CN109613844B - Intelligent control system, intelligent control method and computer storage medium - Google Patents

Abstract

The application provides an intelligent control system, an intelligent control method and a computer storage medium. The intelligent control system at least comprises intelligent glasses and intelligent detection equipment, wherein the intelligent glasses and the intelligent detection equipment are in wireless communication connection; the intelligent detection equipment at least comprises a first sensor and a second sensor, wherein the first sensor is used for collecting light intensity data of the environment where the intelligent detection equipment is located, and the second sensor is used for collecting biological information of a user; the intelligent detection equipment acquires biological information of a user from the second sensor, sets a first working mode according to the biological information of the user, and controls the first sensor to collect light intensity data according to the first working mode; the intelligent detection equipment is used for obtaining luminous flux data according to the light intensity data and sending the luminous flux data to the intelligent glasses; the intelligent glasses adjust the luminous power according to the luminous flux data. The intelligent control system and the intelligent control method can improve the intelligence and the practicability of the intelligent control system.

Description

Intelligent control system, intelligent control method and computer storage medium

Technical Field

The present application relates to the field of intelligent device correlation, and in particular, to an intelligent control system, an intelligent control method, and a computer storage medium.

Background

Along with the development of internet technology and intelligent product, various intelligent wearing products appear in the market at present, and wherein, the appearance of intelligent bracelet as a common intelligent wearing product has brought various facilities for the user. The user can take notes situations such as exercise, sleep and the like in daily life by wearing the intelligent bracelet, and part of the intelligent bracelet also has real-time data such as diet and the like, and synchronizes the data with the mobile phone, the platform and the ipad touch, thereby playing a role of guiding the daily life of the user through the data.

However, the intelligent control system in the prior art has fewer functions and lower intelligent degree, and intelligent wearable products such as an intelligent bracelet cannot be introduced into the intelligent control system.

Disclosure of Invention

The application provides an intelligent control system, an intelligent control method and a computer storage medium, which aim to solve the problems of fewer functions and lower intelligent degree of the intelligent control system in the prior art.

In order to solve the technical problem, the application provides an intelligent control system, which at least comprises intelligent glasses and intelligent detection equipment, wherein the intelligent glasses and the intelligent detection equipment are in wireless communication connection;

the intelligent detection device at least comprises a first sensor and a second sensor, wherein the first sensor is used for collecting light intensity data of the environment where the intelligent detection device is located, and the second sensor is used for collecting biological information of a user;

the intelligent detection equipment acquires biological information of a user from the second sensor, sets a first working mode according to the biological information of the user, and controls the first sensor to acquire the light intensity data according to the first working mode;

the intelligent detection equipment is used for obtaining luminous flux data according to the light intensity data and sending the luminous flux data to the intelligent glasses;

and the intelligent glasses adjust the luminous power according to the luminous flux data.

In order to solve the technical problem, the application further provides an intelligent control method, wherein the intelligent control method is applied to an intelligent control system, the intelligent control system at least comprises intelligent glasses and intelligent detection equipment, and the intelligent glasses and the intelligent detection equipment are in wireless communication connection; the intelligent detection device at least comprises a first sensor and a second sensor;

the intelligent control method comprises the following steps:

the intelligent detection equipment acquires biological information of the user through the second sensor;

the intelligent detection equipment sets a first working mode according to the biological information of the user, and acquires light intensity data of the environment where the intelligent detection equipment is located through the first sensor according to the first working mode;

the intelligent detection equipment obtains luminous flux data according to the light intensity data and sends the luminous flux data to the intelligent glasses;

and the intelligent glasses adjust the luminous power according to the luminous flux data.

In order to solve the above technical problem, the present application also proposes a computer storage medium storing program data that can be executed by the above intelligent control method.

In the application, the intelligent control system at least comprises intelligent glasses and intelligent detection equipment, and the intelligent glasses and the intelligent detection equipment are in wireless communication connection; the intelligent detection equipment at least comprises a first sensor and a second sensor, wherein the first sensor is used for collecting light intensity data of the environment where the intelligent detection equipment is located, and the second sensor is used for collecting biological information of a user; the intelligent detection equipment acquires biological information of a user from the second sensor, sets a first working mode according to the biological information of the user, and controls the first sensor to collect light intensity data according to the first working mode; the intelligent detection equipment is used for obtaining luminous flux data according to the light intensity data and sending the luminous flux data to the intelligent glasses; the intelligent glasses adjust the luminous power according to the luminous flux data. This application is through the light intensity data of first sensor and the real-time collection environment of second sensor and obtain the luminous flux data that correspond, and luminous power is adjusted according to luminous flux data to intelligent glasses, can improve intelligence and the practicality of intelligent control system.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic structural diagram of an embodiment of an intelligent control system of the present application;

FIG. 2 is a schematic structural diagram of another embodiment of the intelligent control system of the present application;

FIG. 3 is a flowchart illustrating an embodiment of an intelligent control method of the present application

FIG. 4 is a schematic flow chart diagram illustrating another embodiment of the intelligent control method of the present application;

FIG. 5 is a schematic flow chart diagram of another embodiment of the intelligent control method of the present application;

FIG. 6 is a schematic flow chart of another embodiment of the intelligent control method of the present application

FIG. 7 is a schematic structural diagram of an embodiment of a computer storage medium according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The intelligent control system is used for detecting the environmental parameters in the detection range of the intelligent detection equipment, and by taking the light intensity data of the detection environment as an example, the intelligent detection equipment can realize the light intensity change and the specific numerical value of the environment where the intelligent detection equipment is located in real time, then sends the related numerical value to the intelligent glasses, and the intelligent glasses adjust the working parameters according to the related numerical value.

In other application scenarios, such as intelligent home system, intelligent detection equipment can be used as a data acquisition tool of the intelligent home system, and through the intelligent detection equipment, the intelligent home system can acquire specific environmental parameters inside and outside a house in real time, so that the working condition of other intelligent homes is controlled through a control center, and the smart life is realized.

Specifically, please refer to fig. 1, wherein fig. 1 is a schematic structural diagram of an embodiment of an intelligent control system according to the present application. The smart control system 100 of the present embodiment includes at least smart glasses 11 and a smart detection device 12, wherein the smart glasses 11 and the smart detection device 12 establish a wireless communication connection.

The smart detection device 12 includes at least a first sensor 121 and a second sensor 122.

The smart detection device 12 further includes a body 123, the body 123 being configured to house and carry other components of the smart detection device 12. The body 123 further includes a housing (not shown) defining a cavity in which the body 123 is disposed. The main body 123 can be made of medical rubber or memory rubber, and the main body 123 is made of non-toxic and harmless materials, and even can reach food grade standards.

The first sensor 121 is disposed on a surface or inside the body 123, and particularly, the first sensor 121 may be disposed on a surface of the body 123 away from the power source. The first sensor 121 is used for collecting light intensity data of the environment where the intelligent detection device 12 is located, and the first sensor 121 may be a light detection sensor, a photoelectric sensor, a photosensitive sensor, or the like. In other embodiments, the smart sensor device 12 may also be used to collect other environmental data, such as air humidity, etc., in which case the first sensor 121 is a humidity sensor.

The second sensor 122 is disposed on a surface of or inside the main body 123, and particularly, the second sensor 122 may be disposed on a surface of the main body 123 close to the power source. Further, the number of the second sensors 122 is not limited to one, and the arrangement position of the second sensors 122 is not limited to the inside of the body 123.

The second sensor 122 may be a human detection sensor for collecting biometric information of the user wearing the smart detection device 12. The second sensor 122 transmits the collected biological information to the smart sensor 12, and the smart sensor 12 may store and display the biological information of the user, or the smart sensor 12 controls the first sensor 121 to operate according to the biological information of the user. The biological information of the user comprises the heartbeat frequency of the user, the body temperature value of the user, the blood pressure value of the user or/and the breathing frequency of the user and the like.

Specifically, the smart sensor device 12 obtains the biological information of the user from the second sensor 122, sets the first operation mode of the first sensor 121 according to the biological information of the user, and controls the first sensor 121 to collect the light intensity data according to the first operation mode. The first operation mode may include operation parameters such as operation time, operation frequency and/or operation power.

For example, when the smart detection device 12 analyzes that the user is in a rest state according to the biological information of the user, which indicates that the user is in a relatively stable environment, the smart detection device 12 controls the first sensor 121 to operate for a shorter time, and the sleep time is longer, which is beneficial to saving energy; when the intelligent detection device 12 analyzes that the user is in a motion state according to the biological information of the user, which indicates that the user is in an environment with violent change, the intelligent detection device 12 increases the working frequency of the first sensor 121, which is beneficial to collecting more light intensity data, and further increases the accuracy of the light flux data.

After the first sensor 121 collects the light intensity data of the environment where the intelligent detection device 12 is located, the first sensor 121 uploads the light intensity data to the intelligent detection device 12. The intelligent detection device 12 obtains light flux data from the light intensity data.

Specifically, the light intensity is used as a physical quantity of the intensity of light emitted in a unit solid angle in a given direction of the light source, and the international unit is candela, symbol: and cd (standard code). And the sign of the luminous flux is phi in lumens (lm). Unlike radiant power, luminous flux represents the power perceived by the human eye. Experiments with a large number of observers with normal vision have shown that in brighter environments the human vision is most sensitive to green light with a wavelength of around 555.0nm, the property of the human eye that has a different degree of spectral sensitivity at each wavelength being represented by the viewing function V (λ). Luminous flux is a physical quantity that represents the amount of spectral radiant power that is affected by the eye's visual function.

The physical expression of the luminous intensity in a given direction is:

where φ is the luminous flux and Ω is the solid angle. According to the above expression, the visible light intensity is an integral form of the luminous flux. The processor 13 may perform conversion between the light intensity data and the light flux data by the above-described physical expression.

Further, the smart sensor device 12 may further include a storage unit (not shown) disposed in the processor of the smart sensor device 12 or disposed on a Printed Circuit Board (PCB) in a distributed manner. The intelligent detection device 12 stores the collected ambient light intensity data and/or the processed luminous flux data through a storage unit.

The intelligent detection device 12 sends the processed luminous flux data to the connected intelligent glasses 11 through wireless communication; the smart glasses 11 adjust the light emitting power according to the light flux data.

The intelligent detection device 12 in the intelligent control system 100 of the present embodiment first collects the biological information of the user through the second sensor 122, and then controls the first sensor 121 to operate according to the biological information of the user, so that the first sensor 121 collects the light intensity data of the environment; the intelligent detection device 12 further converts the light intensity data of the environment into light flux data which directly affects the human sense of the user, and sends the light flux data to the connected intelligent glasses 11 through wireless communication, and the intelligent glasses 11 adjust the light emitting power according to the light flux data, so that the intelligence and the practicability of the intelligent control system 100 are improved.

Based on the embodiment of the intelligent control system shown in fig. 1, the present application further proposes an intelligent control system of another embodiment, and referring to fig. 2, fig. 2 is a schematic structural diagram of another embodiment of the intelligent control system of the present application.

Based on the structure of the intelligent control system 100 of the above embodiment, the intelligent glasses 11 of the embodiment further includes a light emitting module 111 and a control module 112, wherein the light emitting module 111 and the control module 112 are coupled.

The control module 112 includes a processor or a micro control unit, and the control module 112 may receive the luminous flux data of the intelligent detection device 12, and adjust the light emitting power of the light emitting module 111 according to the luminous flux data. Further, the control module 112 may also adjust the light emitting frequency and/or the light emitting period of the light emitting module 111 according to the light flux data.

The light emitting module 112 includes a plurality of LED (light emitting diode) lamps, and the plurality of LED lamps of the light emitting module 112 can output green light and/or blue light with a certain wavelength. For example, a first portion of the LED lamps output blue light in the wavelength range of 460nm to 480nm, and a second portion of the LED lamps output green light in the wavelength range of 490nm to 520 nm.

Specifically, the light emitting module 112 can output a certain frequency of green light and/or blue light, and the retina of the human eye of the user has "third type" photosensitive cells (ipRGC), which can receive light signals and project to the biological clock regulator-nucleus Suprachiasmata (SCN) of the brain, and the level of melatonin secretion is adjusted by controlling the pineal gland through the SCN, thereby helping the human to adjust the circadian rhythm and other biological effects.

The smart glasses 11 control the working parameters of the light emitting module 111 according to the light flux data fed back by the smart detection device 12, so as to adapt to different living behaviors of human beings, for example, by controlling the light emitting frequency and the light emitting power of the light emitting module 111, help the human beings to fall asleep quickly, and achieve better sleep quality.

Further, after the biological information of the user is collected, the smart detection device 12 may match the biological information of the user with preset biological information. The preset biological information is biological information which is input and stored by a user in advance.

If the intelligent detection device 12 determines that the biological information is successfully matched with the preset biological information, the user of the intelligent control system 100 passes the authentication, and the intelligent detection device 12 controls the first sensor 121 to collect the light intensity data of the environment according to the biological information.

If the intelligent detection device 12 determines that the matching between the biological information and the preset biological information fails, the intelligent control system 100 fails to authenticate the user, and the intelligent detection device 12 generates shutdown information and controls the intelligent glasses 11 to be closed according to the shutdown information.

The intelligent detection device 12 of this embodiment may be an intelligent detection bracelet.

On the basis of the structure of the intelligent control system 100 of the above embodiment, the intelligent detection device 12 of the present embodiment further includes a first fixing strap 1241 and a second fixing strap 1242. The first strap 1241 and the second strap 1242 cooperate to secure the main body 123 in a detection area, such as a wrist of a user. The first fixing strap 1241 is fixedly connected to one end of the main body 123, and the second fixing strap 1242 is fixedly connected to the other end of the main body 123. Wherein, the end of the first fixing strap 1241 away from the main body 123 is a first free end, the end of the second fixing strap 1242 away from the main body 123 is a second free end, and the first free end and the second free end can be movably connected, so as to adapt to the sizes of the wrists of different users.

Specifically, a first buckle (not shown in the figure) is disposed at a first free end of the first fixing strap 1241, and a second buckle (not shown in the figure) is disposed at a second free end of the second fixing strap 1242, and the first buckle and the second buckle can be in interference fit, so that the first free end of the first fixing strap 1241 and the second free end of the second fixing strap 1242 are fixedly connected together. This embodiment can adapt to the user's wrist of different thickness through the regulation of first fixed band 1241 and second fixed band 1242 with mutually supporting to improve the user and wear the comfort level.

In other embodiments, a magnetic sheet is disposed at a first free end of the first fixing strap 1241, and another magnetic sheet is disposed at a second free end of the second fixing strap 1242, and the two magnetic sheets attract each other, so as to connect the first fixing strap 1241 and the second fixing strap 1242 together.

The material of the first fixing band 1241 and the second fixing band 1242 may be TPU (Thermoplastic polyurethane elastomers), urethane rubber, silicone resin, or anti-allergy rubber, etc. In particular, the length of the first fixing strap 1241 and/or the second fixing strap 1242 is 5cm to 10 cm.

A display screen 125 is further disposed on one surface of the main body 123, and the display screen 125 may be an LED display screen, an OLED display screen, or an LCD display screen. The number of the display screens 125 is not limited to one, and a plurality of display screens 125 may be disposed on the same surface of the body 123 or distributed on a plurality of surfaces. The display screen 125 displays the light intensity data and/or the light flux data; the display screen 125 may also display biological information of the user; the display screen 125 may also display current time data and user data such as user name, user plan or user steps, etc.

Further, the display screen 125 may also be a flexible OLED, and the display screen 125 using the flexible OLED may also be disposed on the surface of the first fixing band 1241 and/or the second fixing band 1242.

In the intelligent control system 100 of the present embodiment, on the basis of the above-described embodiment, the intelligent detection device 12 further matches the acquired biological information with preset biological information; when the matching fails, the intelligent detection device 12 generates shutdown information and controls the intelligent glasses 11 to be closed according to the shutdown information, which is beneficial to ensuring the practicability of the intelligent control system 100.

Corresponding to the intelligent control system 100 of the above embodiment, the present application further provides an intelligent control method, and specifically refer to fig. 3, where fig. 3 is a schematic flowchart of an embodiment of the intelligent control method of the present application.

The intelligent control method of the present embodiment is applied to the intelligent control system 100 of the above embodiment, and please refer to fig. 1 and fig. 2 for the specific structure of the intelligent control system, which is not described herein again. On the basis of the intelligent control system 100 of the above embodiment, the intelligent control method of the present embodiment includes the following steps:

s31: the intelligent detection device collects biological information of the user through the second sensor.

Wherein the second sensor 122 may be a human detection sensor. The second sensor 122 may collect biological information of the user, such as a heartbeat rate of the user, a temperature value of the user, a blood pressure value of the user, or/and a breathing rate of the user. The smart detection device collects biometric information of the user through the second sensor 122.

In this embodiment, the smart detection device 12 is a smart detection bracelet.

S32: the intelligent detection device sets a first working mode according to biological information of a user, and acquires light intensity data of the environment where the intelligent detection device is located through the first sensor according to the first working mode.

The smart detection device 12 sets a first working mode according to the biological information of the user, where the first working mode may include working parameters such as working time, working frequency and/or working power. The smart detection device 12 collects light intensity data of the environment where the smart detection device 12 is located through the first sensor 121 according to the first operation mode.

Specifically, the smart detection device 12 determines the state of the human body function of the user according to the received biological information, for example, determines the temperature of the environment where the user is located according to the body temperature value of the user; or, the motion state of the user is judged according to the heartbeat frequency and/or the breathing frequency of the user. The intelligent detection device 12 sets a first working mode according to the state of the human body function of the user, and collects light intensity data of the environment where the intelligent detection device 12 is located through the first sensor 121 according to the first working mode.

S33: the intelligent detection equipment obtains luminous flux data according to the light intensity data and sends the luminous flux data to the intelligent glasses.

The intelligent detection device 12 obtains the light flux data according to the light intensity data, and the obtaining principle refers to the above embodiment of the intelligent control system, which is not described herein again.

The smart detection device 12 transmits the light flux data to the smart glasses 11 or other smart devices.

S34: the intelligent glasses adjust the luminous power according to the luminous flux data.

Wherein the smart glasses 11 adjust the light emitting power according to the luminous flux data, in other embodiments, the smart glasses 11 may adjust the light emitting frequency and/or the light emitting period, etc. according to the luminous flux data.

In the intelligent control method of this embodiment, the intelligent detection device 12 determines the degree of change of the environment according to the biological information of the user fed back by the second sensor 122, and controls the working mode of the first sensor 121 according to the degree of change of the environment, which is beneficial to saving resources on one hand and improving the accuracy of data on the other hand.

Based on the embodiment of the intelligent control method shown in fig. 3, the present application further proposes an intelligent control method according to another embodiment, and refer to fig. 4, where fig. 4 is a schematic flow chart of another embodiment of the intelligent control method according to the present application.

The intelligent control method of the present embodiment is applied to the intelligent control system 100 of the above embodiment, and please refer to fig. 1 and fig. 2 for the specific structure of the intelligent control system, which is not described herein again. On the basis of the intelligent control method step 32 of the above embodiment, the intelligent control method of the present embodiment includes the following steps:

s41: the intelligent detection device sets a first working time and a second working time according to the biological information of the user.

The smart detection device 12 sets a first operation mode according to the biological information of the user, wherein the first operation mode includes an operation time. The operation time includes at least a first operation time and a second operation time, and the first sensor 121 is operated at different operation powers during the first operation time and the second operation time, respectively.

S42: the intelligent detection equipment controls the first sensor to collect light intensity data at a first preset power according to the first working time.

S43: the intelligent detection equipment controls the first sensor to collect light intensity data at a second preset power according to the second working time.

In steps S42 and S43, the first sensor 121 collects light intensity data of the environment where the smart detection device 12 is located at a first preset power for a first working time; the first sensor 121 collects light intensity data of the environment where the intelligent detection device 12 is located at a second preset power in a second working time, wherein the first preset power is greater than the second preset power. Further, in other embodiments, the first sensor 121 may further set an operating time and a sleep time according to the operating time command, and the first sensor 121 collects the light intensity data of the environment during the operating time and enters the sleep state during the sleep time, which helps to save resources.

For example, the smart detection device 12 determines that the user is in a rest state according to the heartbeat frequency and/or the breathing frequency collected by the second sensor 122, and at this time, the change of the environment is relatively small, and the change of the light intensity data that can be collected by the first sensor 121 is small. The smart detection device 12 sets a first operating time and a second operating time for this: the set collection period is 10 minutes, the first sensor 121 collects light intensity data of the environment with first preset power in 0-2 minutes, and collects light intensity data of the environment with second preset power in 2-10 minutes, wherein the first preset power is larger than the second preset power. Further, the first sensor 121 may also set the 2-10 minutes as the sleep time. In this example, since the smart detection device 12 determines that the environmental change is small, the working power and the working time of the first sensor 121 are controlled to be reduced, which is beneficial to saving resources.

For another example, the smart detection device 12 determines that the user is in an excited state according to the heartbeat frequency and/or the breathing frequency collected by the second sensor 122, at this time, the change of the environment is relatively large, and the change of the light intensity data that can be collected by the first sensor 121 is large. The processor 13 sets a first operating time and a second operating time for this: the set collection period is 10 minutes, the first sensor 121 collects light intensity data of the environment with first preset power in 0-8 minutes, and collects light intensity data of the environment with second preset power in 8-10 minutes, wherein the first preset power is larger than the second preset power. In this example, since the intelligent detection device 12 determines that the environmental change is large, the working power and the working time of the first sensor 121 are controlled to be increased, which is beneficial to improving the accuracy of the light intensity data and the light flux data.

In the intelligent control method of this embodiment, the intelligent detection device 12 determines the degree of change of the environment according to the biological information of the user fed back by the second sensor 122, and sets the first operating time and the second operating time of the first sensor 121 according to the degree of change of the environment, which is beneficial to saving resources on one hand and improving the accuracy of data on the other hand.

Based on the embodiment of the intelligent control method shown in fig. 3, the present application further proposes another embodiment of an intelligent control method, and refer to fig. 5, where fig. 5 is a schematic flow chart of another embodiment of the intelligent control method of the present application.

The intelligent control method of the present embodiment is applied to the intelligent control system 100 of the above embodiment, and please refer to fig. 1 and fig. 2 for the specific structure of the intelligent control system, which is not described herein again. On the basis of the intelligent control method step 34 of the above embodiment, the intelligent control method of the present embodiment includes the following steps:

s51: the intelligent glasses receive the luminous flux data of the intelligent detection equipment through the control module.

S52: the intelligent glasses adjust the luminous power of the luminous module according to the luminous flux data.

In steps S51 and S52, the control module 112 of the smart glasses 11 includes a control element such as a processor or a micro control unit, and the control module 112 may receive the luminous flux data of the smart detection device 12 and adjust the light emitting power of the light emitting module 111 according to the luminous flux data. Further, the control module 112 may also adjust the light emitting frequency and/or the light emitting period of the light emitting module 111 according to the light flux data.

The light emitting module 112 includes a plurality of LED (light emitting diode) lamps, and the plurality of LED lamps of the light emitting module 112 can output green light and/or blue light with a certain wavelength. For example, a first portion of the LED lamps output blue light in the wavelength range of 460nm to 480nm, and a second portion of the LED lamps output green light in the wavelength range of 490nm to 520 nm.

In the intelligent control method of the embodiment, according to the light flux data fed back by the intelligent detection device 12, the intelligent glasses 11 can control the operating parameters of the light emitting module 111 according to the light flux data, so as to adapt to different living behaviors of the human, for example, by controlling the light emitting frequency and the light emitting power of the light emitting module 111, the intelligent control method helps the human to fall asleep quickly, and achieve better sleep quality.

Based on the embodiment of the intelligent control method shown in fig. 3, the present application further provides an intelligent control method according to yet another embodiment, and referring to fig. 6, fig. 6 is a schematic flowchart of another embodiment of the intelligent control method according to the present application.

The intelligent control method of the present embodiment is applied to the intelligent control system 100 of the above embodiment, and please refer to fig. 1 and fig. 2 for the specific structure of the intelligent control system, which is not described herein again. After the intelligent control method step 31 of the above embodiment, the intelligent control method of the present embodiment includes the following steps:

s61: the intelligent detection device matches the biological information of the user with preset biological information.

After the biological information of the user is collected, the intelligent detection device 12 may further match the biological information of the user with preset biological information. The preset biological information is biological information which is input and stored by a user in advance.

If the intelligent detection device 12 determines that the biological information is successfully matched with the preset biological information, the user of the intelligent control system 100 passes the authentication, and the intelligent detection device 12 controls the first sensor 121 to collect the light intensity data of the environment according to the biological information.

If the smart detection device 12 determines that the matching between the biometric information and the preset biometric information fails, the smart control system 100 fails to authenticate the user, and the process proceeds to step S62.

S62: the intelligent detection equipment generates shutdown information and controls the intelligent glasses to be closed according to the shutdown information.

In the intelligent control method of the present embodiment, the intelligent detection device 12 further matches the collected biological information with preset biological information; when the matching fails, the intelligent detection device 12 generates shutdown information and controls the intelligent glasses 11 to be closed according to the shutdown information, which is beneficial to ensuring the practicability of the intelligent control system 100.

In response to the intelligent detection method disclosed in the above embodiment, the present application further provides a computer storage medium, as shown in fig. 7, where the computer storage medium 700 stores program data, and the program data can be executed to implement the method described in the intelligent control method embodiment of the present application.

The methods involved in the embodiments of the intelligent control method of the present application, when implemented in the form of software functional units and sold or used as independent products, may be stored in the apparatus 700, for example, in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The intelligent control system provided by the embodiment of the present application is introduced in detail, and a specific example is applied to explain the principle and the implementation manner of the present application, and the description of the embodiment is only used to help understanding the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (9)

1. An intelligent control system is characterized by at least comprising intelligent glasses and intelligent detection equipment, wherein the intelligent glasses and the intelligent detection equipment are in wireless communication connection;

the intelligent detection device at least comprises a first sensor and a second sensor, wherein the first sensor is used for collecting light intensity data of the environment where the intelligent detection device is located, and the second sensor is used for collecting biological information of a user;

the intelligent detection equipment acquires biological information of a user from the second sensor, and sets a first working mode according to the biological information of the user, wherein the first working mode comprises first working time and second working time;

the intelligent detection equipment controls the first sensor to collect the light intensity data at a first preset power according to the first working time;

the intelligent detection equipment controls the first sensor to collect the light intensity data at a second preset power according to the second working time;

the intelligent detection equipment is used for obtaining luminous flux data according to the light intensity data and sending the luminous flux data to the intelligent glasses;

and the intelligent glasses adjust the luminous power according to the luminous flux data.

2. The intelligent control system of claim 1, wherein the smart glasses comprise at least a lighting module and a control module, the lighting module and the control module being coupled;

the control module is used for receiving the luminous flux data of the intelligent detection equipment and adjusting the luminous power of the luminous module according to the luminous flux data.

3. The intelligent control system according to claim 1, wherein the smart detection device matches the user's biometric information with preset biometric information;

if the intelligent detection device judges that the biological information is unsuccessfully matched with the preset biological information, the intelligent detection device generates shutdown information and controls the intelligent glasses to be closed according to the shutdown information.

4. The intelligent control system according to claim 1, wherein the intelligent detection device is an intelligent detection bracelet.

5. An intelligent control method is applied to an intelligent control system, wherein the intelligent control system at least comprises intelligent glasses and intelligent detection equipment, and the intelligent glasses and the intelligent detection equipment are in wireless communication connection; the intelligent detection device at least comprises a first sensor and a second sensor;

the intelligent control method comprises the following steps:

the intelligent detection equipment acquires biological information of the user through the second sensor;

the intelligent detection equipment sets a first working mode according to the biological information of the user, wherein the first working mode comprises first working time and second working time;

the intelligent detection equipment controls the first sensor to collect light intensity data at a first preset power according to the first working time;

the intelligent detection equipment controls the first sensor to acquire light intensity data at a second preset power according to the second working time;

the intelligent detection equipment obtains luminous flux data according to the light intensity data and sends the luminous flux data to the intelligent glasses;

and the intelligent glasses adjust the luminous power according to the luminous flux data.

6. The intelligent control method according to claim 5, wherein the first preset power is greater than the second preset power.

7. The intelligent control method according to claim 5, wherein the smart glasses comprise a lighting module and a control module, the lighting module and the control module being coupled;

the step of the smart glasses adjusting the luminous power according to the luminous flux data further comprises:

the intelligent glasses receive the luminous flux data of the intelligent detection equipment through the control module;

the intelligent glasses adjust the light emitting power of the light emitting module according to the luminous flux data.

8. The intelligent control method according to claim 7, wherein after the step of the smart detection device acquiring the biological information of the user through the second sensor, the intelligent control method further comprises:

the intelligent detection equipment matches the biological information of the user with preset biological information;

if the intelligent detection device judges that the biological information is unsuccessfully matched with the preset biological information, the intelligent detection device generates shutdown information and controls the intelligent glasses to be closed according to the shutdown information.

9. A computer storage medium storing program data executable to implement the intelligent control method of any one of claims 5 to 8.

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