US20250380899
2025-12-18
Human necessities
A61B5/442
The patent application introduces a multi-wavelength skin analysis device designed to assess skin conditions using a combination of a camera and a multi-wavelength light source. This device captures images across various wavelengths to analyze different skin attributes such as melanin distribution, causes of dark circles, and wrinkle formation layers. The ultimate goal is to provide personalized cosmetic recommendations based on the detailed analysis of the user's skin condition.
The device operates by utilizing the unique absorption and scattering properties of skin at different wavelengths. This approach allows for a deeper understanding of skin issues beyond superficial analysis, addressing the limitations of conventional single-wavelength or white light-based methods. By examining how different wavelengths penetrate the skin, the device can distinguish between various skin conditions more effectively.
The device comprises several components: a skin condition measuring unit, a multi-purpose skin analysis information acquisition unit, and a solution providing unit. The analysis unit includes specialized sub-units for melanin distribution, dark circle causes, and wrinkle formation. By employing multiple wavelengths, the device captures and processes images to generate detailed insights about the user's skin, such as melanin distribution and wrinkle depth, enabling tailored skincare solutions.
One key advantage of this multi-wavelength approach is the ability to simultaneously gather comprehensive skin analysis data. It provides a more nuanced view of melanin distribution, identifies causes of dark circles, and differentiates between various wrinkle types. This detailed analysis allows for customized skincare recommendations, potentially improving user satisfaction and skincare outcomes.
The patent includes several illustrations depicting the device's components, methods for confirming melanin distribution, and processes for identifying the causes of dark circles and wrinkle formation. The described embodiments are not exhaustive and can be modified, ensuring flexibility in application. This adaptability underscores the potential for further innovation in skin analysis technology.