from medical monitoring, wearable optical devices with PPG sensors can be used in fitness tracking, research studies, and rehabilitation monitoring.
Original Abstract Submitted
Wearable optical devices, methods and systems for obtain dynamic and static physiological parameters from a subject are disclosed. Example devices can be worn around an appendage, such as a finger, and utilize PPG sensors to obtain signals from the appendage. The PPG sensors are positioned to acquire signals suitable to reconstruct an image of the inner appendage using, for example, diffuse optical tomography, to provide additional information. The devices, methods, and systems can obtain dynamic and static physiological parameters and accurate images in real-time.