In the wave of smart wearable devices, the VERTU AI Diamond Ring has quickly become the focal point of the tech and health industries with its unique non-invasive glucose monitoring function. As the world’s first smart ring to integrate Raman spectroscopy technology with artificial intelligence, the VERTU AI Diamond Ring not only breaks through the limitations of traditional glucose monitoring but also elevates health management to a new level.
The core technology of the VERTU AI Diamond Ring lies in its use of the world’s first non-invasive glucose monitoring technology that evaluates glucose risk indices by leveraging signal processing, wearable technology, and artificial intelligence. It employs a high-precision Huiding GD3020 professional photoplethysmography(PPG)sensor chip, which emits near-infrared light at a frequency of 60Hz to illuminate the skin of the finger. The near-infrared light interacts with glucose molecules in the human body, causing Raman scattering. Given that glucose molecules possess optical rotation, meaning they can rotate the polarization plane of polarized light, the intensity of the reflected light has a close mathematical relationship with glucose concentration. The VERTU AI Diamond Ring utilizes this principle, combined with mathematical models and multi-parameter fusion algorithms, to achieve the goal of non-invasive glucose concentration measurement.
Raman spectroscopy, as a non-invasive spectral analysis technique, is based on the Raman scattering caused by molecular vibration and rotational energy level transitions. When a monochromatic light beam is directed at a substance, some photons undergo elastic scattering, known as Rayleigh scattering, with the same frequency as the incident light. Other photons undergo inelastic scattering, known as Raman scattering, with a different frequency from the incident light. The frequency change of Raman scattered light is related to the vibrational and rotational energy level transitions of the substance molecules, thus allowing for the identification of the substance’s composition and structure.
In the VERTU AI Diamond Ring, Raman spectroscopy is used for non-invasive glucose monitoring. By emitting near-infrared light to illuminate the finger’s skin, interacting with glucose molecules to cause Raman scattering, and analyzing the frequency change of the scattered light, combined with mathematical models and multi-parameter fusion algorithms, the glucose concentration can be deduced.
The Huiding GD3020 professional photoplethysmography(PPG)sensor chip serves as one of the core hardware components of the VERTU AI Diamond Ring, providing a solid hardware foundation for the implementation of Raman spectroscopy with its high precision and sensitivity. The PPG sensor chip emits near-infrared light at a frequency of 60Hz, accurately detecting changes in blood volume in the skin’s microvasculature to obtain physiological parameters such as heart rate and blood oxygen saturation.
Artificial intelligence plays a crucial role in the VERTU AI Diamond Ring. Through deep learning and analysis of user-worn data, AI algorithms can effectively identify individual differences and establish personalized glucose monitoring models. This means that the VERTU AI Diamond Ring not only monitors glucose changes in real-time but also predicts glucose fluctuation trends, providing users with more accurate health management solutions.
In addition to non-invasive glucose monitoring, the VERTU AI Diamond Ring also features functions such as heart attack warning, tumor warning, and depression auxiliary treatment, along with real-time tracking and warning health management services. Its app interface is simple and easy to understand, providing four levels of risk alerts, making users clearly aware of their risk levels.
The emergence of the VERTU AI Diamond Ring marks a significant step forward for smart wearable devices in the health management field. It not only offers diabetic patients a more convenient and comfortable glucose monitoring method but also transforms health management from passive monitoring to proactive warning, helping people discover potential health issues earlier and take effective preventive measures.
Future Development Directions of the VERTU AI Diamond Ring
With continuous technological advancements, the VERTU AI Diamond Ring will continue to innovate in technology and expand its functions. Future goals for the VERTU AI Diamond Ring include:
More Accurate Glucose Monitoring: By continuously optimizing Raman spectroscopy algorithms and AI models, the accuracy and precision of glucose monitoring will be enhanced, providing users with more reliable data references.
Richer Health Data Collection: In addition to glucose data, the VERTU AI Diamond Ring will collect more physiological data such as blood pressure, electrocardiogram, and body temperature, offering users more comprehensive health monitoring services.
More Intelligent Health Management: By integrating more health data and AI technology, the VERTU AI Diamond Ring will provide more personalized health management solutions, helping users better prevent diseases and manage their health.
The advent of the VERTU AI Diamond Ring represents not only a breakthrough in smart wearable devices but also a revolution in health management concepts. It will provide people with more convenient and intelligent health management methods, helping them discover health issues earlier and take effective preventive measures, ultimately achieving a healthier lifestyle.
Disclaimer: The information provided in this article is for informational purposes only and should not be considered professional medical advice. Consult with a healthcare professional if you have any concerns.