CN115553721A - Intelligent beautifying method and system based on facial sub-region subcutaneous component content detection - Google Patents

Abstract

The application provides an intelligent beautifying method and an intelligent beautifying system based on facial sub-region subcutaneous component content detection, wherein the intelligent beautifying method comprises the following steps: placing a face region recognition medium on a face of a user; contacting a detection probe with a facial area identification medium to identify a current facial subcutaneous area; the subcutaneous region dividing module obtains corresponding detection parameters and sends the detection parameters to the signal processing module; the signal processing module processes the detection parameters to obtain a required detection signal; the detection signal transmitting module sends a required detection signal to the detection probe; the detection signal receiving module receives a detection feedback signal; the signal processing module converts the detection feedback signal into a facial subcutaneous component content value of the current facial subcutaneous area. The facial area identification medium is arranged, the detection probe and the subcutaneous area division module are used for dividing and identifying the face, and the targeted treatment and nursing are performed on each facial subcutaneous area from the beginning of detection and diagnosis, so that each step of measures is more accurate and effective.

Description

Intelligent beautifying method and intelligent beautifying system based on facial sub-region subcutaneous component content detection

Technical Field

The application relates to the technical field of personal skin care, in particular to an intelligent beautifying method and an intelligent beautifying system based on facial sub-region subcutaneous component content detection.

Background

The condition of a person's skin can significantly affect its appearance and reflect to some extent its health. Thus, people tend to invest a lot of time and money in skin management in the hope of obtaining healthier, better looking skin. Skin care is a fairly large industry, and awareness and arousal of skin care is the driving force behind this industry. Today, people are no longer satisfied with multifunctional products and there is an increasing need for more effective, better and more convenient tools to identify specific problems of skin condition and to select treatments or treatments specifically directed to their unique skin condition. Personalized skin diagnosis and related personalized skin care may appeal to many consumers.

In conventional skin diagnosis, a professional skin analysis apparatus is generally required to acquire skin condition information. However, in order to provide a skin condition diagnosis, a highly trained professional (typically a dermatologist or other professional) needs to operate the device and apply professional judgment to the skin analysis results presented by the device to provide a diagnosis. The practitioner can advise the patient of a skin care product or treatment based on the diagnosis.

Professional skin analysis data is useful information to help people understand their skin condition. However, obtaining professional skin analysis data can be cumbersome, often requiring multiple visits to a specialized dermatology hospital. In modern society, a busy schedule may interfere with access to doctors, thereby preventing them from easily obtaining such information. Furthermore, it is difficult for individuals to track and manage such professional analytical data.

On the other hand, the face detection products generally sold on the market are all performed with the whole face as a whole, neglecting the great difference between different areas of the facial skin, and are all performed with a unified standard in detection and treatment care. However, actually, because the feature difference of each area of the face is large, when the subcutaneous component content of the face is detected, if the whole face is executed according to the uniform detection parameters and judgment standards, it is obvious that the detection result is rough and has no significant reference value, and the subsequent operations of whole face treatment and nursing according to the detection result are not targeted, and even the skin problem of some areas of the face is aggravated.

Disclosure of Invention

In order to solve the existing technical problems, the application provides an intelligent beautifying method and an intelligent beautifying system based on the content detection of subcutaneous components in facial subareas, which can systematically provide the subcutaneous component content detection in the facial subareas of a user, diagnose according to the subarea detection results and carry out skin care/treatment according to the diagnosis result subareas.

In order to achieve the above purpose, the technical solution of the embodiment of the present application is implemented as follows:

in one aspect, the present application provides an intelligent beauty treatment method based on facial area subcutaneous component content detection, including the following steps:

placing a face region recognition medium on a face of a user;

contacting a detection probe with the facial area identification medium, and identifying a current facial subcutaneous area corresponding to the position of the detection probe;

the subcutaneous region dividing module obtains detection parameters corresponding to the current facial subcutaneous region according to the current facial subcutaneous region and sends the detection parameters to the signal processing module;

the signal processing module processes the detection parameters of the current subcutaneous area of the face to obtain a detection signal required by the current subcutaneous area of the face;

the detection signal transmitting module sends the required detection signal to the detection probe under the control of the signal processing module;

the detection signal receiving module receives a detection feedback signal of a current face subcutaneous region through the detection probe;

and the signal processing module converts the detection feedback signal into a facial subcutaneous component content value of the current facial subcutaneous area.

In one embodiment, the method further comprises the following steps:

the diagnosis module diagnoses the facial subcutaneous component content value of the current facial subcutaneous area to obtain a diagnosis result and a treatment and nursing suggestion of the current facial subcutaneous area;

and the treatment nursing module executes treatment nursing on the skin corresponding to the current facial subcutaneous area of the face of the user according to the treatment nursing suggestion.

In one embodiment, the method further comprises the following steps:

the display processing module converts the facial subcutaneous component content value into characters and/or images which can be recognized by a user;

and the detection result display module receives and displays the recognizable characters and/or images converted by the display processing module.

In another aspect, an embodiment of the present application provides an intelligent beauty system using the intelligent beauty method based on facial region subcutaneous component content detection, including:

a face region recognition medium that can be overlaid on the face of the user and has different partitions;

the detection probe is used for contacting with the facial region identification medium and identifying the subarea where the detection probe is positioned;

the subcutaneous region dividing module is used for obtaining a current facial subcutaneous region corresponding to the subarea and a detection parameter corresponding to the current facial subcutaneous region according to the subarea where the detection probe is located;

the detection signal transmitting module is used for transmitting a detection signal to the subcutaneous area of the current face of the user through the detection probe;

the detection signal receiving module is used for receiving a detection feedback signal generated by the subcutaneous region of the current face based on the detection signal through the detection probe;

the signal processing module is in signal connection with the detection signal transmitting module and the detection signal receiving module and is used for controlling the signal transmitting module to convert the detection signal transmitting module into a facial subcutaneous component content value according to the detection parameters and the detection feedback signals;

the diagnosis module is used for diagnosing according to the facial subcutaneous component content value and outputting a diagnosis result and a treatment nursing suggestion of a current facial subcutaneous region;

a skin treatment care module to perform treatment care on a current facial subcutaneous area of a user according to the treatment care recommendation.

In one embodiment, different sections of the facial region identification medium have different colors, the detection probe is provided with a color identification sensor, and the subcutaneous region division module obtains the current facial subcutaneous region and the detection parameters corresponding to the current facial subcutaneous region by comparing the color identified by the color identification sensor with the set corresponding color of each facial region.

In one embodiment, the detection signal emitted by the detection signal emitting module comprises one or more of ultrasound, infrared spectrum and electrical impedance.

In one embodiment, the facial mask further comprises a display processing module which is in signal connection with the signal processing module and is used for converting the facial subcutaneous composition content value into characters and/or images which can be recognized by a user.

In one embodiment, the detection probe, the detection signal transmitting module, the detection signal receiving module, the signal processing module and the display processing module form a facial subcutaneous component content detection device; the intelligent beauty system also comprises a detection result display module which is in signal connection with the display processing module to receive and display the characters and/or images recognizable by the user.

In one embodiment, the method further comprises the following steps:

the control module is in signal connection with the facial subcutaneous component content detection device, the diagnosis module and the skin treatment nursing module and controls the facial subcutaneous component content detection device, the diagnosis module and the skin treatment nursing module according to a user instruction; and

a carrier on which the control module, the diagnostic module, and the skin treatment and care module are mounted.

In one embodiment, the facial skin treatment and nursing system further comprises a data transmission and interaction module, wherein the data transmission and interaction module is used for wired or wireless data transmission between the facial subcutaneous composition content detection device, the diagnosis module, the skin treatment and nursing module and the control module and other mobile terminals.

The intelligent beautifying method and the intelligent beautifying system based on the facial sub-region subcutaneous component content detection have the following beneficial effects: the intelligent beautifying method and the intelligent beautifying system based on the facial sub-region subcutaneous component content detection solve the problem that detection, diagnosis and treatment nursing are carried out on the whole face in the prior art, and each step of measures are more accurate and effective by carrying out region division on the face and then carrying out targeted treatment nursing on each face region from the beginning of detection and diagnosis; the facial area identification medium, the detection probe, the subcutaneous area division module, the diagnosis module and the skin treatment nursing module control module are used for realizing the division detection of the skin of a user, the diagnosis module gives a division diagnosis result and a division treatment nursing suggestion after diagnosis, the skin treatment nursing module can carry out the treatment and nursing of the skin problem of the facial area of the user according to the division treatment nursing suggestion, so that the facial area without the problem can not be treated and nursed, and the facial area with the problem can be treated and nursed in a specific way, and each step of measures are more accurate and more effective.

Drawings

FIG. 1 is a flowchart of an intelligent beauty treatment method based on the detection of the subcutaneous component content in the facial area according to the embodiment of the present application;

FIG. 2 is a schematic structural diagram of an intelligent beauty system based on facial sub-area subcutaneous component content detection according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of the apparatus for detecting the content of subcutaneous components in the face in FIG. 2;

fig. 4 is a schematic diagram of a face region of the skin detection module in fig. 2.

The elements in the figures are numbered as follows:

a control module 10; a facial subcutaneous component content detection device 20 (wherein, a detection probe 21, a detection signal transmitting module 22, a detection signal receiving module 23, a signal processing module 24, a display processing module 25, a detection result display module 26, a detection result storage module 27, a facial region identification medium 28); a diagnostic module 30; a treatment and care module 40; a display module 50; a manipulation module 60; a storage module 70; a data transmission interaction module 80; a subcutaneous region segmentation module 90.

Detailed Description

The technical solution of the present application is further described in detail with reference to the drawings and specific embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of implementations of the present application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application. In the description of the present application, the meaning of "a plurality" is two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The application provides a face area subcutaneous component content detection-based intelligent beauty method and system integrating detection, diagnosis, nursing and treatment, so as to provide a personalized system for a user to conveniently perform skin detection, diagnosis and nursing/treatment in the home, office or selected position of the user and receive help required in skin nursing or treatment. The application discloses cosmetic method of wisdom and cosmetic system based on facial subregion subcutaneous composition content detection carries out the regional division of subcutaneous detection with whole face, again according to the different symptoms in every detection area, does the pertinence treatment nursing, can avoid using whole face to detect and the limitation of treatment nursing as a whole, more effective, more meticulous, no dead angle ground treatment facial surface skin symptom.

Referring to fig. 1, an embodiment of the present application provides an intelligent beauty method based on the detection of subcutaneous components in facial area, including the following steps:

in step S1, the face area recognition medium 28 is placed on the face of the user.

In step S2, the detection probe 21 is brought into contact with the facial region recognition medium 28, and the current subcutaneous region of the face corresponding to the detection probe 21 is recognized.

And step S3, the subcutaneous region division module 90 obtains the preset detection parameters corresponding to the current facial subcutaneous region according to the identified current facial subcutaneous region.

In step S4, the signal processing module 24 processes the detection parameters to obtain the corresponding required detection signals.

In step S5, the detection signal transmitting module 22 sends out a required detection signal to the detection probe 21 under the control of the signal processing module 24.

In step S6, the detection signal receiving module 23 receives a detection feedback signal of the current subcutaneous region of the face through the detection probe 21.

In step S7, the signal processing module 24 converts the detection feedback signal into a facial subcutaneous component content value of the current facial subcutaneous region.

In step S8, the display processing module 25 converts the facial subcutaneous component content value into characters and/or images recognizable to the user.

In step S9, the detection result display module 26 receives and displays the recognizable text and/or image converted by the display processing module 25.

In the process of detecting the content of the subcutaneous facial component, the detection feedback signal, the content of the subcutaneous facial component, and the user-recognizable text and/or image may be stored in the detection result storage module 27 in step S10.

In step S11, the diagnosis module 30 diagnoses the facial subcutaneous component content value of the current facial subcutaneous region to obtain a diagnosis result and a treatment and care suggestion.

In step S12, the treatment care module 40 performs treatment care on the skin corresponding to the subcutaneous area of the current face of the user according to the treatment care suggestion.

Specifically, after the detection mode is turned on, the signal processing module 24 transmits an instruction to the detection signal transmitting module 22; the detection signal transmitting module 22 transmits signals required for detection, such as ultrasonic, infrared spectrum, electrical impedance and other detection signals, to the detection probe 21; the detection probe 21 contacts the facial region identification medium 28 to identify the current facial subcutaneous region, and transmits a detection signal corresponding to the current facial subcutaneous region to the detection skin, and forms a detection feedback signal such as an ultrasonic echo or a resistance value on the epidermis layer of the detection skin; the detection signal receiving module 23 receives the detection feedback signal through the signal detection probe 21, and then transmits the detection feedback signal to the signal processing module 24; the signal processing module 24 obtains the content value of the subcutaneous facial components of the current subcutaneous facial area, such as the content values of subcutaneous skin such as moisture, collagen and the like, by processing and converting the detection feedback signals; the detection result of the facial subcutaneous component content value is converted into characters and images which can be identified by the user through the display processing module 25, and the characters and images are sent to the detection result display module 26 to be displayed for the user. The detection result display module 26 may be a display connected to the facial subcutaneous component content detection apparatus 20, or may be an independent device with a real function, such as a computer, a tablet computer, etc. All detected information during the detection of the subcutaneous composition of the face will be stored in the detection result storage module 27.

Referring to fig. 2 and 3, the intelligent beauty system based on facial subcutaneous component content detection according to an embodiment of the present application includes a control module 10, a facial subcutaneous component content detection device 20, a diagnosis module 30, a skin treatment and nursing module 40, a display module 50, a control module 60, a storage module 70, a data transmission interaction module 80, and a subcutaneous region division module 90, each of which bears different functions, and the modules cooperate with each other through the control module 10 to achieve the intended purposes of skin detection, diagnosis, treatment and nursing.

The control module 10 is in signal connection with the facial subcutaneous component content detection device 20, the diagnosis module 30, the skin treatment nursing module 40, the display module 50, the control module 60, the storage module 70, the data transmission interaction module 80 and the subcutaneous region division module 90. The control module 10 controls the modules of detection, diagnosis, treatment and nursing, display, interaction and the like through user instructions in the operation process of the intelligent beauty system.

The control module 10 is responsible for transmitting the acquired information to the relevant module to perform corresponding data conversion, diagnosis and treatment work, transmitting the treatment data to the relevant built-in or external treatment and care equipment to complete treatment and care, and acquiring the information of the user in the care process and updating the information to the user data model of the user in real time. The control module 10 may provide subcutaneous composition detection, treatment and care service scheduling for the user based on the user data model for the user. In terms of display and interaction, the control module 10 is responsible for converting information into characters and images recognizable to the user, and displaying the characters and images on the display module 50, and through the operation of the control module 60, the user can transmit the information displayed on the display module 50 to other mobile terminal devices such as a mobile phone, a computer, an iPad and the like.

The facial subcutaneous component content detection device 20 is in signal connection with the control module 10 and the data transmission interaction module 80, the control module 10 can control the facial subcutaneous component content detection device 20 to execute skin detection, and the data transmission interaction module 80 can transmit the detection result back to the control module 10.

Referring to fig. 3, the facial subcutaneous component content detecting device 20 includes a detecting probe 21, a detecting signal transmitting module 22, a detecting signal receiving module 23, a signal processing module 24, a display processing module 25, a detecting result display module 26, a detecting result storage module 27, and a facial area recognition medium 28.

The detection probe 21 is used for identifying the facial region identification medium 28, so that the current facial subcutaneous region corresponding to the position of the detection probe 21 is obtained and also used as a transmission medium for sending and receiving detection signals. In one embodiment, the detecting probe 21 is provided with a color recognition sensor, the facial region recognition medium 28 is provided with different color regions according to the facial regions, that is, the color on the facial region recognition medium 28 corresponding to each facial region adopts a color, and the color recognized by the color recognition sensor on the detecting probe 21 can be used to obtain the facial region corresponding to the current position of the detecting probe 21, so as to send the detected parameters corresponding to the facial region of the current position to the subcutaneous region division module 90 to the signal processing module 24.

The detection signal emitting module 22 can be used for emitting a detection signal to the skin to be detected through the detection probe 21, the detection signal emitting module 22 is controlled by the signal processing module 24, and the signal processing module 24 controls the detection signal required by the facial region of the current position emitted by the detection signal emitting module 22.

And a detection signal receiving module 23, configured to receive, through the detection probe 21, a detection feedback signal generated by the detection skin based on the detection signal.

The signal processing module 24 is connected with the signal transmitting module 22 and the signal receiving module by signals 23, and is configured to transmit the detection feedback signal to the detection signal transmitting module 22 and receive the detection feedback signal from the detection signal receiving module 23, and convert the detection feedback signal into a facial subcutaneous component content value. The signal processing module 24 is in signal connection with the subcutaneous region dividing module 90 through the data transmission interaction module 80, receives the detection parameters corresponding to the current subcutaneous region of the face from the subcutaneous region dividing module 90 and obtains the detection signal required by the current subcutaneous region of the face according to the detection parameters, so as to control the signal transmitting module 22 to transmit the required detection signal.

The display processing module 25 is connected with the signal processing module 24 for converting the facial subcutaneous composition content value into characters and/or images which can be recognized by the user.

The detection result display module 26 is in signal connection with the display processing module 25 to receive and display characters and/or images recognizable to the user.

The detection result storage module 27 is used for storing all detection data of the facial subcutaneous component content detection device 20 in the process of performing facial subcutaneous component detection.

The face region identification medium 28 is used to attach to the user's face to assist in identifying the current face region. The face region identification medium 28 has a plurality of partitions, one for each face region, each partition setting a different signal identification characteristic for identification by the detection 21. Referring to fig. 4, the facial area recognition medium 28 may be in the form of a sheet of mask having different colors according to different regions (facial areas). Correspondingly, the detecting probe 21 is provided with a color sensor, different colors of different sections of the facial region identifying medium 28 are identified in the process of detecting the content of the subcutaneous components, the identified signals are fed back to the subcutaneous region dividing module 90, and the set colors are compared, so that the purpose of identifying the current facial subcutaneous region of the face of the user corresponding to the current section is achieved. It should be noted that, the current subcutaneous facial region obtained by the color recognition is exemplary, and the recognized facial region signal may be obtained by other means to correspond to the facial region set by the subcutaneous region dividing module 90.

The facial subcutaneous component content detection device 20 can be used for detecting subcutaneous collagen, and specific detection applications include the following: and (4) ultrasonically detecting the collagen. The detection signal emitting module 22 emits ultrasonic waves, the ultrasonic waves are transmitted to the subcutaneous part of the skin to be detected through the couplant, intradermal substances with different densities reflect and absorb the ultrasonic waves to different degrees, the ultrasonic waves reflected back to the detection probe 21 through the skin are converted into electric signals, the electric signals are processed into ultrasonic images by a system, and the higher the frequency of the ultrasonic waves is, the higher the resolution ratio is, and the shallower the penetration depth is. The collagen detector device can measure the thickness of the epidermis layer and the dermis layer of the skin or the length of any subcutaneous distance respectively or comprehensively by connecting the detection probe 21, and can detect the strength of elastic substances such as collagen and the like.

The facial subcutaneous component content detection device 20 can be used for detecting subcutaneous moisture content, and specific detection applications include the following: and detecting the moisture content by using short-wave infrared spectroscopy. The moisture content of the skin can be detected by analyzing the optical property of the skin in a short wave infrared band and utilizing a short wave infrared spectrum analysis technology, and the moisture content of the skin can be quantitatively analyzed and judged by utilizing a proportion model of short wave infrared spectrum response through spectrum test analysis of different samples and comparison of different test instruments.

The diagnosis module 30 is used for outputting reasonable skin care schemes and suggestions by comparing the detection result (the subcutaneous component content value of the current subcutaneous region of the face) received from the facial subcutaneous component content detection device 20 with the reference parameters and combining the statistics, medical science, biology and other analysis of big data. Specifically, the diagnosis module 30 converts the detection result of the facial subcutaneous component content detection device 20 into a digital signal, compares the digital signal with a predetermined model or facial area big data, or obtains a difference value through a software algorithm and the like, outputs a corresponding diagnosis result through a medical method, a biological method and the like, and outputs a corresponding treatment and care suggestion according to the diagnosis result. The treatment and care advice is the main current targeted treatment and care advice for the facial problem, and is updated along with the continuous advancement of technology and the continuous deep research.

The skin treatment nursing module 40 is connected to the control module 10 and the data transmission interactive module 80, and prompts the user to start a corresponding treatment nursing device (built-in or external treatment nursing device) to perform treatment nursing after receiving the treatment nursing signal from the self-diagnosis module 30 through the control module 10 and the data transmission interactive module 80. During the treatment and nursing process, the skin treatment and nursing module 40 records the treatment and nursing result of the user and transmits the result to the control module 10 in real time, and the control module 10 updates the user data model stored in the storage module 70 according to the received nursing data. The treatment and nursing equipment comprises related equipment for effectively improving the poor components such as subcutaneous moisture, protein, hyaluronic acid and the like.

If the user does not want to take care for a while, the detection result and the diagnosis result and the corresponding facial region can be stored in the storage module 70 through the manipulation module 60 for the user to extract when needed.

The display module 50 is in signal connection with the control module 10, and is used for displaying the detection result, the diagnosis result, the treatment and nursing suggestion, the makeup suggestion and the like to the user, and meanwhile, the display module serves as a display window for interaction with the user. The display module 50, in combination with the manipulation module 60, can retrieve data of detection, diagnosis, treatment and nursing, beauty and make-up, etc. for different time periods for the user. The display module 50 may be in the form of a touch screen display together with the manipulation module 60 according to the product requirement, or may select a display screen without a touch screen function.

The control module 60 is in signal connection with the control module 10, and controls the system functions by setting control characteristics such as keys, a remote lever, a touch screen, a voice control, a face recognition and the like, so as to complete functions required by a user. The control module 60 is disposed at a place easy to reach, and can control the control module 10, the facial subcutaneous component content detection device 20, the diagnosis module 30, the skin treatment and care module 40, and the like in the smart beauty system by setting buttons, remote levers, touch screens, and the like. For example, the control module 60 is provided with a plurality of function keys or touch keys for executing different functions, and the start of the related tasks of the device is completed through the control keys. The keys on the control module 60 may be square, circular, oval or other shapes according to the appearance requirement.

The storage module 70 is used for storing all information, including the user data model established by the control module 10, the detection result data of the facial subcutaneous component content detection device 20, the diagnosis result data of the diagnosis module 30, the treatment and nursing suggestion data, the identification image and the like. Besides the existing storage device of the storage module 70, the capacity of the storage device may also be expanded, and data may also be uploaded to a cloud service for storage or downloaded to a mobile device such as a computer for storage through the internet. In addition, some useless or outdated data can be deleted from the storage module 70 through the manipulation module 60 or the display module 50, so that the utilization rate of the storage module 70 is increased.

The data transmission interaction module 80 is used for performing data transmission interaction through wired or wireless connection, and includes connection modes such as connector connection, bluetooth connection, wifi connection and the like. The connector is connected with interface forms such as Type C, USB, micro USB, network crystal head and the like, and is responsible for functions such as data transmission and interaction, network connection, power supply charging and the like between the facial subcutaneous component content detection device 20, the diagnosis module 30, the skin treatment nursing module 40, the control module 10 and other mobile terminals; the Bluetooth connection and the Wifi connection of the wireless connection are mainly responsible for data transmission and interaction between the wireless terminal and other mobile terminals. Besides transmitting the report images related to diagnosis and treatment to other mobile terminals, the data transmission interaction is also responsible for transmitting the diagnosis result and treatment and care suggestion of the diagnosis module 30 to the treatment and care equipment (such as a radio frequency instrument, a thermal magic, and the like) of the skin treatment and care module 40 to perform effective treatment and care on the user, and meanwhile, the skin treatment and care module 40 transmits the information acquired in the treatment and care process of the treatment and care equipment to the control center 10, so as to perfect or update the established user model data, and store the user model data in the storage module 70 for retrieval and viewing.

The subcutaneous region dividing module 90 is used for providing detection parameters of different facial regions according to the division of the facial regions, and the facial subcutaneous component content detection device 20, the diagnosis module 30 and the treatment and care module 40 perform corresponding detection, diagnosis and treatment and care according to the divided facial regions. The face area division may divide the face into six face areas, i.e., an a area, a B area, a C area, a D area, an E area, and an F area, according to the division as shown in fig. 4. In other embodiments, the facial region division of the subcutaneous region division module 90 may also determine to divide according to other facial regions according to the distribution of the subcutaneous component content, and the number of divisions and the division manner of the facial regions are not limited herein.

The application further comprises an energy module, wherein the energy module is mainly a battery module and provides a power supply for the whole system and related equipment. In addition, the intelligent beauty system of this application still is equipped with system upgrading module, and whether system upgrading module passes through the networking and checks to need upgrading to be updated, can provide detection, diagnosis, treatment nursing newly-built and measure for the user regularly.

The application method of the intelligent beauty system comprises the following steps: in the process of the initial detection of the user, the control module 10 will start the facial subcutaneous component content detection device 20 to establish an independent user data model for the user, and store the user data model in the storage module 70; in the later diagnosis and treatment care, the control module 10 updates the diagnosis result and the treatment care result to the user data model in real time to form a new user data model. The user can call up the past and present user data models at any time to compare, so as to treat the nursing effect. The data can be displayed on the display module 50, or can be transmitted to the mobile terminal device of the user through wifi, bluetooth or wired port of the data transmission interaction module 80.

In the above-mentioned intelligent beauty system, the control module 10, the diagnosis module 30, the treatment and nursing module, etc. are arranged with a specific carrier as the center, and the facial subcutaneous component content detection device 20 is a product that can be independent of the carrier; in other embodiments, the control module 10, the facial subcutaneous composition content detection device 20, the diagnostic module 30, the treatment care module 40, etc. may also be integrated and presented as a carrier with other personal care products (e.g., beauty instruments) or even household products (e.g., vanities).

The intelligent beautifying method and the intelligent beautifying system based on the facial sub-region subcutaneous component content detection have a subcutaneous component sub-region detection-diagnosis-treatment care mode, detect the facial skin symptoms and provide treatment care or treatment care suggestions. The control method of the intelligent beauty system of the application is executed according to the following steps in a detection-diagnosis-treatment care mode: the user transmits the requirement of detecting the content of the subcutaneous components of the skin to the control module 10 through the control module 60, and the control module 10 starts the facial subcutaneous component content detecting device 20 to detect the face of the user. At this time, the facial subcutaneous component content detection apparatus 20 prompts the user to cover the face with the face area recognition medium 28, and the detection probe 21 recognizes the signal recognition feature (such as color) on the face area recognition medium 28 and transmits to the subcutaneous area segmentation module 90. The subcutaneous region division module 90 compares the signal identification features to obtain detection parameters corresponding to the current facial subcutaneous region. The signal processing module 24 receiving the detection parameters controls the detection signal transmitting module 22 to transmit the required detection signal, and the detection signal receiving module 23 receiving the detection feedback signal transfers the detection feedback signal to the signal processing module 24 to calculate the subcutaneous component content value, and transmits the subcutaneous component content value to the diagnosis module 30 for diagnosis. The diagnosis module 30 analyzes the diagnosis result of the current subcutaneous facial region through data comparison, image comparison, big data analysis, software algorithm, medical treatment, biology and other means, and obtains the treatment and care suggestion of the corresponding facial region according to the diagnosis result of the current subcutaneous facial region. The diagnosis module 30 transmits the diagnosis result back to the control module 10, and the control module 10 builds/updates the user data model of the user's individual with the diagnosis result of the current subcutaneous facial region, and simultaneously converts the diagnosis result of the current subcutaneous facial region into text or images to be displayed to the user in the display module 50. Under the condition that the diagnosis result of the current facial subcutaneous region is normal (the diagnosis result of the current facial subcutaneous region output by the diagnosis module 30 is normal), except that the diagnosis result of the current facial subcutaneous region is displayed to a user and stored in the storage module 70, and the user is prompted to finish the detection if the detection is normal; under the condition that the diagnosis result of the current facial subcutaneous region is abnormal (the diagnosis result of the current facial subcutaneous region output by the diagnosis module 30 is abnormal), the display module 50 displays whether there is the best available internal treatment and care device in the skin treatment and care module 40 or the external treatment and care device is permanently connected thereto, the user can start the corresponding treatment and care device through the button (or touch screen) arranged on the control module 60, and meanwhile, the control module 10 transmits the partition diagnosis result data to the treatment and care device through the data transmission interaction module 80 after the treatment and care device is started up and connected, so that the user can use the treatment and care device to perform treatment and care on the corresponding facial region. The results of the user's therapeutic treatment are transmitted back to the control module 10 by the skin treatment module 40 via the data transmission interaction module 80. The control module 10 updates the treatment and care results to the user data model and stores the results in the storage module 70 for the user to retrieve and view at any time. The user can also directly store the sectional detection results, the sectional diagnosis results and the sectional treatment care suggestions in the memory module 70 through the manipulation module 60 without immediately activating the skin treatment care module 40. When the user wants to do treatment and nursing, the stored partition detection result, partition diagnosis result and partition treatment and nursing suggestion are called out through the control module 60, and then treatment and nursing can be carried out. After the user data model of the user is established, the skin treatment care module 40 can be started directly through the control module 60 to perform the partition treatment care. The user can also transmit the partition detection result, the partition diagnosis result and the partition treatment and nursing suggestion to other mobile terminal devices such as a mobile phone, a computer, an iPad and the like through the data transmission interaction module 80, and the user can search for other treatment and nursing resources through the information.

In summary, the intelligent beauty method and the intelligent beauty system based on the facial sub-region subcutaneous component content detection integrate medicine, biology, optics, software algorithm, big data analysis and the like into a whole, and establish a perfect personal care data model for each user; meanwhile, the intelligent beautifying method and the intelligent beautifying system based on the facial sub-region subcutaneous component content detection change the existing problem that diagnosis and treatment nursing are carried out by taking the whole face as a whole, facial regions are divided according to the distribution rule of the subcutaneous component content, and then targeted treatment nursing is carried out on each facial region from the beginning of diagnosis, so that each step of measures are more accurate and more effective. In addition, the intelligent beautifying method and the intelligent beautifying system based on the facial sub-region subcutaneous component content detection are presented in the form of one product, and peripheral products can be continuously expanded, so that the facial skin nursing square face is basically included, the cost and time for a user to blindly go to a relevant nursing mechanism to detect nursing and the trouble caused by the cost and time are avoided, and the driving protection and the navigation for facial skin nursing of each user are saved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a component of' 8230; \8230;" does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element.

The above description is only for the specific embodiments of the present application, but the protection scope of the present application is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present application, and shall cover the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An intelligent beauty method based on facial sub-region subcutaneous component content detection is characterized by comprising the following steps:

placing a face region recognition medium on a face of a user;

contacting a detection probe with the facial area identification medium, and identifying a current facial subcutaneous area corresponding to the position of the detection probe;

the subcutaneous region dividing module obtains detection parameters corresponding to the current facial subcutaneous region according to the current facial subcutaneous region and sends the detection parameters to the signal processing module;

the signal processing module processes the detection parameters of the current subcutaneous area of the face to obtain a detection signal required by the current subcutaneous area of the face;

the detection signal transmitting module sends the required detection signal to the detection probe under the control of the signal processing module;

the detection signal receiving module receives a detection feedback signal of a current face subcutaneous region through the detection probe;

and the signal processing module converts the detection feedback signal into a facial subcutaneous component content value of the current facial subcutaneous area.

2. The intelligent cosmetic method based on the detection of the subcutaneous content in the facial area according to claim 1, further comprising:

the diagnosis module diagnoses the facial subcutaneous component content value of the current facial subcutaneous region to obtain a diagnosis result and a treatment and nursing suggestion of the current facial subcutaneous region;

and the treatment nursing module executes treatment nursing on the skin corresponding to the current facial subcutaneous area of the face of the user according to the treatment nursing suggestion.

3. The intelligent cosmetic method based on the content detection of the subcutaneous components of the facial area according to claim 1, further comprising:

the display processing module converts the facial subcutaneous component content value into characters and/or images which can be recognized by a user;

and the detection result display module receives and displays the recognizable characters and/or images converted by the display processing module.

4. A smart beauty system using the smart beauty method based on the content detection of subcutaneous components in the facial area according to claim 1, comprising:

a face region recognition medium that can be overlaid on the face of the user and has different partitions;

the detection probe is used for contacting with the facial region identification medium and identifying the subarea where the detection probe is positioned;

the subcutaneous region dividing module is used for obtaining a current facial subcutaneous region corresponding to the partition and a detection parameter corresponding to the current facial subcutaneous region according to the partition where the detection probe is located;

the detection signal transmitting module is used for transmitting a detection signal to the subcutaneous area of the current face of the user through the detection probe;

the detection signal receiving module is used for receiving a detection feedback signal generated by the current subcutaneous area of the face based on the detection signal through the detection probe;

the signal processing module is in signal connection with the detection signal transmitting module and the detection signal receiving module and is used for controlling the signal transmitting module to convert the detection signal transmitting module into a facial subcutaneous component content value according to the detection parameters and the detection feedback signals;

the diagnosis module is used for diagnosing according to the facial subcutaneous component content value and outputting a diagnosis result and a treatment nursing suggestion of a current facial subcutaneous region;

a skin treatment care module to perform treatment care on a current facial subcutaneous area of a user according to the treatment care recommendation.

5. The intelligent beauty system based on the content detection of the subcutaneous components of the facial area as claimed in claim 4, wherein: the different sections of the facial area identification medium have different colors, the detection probe is provided with a color identification sensor, and the subcutaneous area division module is used for comparing the color identified by the color identification sensor with the corresponding color of each set facial area to obtain the current facial subcutaneous area and the detection parameters corresponding to the current facial subcutaneous area.

6. The intelligent beauty system based on the content detection of subcutaneous components in the facial area as claimed in claim 4, wherein: the detection signal emitted by the detection signal emitting module comprises one or more of ultrasound, infrared spectrum and electrical impedance.

7. The intelligent beauty system based on the content detection of subcutaneous components in the facial area as claimed in claim 7, wherein: the facial skin composition content detection device further comprises a display processing module which is in signal connection with the signal processing module and is used for converting the facial skin composition content value into characters and/or images which can be recognized by a user.

8. The intelligent beauty system based on the content detection of the subcutaneous components of the facial area as claimed in claim 7, wherein: the detection probe, the detection signal transmitting module, the detection signal receiving module, the signal processing module and the display processing module form a facial subcutaneous component content detection device; the intelligent beauty system further comprises a detection result display module, and the detection result display module is in signal connection with the display processing module to receive and display the characters and/or images recognizable by the user.

9. The system of claim 4, further comprising:

the control module is in signal connection with the facial subcutaneous component content detection device, the diagnosis module and the skin treatment nursing module and controls the facial subcutaneous component content detection device, the diagnosis module and the skin treatment nursing module according to a user instruction; and

a carrier on which the control module, the diagnostic module, and the skin treatment care module are mounted.

10. The intelligent beauty system based on facial area subcutaneous component content detection according to claim 9, wherein: the facial skin treatment and nursing system further comprises a data transmission interaction module, wherein the data transmission interaction module is used for wired or wireless data transmission among the facial subcutaneous component content detection device, the diagnosis module, the skin treatment and nursing module, the control module and other mobile terminals.

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