CN116720904A - Information processing device, information processing method, and program - Google Patents
Information processing device, information processing method, and program Download PDFInfo
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- CN116720904A CN116720904A CN202310209772.5A CN202310209772A CN116720904A CN 116720904 A CN116720904 A CN 116720904A CN 202310209772 A CN202310209772 A CN 202310209772A CN 116720904 A CN116720904 A CN 116720904A
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Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06Q30/0631—Item recommendations
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q30/00—Commerce
- G06Q30/06—Buying, selling or leasing transactions
- G06Q30/0601—Electronic shopping [e-shopping]
- G06Q30/0641—Shopping interfaces
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Abstract
The invention provides an information processing device, an information processing method and a program, which can control a skin processing device in a control mode suitable for an object. An information processing apparatus comprising: a receiving unit that receives rights information indicating a right of use of control information generated in correspondence with an object that can be given to the skin of a person; and an effectiveness processing unit that sets the skin processing device that processes the skin of the user to a state that can be controlled based on the control information when the receiving unit receives the authority information.
Description
Technical Field
The present disclosure relates to an information processing apparatus, an information processing method, and a program.
Background
There is known a technique for facilitating the acquisition of information on the ingredients of a cosmetic to be used, and enabling the selection of a cosmetic and the preparation of a cosmetic formulation according to the user's requirements.
Prior art literature
Patent document 1: japanese patent laid-open No. 2001-357140
Disclosure of Invention
However, in the above-described conventional techniques, various components contained in cosmetics and the like cannot be used as an object, and the skin treatment device cannot be controlled in a control system suitable for the object.
Accordingly, an object of the present disclosure is to control a skin treatment device in a control manner suitable for an object.
In an aspect 1, an information processing apparatus is disclosed, comprising: a receiving unit that receives rights information indicating a right of use of control information generated in correspondence with an object that can be given to the skin of a person; and an validation processing unit that sets a skin processing device that processes the skin of the user to a state that can be controlled based on the control information when the receiving unit receives the authority information.
According to the present disclosure, the skin treatment device can be controlled in a control manner suitable for the subject.
Drawings
Fig. 1 is a diagram showing an outline of the configuration of an information processing system according to the present embodiment.
Fig. 2 is a block diagram showing a hardware configuration of the information processing apparatus.
Fig. 3 is a view showing an external appearance of an example of the beauty treatment apparatus.
Fig. 4 is a schematic configuration diagram of a control system provided in an example of the beauty treatment apparatus.
Fig. 5 is an explanatory diagram illustrating an example of data stored in the storage unit of the information processing apparatus according to the present embodiment, that is, data associated with control information.
Fig. 6 is an explanatory diagram of the repetition information of fig. 5.
Fig. 7 is a block diagram showing an example of functions of an information processing apparatus of an information processing system.
Fig. 8 is an explanatory diagram of data in the object database.
Fig. 9 is an explanatory diagram of data (dedicated control information) in the control information database.
Fig. 10 is a diagram showing an example of an output waveform of one output mode.
Fig. 11 is a diagram showing an example of output waveforms of other output modes.
Fig. 12 is a diagram showing an example of an output waveform of another output mode.
Fig. 13 is a diagram showing an example of an output waveform of another output mode.
Fig. 14 is a diagram showing an example of an output waveform of another output mode.
Fig. 15 is a table diagram showing an example of control information for each specific object.
Fig. 16 is an explanatory diagram of data in the user information database.
Fig. 17 is a timing chart schematically showing an example of the operation of the information processing system.
Fig. 18 is a timing chart schematically showing another example of the operation of the information processing system.
Fig. 19 is a timing chart schematically showing another example of operation of the information processing system.
Fig. 20 is an explanatory view of a screen (1) on the user terminal that can be displayed in association with the operation example shown in fig. 19.
Fig. 21 is an explanatory view of a screen (2) on the user terminal that can be displayed in association with the operation example shown in fig. 19.
Fig. 22 is an explanatory view of a screen (3) on the user terminal that can be displayed in association with the operation example shown in fig. 19.
Fig. 23 is an explanatory view of a screen (4) on the user terminal that can be displayed in association with the operation example shown in fig. 19.
Fig. 24 is a timing chart schematically showing another example of operation of the information processing system.
Fig. 25 is an explanatory view of a screen (1) on the user terminal that can be displayed in association with the operation example shown in fig. 24.
Fig. 26 is an explanatory view of a screen (2) on the user terminal that can be displayed in association with the operation example shown in fig. 24.
Fig. 27 is an explanatory view of a screen (3) on the user terminal that can be displayed in association with the operation example shown in fig. 24.
Fig. 28 is a timing chart schematically showing another example of operation of the information processing system.
Description of the reference numerals
1 information processing system
2 user terminal
3 information processing apparatus
4 beauty treatment equipment
4a action part
4b handle portion
4c operating button
5 cosmetic sales server
6 beauty treatment instrument sales server
30 communication bus
31 communication unit
32 storage part
33 control part
40 electrode
100 control system
110 control device
120 drive circuit part
130 output waveform generating section
135 transformer
140 switching circuit section
150 power supply
200 circuit part
300 object database
302 control information database
305 user information database
310 rights information receiving part (receiving part)
312 effective treatment unit
3121 first processing section
3122 second processing section
314 a first corresponding processing section
316 second corresponding processing section
318 privilege determination unit (determination unit)
320 skin information acquisition unit
322 presents the processing section.
Detailed Description
Hereinafter, this embodiment will be described with reference to the drawings. The various features shown in the embodiments shown below can be combined with each other.
The program for realizing the software appearing in the present embodiment may be provided as a Non-transitory recording Medium (Non-Transitory Computer-Readable Medium) Readable by a computer, may be provided so as to be downloadable from an external server, or may be provided so as to be started in an external computer and to realize its function (so-called cloud computing) in a client terminal.
In the present embodiment, the "part" may include, for example, a configuration in which hardware resources implemented by a generalized circuit are combined with information processing of software that can be realized by these hardware resources. In the present embodiment, various pieces of information are handled, but these pieces of information are represented by, for example, a physical value representing a signal value of a voltage/current, a level of a signal value as a 2-ary bit aggregate composed of 0 or 1, or superposition of quanta (so-called qubits), and communication/operation can be performed on a broad-sense circuit.
The broad Circuit is a Circuit implemented by appropriately combining at least a Circuit (Circuit), a Circuit class (Circuit), a Processor (Processor), a Memory (Memory), and the like. I.e., including application specific integrated circuits (Application Specific Integrated Circuit: ASIC), programmable logic devices (e.g., simple programmable logic devices (Simple Programmable Logic Device: SPLD), complex programmable logic devices (Complex Programmable Logic Device: CPLD), and field programmable gate arrays (Field Programmable Gate Array: FPGA)), etc.
In this specification, the term "corresponding" includes not only direct correspondence but also indirect correspondence. For example, the state of the element B corresponding to the element a includes not only the state of the element B corresponding to the element a but also the state of the element C corresponding to the element a and the element B corresponding to the element C.
Fig. 1 is a diagram showing an outline of the configuration of an information processing system 1 according to the present embodiment.
The information processing system 1 includes a user terminal 2, an information processing device 3, and a cosmetic instrument 4, and is configured to be capable of communication via an electrical communication line. In other words, the information processing device 3 is configured to be able to communicate with the user terminal 2 and the beauty treatment equipment 4 via a network. Here, the system exemplified by the information processing system 1 refers to a system composed of 1 or more devices or constituent elements. Fig. 1 shows a cosmetic sales server 5 and a beauty treatment instrument sales server 6 connected to a network. The cosmetic product sales server 5 and the beauty treatment instrument sales server 6 will be described later.
The user terminal 2 includes a communication unit, a storage unit, a control unit, a display unit, an input unit, and an imaging unit, and these components are electrically connected to each other via a communication bus inside the user terminal 2. The description of the communication unit, the storage unit, and the control unit is substantially the same as the communication unit 31, the storage unit 32, and the control unit 33 in the information processing apparatus 3, and therefore omitted.
The display unit may be included in the housing of the user terminal 2, for example, or may be externally provided. The display unit displays a screen of a graphical user interface (Graphical User Interface: GUI) that can be operated by a user. Such a display section is preferably implemented using a display device such as a CRT display, a liquid crystal display, an organic EL display, or a plasma display, separately according to the type of the user terminal 2. Here, the display unit is included in the housing of the user terminal 2.
The input part may be included in the housing of the user terminal 2 or may be external. For example, the input unit may be implemented as a touch panel integrally with the display unit. In the case of a touch panel, the user can input a click operation, a slide operation, or the like. Of course, a switch button, a mouse, a QWERTY keyboard, or the like may be employed instead of the touch panel. That is, the input unit accepts an operation input by the user. The input is transmitted as a command signal to the control unit via the communication bus, and the control unit can execute predetermined control and calculation as needed.
The imaging unit is a so-called vision sensor (camera) configured to be able to capture information from the outside. The imaging unit is configured to generate image data by imaging an imaging target. The imaging unit is connected to a communication unit 31 in the information processing apparatus 3 described later via a network, and is configured to be able to transfer the imaged image data to the information processing apparatus 3.
The functions of the user terminal 2 described below can be realized by a control unit (not shown) provided in the user terminal 2 executing 1 or more programs stored in a storage unit (not shown) or the like provided in the user terminal 2. In the present embodiment, as an example, it is assumed that the present invention is realized by a dedicated application (hereinafter, also referred to as "dedicated application"). In addition, the dedicated application may be a local application or a WEB application.
Fig. 2 is a block diagram showing a hardware configuration of the information processing apparatus 3. The information processing apparatus 3 may be in the form of a server computer, for example. The information processing apparatus 3 may be realized by a plurality of server computers.
The information processing apparatus 3 includes a communication unit 31, a storage unit 32, and a control unit 33, and these components are electrically connected to each other via a communication bus 30 inside the information processing apparatus 3.
The communication unit 31 is preferably a wired communication unit such as USB, IEEE1394, thunderbolt (registered trademark), or wired LAN network communication, but may include wireless LAN network communication, mobile communication such as 3G/LTE/5G, or Bluetooth (registered trademark) communication, as necessary. That is, the communication unit 31 is more preferably implemented as a set of these plural communication units. That is, the information processing device 3 communicates various information with the user terminal 2 and the beauty treatment equipment 4 via the communication unit 31 through the network.
The storage unit 32 may be formed of any storage medium, and stores various information defined by the above description. The storage unit 32 is implemented, for example, as a storage device such as a solid state drive (Solid State Drive: SSD) that stores various programs and the like related to the information processing apparatus 3 executed by the control unit 33, or as a memory such as a random access memory (Random Access Memory: RAM) that stores information (arguments, arrangements and the like) temporarily required for calculation of the programs. The storage unit 32 may be a combination of these. In particular, the storage unit 32 stores various programs and the like related to the information processing apparatus 3 executed by the control unit 33. The storage unit 32 is not required to be incorporated in the information processing apparatus 3, and may be provided outside the information processing apparatus 3. In this case, the storage unit 32 may be realized by a storage device accessible by the information processing apparatus 3 via a network.
The control unit 33 performs processing and control of the overall operation associated with the information processing apparatus 3. The control unit 33 is, for example, a central processing unit (Central Processing Unit: CPU), not shown. The control unit 33 reads a predetermined program stored in the storage unit 32 to realize various functions of the information processing apparatus 3. That is, the various functions of the information processing apparatus 3 are realized by the control unit 33, which is an example of hardware, specifically realizing information processing based on software stored in the storage unit 32. The control unit 33 is not limited to a single control unit, and may be implemented to have a plurality of control units 33 for each function. The control unit 33 may be a combination of a plurality of control units.
Fig. 3 is a view showing an external appearance of an example of the beauty treatment device 4. The beauty treatment instrument 4 includes an operation portion 4a and a handle portion 4b.
The beauty apparatus 4 includes an operation portion 4a and a handle portion 4b serving as a support for the operation portion. The operating portion 4a is configured to contact and operate with the skin of the user, and is provided at one end portion in the longitudinal direction of the handle portion 4b. The skin contacted by the operation portion 4a includes, for example, the skin of the upper body. Here, the upper body includes at least one of a face periphery, a neck periphery, and a chest periphery. Namely, the skin of the upper half of the body above the lower neck opening. For example, face, chin, neck, collarbone portion, chest, head, etc. The present invention is not limited to the above-described parts, and may include the back neck, abdomen, back, waist, arms, and the lower body such as buttocks and feet.
A plurality of electrodes may be provided in the operation portion 4 a. In this case, various output waveforms can be applied to the skin via any one or a predetermined 1 or more counter electrodes among the plurality of electrodes. In the example shown in fig. 3, the plurality of electrodes 40 are arranged on an arc, as an example. The arrangement and number of the electrodes 40 are arbitrary, and may be any structure in which at least 2 or more electrodes are arranged. In particular processing such as ion introduction, a hand-held electrode (not shown) that can be disposed in the handle portion 4b may be used.
The handle portion 4b is a rod-shaped portion grasped by the user. The handle portion 4b may be provided with an operation button 4c that is operated by a user when the operation of the cosmetic device 4 is started or ended or when the operation mode is changed.
(control System)
Fig. 4 is a schematic configuration diagram of a control system 100 included in the beauty treatment apparatus 4.
In the example shown in fig. 4, the control system 100 includes a control device 110 and a circuit section 112, and the circuit section 112 includes a drive circuit section 120, an output waveform generation section 130, and a switching circuit section 140.
The control device 110 includes a computer, which may be formed of a microcomputer, for example. The control device 110 may operate based on the electric power from the power supply 150.
The control device 110 controls the driving circuit unit 120, the output waveform generating unit 130, and the switching circuit unit 140 so as to generate output waveforms corresponding to the control information from the plurality of electrodes 40 based on the control information.
The control information is arbitrary information representing the output waveform of the output via the plurality of electrodes 40. The control information is arbitrary information used by the control device 110 to output a desired output waveform via the plurality of electrodes 40, and may include information used at an arbitrary stage. For example, the control information may be control signals CT1 and CT2 described later, signals themselves from the drive circuit unit 120 to the output waveform generation unit 130, or various kinds of information for generating these signals. An example of the control information will be described later.
In the example shown in fig. 4, the driving circuit section 120 generates various output waveforms via the plurality of electrodes 40. In fig. 4, waveforms of a part of the control signals CT1, CT2 are schematically shown. In this case, the control signals CT1 and CT2 may be supplied to the driving circuit unit 120 via different control lines L1 and L2, respectively. The frequencies (duty ratios) of the control signals CT1 and CT2 can be determined based on control information (the value of the second parameter) described later.
The driving circuit section 120 includes a driver that drives a plurality of switching elements Tr described later. The driving circuit section 120 generates driving signals for turning on/off the switching elements Tr of the output waveform generating section 130 based on the control signals CT1, CT2 from the control device 110, respectively, and supplies the generated driving signals to the corresponding switching elements Tr.
The output waveform generating unit 130 generates output waveforms based on the power supplies 150 as dc power supplies, respectively. The output waveform generation section 130 includes a pair of switching elements Tr and a transformer 135.
The pair of switching elements Tr are, for example, switching elements such as transistors, and one is connected to the terminal Ta of the transformer 135 and the other is connected to the terminal Tb of the transformer 135. The transformer 135 is connected to a power supply 150 at a terminal Tc related to the center tap. The transformer 135 is a frequency specification suitable for a predetermined frequency. For example, when the induced voltage E of the transformer 135 is set to beIn the above case, the frequency f may be set to be substantially equal to the predetermined frequency. In addition, in this case, the base station, n is the number of turns, < >>Is a magnetic flux. The transformer 135 may be adapted to a predetermined frequency based on a setting (adjustment) of changing a setting multiplier of a peripheral circuit, a material of a ferrite core (an internal component of the transformer 135), an adhesion, or the like. The predetermined frequency is preferably a frequency corresponding to a high frequency. In the present specification, unless otherwise specified, high frequency means a frequency band greater than 10kHz, and low frequency means a frequency band of 10kHz or less.
The switching circuit unit 140 controls the pairs of electrodes for generating the output waveforms in the plurality of electrodes 40 by switching the connection destinations of the output terminals Td, te of the output waveform generating unit 130 (i.e., the output terminals of the transformer 135) in the plurality of electrodes 40. In this case, the switching circuit unit 140 may control the pair of electrodes for generating the output waveform to change based on control information described later.
The control system 100 shown in fig. 4 is merely an example, and may be appropriately changed according to the type of control information to be used (including 2 or more cases). For example, in the switching circuit section 140, the connection destination of the output terminals Td, te of the output waveform generating section 130 (i.e., the output terminal of the transformer 135) may include other electrodes (not shown), and in this case, the pair of electrodes for generating the output waveform may be switched by time division. Alternatively, 2 or more driving circuit units 120 and output waveform generation units 130 may be provided. In addition, in the case where the configuration of switching the pair of electrodes is not required, the switching circuit section 140 may be omitted. The PWM signal may be directly applied to the driving circuit unit 120 (not via the control device 110) by an oscillator.
Next, control information will be described with reference to fig. 5 and subsequent drawings.
Fig. 5 is an explanatory diagram of control information. The control information is information used for controlling the beauty treatment device 4, and if the control information is different, the operation (control method) of the beauty treatment device 4 is also different.
In the present embodiment, the control information includes normal control information and specially generated control information (hereinafter, also referred to as "dedicated control information"), as an example. The dedicated control information is control information generated in association with the specific object, and the normal control information is control information not associated with the specific object. Since normal control information does not correspond to a specific object, the effect on the specific object tends to be easily reduced, although the control information has versatility, compared with the dedicated control information described later, which is generated in correspondence with the specific object. Hereinafter, when the dedicated control information and the normal control information are not particularly distinguished, they will be simply referred to as "control information".
In the example shown in fig. 5, control information is specified for each control information ID. The control information ID is an identifier assigned to each of the various control information. Further, one unit of control information may be each control information ID. Specifically, as shown in fig. 5, the control information ID may be associated with various information indicating the control method. In the example shown in fig. 5, the control information data 510 includes upper data 511 and lower data 512. The division method of the upper data 511 and the lower data 512 is for convenience of description, and in practice, the same data may be managed in substantially the same other manner. For example, the upper data 511 and the lower data 512 may be integrated.
The upper data 511 associates pattern configuration information, an execution time ratio, a reference execution time, and repetition information for each control information ID.
The pattern configuration information is information indicating the order in which the plurality of output patterns are executed. In the present embodiment, the mode configuration information corresponding to one control information ID includes 2 or more output modes, but in a modification, there may be control information IDs corresponding to mode configuration information including only 1 output mode.
For example, in the example shown in fig. 5, the mode configuration information associated with the control information ID "001" indicates that the output mode M3, the output mode M4, and the output mode M2, which will be described later, are sequentially executed.
The execution time ratio indicates a ratio of execution times of the respective output modes indicated by the mode configuration information with respect to each other. Here, the ratio of the execution times of the other output modes in the case where the execution time of the output mode to be executed first is set to the reference value "1" is specified. In other embodiments, the information of the execution time itself may be used instead of the ratio of the execution times of the respective output modes.
For example, in the example shown in fig. 5, the execution time ratio corresponding to the control information ID "001" indicates that when the execution time of the output mode M3 to be described later is set to the reference value "1", the execution time of the output mode M4 is the same "1", and the execution time of the output mode M2 is "1.2".
The reference execution time indicates the execution time to which the reference value relates. For example, in the example shown in fig. 5, the execution time is 20 milliseconds, in which case the execution time of the output mode M3 is 20 milliseconds, the execution time of the output mode M4 is the same 20 milliseconds, and the execution time of the output mode M2 is 24 milliseconds.
The repetition information indicates whether or not each output pattern indicated by the pattern configuration information is repeatedly (periodically) executed. Here, as an example, "1" means repeated execution, and "0" means non-repeated execution. In the case of repeating the operation, the number of repetitions and the manner of repetition (for example, the presence or absence of an interval, the length of an interval, and the like) may be defined.
For example, in the example shown in fig. 5, the repetition information corresponding to the control information ID "001" is "1", and therefore, as shown in fig. 6, the output mode M3, the output mode M4, and the output mode M2 are sequentially and repeatedly executed a plurality of times.
In the lower data 512, control parameters for outputting the output waveform related to the corresponding output mode are associated for each output mode. The control parameters are arbitrary, but in the present embodiment, as an example, a first parameter indicating whether the output waveform is an ac waveform or a dc waveform, a second parameter related to frequency, and a third parameter related to amplitude (intensity) are included. Here, as an example, in the value of the first parameter, "1" indicates an ac waveform, "0" indicates a dc waveform and has a positive polarity, and "2" indicates a dc waveform and has a negative polarity. Further, when the output waveform is a direct current waveform, the value of the second parameter may represent the generation frequency of the pulse wave. In the case of a configuration in which the intensity of the output can be adjusted by the user, the value of the third parameter may function as a default value. The third parameter may be a parameter associated with a voltage indicating the output level or a duty cycle.
For example, in the example shown in fig. 5, the value of the first parameter of the output pattern M1 is "1", which indicates that the output waveform is an ac waveform. The value of the second parameter in the output pattern M1 is "α1 (actually, a specific value)", which indicates that the frequency of the ac waveform is α1 hz. The value of the third parameter in the output pattern M1 is "β1 (actually, a specific value)", and indicates that the amplitude of the ac waveform is β 1[V ".
Thus, according to the present embodiment, the correspondence between each object and the control information is established. Accordingly, control information that can generate an output waveform suitable for the characteristics of the object for each object can be associated. The control information corresponding to each object defines the output of the output waveform in the output mode of 2 or more (the output via the pair of electrodes 40 of the cosmetic device 4). That is, the control information is a process continuously performed in time series in the cosmetic instrument 4, and indicates a process (2 or more predetermined processes) based on the output waveforms having different characteristics. This allows a process suitable for each object to be performed in detail.
Fig. 7 is a block diagram showing an example of the functions of the information processing apparatus 3 of the information processing system 1. Fig. 8 is an explanatory diagram of data in the object database 300. Fig. 9 is an explanatory diagram of data (dedicated control information) in the control information database 302.
As shown in fig. 7, the information processing apparatus 3 includes an object database 300, a control information database 302, and a user information database 305. Each of the databases from the object database 300 to the user information database 305 can be realized by the storage unit 32 shown in fig. 2.
The object database 300 stores data related to objects associated with control information. In the example shown in fig. 8, the data in the object database 300 includes object data D301 managed for each substance ID for the object of the substance unit and cosmetic data D302 managed for each cosmetic ID for the object of the cosmetic unit. The substance name of the object data D301 and the cosmetic name of the cosmetic data D302 may include a formal name, an abbreviation, an alias, a chemical symbol, and the like. The entire component list of the cosmetic data D302 may be based on information provided by the cosmetic manufacturer, information displayed in the package of cosmetics, etc., analysis results, etc. In the example shown in fig. 8, the cosmetic data D302 does not include a component number, a property, a molecular weight, and the like. In this case, the property may be set based on at least any one of (1) a property related to the solubility of the object with respect to the solvent, (2) a property related to the charging, and (3) a molecular weight or a property of the molecular weight, for example.
For example, the term (1) may include a property related to the solubility (synonymous with the indissolvable property) of the corresponding object in a specific solvent (e.g., water or oil) (e.g., a property such as water solubility or fat solubility, or a property such as water solubility or fat solubility (oil solubility) at a temperature at which the external skin preparation is used and pH (Potential Hydrogen, potential oxygen) of the solution, or amphipathy). In addition, the charge number (2) may be 2, 1, 0, -1, or positive or negative of charge in place of or in addition to the charge number, or may have a characteristic of no charge distinction (no dissociation or amphoteric electrolyte), for example. In addition, characteristics related to the dissociation form in the aqueous solution and the strength of the acid or base may be included. The molecular weight (3) may be a molecular weight itself or may include information indicating a distinction (attribute) such as a low molecular weight or a high molecular weight.
The object is a substance that can be applied to the skin of a person, and typically, various effects such as a cosmetic effect can be expected. The object may be, for example, various components contained in cosmetics or the like. Alternatively, the subject may be various components contained in the external preparation for skin. The purpose of use of the substance carrier such as the pharmaceutical product or quasi-pharmaceutical product of the external skin preparation is arbitrary. The target substance may contain a substance that is effective for promoting percutaneous absorption of a drug that is metabolized by the liver in the quasi-drug and that cannot sufficiently exert its effective efficacy. The purpose of the external preparation to be further transdermally absorbed is not limited, and the purpose of transdermally absorbing external preparations represented by analgesic, antiinflammatory, whitening, moisturizer, anti-wrinkle, anti-inflammatory, antibacterial, and antiviral agents is arbitrary.
The control information database 302 may store normal control information that is not associated with a specific object. Hereinafter, the output waveform generated based on the normal control information is also referred to as a "normal waveform". The control information for generating the normal waveform is basically arbitrary control information that can be always used by the user, and may be stored in the user terminal 2 or the beauty treatment device 4 as a default setting.
The control information database 302 stores dedicated control information associated with a specific object. The dedicated control information is different from the normal control information in that it is associated with a specific object, and at least a part of the values of the respective parameters of the control information data 510 described with reference to fig. 5 are different.
Fig. 9 shows an example of the dedicated control information in table 2300. In the example shown in fig. 9, the control information ID corresponds to each specific substance ID or cosmetic ID. Dedicated control information may be generated in association with a combination of 2 or more objects. As shown in fig. 5, the control information corresponding to one control information ID includes the corresponding pattern configuration information and the like, and can be matched based on various tests, findings, and the like. In this case, control information in which influence of a combination of a plurality of objects and the like is taken into consideration can be prepared.
In addition, the control information database 302 may store dedicated control information (hereinafter, also referred to as "dedicated control information for skin state reflection" when distinguishing) corresponding to a combination of skin information and object information. In this case, even if the skin information is the same, if the object information is different, the skin state reflection type dedicated control information may be different. Fig. 9 shows an example of skin state-reflecting dedicated control information in table 2301. In this case, the control information ID is associated with each combination of the skin state ID and the substance ID or the cosmetic ID. The skin state ID may be associated with the whole face. As shown in fig. 5, the control information corresponding to one control information ID includes the corresponding pattern configuration information and the like, and can be matched based on various tests, findings, and the like. In this case, control information can be prepared taking into consideration not only the skin state but also the nature of the cosmetic product. As a result, processing based on control information suitable for both the skin state and the cosmetic (object) can be realized.
In addition, control information (hereinafter, also referred to as "care site reflection type dedicated control information" when distinguishing) that is also considered to be given to a target site (for example, a site of a face) of a target object may be stored in the control information database 302. Each target portion includes a plurality of portions of the face, specifically, 7 portions including the forehead, the outer corners of the eyes, the nose, the pouch, the french (to be precise, the portion where the french is formed), the face line (cheek), and the chin (chin). In the modification, part of the 7 sites may be omitted, other target sites may be added, and classification with a coarser or finer granularity may be used. In addition, the outer corners of the eyes, the eye bags, the lines of the stature, and the face lines (cheeks) may be treated as different parts on the left and right sides, and in this case, the face is classified into 11 parts in total. In this case, each time the target portion contacted by the cosmetic device 4 changes, an output waveform suitable for each portion can be applied to the skin.
Hereinafter, the output waveform generated based on the above-described dedicated control information, dedicated control information reflecting skin state, and dedicated control information reflecting care site is also simply referred to as "dedicated waveform" unless it is separately distinguished.
The dedicated control information in the control information database 302 is generated by a researcher, a developer, or the like on the operator side (for example, the operator side that performs development of the beauty treatment equipment 4) based on various tests, findings, or the like, but may be automatically generated by the validation processing unit 312 (the first processing unit 3121) as will be described later.
Here, examples of various output waveforms that can be dedicated waveforms and dedicated control information will be described with reference to fig. 10 to 15.
Fig. 10 is a diagram showing an example of an output waveform of the output pattern M1. Fig. 10 shows an output waveform (time-series waveform) of the output pattern M1 when the horizontal axis represents time and the vertical axis represents a voltage value. In fig. 10, Δt1 represents one cycle of the output waveform, and is determined based on the value (=α1) of the second parameter.
The output waveform of the output mode M1 is an alternating current waveform and has a plurality of peak voltage values between half periods (Δt/2). In this case, the plurality of peak voltage values includes a first peak voltage value Vp1 and 1 or more second peak voltage values Vp2.
The first peak voltage value Vp1 is the peak voltage value that occurs initially for a half cycle, and the second peak voltage value Vp2 occurs after the first peak voltage value Vp1 and is smaller in magnitude than the first peak voltage value Vp 1. As shown in fig. 10, the second peak voltage value Vp2 may be generated in a plurality of gradually smaller ways. Preferably, the second peak voltage value Vp2 is less than half the magnitude of the first peak voltage value Vp 1.
The output waveform shown in fig. 10 can be formed by intentionally setting the value (=α1) of the second parameter to be lower than the predetermined frequency.
Fig. 11 is a diagram showing an example of an output waveform of the output pattern M2. Fig. 11 shows an output waveform (time-series waveform) of the output pattern M2 when the horizontal axis represents time and the vertical axis represents a voltage value. In fig. 11, Δt2 represents one cycle of the output waveform, and is determined based on the value (=α2) of the second parameter.
In the output mode M2, a continuous waveform that varies periodically at least 2 times or more is generated within one duration. In the present embodiment, the output waveform of the output mode M2 is a pulse-like dc waveform. Such an output waveform has positive polarity, and therefore can repel positive ions. Therefore, the output pattern M2 is suitable for a positively charged object (an object whose charge is positive). Further, another output mode in which the value of the first parameter is "2" may be a waveform in which the polarity is inverted as shown in fig. 12. Such an output pattern is suitable for a negatively charged object (an object whose charge is negative).
The frequency of the output waveform of the output pattern M2 (the value β2 of the second parameter) is determined to generate at least 2 or more pulse-like dc waveforms within one duration.
The output waveform of the output pattern M2 may be composed of a plurality of pulse-shaped dc waveforms having the same amplitude, but the output waveforms of the other output patterns may include specific pulses having an amplitude (voltage value) significantly larger than 1 or more of the other pulses. For example, an example of output waveforms of other output modes including only 1 specific pulse PL2 for one duration is shown in fig. 13. The specific pulse has a function of generating a transient pore (electroporation) in the skin by pulse stimulation, and thus improving the penetration effect of a charged object (an object whose charge is positive or negative) into the skin. In this case, the specific pulse may be different in amplitude and frequency from the pulse other than the specific pulse (hereinafter, referred to as "pulse for needleless beauty (mesocorporation) for distinction) in the output waveform of the output pattern M2. Accordingly, the control information related to the output pattern including the pulse for needleless cosmetic use may include values of the second parameter and the third parameter related to the specific pulse. For example, for a needleless cosmetic pulse, the value (=α2) of the second parameter may be set between 1.5kHz and 10kHz, and the value of the third parameter may be set to a peak voltage value of less than 10V. On the other hand, the value of the second parameter may be set to be 2Hz to 10Hz for a specific pulse, and the value of the third parameter may be set to be 10V or more for the peak voltage value. In addition, the polarity of the specific pulse may be the same as the polarity of the needleless cosmetic pulse.
However, in order to improve the function of the pulse for needleless beauty, it is useful to apply the pulse for needleless beauty immediately after applying a specific pulse having a function of generating a transient hole in the skin by pulse stimulation, the pulse for needleless beauty having an effect of pressing an active ingredient (object) into a deep layer portion by applying a high voltage (needleless beauty). This is because there is a tendency for the transient pores to become plugged immediately.
Therefore, the output waveform shown in fig. 13 generates a pulse for needleless beauty immediately after applying a specific pulse, and is therefore suitable for an object in which the pulse for needleless beauty is hardly pushed into the deep portion of the skin only by the output pattern M2.
Fig. 14 is a diagram showing an example of an output waveform of the output pattern M3. Fig. 14 shows an output waveform (time-series waveform) of the output pattern M3 when the horizontal axis represents time and the vertical axis represents a voltage value. In fig. 14, Δt3 represents one cycle of the output waveform, and is determined based on the value (=α3) of the second parameter.
Here, the output waveform shown in fig. 14 can be formed by making the value (=α3) of the second parameter related to the output pattern M3 substantially coincide with the above-described predetermined frequency. For example, when the predetermined frequency is around 900kHz, setting the value (=α3) of the second parameter to around 900kHz can realize an ac waveform close to a sine wave, and can improve the heating effect. Therefore, in this case, the output mode M3 is suitable for an object whose effect (effect related to the object) is enhanced by the warming of the skin. In addition, in this case, the value (=α1) of the second parameter related to the output pattern M1 may be set between 10kHz and 500 kHz.
In this way, the output waveforms of the plurality of output modes can be continuously applied to the skin in a plurality of combinations. Therefore, it is possible to make a correspondence with an optimal one of a plurality of combinations of a plurality of output waveforms (output modes) for each object.
In this case, for example, the optimum combination of the respective objects may be found based on experiments, experience, or the like. In this case, various characteristics, properties, and the like of the object can be set based on at least any one of (1) a property related to the solubility of the object to the solvent, (2) a property related to charging, and (3) a molecular weight or a molecular weight attribute, for example.
For example, the term (1) may include a property related to the solubility (synonymous with the indissolvable property) of the corresponding object in a specific solvent (e.g., water or oil) (e.g., a property such as water solubility or fat solubility, or a property such as water solubility or fat solubility (oil solubility) at a temperature at which the external skin preparation is used and pH (Potential Hydrogen, potential oxygen) of the solution, or amphipathy). The charge number (2) may be, for example, 2, 1, 0, or-1, or may include positive and negative charges in place of the charge number or in addition to the charge number, and may have the characteristic of no charge distinction (no dissociation or amphoteric electrolyte). In addition, characteristics related to the dissociation form in the aqueous solution and the strength of the acid or base may be included. The molecular weight (3) may be a molecular weight itself or may include information indicating a distinction (attribute) such as a low molecular weight or a high molecular weight.
For example, the value (i.e., "0" or "2") of the polarity of the first parameter may be set in consideration of the characteristics of the one object with respect to the charging. In this case, a negative dc waveform (i.e., a value "2" of the first parameter) may be set for the positively charged object. In addition, a positive dc waveform (i.e., a value of "0" of the first parameter) may be set for the negatively charged object. The values of the second parameter and the third parameter may be set based on at least one of a property related to the solubility of the object in the solvent and a molecular weight or a molecular weight attribute. For example, the value of the second parameter may be set to 30kHz to 70kHz for a polymer object. In this case, as an output waveform effective for permeation, an output waveform with large muscle contraction is easily realized. In addition, the value of the second parameter may be set to be between 70kHz and 200kHz for a low-molecular object. In this case, as an output waveform effective for permeation, an output waveform having a small muscle contraction and a combined effect with a temperature sensation (temperature sensation based on a heating effect) is easily realized.
More specifically, for example, control information may be generated (set) in the manner shown in fig. 15. Fig. 15 shows control information corresponding to 6 components (objects) such as nicotinamide, tranexamic acid, vitamin C derivative, collagen, hyaluronic acid, and retinol, as an example. In fig. 15, a table 1200 on the upper side shows various characteristics of 6 objects and a part of control information (a part of data corresponding to the upper data 511 shown in fig. 5). For example, nicotinamide corresponds to pattern composition information "m10+m20+m30". The pattern configuration information "m10+m20+m30" indicates that the pattern configuration information is executed in the order of the output pattern M10, the output pattern M20, and the output pattern M30 (or other orders are possible), and the same is true for the other. A part of the control information (a part of the data corresponding to the lower data 512 shown in fig. 5) is shown in a table 1202 on the lower side of fig. 15.
In the example shown in fig. 15, even if the output modes M20, M21, and M30 are identical ac waveforms, it is possible to expect mutually different effects by making the frequencies different. For example, as described above, the output pattern M21 can expect a relatively high permeation effect due to relatively large muscle contraction, and can expect a combined effect with a temperature sensation (temperature sensation based on a warming effect) although the muscle contraction is small. Further, as shown by the value of the second parameter, the output pattern M30 has a relatively high frequency of the output waveform, and a high heating effect can be expected.
User data associated with each user is stored in the user information database 305. The user data in the user information database 305 includes user data related to each user. Fig. 16 is an explanatory diagram of data in the user information database 305. As shown in fig. 16, as the user information, the user data in the user information database 305 includes, for example, point information, used cosmetic information, and used beauty instrument information in addition to the user ID and basic information such as the birth date, sex, and the like of the user.
The user ID is an inherent identifier that determines the user. In order to make one user ID correspond to one user substantially in one-to-one relationship, the user ID is used appropriately without distinguishing the user ID from the user. For example, the specific information is associated with the user ID and the specific information is associated with the user related to the user ID, and similarly, the specific information is associated with the user and the specific information is associated with the user ID related to the user.
The point information is information related to points that can be utilized by a dedicated application. The point information may contain the number of points (held points) that the corresponding user is currently able to utilize. The point that can be used in the dedicated application may be in the form of any electronic medium, and may be, for example, in-service currency, an authentication Token (e.g., non-homogeneous Token (NFT)), or the like. In addition, the points that can be used in the dedicated application may be the same as the points that can be used in other services (e.g., mobile phone service) or the like, or may be coordinated.
The used cosmetic information indicates cosmetic information used by the corresponding user. The cosmetic information of the user who uses a plurality of cosmetics may represent the plurality of cosmetics. The cosmetic information may be expressed by the above-mentioned cosmetic ID.
The beauty treatment instrument information used is information related to the beauty treatment instrument 4 used by the corresponding user. For example, the used beauty treatment instrument information may contain basic information such as the type of the beauty treatment instrument 4.
Further, as shown in fig. 16, the user data in the user information database 305 includes privilege information, skin information, and used control information ID.
The privilege information indicates various information for determining whether various privilege conditions of the user are established. The various privilege conditions are conditions that should be satisfied in order to use the above-described application-specific waveforms. The privilege condition may be arbitrarily set by the operation side, and may be, for example, a member subscribed to, a specific member (e.g., a higher-level member) of various collaboration services, or the like. The privilege conditions may include conditions based on the frequency of use of the cosmetic device 4, and the like. In the example shown in fig. 16, the privilege information includes the states (on/off states) of various privilege flags, user states, and the like. The various privilege flags may be flags related to first specific information and second specific information described later. The user state may be state information such as a higher member.
The skin information indicates the detection (analysis) result of the skin state of the user. For example, the skin state of the user may be determined based on the facial image of the user, or may be set based on user input from the user.
The information of the control information ID used is information indicating that 1 or more control information IDs are associated with the corresponding user. As described above, the control information ID is an identifier given to each of the various control information. In the default setting, the information of the control information ID used indicates the control information ID related to the normal control information described above. In addition, for a user who uses a plurality of cosmetics, information indicating 1 or more control information IDs may be stored for each cosmetic.
The information processing apparatus 3 further includes a right information receiving unit 310, an activation processing unit 312, a first correspondence processing unit 314, a second correspondence processing unit 316, a privilege determination unit 318, a skin information acquisition unit 320, and a presentation processing unit 322. Each of the authority information receiving unit 310 to the presentation processing unit 322 can be realized by the control unit 33 shown in fig. 2.
The authority information receiving unit 310 receives authority information indicating the use authority of the dedicated control information. The authority information may be information such as a 2-dimensional barcode which can be acquired when purchasing cosmetics and/or beauty treatment equipment 4 and which is not associated with a specific user ID. Alternatively, the authority information may be information indicating the utilization authority that can be acquired via the dedicated application. In this case, the rights information may be information indicating the usage rights that can be acquired through subscription contract, charge, or the like.
For example, when an object purchase input (an example of the first predetermined input) for purchasing a specific object is generated in correspondence with the user, the authority information receiving section 310 may receive information indicating the generation of the object purchase input as the authority information. In addition, when an instrument purchase input (an example of the second predetermined input) for purchasing the beauty instrument 4 is generated in correspondence with the user, the authority information receiving unit 310 may receive information indicating the generation of the instrument purchase input as the authority information. In addition, when a regular purchase input (an example of a third predetermined input) from the user for specifying the subscription contract (regular purchase contract) is generated in association with the user, the authority information receiving unit 310 may receive information indicating the generation of the regular purchase input as the authority information. In addition, when a medium consumption input (an example of a fourth predetermined input) from the user for specifying the consumption of the predetermined electronic medium is generated in response to the user, the authority information receiving unit 310 may receive information indicating the generation of the medium consumption input as the authority information. The consumption of the predetermined electronic medium includes a predetermined amount of consumption of the electronic medium described above. The term "predetermined amount of electronic medium consumed by the user" means a decrease (release of correspondence) in the predetermined amount of electronic medium corresponding to the user.
When the authority information is received by the authority information receiving unit 310, the validation processing unit 312 sets the beauty treatment device 4 to a state that can be controlled based on the dedicated control information. When the beauty apparatus 4 is in a state where control is possible based on the dedicated control information, the beauty apparatus 4 can output a dedicated waveform based on the dedicated control information when operating. Hereinafter, the case where the validation processing unit 312 can output the dedicated waveform to the specific cosmetic device 4 is also referred to as "dedicated waveform assignment", and the specific cosmetic device 4 (or the user corresponding to the specific cosmetic device 4) is also referred to as the targeted cosmetic device 4 or the user (user ID). The dedicated control information for generating such a dedicated waveform that can be output via the cosmetic instrument 4 to be applied is also referred to as "dedicated control information to be applied".
In addition, if the cosmetic device 4 is set in a state that can be controlled based on the dedicated control information by the validation processing unit 312, the state can be maintained until a predetermined end condition is satisfied. The predetermined end condition may be different according to the kind of authority information. For example, in the case of authority information related to regular purchase input, when the regular purchase contract ends, a predetermined end condition may be established.
The type, number, etc. of the dedicated control information to be given to the object may be different depending on the type of the authority information. For example, in the case of rights information related to regular purchase input, the upper limit number of dedicated control information given to the object may be set per month. Further, the upper limit number of the dedicated control information given to the object may be set to infinity (i.e., there is no upper limit) according to the kind of subscription contract. In the case of the authority information related to the purchase input of the object, the dedicated control information given to the object may be only dedicated control information corresponding to the specific object purchased. In the case of the authority information related to the medium consumption input, the dedicated control information to be given to the object may be only dedicated control information corresponding to a specific object that can be designated at the time of the medium consumption input. In the case of authority information readable from a 2-dimensional bar code acquired when purchasing cosmetics, the specific control information to be given to the object may be only the specific control information corresponding to the purchased cosmetics (specific object).
The validation processing section 312 includes a first processing section 3121 and a second processing section 3122.
The first processing unit 3121 generates or acquires dedicated control information to be given. For example, the first processing unit 3121 may acquire dedicated control information to be given from the control information database 302.
The first processing unit 3121 may newly generate dedicated control information to be given to a new object that is not stored in the object database 300. In this case, the first processing unit 3121 may update the data in the control information database 302 by assigning a new control information ID related to the generated dedicated control information to be assigned and adding the new dedicated control information.
For example, the first processing unit 3121 can output (generate) dedicated control information to be given by using artificial intelligence. In the case of artificial intelligence, this can be achieved by installing convolutional neural networks derived from machine learning. In machine learning, for example, actual performance data on each component of various objects is used, and the weight of the convolutional neural network with the smallest learning error is used.
The first processing unit 3121 may extract 1 or more target components from among the plurality of components contained in the cosmetic, and generate or acquire dedicated control information suitable for the extracted 1 or more target components. At this time, the first processing unit 3121 may identify a plurality of components included in the cosmetic, and extract 1 or more target components from the plurality of components in a predetermined order of priority. In this case, the predetermined priority order may be based on priority information corresponding to each component in advance, or sales information of cosmetics (e.g., official sales information in a poster, commercial advertisement, or the like) of a seller, manufacturer, or the like of the cosmetics. The priority information associated with each component in advance may be set in advance in consideration of the blending ratio, the effectiveness, and the like of each component. In addition, in the case of sales information based on cosmetics, a relatively high priority may be assigned to a component emphasized or sold in a promotion or the like of the cosmetics (that is, a component estimated by a sales company for the cosmetics).
Alternatively, the first processing unit 3121 may select 1 or more target components from among the plurality of components included in the cosmetic based on a selection input from the user, and generate or acquire dedicated control information suitable for the selected 1 or more target components. In this case, first, the first processing unit 3121 may present a plurality of components in the predetermined order of priority and accept a selection input from the user.
The second processing unit 3122 executes transmission processing of dedicated control information in accordance with a request for giving a dedicated waveform from a user having a use right. In the transmission process of the dedicated control information, the second processing unit 3122 transmits a control instruction based on the dedicated control information to be given, the dedicated control information itself to be given, or information capable of specifying the dedicated control information to be given, to the user terminal 2 to which the user has associated, based on the dedicated control information to be given generated or acquired by the first processing unit 3121. In this case, the user terminal 2 can control the cosmetic instrument 4 based on the received dedicated control information (i.e., can output a dedicated waveform). In the modification, the second processing unit 3122 may transmit a control instruction based on the dedicated control information to be provided to the subject, the dedicated control information itself to be provided to the subject, or information capable of specifying the dedicated control information to be provided to the subject to the beauty apparatus 4 associated with the user. In the following, the transmission of control instructions based on the dedicated control information to be given, the dedicated control information itself to be given, or information capable of specifying the dedicated control information to be given will be collectively referred to as "transmission of dedicated control information to be given, etc.
Further, the second processing unit 3122 may immediately execute the transmission process of the dedicated control information based on the attribute of the authority information when the authority information receiving unit 310 receives the authority information. For example, when the permission information input based on the object purchase input or the medium consumption input is received, the second processing unit 3122 may immediately execute the transmission process of the dedicated control information. In this case, the request for giving the dedicated waveform from the user having the utilization right may be the right information itself.
In the present embodiment, when the authority information receiving unit 310 receives the authority information, the second processing unit 3122 may determine a user having the utilization authority (or a user ID, hereinafter the same), that is, a user to be given, based on the received authority information. In addition, in a case where the authority information such as the authority information read from the 2-dimensional barcode acquired when the cosmetic product and/or the beauty treatment instrument 4 is purchased does not include the user ID or the like, the second processing unit 3122 may identify the user as the object to be given based on the user input from the user later.
The first correspondence processing unit 314 associates the first specific information with the corresponding user ID based on the regular purchase input (input for determining the subscription contract) from the user. The user related to the user ID associated with the first specific information can acquire the use right to use the dedicated waveform. In this case, the usage right may be a unified right for a plurality of dedicated waveforms or may be a single right. The first specific information is arbitrary, but may be, for example, a flag that is turned on (on) during the period when the subscription contract is valid.
The second correspondence processing unit 316 associates the second specific information with the corresponding user ID based on the determination result indicating that the privilege condition is satisfied by the privilege determination unit 318. The privilege conditions are described later with reference to the privilege determination section 318. The user related to the user ID associated with the second specific information can acquire the use right to use the dedicated waveform. In this case, the usage right may be a unified right for a plurality of dedicated waveforms or may be a single right. The second specific information is arbitrary, but may be, for example, a flag that is turned on (on) while maintaining a determination result indicating that the privilege condition is satisfied.
The privilege determination section 318 determines whether or not the user satisfies a privilege condition. The privilege conditions may be arbitrary as described with reference to fig. 16. The privilege condition may also vary according to the application-specific control information given to the object.
The skin information acquisition unit 320 generates or acquires skin information on the skin state of each user. For example, the skin information acquisition unit 320 may generate or acquire skin information based on information from the user. For example, the skin information acquisition unit 320 may generate skin information about the user based on sensor information from a touch sensor or a non-touch sensor for the skin of the user. The touch sensor may be a sensor for measuring a resistance value and a moisture content of skin. In this case, the touch sensor may be provided in the operation unit 4a of the beauty treatment device 4. The noncontact sensor may be an image sensor (camera) or the like. In this case, the skin information acquisition unit 320 generates skin information about the user based on the face image about the user. When the skin information is generated, the skin information acquisition unit 320 may update the data in the user information database 305. For example, the skin information obtaining unit 320 may include a skin diagnosis engine, or may generate skin information (diagnosis or analysis result) by the skin diagnosis engine. The skin diagnosis engine may be constructed by machine learning using artificial intelligence or the like. In the case of artificial intelligence, this can be achieved by installing convolutional neural networks derived from machine learning. In machine learning, for example, the weight of a convolutional neural network or the like, in which errors (for example, errors with respect to expert diagnosis results) relating to skin information are minimized, can be learned using actual performance data relating to face images relating to a plurality of users. In this case, the skin information about the user may be generated in a manner that does not take into consideration the time-series variation of the skin information about the user (i.e., a manner of using the face image at the current point in time). Part or all of the functions of the skin information acquisition unit 320 may be realized by the user terminal 2 and/or the cosmetic device 4.
The presentation processing unit 322 generates presentation screen information for presenting the recommended object information to the user based on the skin information of the user. The presentation processing unit 322 is described later with reference to fig. 19 to 23.
Next, an operation example of the information processing system 1 of the present embodiment will be described with reference to fig. 17 and subsequent drawings.
Fig. 17 is a timing chart schematically showing an example of the operation of the information processing system 1. In the subsequent timing charts, the processing order of each step may be changed as long as the relationship between the input and the output of each step is not impaired.
In the operation example shown in fig. 17, the user purchases a specific cosmetic, for example, and transmits the authority information obtained by reading the 2-dimensional bar code attached to the specific cosmetic to the information processing device 3 (step S1700). Further, the 2-dimensional bar code may be capable of accessing a specific site (site provided by the information processing apparatus 3) via a URL (Uniform Resource Locator: uniform resource locator). In this case, the specific site of the access destination may be a site for acquiring a specific waveform related to a specific cosmetic.
In this case, the information processing apparatus 3 acquires the user ID to be given based on the user input at the specific site (step S1702). In addition, in the case where the user as the purchaser is a non-member, the user ID may be given by performing member registration at a specific site. However, in the modification, the process may proceed to step S1704 without setting the user ID. Next, the information processing device 3 generates and acquires the dedicated control information of the object to be provided (step S1704), and transmits the dedicated control information of the object to be provided to the user terminal 2 or the beauty treatment device 4 related to the user of the object to be provided (step S1706). In this case, the user terminal 2 or the cosmetic device 4 of the user to whom the subject is to be provided receives the dedicated control information (step S1708), and stores the received dedicated control information (step S1710). Then, for example, according to an instruction from the user, the user terminal 2 or the cosmetic instrument 4 can start control based on the dedicated control information (step S1712). For example, the cosmetic device 4 that has operated based on the normal control information has previously shifted to a state in which it can operate based on the dedicated control information.
The example shown in fig. 17 is an operation example in the case where the user purchased a specific cosmetic, but the operation example in the case where the user purchased the cosmetic instrument 4 may be substantially the same. In this case, the dedicated control information to be given to the object may be selectable by the user.
Fig. 18 is a timing chart schematically showing another example of the operation of the information processing system 1.
In the operation example shown in fig. 18, the user purchases a specific cosmetic on, for example, a WEB site operated by the cosmetic sales server 5 (step S1800), the cosmetic sales server 5 performs a cosmetic settlement process corresponding to the purchase (step S1802), and transmits the authority information to the information processing apparatus 3 (step S1804). Further, in this case, the cosmetic sales server 5 may transmit the authority information to the information processing device 3 together with the user ID of the user making the purchase and the cosmetic information capable of determining the purchased cosmetics. The cosmetic information may also include component information related to various components contained in the purchased cosmetic.
In this case, the information processing apparatus 3 determines the user ID given to the subject (or the beauty treatment device 4 given to the subject) based on the received authority information (step S1806). Next, the information processing device 3 generates and acquires the dedicated control information to be given based on the received cosmetic information (step S1808), and transmits the dedicated control information to be given to the user terminal 2 or the beauty treatment device 4 related to the user to be given (step S1810). Thereafter, as in the example shown in fig. 17, the user terminal 2 or the cosmetic device 4 of the user to which the subject is to be assigned receives the dedicated control information (step S1708), and stores the received dedicated control information (step S1710). Then, for example, according to an instruction from the user, the user terminal 2 or the cosmetic instrument 4 can start control based on the dedicated control information (step S1712).
Fig. 19 is a timing chart schematically showing another example of the operation of the information processing system 1. Fig. 20 to 23 are explanatory views of screens on the user terminal 2 that can be displayed in association with the operation example shown in fig. 19.
In the operation example shown in fig. 19, the user terminal 2 may have a function of inputting questionnaire information concerning skin trouble or the like as one function of a dedicated application. In this case, the user terminal 2 generates the questionnaire answer information based on the user input, and transmits it to the cosmetics sales server 5 (step S1900). The cosmetic sales server 5 extracts cosmetics recommended to the user based on the questionnaire answer information, and prompts the user (step S1902). For example, as shown in fig. 20, when the trouble of the user based on the questionnaire answer information is "wrinkles, looseness", the cosmetic sales server 5 extracts and presents the cosmetics containing components such as retinol and nicotinamide as "youth care components" of the care class. Fig. 21 shows an example of a screen display (screen display of the user terminal 2) for presenting several recommended cosmetics. The screen display for presentation may be generated based on the presentation screen information of the presentation processing unit 322. In this case, the user can purchase a desired cosmetic water from the essence A, B, C and the like in the category of cosmetic water. For example, when detecting a purchase operation (for example, an operation of the purchase button B21) related to the essence B based on a user input, the user terminal 2 transmits purchase information to the cosmetics sales server 5 (step S1904). Thereafter, the operation is the same as that from step S1802 in fig. 18. When the user terminal 2 detects a purchase operation related to the essence B, the user terminal 2 may display a registration screen as shown in fig. 22. The registration screen may include a user interface for allowing the user to input whether or not essence B is included in the object information. The registration screen may include a user interface for allowing the user to input whether or not to acquire the dedicated control information corresponding to the essence B. For example, when the user operates the registration button B22, the information processing apparatus 3 may update the data in the user information database 305.
In addition, when the user terminal 2 transmits the dedicated control information received from the information processing apparatus 3 to the cosmetic device 4, for example, a screen display (screen display of the user terminal 2) as shown in fig. 23 may be realized. Thus, the user can easily grasp that registration related to the newly purchased cosmetics is completed. When the user presses the transmission start button B23, it is possible to easily grasp that an output waveform (labeled as "dedicated waveform" in fig. 23) based on dedicated control information suitable for the essence B purchased at this time will be generated from the cosmetic device 4 in the future. In this way, the user can get his/her hands with cosmetics and dedicated waveforms (dedicated control information) that match his/her own trouble through a series of operations.
In the operation example shown in fig. 20, the recommended cosmetics are presented based on the questionnaire answer information, but the recommended cosmetics may be presented based on the result of the questionnaire instead of or in addition to this.
Fig. 24 is a timing chart schematically showing another example of the operation of the information processing system 1. Fig. 25 to 27 are explanatory views of screens on the user terminal 2 that can be displayed in association with the operation example shown in fig. 24.
Fig. 24 is different from fig. 18 in that the processing of step S2400 to step S2408 is added. The operation example shown in fig. 24 can also be implemented in combination with the operation example shown in fig. 19.
In the operation example shown in fig. 24, the user requests component analysis after purchasing the cosmetic (step S2400). After purchasing the cosmetics, the user terminal 2 may output a component analysis request screen as shown in fig. 25. In this case, when the user operates the analysis button B25, the information processing apparatus 3 determines (analyzes) various components included in the cosmetics purchased by the user at this time, and sets a priority order for the various components (step S2402). In addition, the various components may be determined (analyzed) based on cosmetic information that can be provided from the cosmetic sales server 5.
Next, the information processing apparatus 3 generates selection screen information for the user to select a component for a dedicated waveform while presenting a component having a high priority from the various components obtained in step S2402, and transmits the generated selection screen information to the user terminal 2 (step S2404).
The user terminal 2 outputs a component selection screen for the dedicated waveform based on the received selection screen information (step S2406). Fig. 26 and 27 each show an example of a component selection screen for dedicated waveforms. In the example shown in FIG. 26, 3 components of "ascorbic acid", "tocopherol" and "3-O-ethyl ascorbic acid" are suggested as candidates. On the other hand, in the example shown in fig. 27, 3 components of "ascorbic acid", "tocopherol" and "good" are suggested as candidates. At this time, in the example shown in FIG. 27, "good" extract "is outputted as a candidate instead of" 3-O-ethyl ascorbic acid "in the example shown in FIG. 26. For example, the "extract" may be an "estimated component" by a seller of the cosmetic or the like. The component selection screen shown in fig. 26 and 27 includes a waveform generation button B26 as a user interface for a user to make a request for giving a dedicated waveform. In this case, when there is no problem in the dedicated control information based on the 3 components currently presented, the user can send a request for giving a dedicated waveform to the information processing apparatus 3 by operating the waveform generation button B26. In addition, when the user wants to change some or all of the 3 components currently presented, the user can change the target component by clicking or the like.
Then, the user terminal 2 transmits a selection result (labeled as "component selection result" in fig. 24) based on the object component input from the user to the information processing apparatus 3 together with the application-specific waveform application request (step S2408). The information processing device 3 determines the user ID of the object (or the beauty treatment instrument 4 of the object) based on the received selection result of the object component (step S2410), generates and acquires the dedicated control information of the object corresponding to the selected various object components based on the received selection result of the object component (step S2412), and transmits the dedicated control information of the object to the user terminal 2 or the beauty treatment instrument 4 of the user of the object (step S1810). Thereafter, as in the example shown in fig. 17, the user terminal 2 or the cosmetic device 4 of the user to which the subject is to be assigned receives the dedicated control information (step S1708), and stores the received dedicated control information (step S1710). Then, for example, according to an instruction from the user, the user terminal 2 or the cosmetic instrument 4 can start control based on the dedicated control information (step S1712).
According to the operation example shown in fig. 24, the user can obtain the dedicated control information corresponding to the desired 1 or more components among the various components contained in the purchased cosmetics. Therefore, for example, when the user purchases the cosmetic product with the a component and the B component as targets, the possibility of obtaining the dedicated control information corresponding to the C component included in the cosmetic product can be eliminated. Such inconvenience is likely to occur, for example, when component C is a representative component of the cosmetic.
However, in general, 1 cosmetic contains a large amount of ingredients, and it is complicated for the user to select a desired ingredient from all of these ingredients. In addition, there may be users who do not know what components are selected as the dedicated waveforms without much knowledge of the various components. In this regard, according to the operation example shown in fig. 24, since a plurality of components are presented in advance in order of priority, the user can easily select the components, and convenience is improved. In addition, the special control information corresponding to the preference of the user can be obtained, and even the same cosmetics can be used, the option of the special waveform can be enlarged.
Further, as in the screen examples shown in fig. 26 and 27, by displaying information on characteristics and the like of various components, the user can easily select the information, and convenience can be improved. In addition, the knowledge of the user is also deepened, and interest in the dedicated control information is expected to be increased. From this point of view, as in the example of the screen shown in fig. 27, the component selection screen may include a link to a detailed page (for example, formula HP) related to "estimated component", i.e., "good extract", by the seller of cosmetics or the like.
Here, in the operation examples described with reference to fig. 18 to 27, the function of the cosmetic product selling server 5 may be realized by the cosmetic instrument selling server 6. In this case, the following structure may be incorporated: when the screen display system is customized according to the order of priority based on sales information (for example, the order of listing in the screen of fig. 21) or the vendor who inserts a camping advertisement or the like, the profit margin (margin rate) can be changed according to the content thereof. The information processing apparatus 3 may manage (store) customized contents based on sales information so as to be able to extract the contents appropriately for the purpose of referring to the fee.
Fig. 28 is a timing chart schematically showing another example of the operation of the information processing system 1.
In the example shown in fig. 28, when the user determines a subscription contract and generates a notification including his own user ID (step S2800), the information processing apparatus 3 updates the corresponding data (privilege information related to the first specific information) in the user information database 305 based on the notification (privilege information) (step S2802). Next, the user transmits, for example, a request for giving a dedicated waveform to the held cosmetics (for example, cosmetics purchased at a server different from the cosmetics sales server 5) to the information processing apparatus 3 (step S2804). The information processing apparatus 3 determines the user ID to be given to the subject (or the cosmetic device 4 to be given to the subject) based on the received request for giving the dedicated waveform (step S2806). In addition, the information processing apparatus 3 determines the cosmetic held by the user in response to the application request of the dedicated waveform, and determines various components contained in the cosmetic (step S2808). In this case, the information processing device 3 may determine the cosmetic held by the user based on the cosmetic information included in the application request of the dedicated waveform. Alternatively, the information processing device 3 may determine the cosmetic held by the user based on the object information (see fig. 16) of the corresponding user in the user information database 305. Next, the information processing device 3 generates and acquires the dedicated control information of the object to be provided corresponding to the combination of the predetermined number (for example, 3) of object components in accordance with the predetermined priority order among the various components (step S2810), and transmits the dedicated control information of the object to be provided to the user terminal 2 or the beauty treatment device 4 related to the user of the object to be provided (step S2812). Thereafter, as in the example shown in fig. 17, the user terminal 2 or the cosmetic device 4 of the user to which the subject is to be assigned receives the dedicated control information (step S1708), and stores the received dedicated control information (step S1710). Then, for example, according to an instruction from the user, the user terminal 2 or the cosmetic instrument 4 can start control based on the dedicated control information (step S1712).
The example shown in fig. 28 is an operation example in the case where the user purchased the subscription contract, but the operation example in the case where the user satisfies the privilege condition may be substantially the same. In this case, the dedicated control information to be given to the object may be selectable by the user. In this case, in the information processing apparatus 3, the determination as to whether or not the user satisfies the privilege condition may be performed in response to the application-specific waveform assignment request of step S2804.
The embodiments have been described in detail above, but the present invention is not limited to the specific embodiments, and various modifications and alterations are possible within the scope described in the scope of the patent claims. In addition, all or a plurality of the constituent elements of the foregoing embodiments may be combined.
For example, in the above-described embodiment, the lower data 512 (see fig. 5) forming the control information includes the respective values of the first parameter to the third parameter, but a part of the respective values of the first parameter to the third parameter may be omitted. The fourth parameter may include a parameter defining a change pattern of a pair of electrodes for generating an output waveform. Such a fourth parameter is suitable for the case of an electrode structure in which a plurality of electrodes 40 are arranged in a plurality of ways. Further, the fifth parameter may include a parameter defining whether or not the output waveform is a decaying waveform.
In the above embodiment, the control information may be set according to the model and type of the cosmetic device 4. In this case, the control information can be adapted to the characteristics of various cosmetic instruments.
In the above-described embodiment, the control information corresponding to one object is set based on at least any one of various characteristics, properties, and the like of the one object, for example, (1) properties related to the solubility of the object to a solvent, (2) characteristics related to charging, and (3) molecular weight or an attribute of the molecular weight, but is not limited thereto. For example, the control information associated with one object may be set in consideration of "pH value", "main agent", "mixing ratio", "availability", and the like of the entire cosmetic product, in addition to at least one of them.
In addition, in the above-described embodiment, the processing performed by the cosmetic instrument 4 based on the control information is based on the electric output waveform, but is not limited thereto. For example, instead of or in addition to the electric output waveform, any one or more of a method using heat such as a heater, a method using light such as LED (Light Emitting Diode: light emitting diode) light or IPL (Intense Pulsed Light: high intensity light), a method using ultrasonic waves, a magnetic method, a method using electromagnetic waves, and a method using plasma may be used. In this case, the process of not using the electrode 40 may be realized.
In the above-described embodiment, the control information associated with one object may be corrected based on information on the user on the use side. For example, the control information may be corrected based on attributes of the user (for example, sex, age, race, etc.), trouble information of the user, questionnaire information such as skin quality, use status of the beauty treatment device, etc.
In the above-described embodiment, the control information associated with one object may be corrected according to the external environment (for example, the intensity of ultraviolet rays, the humidity, and the like) at the time of use. This is because most effective control information may be different depending on the external environment at the time of use.
In the above embodiment, the control information associated with one object may be set according to the type of the beauty treatment device 4. In this case, the information processing apparatus 3 can extract the control information corresponding to the kind of the beauty apparatus 4 owned by the user of the request source of the control information.
In the above-described embodiment, the control information associated with one object is mainly suitable for effectively achieving penetration of the object into the skin of a person, but is not limited thereto. For example, in electrical therapy, it is known that there is an object that easily produces effects of electrical itself in addition to permeation. That is, there are cases where skin is activated by electric action alone to generate skin tightening and elasticity, and there are also objects suitable for use at this time. In addition, the effect of activating cells, promoting blood circulation, sterilizing, and the like is more significant than the effect of promoting penetration of an object such as an LED or electromagnetic wave, and there are also objects suitable for use at this time. Specifically, in the case of a citric acid-containing object, if the capacitance is easy to flow or if the heat transfer of a solvent is faster than that of a gel-like substance, the body feeling and the transfer of electrical stimulation may also change depending on the nature of the object. Therefore, the object for which the permeation is not aimed may be associated with control information other than the method of permeation of the human body into the skin in consideration of the properties, texture, and the like. In this case, for example, the control information for realizing the process related to the electric stimulation (for example, the output waveform for high-frequency myoelectric stimulation) may be associated with the object to which the electric current is easily supplied, and the control information for realizing the process related to the heating (for example, the output waveform for heating by radio waves) may be associated with the object including the component (including the component as the base) to which the heat is easily transferred.
Claims (18)
1. An information processing apparatus, comprising:
a receiving unit that receives rights information indicating a right of use of control information generated in correspondence with an object that can be given to the skin of a person; and
and an validation processing unit that sets a skin processing device that processes the skin of the user to a state that can be controlled based on the control information when the authority information is received by the receiving unit.
2. The information processing apparatus according to claim 1, wherein,
in the case where a first predetermined input for purchasing a specific object is generated in correspondence with the user, the receiving section receives, as the authority information,
the validation processing unit sets the skin treatment device to a state in which control is possible based on the control information generated in correspondence with the specific object, based on the information indicating the generation of the first predetermined input.
3. The information processing apparatus according to claim 1 or 2, wherein,
in the case where a second predetermined input for purchasing the skin treatment device is generated in correspondence with the user, the receiving section receives information representing the generation of the second predetermined input as the authority information,
The validation processing unit sets the skin treatment device according to the second predetermined input to a state that can be controlled based on the control information, based on information indicating the generation of the second predetermined input.
4. An information processing apparatus according to any one of claims 1 to 3, wherein,
in the case where a third predetermined input for determining a regular purchase contract is generated corresponding to the user, the receiving section receives a notification containing a user identifier identifying the user as the authority information,
the information processing apparatus further includes a first correspondence processing unit that associates first specific information with the user identifier based on the notification,
the validation processing unit sets the skin processing device to a state that can be controlled based on the control information, based on the case where the first specific information corresponds to the user identifier.
5. The information processing apparatus according to any one of claims 1 to 4, wherein,
in the case where a fourth predetermined input for determining consumption of the electronic medium is generated corresponding to the user, the receiving section receives information representing generation of the fourth predetermined input as the authority information,
The validation processing unit sets the skin treatment device to a state that can be controlled based on the control information, based on information indicating the generation of the fourth predetermined input.
6. The information processing apparatus according to any one of claims 1 to 5, wherein,
the information processing apparatus further includes a determination unit that determines whether the user satisfies a privilege condition,
the receiving section receives, as the authority information, a determination result indicating that the user satisfies the privilege condition, that is, a determination result including a user identifier identifying the user,
the information processing apparatus further includes a second correspondence processing unit that associates second specific information with the user identifier based on the determination result,
the validation processing unit sets the skin processing device to a state in which control is possible based on the control information, based on the case where the second specific information corresponds to the user identifier.
7. The information processing apparatus according to any one of claims 1 to 6, wherein,
the information processing device further includes:
a storage unit that stores the control information generated in association with the object for each skin state; and
A skin information acquisition unit that acquires skin information on the skin of the user,
the state that can be controlled based on the control information includes a state that can be controlled based on the control information related to a skin state corresponding to the skin information of the user.
8. The information processing apparatus according to claim 7, wherein,
the information processing apparatus further includes: and a presentation processing unit that generates presentation screen information for presenting the recommended object information to the user based on the skin information of the user.
9. The information processing apparatus according to claim 8, wherein,
the prompt screen information includes a user interface for a user to select and purchase a specific object from the recommended object information.
10. The information processing apparatus according to any one of claims 7 to 9, wherein,
the skin information acquisition unit acquires the skin information of the user based on image information obtained by capturing the skin of the user or input information from the user.
11. The information processing apparatus according to claim 10, wherein,
The skin information acquisition unit generates input screen information that is an input screen for acquiring the input information from the user and includes a questionnaire or a consultation.
12. The information processing apparatus according to any one of claims 1 to 11, wherein,
the validation processing unit includes:
a first processing unit that generates or acquires the control information; and
and a second processing unit that transmits a control instruction based on the control information, the control information itself, or information capable of specifying the control information to a user terminal associated with the user or the skin processing device.
13. The information processing apparatus according to claim 12, wherein,
the object includes a commodity including a plurality of components,
the first processing unit extracts 1 or more target components from among a plurality of components included in the target object, and generates or acquires the control information suitable for the extracted 1 or more target components.
14. The information processing apparatus according to claim 13, wherein,
the first processing unit identifies a plurality of components included in the object, and extracts the 1 or more object components from the plurality of components in a predetermined order of priority.
15. The information processing apparatus according to claim 14, wherein,
the predetermined priority order is based on priority information previously corresponding to each component or sales information of the commodity.
16. The information processing apparatus according to claim 13, wherein,
the first processing unit selects 1 or more target components from among a plurality of components included in the target object based on a selection input from the user, and generates or acquires the control information suitable for the selected 1 or more target components.
17. An information processing method, which is executed by a computer, characterized in that:
the information processing method comprises the following steps:
receiving rights information indicating a right of use of control information generated in correspondence with an object that can be given to the skin of a person; and
when the authority information is received, a skin processing device that processes the skin of the user is set to a state that can be controlled based on the control information.
18. A program for causing a computer to execute:
receiving rights information indicating a right of use of control information generated in correspondence with an object that can be given to the skin of a person; and
When the authority information is received, a skin processing device that processes the skin of the user is set to a state that can be controlled based on the control information.
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