CN112107296B - Skin information detection system and detection method - Google Patents

Abstract

The invention provides a skin information detection system. The skin information detection system comprises a skin information detector, a skin information application platform and a server, wherein the skin information application platform is installed on the mobile terminal; the skin information application platform correspondingly calls a bottom layer image algorithm model in a prestored algorithm library to calculate the skin information image data and obtain an evaluation score of an image processing result; and the server calculates the skin quality of the user and formulates an improvement scheme according to the evaluation score of the image processing result, and feeds the improvement scheme back to the skin information application platform. Meanwhile, the invention also provides a detection method adopting the skin information detection system.

Description

Skin information detection system and detection method

Technical Field

The invention relates to skin detection equipment, in particular to a detection system and a detection method for skin pore and texture distribution.

Background

Pursuing that each part organ of human appearance has the aesthetic feeling is a fashion trend, and people feel that the actual condition of human face skin can transmit information such as age, aesthetic feeling, health and the like. Specifically, the human face skin information includes a pore depression degree, a pore distribution density degree, a texture distribution, and the like in different regions of the human face.

With the development of modern electronic technology, the health condition of human face can be truly reflected by adopting an optical sensing device to detect the information of human face skin.

In the prior art, various parameters of human face skin are shared by a CMOS optical sensor and ambient light. However, the skin surface information parameter value detected by the CMOS optical sensor is too large, and data transmission needs to be realized through USB or WIFI. However, USB data transmission operation is inconvenient, and the WIFI transmission mode occupies flow, so that normal use of other functions of the mobile phone is greatly influenced.

Therefore, it is urgently needed to provide a new structure of skin information detector and detection method to solve the above problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides the skin information detection system which is low in price, low in power consumption, convenient to carry and high in detection precision.

Meanwhile, the invention also provides a detection method for detecting the skin surface by adopting the skin detection system.

A skin information detector comprises a skin information detector, a skin information application platform and a server, wherein the skin information application platform is installed on a mobile terminal; the skin information application platform correspondingly calls a bottom layer image algorithm model in a prestored algorithm library to calculate the skin information image data and obtain an evaluation score of an image processing result; and the server calculates the skin quality of the user and formulates an improvement scheme according to the evaluation score of the image processing result, and feeds back the skin quality and the improvement scheme to the skin information application platform.

In a preferred embodiment of the skin information detecting system provided by the present invention, the skin information detecting apparatus and the skin information application platform transmit skin information data in a bluetooth transmission manner, and the skin information application platform and the server transmit data via a communication network.

In a preferred embodiment of the skin information detecting system provided by the present invention, the skin information detector includes an acquisition module, a control module and a transmission module, the acquisition module acquires parameter information of the skin surface of the user, and the control module receives the parameter information of the skin surface of the user acquired by the acquisition module and performs judgment, analysis and compression operations to form a compressed image processing result.

In a preferred embodiment of the skin information detecting system provided by the present invention, the collecting module includes an ultrasonic sensing unit and/or a capacitance sensing unit for respectively collecting the detailed position information, the pore parameter information, the fine line information, the image contrast, the skin surface roughness information, and the pore distribution density information to draw the skin image.

In a preferred embodiment of the skin information detection system provided by the present invention, the control module receives the skin image acquired by the acquisition module through a serial peripheral interface, and the control module analyzes and judges an image contrast, an effective area of the skin, a stability of the previous and subsequent images, and a number of effective image information blocks of the skin image to obtain a compressed image processing result.

In a preferred embodiment of the skin information detecting system provided by the present invention, the skin information detector further includes a status module, and the status module includes a color indicating unit and/or a vibration motor for displaying the operating status of the skin information detector.

In a preferred embodiment of the skin information detecting system provided in the present invention, the skin information detecting apparatus further includes a power module, which includes a charging unit and an electric power storage unit.

A skin information detection method comprises the following steps: providing a skin information detector, and acquiring the actual skin parameter value of the user to form a skin image; providing a skin information application platform, analyzing the skin image acquired by the skin information detector, and generating a user image evaluation score; and the providing server receives the user image evaluation score from the skin information application platform, generates a skin quality comprehensive evaluation report and an improvement suggestion report through big data analysis, and feeds the skin quality comprehensive evaluation report and the improvement suggestion report back to the skin information application platform.

In a preferred embodiment of the skin information detecting method provided by the present invention, the step of acquiring the actual skin parameter value of the user by the skin information detector further comprises the following steps: providing an acquisition module to acquire the skin parameter value of the user through a capacitance sensing unit and/or an ultrasonic sensing unit; providing a control module, receiving the skin parameter values from the acquisition module, and generating a skin image; at this point, the acquisition of skin image information is completed.

Compared with the prior art, the skin information detection system and method provided by the invention have the following beneficial effects:

1. the capacitance sensing unit and the ultrasonic sensing unit are arranged in the acquisition module and are combined to detect parameter values such as concave-convex information and pore distribution density information caused by specific detail position information, pore parameter information, fine line information, scars, image contrast, effective area of skin and the like on the surface of the skin of a user, so that the detection precision is improved, the data value of a detection result is reduced, and the transmission is facilitated;

2. the skin information application platform is installed on the mobile phone, a self processor of the mobile phone is used for calculating a skin image, the transmission of the evaluation score of the image processing result between the skin data of the acquisition module and the server is completed, the synchronous support server feeds back a skin quality comprehensive evaluation report and an improvement suggestion report to the skin information application platform, a user can conveniently check and browse through the mobile phone, the cost is saved, and the use is convenient;

3. the cloud server is provided, so that big data analysis becomes possible, the comprehensive skin quality evaluation report of the user and the accuracy of the suggestion report are improved, and the user can inquire conveniently at any time.

4. Set up unique state module feedback the operating condition of skin information detector to and bluetooth short distance transmission, transfer cell-phone treater to data analysis, practiced thrift the load of skin information detector, reduce the consumption of skin information detector improves it and uses for a long time.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic diagram of a skin information detection system according to the present invention;

FIG. 2 is a block flow diagram of the skin information detection system shown in FIG. 1;

FIG. 3 is a block diagram of the skin information detector shown in FIG. 1;

FIG. 4 is a schematic flow diagram of the skin information detection system of FIG. 1;

fig. 5 is a schematic flow chart of the data acquisition shown in fig. 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1 and fig. 2 in combination, wherein fig. 1 is a schematic structural diagram of a skin information detection system according to the present invention, and fig. 2 is a block flow diagram of the skin information detection system shown in fig. 1. The skin information detection system 10 includes a skin information detector 11, a skin information application platform 13, and a server 15.

The skin information of the user a is set to be detected, and in the present embodiment, a facial organ is selected as a detection target. The skin information detector 11 detects skin surface information of the user a, such as: the method comprises the steps of obtaining skin surface information of a face part of a user A, obtaining real-time skin information parameters of the face of the user A, and completing skin information data acquisition of the user A. The skin information detector 11 transmits the skin information data from the skin information detector 11 to a skin information application platform 13 in a bluetooth transmission mode. The skin information application platform 13 transmits to the server 15 through a communication network. The server 15 calculates the skin quality and the formulated improvement scheme of the user a according to the skin information data, and feeds back the skin quality and the formulated improvement scheme to the skin information application platform 13. The skin information application platform 13 presents the skin quality of the user a and formulates an improvement scheme.

Please refer to fig. 3, which is a structural diagram of the skin information detector. The skin information detector 11 is used for collecting skin surface information of a user, and comprises a power module 111, a collecting module 113, a control module 115, a transmission module 117 and a state module 119.

The power module 111 has a charging unit 1111 and an energy storage unit 1113 built therein. The charging unit 1111 receives a power signal from the outside to charge the energy storage unit 1113 to store energy. The energy storage unit 1113 correspondingly outputs electric energy to drive the acquisition module 113, the control module 115, the transmission module 117 and the state module 119 to work after being converted by the low-dropout linear regulator. The power module 111 is provided with an on/off button to operate the power module 111, thereby realizing the switching control of the working state of the skin information detector 11. In the present embodiment, the power module 11 receives a 5V dc voltage for charging.

The collecting module 113 is configured to collect parameter information of a skin surface of a user, specifically, for example, facial skin surface information. The acquisition module 113 includes a capacitance sensing unit 1131 and an ultrasonic sensing unit 1133. The capacitance sensing unit 1131 provides the energized capacitance plates, contacts the skin, senses the capacitance difference at different positions on the skin surface, and converts the capacitance difference into a capacitance difference matrix according to the different capacitance difference information, wherein each point in the capacitance difference matrix represents the degree of concavity and convexity of the region. And drawing a face skin surface image by recording each detail concave-convex degree of the detection area, wherein the image records the concave-convex structure caused by pores and scars on the face skin surface of the user.

The ultrasonic sensing unit 1133 detects the density distribution of fine lines on the skin surface by radiating ultrasonic waves to penetrate the epidermis and dermis layers covering the skin. In this embodiment, the ultrasonic sensing unit 1133 and the capacitance sensing unit 1131 are integrated to comprehensively acquire parameter values such as specific detail position information, pore parameter information, fine line information, scar, concave-convex information caused by image contrast, effective area of skin, and pore distribution density information of the skin surface of the user, and a database of the system is formed by the above information to draw a real-time skin image of the user. Of course, as a further improvement of the above embodiment, in practice, the ultrasonic sensing unit 1133 or the capacitance sensing unit 1131 may be used alternatively or simultaneously.

The control module 115 is electrically connected to the power module 111 and the collection module 113. The control module 115 receives the skin information parameter set acquired by the acquisition module 113 through a Serial Peripheral Interface (SPI) 1151, and provides the image information processing unit 1153 to judge the image according to the acquired image contrast, the skin effective area, the stability of the previous and subsequent images, and the number of image effective information blocks, and compress the judged image to form a compressed image processing result.

The transmission module 117 is specifically a bluetooth transmission module, and transmits the compressed image processing result to the skin information application platform 13 through a bluetooth protocol transmission manner. Meanwhile, the skin information application platform 13 feeds back a control command to the control module 115 through a bluetooth transmission protocol provided by the transmission module 117.

The status module 119 includes a color indication unit 1191 and a vibration motor 1193. The color indication unit 1191 correspondingly displays different indication colors according to different working states of the skin information detector 11, and when the skin information detector 11 is in a working state, the corresponding color indication unit 1191 generates green; when the skin information detector 11 is in a non-working state, the corresponding color indication unit 1191 generates red; when the skin information detector 11 is in a low power consumption operating state, the corresponding color indication unit 1191 generates yellow.

The vibration motor 1193, which is similar to the color indication unit 1191, generates vibration signals of different degrees to alert a user of the current working state of the skin information detector 11. Specifically, three different vibration intensity levels may be set to respectively indicate the current operating state of the skin information detector 11. Of course, the color indication unit 1191 and the vibration motor 1193 of the status module 119 are not limited to the above embodiments, and they may be used alternatively or simultaneously. The colors are not limited to the above three colors, and may be other colors. The vibration motor 1193 may be represented by the vibration frequency, the vibration sound level, or the like, without being limited to the intensity of the vibration, and in general, it is known to those skilled in the art that the skin information detector 11 may be represented by different vibration and color modes to indicate the working state thereof, and all the modifications and improvements of the above modes fall within the protection scope of the present invention.

Referring to fig. 1 and fig. 2 again, the skin information application platform 13 is an application installed at a mobile phone, one end of which receives the image processing result from the control module 115 through the transmission module 117, and correspondingly invokes a mobile terminal (e.g., a mobile phone) processor and a bottom image algorithm model in a pre-stored algorithm library to calculate the image processing result, so as to obtain an evaluation score of the image processing result. Wherein the evaluation score of each image processing result corresponds to an actual parameter value of the image processing result.

The server 15 receives the image processing result evaluation score from the skin information application platform 13, and generates a corresponding skin quality comprehensive evaluation report and an improvement suggestion report through big data analysis. The skin quality comprehensive evaluation report represents the actual skin quantification result of the user. The improvement suggestion is an improvement suggestion provided to the user to improve the user's skin quality and health index.

Referring to fig. 4, a flow chart of the skin information detecting system shown in fig. 1 is shown. When the skin information detection system 10 performs skin detection work on the user a, it includes the following steps:

step S01, providing a skin information detector 11, collecting the actual skin parameter value of the user, and forming a skin image;

step S02, providing a skin information application platform 13, analyzing the skin image acquired by the skin information detector 11, and generating a user image evaluation score;

step S03, the providing server 15 receives the user image evaluation score from the skin information application platform 13, generates a skin quality comprehensive evaluation report and an improvement suggestion report through big data analysis, and feeds back the skin quality comprehensive evaluation report and the improvement suggestion report to the skin information application platform 13.

In the skin detection process, as for step S01, the method specifically includes the following steps:

step S11, providing an acquisition module 113, acquiring a skin parameter value of the user through the capacitance sensing unit 1131 and/or the ultrasonic sensing unit 1133;

step S12, providing a control module 115, receiving the skin parameter value from the collecting module, and generating a skin image.

At this point, the acquisition of skin image information is completed.

Compared with the prior art, in the skin information detection system 10 provided by the invention, the capacitance sensing unit 1131 and the ultrasonic sensing unit 1133 are arranged in the acquisition module 113, and are used in combination to detect parameter values such as concave-convex information and pore distribution density information caused by specific detail position information, pore parameter information, fine line information, scars, image contrast, effective skin area and the like on the skin surface of a user, so that the detection accuracy is improved, the data value of the detection result is reduced, and the transmission is facilitated.

Further, the skin information application platform 13 is installed in the mobile phone, the skin image is calculated by using a processor of the mobile phone, the transmission of the evaluation score of the image processing result between the skin data of the acquisition module 113 and the server 15 is completed, and the synchronous support server 15 feeds back the skin quality comprehensive evaluation report and the improvement suggestion report to the skin information application platform, so that a user can conveniently check and browse through the mobile phone, the cost is saved, and the use is convenient.

Moreover, the cloud server 15 is provided, so that big data analysis becomes possible, the skin quality comprehensive evaluation report of the user and the accuracy of the suggestion report are improved, and the user can conveniently inquire at any time.

Finally, a unique state module 119 is arranged to feed back the working state of the skin information detector 11 and perform Bluetooth short-distance transmission, a mobile phone processor is used for analyzing data, the load of the skin information detector 11 is saved, the power consumption of the skin information detector 11 is reduced, and the service life of the skin information detector is prolonged.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. A skin information detection system, comprising:

the skin information detector is used for detecting skin surface information data of a user and acquiring skin information image data of the user;

the skin information application platform is arranged on the mobile terminal, and correspondingly calls a mobile terminal processor and a bottom layer image algorithm model in a prestored algorithm library to calculate the skin information image data and obtain an evaluation score of an image processing result; and

the server calculates the skin quality of the user and formulates an improvement scheme according to the evaluation score of the image processing result, and feeds the improvement scheme back to the skin information application platform;

the skin information detector comprises an acquisition module, a control module and a transmission module, wherein the acquisition module acquires parameter information of the skin surface of a user, and the control module receives the parameter information of the skin surface of the user acquired by the acquisition module, analyzes and judges the image contrast, the effective area of the skin, the stability of front and back images and the number of effective information blocks of the images of the skin image, and obtains a compressed image processing result;

the acquisition module comprises an ultrasonic sensing unit and a capacitance sensing unit and is used for acquiring detail position information, pore parameter information, fine line information, image contrast, skin surface concave-convex information and pore distribution density information to draw a skin image;

the capacitance sensing unit provides electrified capacitance plates, contacts the skin, senses capacitance difference values of different positions on the surface of the skin, and converts the capacitance difference values into a capacitance difference value matrix according to different capacitance difference value information, wherein each point in the capacitance difference value matrix represents the concave-convex degree of different positions on the surface of the skin, a skin surface image is drawn by recording the concave-convex degree of a detection area, and the skin surface image records a concave-convex structure caused by pores and scars on the surface of the skin of a user.

2. The skin information detection system of claim 1, wherein the skin information detector and the skin information application platform transmit skin information data in a bluetooth transmission manner, and the skin information application platform and the server transmit through a communication network.

3. The system of claim 1, wherein the skin information detector further comprises a status module, wherein the status module comprises a color indication unit and/or a vibration motor to display the operating status of the skin information detector.

4. The skin information detection system of claim 1, wherein the skin information detector further comprises a power module including a charging unit and an electrical storage unit.

5. A skin information detection method applied to the skin information detection system of any one of claims 1 to 4, the skin information detection method comprising the steps of:

providing a skin information detector, collecting actual skin parameter values of the user to form a skin image, wherein the actual skin parameter values comprise detail position information, pore parameter information, fine line information, image contrast, skin surface concave-convex information and pore distribution density information;

providing a skin information application platform, analyzing the skin image acquired by the skin information detector, and generating a user image evaluation score;

the providing server receives the user image evaluation score from the skin information application platform, generates a skin quality comprehensive evaluation report and an improvement suggestion report through big data analysis, and feeds the skin quality comprehensive evaluation report and the improvement suggestion report back to the skin information application platform;

the acquiring actual skin parameter values of the user, and the forming a skin image comprises:

sensing a capacitance difference at different locations of the user's skin surface;

converting the different capacitance difference information into a capacitance difference matrix, wherein each point in the capacitance difference matrix represents the concave-convex degree of different positions of the skin surface of the user;

and (3) drawing a skin image by recording the concave-convex degree of each detail of the detection area, wherein the skin image records the concave-convex structure caused by pores and scars on the skin surface of the user.

6. The method of claim 5, wherein the skin information detector collecting the actual skin parameter value of the user further comprises the steps of:

providing an acquisition module to acquire the skin parameter value of the user through a capacitance sensing unit and an ultrasonic sensing unit;

providing a control module, receiving the skin parameter values from the acquisition module, and generating a skin image;

at this point, the acquisition of skin image information is completed.

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