CN115767824A - Intelligent LED lamp dimming method, intelligent LED lamp, driver and terminal - Google Patents

Abstract

The application relates to the technical field of LEDs, in particular to an intelligent LED lamp dimming method, an intelligent LED lamp, a driver and a terminal, wherein the method comprises the following steps: judging whether a starting signal of the intelligent LED lamp is acquired; if the starting signal is acquired, starting the intelligent LED lamp based on the starting signal; acquiring a target mode; acquiring a target adjusting scheme based on the target mode; and carrying out light adjustment on the intelligent LED lamp based on the target adjustment scheme. The method and the device for improving the intelligent experience and the life quality of the user are beneficial to improvement.

Description

Intelligent LED lamp dimming method, intelligent LED lamp, driver and terminal

Technical Field

The application relates to the technical field of LEDs, in particular to an intelligent LED lamp dimming method, an intelligent LED lamp, a driver and a terminal.

Background

With the rapid development of LED technology, the light emitting efficiency thereof is gradually improved, the manufacturing cost thereof is also gradually reduced, the application market of LEDs will be wider, especially under the background of global energy shortage, the application prospect of LED light sources in the lighting market is receiving attention, and the LED light sources are considered to become the best market and the largest market in the next 10 years by the industry, and will replace incandescent lamps, compact energy-saving lamps and fluorescent lamps, becoming the next generation of novel light sources.

The LED lighting fixture is a general term for LED lighting fixtures, and refers to a light distribution fixture capable of transmitting light, distributing and changing LED light sources, including all components required for fixing and protecting the LED light sources except for the LED light sources, and line accessories required for connection with a power supply. With the further maturity of the LED technology, LEDs are greatly developed in the field of design and development of room lighting lamps, and meanwhile, the LED lamps fully embody the characteristics of energy conservation, health, artistic design, humanization and the like, so that the LED lamps gradually become the leading factor of the room light culture.

However, the LED lamp in the related art can only simply and fixedly adjust the light according to a preset program, or adjust the light through manual operation, which is less intelligent and seriously reduces the intelligent experience and quality of life of the user.

Disclosure of Invention

In order to be beneficial to improving the intelligent experience and life quality of a user, the application provides an intelligent LED lamp dimming method, an intelligent LED lamp, a driver and a terminal.

In a first aspect, the present application provides an intelligent LED lamp dimming method, which adopts the following technical scheme:

an intelligent LED lamp dimming method comprises the following steps:

judging whether a starting signal of the intelligent LED lamp is acquired;

if the starting signal is obtained, starting the intelligent LED lamp based on the starting signal;

acquiring a target mode;

acquiring a target adjusting scheme based on the target mode;

and adjusting the light of the intelligent LED lamp based on the target adjusting scheme.

Through adopting above-mentioned technical scheme, judge earlier whether intelligent LED lamp acquires the start signal, after acquireing the start signal, start intelligent LED lamp according to the start signal, reacquire the target mode again, according to the target mode of difference, select the target regulation scheme to this target mode to adjust light, need not user's artificial regulation, it is more convenient intelligent, and select the regulation scheme who agrees with this target mode to adjust light, user demand can be better satisfied to help improving user's intelligent experience and quality of life.

Optionally, the specific step of judging whether to acquire the start signal of the intelligent LED lamp includes:

judging whether an active opening instruction is received or not;

if the active starting instruction is received, judging to acquire the starting information;

if the active opening instruction is not received, acquiring environment information;

judging whether the environmental information meets a preset environmental threshold value or not;

if the environmental information meets the environmental threshold, judging that the starting information is obtained;

if the environmental information does not meet the environmental threshold, acquiring a current time node;

judging whether the current time node meets a preset time threshold value or not;

if the current time node does not meet the time threshold, judging that the starting signal is not acquired;

and if the current time node meets the time threshold, judging that the starting signal is obtained.

By adopting the technical scheme, whether an active opening instruction of actively opening the intelligent LED lamp by a user is received or not is judged, if the active opening instruction is not received, whether the environmental information meets a preset environmental threshold or not is judged, if the environmental information meets the environmental threshold, and if the environmental information does not meet the environmental threshold, whether a current time node meets the preset time threshold or not is judged, so that whether the intelligent LED lamp obtains a starting signal or not is judged; through setting up multiple judgement condition, help judging out the intelligence LED lamp more accurately and whether acquire the start signal, and set up multiple judgement condition and also show and be provided with a plurality of conditions that start the intelligence LED lamp, the intelligence LED lamp can realize starting through its different start condition, more can satisfy user's demand and more intelligent to help improving user's intelligent experience and quality of life.

Optionally, the specific step of determining whether the environmental information meets a preset environmental threshold includes:

acquiring illumination intensity and judging whether the illumination intensity is smaller than a preset first illumination threshold value or not;

if the illumination intensity is smaller than the first illumination threshold, determining that the environmental information meets the environmental threshold;

if the illumination intensity is greater than or equal to the first illumination threshold, judging whether the illumination intensity is smaller than a preset second illumination threshold;

if the illumination intensity is smaller than the second illumination threshold, acquiring sound intensity and judging whether the sound intensity is larger than or equal to a preset sound threshold;

if the sound intensity is greater than or equal to the sound threshold, it is determined that the environmental information satisfies the environmental threshold.

By adopting the technical scheme, whether the illumination intensity is smaller than a preset first illumination threshold value or not is judged, and when the illumination intensity is smaller than the first illumination threshold value, the illumination intensity is too low and the brightness is seriously insufficient, so that the environment information is directly judged to meet the environment threshold value, and the life of a user is facilitated; when the illumination intensity is greater than or equal to the first illumination threshold, judging whether the illumination intensity is less than a preset second illumination threshold, if the illumination intensity is less than the second illumination threshold and greater than the first illumination threshold, indicating that the illumination intensity is low and the brightness is poor, but not enough to judge that the environment information meets the environment threshold, further judging whether the sound intensity is greater than or equal to a preset sound threshold, and when the sound intensity is greater than or equal to the sound threshold, judging that the environment information meets the environment threshold; through setting up different illumination threshold values to combine the sound threshold value, help judging more accurately whether environmental information satisfies the environmental threshold value, thereby help confirming more intelligently whether to open intelligent LED lamp, not only help convenience of customers life, improve user's quality of life, still help reducing and open intelligent LED lamp at will and lead to the electric energy extravagant.

Optionally, before the determining whether the environmental information meets a preset environmental threshold, the method further includes:

judging whether a specified target exists in the target area;

if the designated target exists in the target area, judging whether the designated target is in a sleep state;

if the designated target is in the sleep state, forbidding the intelligent LED lamp to be started;

and if the specified target is not in the sleep state, continuing to execute subsequent operations.

By adopting the technical scheme, whether the designated target is in the target area or not is judged before whether the environmental information meets the environmental threshold or not is judged, if not, the intelligent LED lamp does not need to be started, so that the electric energy is saved, when the designated target exists in the target area, whether the designated user is in the sleep state or not is judged, if the designated target is in the sleep state, the intelligent LED lamp is not started, the electric energy is saved, the situation that the rest of the user is influenced by starting the intelligent LED lamp is prevented, if the designated target is not in the sleep state, whether the intelligent LED lamp is started or not is judged according to the follow-up judgment condition, the intelligent LED lamp is more intelligent and humanized, and the intelligent experience and life quality of the user are improved.

Optionally, the specific step of acquiring the target mode includes:

judging whether an active setting instruction is acquired;

if the active setting instruction is acquired, selecting the target mode based on the active setting instruction;

if the active setting instruction is not acquired, acquiring historical use data;

selecting the target mode based on the historical usage data.

By adopting the technical scheme, when the active setting instruction is obtained, the corresponding target mode is selected according to the active setting instruction, so that the actual requirements of a user are met; when the active setting instruction is not acquired, the target mode is selected according to the historical use data, the living habits of the user can be reflected by the historical use data, the target mode suitable for the living style of the user is selected according to the living habits of the user, the user does not need to select manually, and the method is not only convenient, but also intelligent, and therefore the intelligent experience and life quality of the user are improved.

Optionally, the specific step of selecting the target mode based on the historical usage data includes:

acquiring current activity information of a specified target;

judging whether the current activity information meets a preset activity rule or not;

if the current activity information meets the activity rule, selecting the target mode based on the historical usage data;

and if the current activity information does not meet the activity rule, automatically matching a target mode corresponding to the current activity information based on the current activity information.

By adopting the technical scheme, whether the current activity information meets a preset activity rule is judged, and if the current activity information meets the activity rule, a target mode is selected based on historical use data; if the current activity information does not meet the activity rule, automatically matching a target mode corresponding to the current activity information based on the current activity information; the current activity information is compared with the activity rule, the target mode matched with the current activity information is selected by combining historical use data, different target modes are intelligently selected according to the historical use data, the user does not need to manually set the target modes, the intellectualization is higher, the intelligent experience of the user is improved, the target modes are automatically selected according to the living habits of the user, the life of the user is well matched, and the life quality of the user is improved.

Optionally, the target mode includes a life mode, a learning mode, a sleep mode, a contextual mode and an entertainment mode; the specific step of obtaining the target adjustment scheme based on the target mode comprises:

if the target mode is the life mode, acquiring life content;

generating a first adjustment scheme based on the life content;

if the target mode is the learning mode, learning content is obtained;

generating a second adjustment scheme based on the learning content and a specified target;

if the target mode is the sleep mode, acquiring the living habits of the designated target;

generating a third adjustment plan based on the lifestyle;

if the target mode is the contextual mode, acquiring physiological indexes of a specified target;

generating a fourth adjustment scheme based on the physiological indicators;

if the target mode is the entertainment mode, obtaining an entertainment project;

based on the entertainment item, a fifth adjustment scheme is generated.

By adopting the technical scheme, the target adjusting scheme corresponding to the target mode is generated according to different target modes, and the target adjusting scheme is not simply changed among a plurality of fixed adjusting schemes, so that the life of the user is more conformed, the life quality of the user is improved, and unnecessary electric energy waste is reduced.

In a second aspect, the present application further discloses an intelligent LED lamp, which adopts the following technical scheme:

an intelligent LED lamp comprising:

the judging module is used for judging whether a starting signal of the intelligent LED lamp is acquired;

the starting module is used for starting the intelligent LED lamp based on the starting signal if the starting signal is obtained;

the first acquisition module is used for acquiring a target mode;

a second obtaining module, for obtaining a target adjusting scheme based on the target mode;

and the adjusting module is used for adjusting the light of the intelligent LED lamp based on the target mode.

Through adopting above-mentioned technical scheme, judge earlier whether intelligent LED lamp acquires the start signal, after acquireing the start signal, start intelligent LED lamp according to the start signal, reacquire the target mode again, according to the target mode of difference, select the target regulation scheme to this target mode to adjust light, need not user's artificial regulation, it is more convenient intelligent, and select the regulation scheme who agrees with this target mode to adjust light, user demand can be better satisfied to help improving user's intelligent experience and quality of life.

In a third aspect, the present application provides an intelligent driver, which adopts the following scheme:

an intelligent driver for driving the intelligent LED lamp of the second aspect.

In a fourth aspect, the present application provides a computer apparatus, which adopts the following technical solutions:

an intelligent terminal comprising a memory, a processor, said memory having stored therein a computer program operable on said processor, when loaded with the computer program, performing the method of the first aspect.

By adopting the technical scheme, the computer program is generated based on the method of the first aspect and is stored in the memory so as to be loaded and executed by the processor, and therefore, the intelligent terminal is manufactured according to the memory and the processor, and the use of a user is facilitated.

To sum up, the application comprises the following beneficial technical effects:

whether the intelligent LED lamp acquires a starting signal or not is judged firstly, after the starting signal is acquired, the intelligent LED lamp is started according to the starting signal, a target mode is acquired, a target adjusting scheme aiming at the target mode is selected to adjust light according to different target modes, manual adjustment of a user is not needed, the intelligent LED lamp is more convenient and intelligent, an adjusting scheme matched with the target mode is selected to adjust the light, user requirements can be better met, and therefore the intelligent LED lamp is beneficial to improving the intelligent experience and life quality of the user.

Drawings

Fig. 1 is a main flowchart of an intelligent LED lamp dimming method according to an embodiment of the present application;

fig. 2 is a flowchart illustrating specific steps from step S201 to step S209;

fig. 3 is a flowchart illustrating specific steps from step S301 to step S305;

fig. 4 is a flowchart illustrating specific steps from step S401 to step S404;

fig. 5 is a step flowchart of steps S501 to S504;

fig. 6 is a step flowchart of steps S601 to S604;

fig. 7 is a step flowchart of steps S701 to S710;

fig. 8 is a block diagram of an intelligent LED lamp according to an embodiment of the present application.

Description of reference numerals:

1. a judgment module; 2. a starting module; 3. a first acquisition module; 4. a second acquisition module; 5. and an adjusting module.

Detailed Description

In a first aspect, the application discloses an intelligent LED lamp dimming method.

Referring to fig. 1, an intelligent LED lamp dimming method includes steps S101 to S105:

step S101: and judging whether a starting signal of the intelligent LED lamp is acquired.

Specifically, in this embodiment, the start signal is a signal for starting the intelligent LED lamp, and the start signal may be given manually or automatically obtained by the intelligent LED lamp according to an external environment.

Step S102: and if the starting signal is acquired, starting the intelligent LED lamp based on the starting signal.

Specifically, in this embodiment, after acquiring the start signal, the intelligent LED lamp starts by itself.

Step S103: and acquiring a target mode.

Specifically, in this embodiment, the target mode, that is, the lighting mode selected by the intelligent LED lamp according to the user information, includes a living mode, a learning mode, a sleeping mode, a contextual mode, an entertainment mode, and the like, and may also include other modes; the user information comprises instructions given by the user, living habits of the user, activities of the user and the like, so that in the embodiment, the target mode can be selected by directly giving the instructions by the user, and the target mode can be selected by calling historical use data of the intelligent LED lamp and knowing the use habits of the user (for example, what target mode is selected at some point) through the historical use data.

Step S104: a target adjustment scheme is obtained based on the target mode.

Specifically, in this embodiment, the target adjustment scheme is a scheme for adjusting the light corresponding to the target mode.

Step S105: and carrying out light adjustment on the intelligent LED lamp based on the target mode.

Specifically, in this embodiment, according to different target modes, a corresponding dimming mode is selected to perform light adjustment on the intelligent LED lamp, for example, the light is turned on in the learning mode, and the light is turned off in the sleep mode.

According to the intelligent LED lamp dimming method provided by the embodiment, whether the intelligent LED lamp acquires the starting signal or not is judged firstly, after the starting signal is acquired, the intelligent LED lamp is started according to the starting signal, the target mode is acquired, the target adjusting scheme aiming at the target mode is selected to adjust the light according to different target modes, manual adjustment of a user is not needed, the intelligent LED lamp dimming method is more convenient and intelligent, the adjusting scheme matched with the target mode is selected to adjust the light, the user requirements can be better met, and therefore the intelligent LED lamp dimming method is beneficial to improving the intelligent experience and the life quality of the user.

Referring to fig. 2, in one implementation of this embodiment, the specific step of determining whether to acquire the start signal of the intelligent LED lamp in step S101 includes steps S201 to S209:

step S201: and judging whether an active opening instruction is received.

Specifically, in this embodiment, the active turn-on instruction refers to an instruction that a user actively turns on the intelligent LED lamp, for example, turning on the intelligent LED lamp through a manual adjustment switch, or turning on the intelligent LED lamp through voice.

Step S202: and if the active opening instruction is received, judging that the starting information is obtained.

Step S203: and if the active opening instruction is not received, acquiring the environment information.

Specifically, in this embodiment, the environment information includes sound, illumination intensity, and the like.

Step S204: and judging whether the environmental information meets a preset environmental threshold value.

Specifically, in this embodiment, the environment threshold is a criterion for determining whether the start-up information is acquired, for example, the illumination intensity is lower than 0.5lux or the sound decibel is higher than 30 decibel.

Step S205: and if the environment information meets the environment threshold value, judging that the starting information is obtained.

Step S206: and if the environment information does not meet the environment threshold value, acquiring the current time node.

Specifically, in this embodiment, the current time node, i.e., the current specific time, is, for example, 11/20/19/15/2022.

Step S207: and judging whether the current time node meets a preset time threshold value.

Specifically, in this embodiment, the time threshold may be set according to sunset times of different regions and different seasons, for example, the sunset time of long sand in south of Hunan in summer is 18:30, the time threshold is 18:30, if the current time node is between 18 00 and 18:30, indicating that the current time node meets a preset time threshold, and if the current time node is not in the range from 18: and 30, indicating that the current time node does not meet the preset time threshold.

Step S208: and if the current time node does not meet the time threshold, judging that the starting signal is not acquired.

Step S209: and if the current time node meets the time threshold, judging that the starting signal is obtained.

According to the intelligent LED lamp dimming method provided by the embodiment, whether an active opening instruction of actively opening the intelligent LED lamp by a user is received or not is judged, if the active opening instruction is not received, whether the environmental information meets a preset environmental threshold or not is judged, if the environmental information meets the environmental threshold, whether a current time node meets a preset time threshold or not is judged, and therefore whether the intelligent LED lamp obtains a starting signal or not is judged; whether the intelligent LED lamp acquires the starting signal or not is judged more accurately by setting multiple judgment conditions, the multiple judgment conditions are set to indicate conditions for starting the intelligent LED lamp, the intelligent LED lamp can be started through different starting conditions, the user requirement can be met, the intelligent LED lamp is more intelligent, and the intelligent LED lamp is helpful for improving the intelligent experience and the life quality of a user.

Referring to fig. 3, in one implementation of this embodiment, the step S204 of determining whether the environmental information satisfies the preset environmental threshold includes steps S301 to S305:

step S301: and acquiring the illumination intensity and judging whether the illumination intensity is smaller than a preset first illumination threshold value.

Specifically, in this embodiment, the illumination intensity refers to the illumination intensity in the space where the intelligent LED lamp is located, for example, if the illumination intensity in the room where the intelligent LED lamp is installed is 5lux, the illumination intensity is 5lux, and the illumination intensity can be measured by an illuminometer or other devices; the first illumination threshold may be set to 0.5lux.

Step S302: and if the illumination intensity is smaller than the first illumination threshold value, judging that the environmental information meets the environmental threshold value.

Specifically, in this embodiment, if the illumination intensity is smaller than the first illumination threshold, it indicates that the illumination intensity is too small, and under such illumination intensity, the user cannot work and live normally, so it is determined that the environmental information satisfies the environmental threshold.

Step S303: and if the illumination intensity is greater than or equal to the first illumination threshold, judging whether the illumination intensity is less than a preset second illumination threshold.

Specifically, in this embodiment, the second illumination threshold may be set to 5lux.

Step S304: and if the illumination intensity is smaller than the second illumination threshold, acquiring the sound intensity and judging whether the sound intensity is larger than or equal to a preset sound threshold.

Specifically, in this embodiment, the sound intensity refers to the sound intensity in the space where the intelligent LED lamp is located, and the sound threshold may be set to 30 decibels.

Step S305: and if the sound intensity is greater than or equal to the sound threshold, judging that the environment information meets the environment threshold.

According to the intelligent LED lamp dimming method provided by the embodiment, whether the illumination intensity is smaller than a preset first illumination threshold value or not is judged, and when the illumination intensity is smaller than the first illumination threshold value, the illumination intensity is too low, and the brightness is seriously insufficient, so that the environment information is directly judged to meet the environment threshold value, and the life of a user is facilitated; when the illumination intensity is greater than or equal to the first illumination threshold, judging whether the illumination intensity is less than a preset second illumination threshold, if the illumination intensity is less than the second illumination threshold and greater than the first illumination threshold, indicating that the illumination intensity is low and the brightness is poor, but not enough to judge that the environment information meets the environment threshold, further judging whether the sound intensity is greater than or equal to a preset sound threshold, and when the sound intensity is greater than or equal to the sound threshold, judging that the environment information meets the environment threshold; through setting up different illumination threshold values to combine the sound threshold value, help judging more accurately whether environmental information satisfies the environmental threshold value, thereby help confirming more intelligently whether to open intelligent LED lamp, not only help convenience of customers life, improve user's quality of life, still help reducing and open intelligent LED lamp at will and lead to the electric energy extravagant.

Referring to fig. 4, before determining whether the environmental information satisfies the preset environmental threshold at step S204, steps S401 to S404 are further included:

step S401: and judging whether the specified target exists in the target area.

Specifically, in this embodiment, the target area refers to an area where the intelligent LED lamp is located, for example, a room in which the intelligent LED lamp is installed; designating a target as a human; in this embodiment, whether a human being exists in the room may be determined by the temperature sensor and/or the camera.

Step S402: and if the designated target exists in the target area, judging whether the designated target is in a sleep state.

Specifically, in this embodiment, physiological states such as breathing, heartbeat, blood pressure and the like of the designated target can be acquired through equipment such as a smart watch or a bracelet, and then the position and the state of the designated user are shot according to the camera, for example, the user lies on a bed, and whether the designated target is in a sleep state or not can be judged by judging whether the designated target is snoring or talking in a dream or not by using the sound sensor.

Step S403: and if the designated target is in a sleep state, forbidding the intelligent LED lamp to be started.

Specifically, in this embodiment, if the designated target is in the sleep state, the light is not turned on, and the light brightness may also be turned down.

Step S404: and if the specified target is not in the sleep state, continuing to execute subsequent operations.

Specifically, in this embodiment, if the designated target is not in the sleep state, the step S204 is continuously executed.

The intelligent LED lamp dimming method provided by the embodiment of the invention judges whether the designated target is in the target area before judging whether the environmental information meets the environmental threshold, if not, the intelligent LED lamp does not need to be started, thereby being beneficial to saving electric energy, when the designated target exists in the target area, whether the designated user is in a sleep state is judged, if the designated target is in the sleep state, the intelligent LED lamp is not started, not only the electric energy is saved, but also the situation that the rest of the user is influenced by starting the intelligent LED lamp is prevented, if the designated target is not in the sleep state, whether the intelligent LED lamp is started is judged according to the subsequent judgment condition, and the intelligent LED lamp dimming method is more intelligent and humanized, thereby being beneficial to improving the intelligent experience and life quality of the user.

Referring to fig. 5, in one implementation of this embodiment, the specific step of acquiring the target pattern in step S103 includes steps S501 to S504:

step S501: and judging whether an active setting instruction is acquired.

Specifically, in this embodiment, the instruction is actively set, that is, an instruction actively issued by the user to select the target mode.

Step S502: and if the active setting instruction is acquired, selecting a target mode based on the active setting instruction.

Specifically, in this embodiment, if the active setting instruction is obtained, the target mode corresponding to the active setting instruction is selected according to the active setting instruction.

Step S503: and if the active setting instruction is not acquired, acquiring historical use data.

Specifically, in the present embodiment, the historical usage data includes historical usage records of the intelligent LED lamp, for example, which target mode is used at which time stage, and the like.

Step S504: based on the historical usage data, a target pattern is selected.

Specifically, in this embodiment, according to the matching between the current time node and the corresponding historical time in the historical usage data, the target mode selected by the historical time node is used as the target mode of the current time node; for example, over the past one month, 19 to 21: between 30, the users are cooking, washing dishes, bathing, washing clothes, etc., and are more in line with the life model, so that the current time node is in the range of 19:30, if no active setting instruction is obtained, the intelligent LED and the like automatically select the life mode as the target mode of the current time node.

According to the intelligent LED lamp dimming method provided by the embodiment, when the active setting instruction is obtained, the corresponding target mode is selected according to the active setting instruction, so that the actual requirements of a user are met; when the active setting instruction is not acquired, the target mode is selected according to the historical use data, the living habits of the user can be reflected by the historical use data, the target mode suitable for the living style of the user is selected according to the living habits of the user, the user does not need to select manually, and the method is not only convenient, but also intelligent, and therefore the intelligent experience and life quality of the user are improved.

Referring to fig. 6, in one implementation of the present embodiment, step S504 includes, based on the historical usage data, a specific step of selecting the target mode from step S601 to step S604:

step S601: and acquiring current activity information of the specified target.

Specifically, in this embodiment, the current activity information is the activity that the specified target performs at the current time node, such as cooking, learning, sleeping, and the like.

Step S602: and judging whether the current activity information meets a preset activity rule.

Specifically, in the present embodiment, the activity rule may be set according to the lifestyle of the user, for example, eating between 19.

Step S603: if the current activity information satisfies the activity rule, a target mode is selected based on the historical usage data.

Specifically, in this embodiment, if the current activity information satisfies the activity rule, the current time node corresponds to the historical time node, and then the target pattern selected by the historical time node (a certain past time node) is used as the target pattern of the current time node, for example, when the user frequently cooks at any one of the following nodes from 19.

Step S604: and if the current activity information does not meet the activity rule, automatically matching a target mode corresponding to the current activity information based on the current activity information.

Specifically, in this embodiment, if the current activity information does not satisfy the activity rule, for example, the current time node is between 19 and 19, and the user is not cooking but watching television, the intelligent LED lamp automatically matches, according to the current activity information, that is, according to the current activity information and watching television, a target pattern commonly used when watching television in the historical usage data as a target pattern of the current time node, for example, watching television is more compatible with an entertainment mode, that is, the intelligent LED lamp is frequently in the entertainment mode when the user is watching television, the current time node is between 19 and 19, and the intelligent LED lamp automatically selects the entertainment mode when the user is not cooking but watching television.

The intelligent LED lamp dimming method provided by the embodiment comprises the steps of firstly judging whether current activity information meets a preset activity rule or not, and if the current activity information meets the activity rule, selecting a target mode based on historical use data; if the current activity information does not meet the activity rule, automatically matching a target mode corresponding to the current activity information based on the current activity information; the current activity information is compared with the activity rule, the target mode matched with the current activity information is selected by combining historical use data, different target modes are intelligently selected according to the historical use data, the user does not need to manually set the target modes, the intellectualization is higher, the intelligent experience of the user is improved, the target modes are automatically selected according to the living habits of the user, the life of the user is well matched, and the life quality of the user is improved.

Referring to fig. 7, in one implementation manner of this embodiment, the specific step of step S104 includes steps S701 to S710:

step S701: and if the target mode is the life mode, acquiring the life content.

Specifically, in this embodiment, the living content includes cooking, eating, washing dishes, bathing, washing clothes, cleaning, and the like, and can be obtained by calling the video database.

Step S702: based on the life content, a first adjustment scheme is generated.

Specifically, in this embodiment, the first adjustment scheme refers to an adjustment scheme for lighting that is formulated according to living content, for example, when cooking, washing dishes, and washing clothes, higher brightness is required for a clearer field of view, and therefore, the illumination intensity needs to be increased, and for example, when eating and bathing, the illumination intensity can be appropriately decreased, so that the warmth degree is increased.

Step S703: if the target mode is a learning mode, learning content is acquired.

Specifically, in this embodiment, the learning content includes reading, writing, and the like, and may be obtained by calling a video database.

Step S704: based on the learning content and the specified goal, a second adjustment scheme is generated.

Specifically, in this embodiment, the second adjustment scheme refers to a scheme of adjusting the light according to the learning content, for example, when the user needs to read and write words, such as a student doing a homework, the illumination intensity needs to be increased in order to make the user more attentive, and when the user only reads words, such as reading before sleep, the illumination intensity can be decreased gradually to help the user relax the mind state and gradually enter a sleep state, compared with the homework.

Step S705: and if the target mode is the sleep mode, acquiring the living habits of the specified target.

Specifically, in this embodiment, the living habits include how many times the user sleeps, how night the user will not get up after sleeping, and what time period the user will get up at night.

Step S706: based on the lifestyle, a third adjustment plan is generated.

Specifically, in this embodiment, the third adjustment scheme refers to a scheme of adjusting the light according to living habits, for example, when the user is in a sleep state between 23.

Step S707: and if the target mode is the contextual mode, acquiring the physiological index of the specified target.

Specifically, in this embodiment, the physiological index includes respiratory rate, blood pressure, heart rate, and the like, and may be obtained by calling data on an intelligent detection device, such as a smart band, a smart watch, and the like; of course, in addition to the physiological index, the sound intensity of the sound generated by the user may be obtained.

Step S708: based on the physiological indicators, a fourth adjustment profile is generated.

Specifically, in this embodiment, the fourth adjustment scheme refers to a scheme for adjusting light according to a physiological index, for example, when a user is in a noisy frame, the breathing rate is faster, the blood pressure is higher, and the heart rate is faster than normal conditions, so that the illumination intensity can be properly reduced, and the color of the intelligent LED lamp is adjusted to be warm, such as pink, which is helpful for the user to relieve the mood; when the user is in a low mood, the breathing frequency is low, the blood pressure is low, and the heart rate is low, the illumination intensity can be properly improved, the color of the intelligent LED lamp is adjusted to be warm, for example, red or orange, and the user can recover the mood as soon as possible.

Step S709: and if the target mode is the entertainment mode, acquiring the entertainment item.

Specifically, in this embodiment, the entertainment items include chess and cards, various games, and the like.

Step S710: based on the entertainment item, a fifth adjustment scheme is generated.

Specifically, in this embodiment, the fifth adjustment scheme refers to the scheme of regulation light according to the amusement project institute, for example the user when watching TV, can turn down illumination intensity, both can practice thrift the electric energy, also can build better sight shadow atmosphere, and the user when carrying out chess and card game, then can increase illumination intensity, guarantees that the field of vision is clear. According to the intelligent LED lamp dimming method provided by the embodiment, the target adjusting schemes corresponding to different target modes are generated instead of simply changing among the fixed adjusting schemes, so that the intelligent LED lamp dimming method is more suitable for the life of a user, improves the life quality of the user, and is beneficial to reducing unnecessary electric energy waste.

The implementation principle of the intelligent LED lamp dimming method in the embodiment of the application is as follows: judging whether a starting signal of the intelligent LED lamp is acquired; if the starting signal is acquired, starting the intelligent LED lamp based on the starting signal; acquiring a target mode; acquiring a target adjusting scheme based on the target mode; and carrying out light adjustment on the intelligent LED lamp based on the target adjustment scheme.

In a second aspect, the application also discloses an intelligent LED lamp.

Referring to fig. 8, an intelligent LED lamp includes:

the judging module 1 is used for judging whether a starting signal of the intelligent LED lamp is acquired;

the starting module 2 is used for starting the intelligent LED lamp based on the starting signal if the starting signal is obtained;

a first obtaining module 3, configured to obtain a target mode;

the second acquisition module 4 is used for acquiring a target adjustment scheme based on the target mode;

and the adjusting module 5 is used for adjusting the light of the intelligent LED lamp based on the target mode.

The implementation principle that intelligence LED lamp was adjusted luminance of this application embodiment does: the method comprises the steps that a judging module 1 judges whether a starting signal of the intelligent LED lamp is acquired, if the starting signal is acquired, the judging module 1 sends a judging result to a starting module 2, the starting module 2 starts the intelligent LED lamp based on the starting signal, a first acquiring module 3 acquires a target mode and sends the target mode to a second acquiring module 4, the second acquiring module 4 acquires a target adjusting scheme based on the target mode and sends the target adjusting scheme to an adjusting module 5, and the adjusting module 5 adjusts the light of the intelligent LED lamp based on the target mode, so that the technical effect same as that of the intelligent LED lamp dimming method is achieved.

In a third aspect, an embodiment of the present application discloses an intelligent driver, configured to drive the intelligent LED lamp of the second aspect.

In a fourth aspect, an embodiment of the present application discloses an intelligent terminal, which includes a memory and a processor, where the memory is used for storing a computer program capable of running on the processor, and when the processor loads the computer program, the intelligent LED lamp dimming method according to the foregoing embodiment is executed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An intelligent LED lamp dimming method is characterized by comprising the following steps:

judging whether a starting signal of the intelligent LED lamp is acquired;

if the starting signal is obtained, starting the intelligent LED lamp based on the starting signal;

acquiring a target mode;

acquiring a target adjusting scheme based on the target mode;

and adjusting the light of the intelligent LED lamp based on the target adjusting scheme.

2. The intelligent LED lamp dimming method according to claim 1, wherein the specific step of judging whether a starting signal of the intelligent LED lamp is acquired comprises the following steps:

judging whether an active opening instruction is received or not;

if the active starting instruction is received, judging to acquire the starting information;

if the active opening instruction is not received, acquiring environment information;

judging whether the environmental information meets a preset environmental threshold value or not;

if the environmental information meets the environmental threshold, judging to acquire the starting information;

if the environmental information does not meet the environmental threshold, acquiring a current time node;

judging whether the current time node meets a preset time threshold value or not;

if the current time node does not meet the time threshold, judging that the starting signal is not acquired;

and if the current time node meets the time threshold, judging that the starting signal is obtained.

3. The intelligent LED lamp dimming method according to claim 2, wherein the specific step of judging whether the environment information meets a preset environment threshold comprises:

acquiring illumination intensity and judging whether the illumination intensity is smaller than a preset first illumination threshold value or not;

if the illumination intensity is smaller than the first illumination threshold, determining that the environmental information meets the environmental threshold;

if the illumination intensity is greater than or equal to the first illumination threshold, judging whether the illumination intensity is smaller than a preset second illumination threshold;

if the illumination intensity is smaller than the second illumination threshold, acquiring sound intensity and judging whether the sound intensity is larger than or equal to a preset sound threshold;

and if the sound intensity is greater than or equal to the sound threshold, determining that the environment information meets the environment threshold.

4. The intelligent LED lamp dimming method according to claim 2, before the determining whether the environmental information satisfies a preset environmental threshold, further comprising:

judging whether a specified target exists in the target area;

if the designated target exists in the target area, judging whether the designated target is in a sleep state;

if the designated target is in the sleep state, forbidding the intelligent LED lamp to be started;

and if the specified target is not in the sleep state, continuing to execute subsequent operations.

5. The intelligent LED lamp dimming method according to claim 1, wherein the specific step of obtaining the target pattern comprises:

judging whether an active setting instruction is acquired;

if the active setting instruction is acquired, selecting the target mode based on the active setting instruction;

if the active setting instruction is not acquired, acquiring historical use data;

selecting the target mode based on the historical usage data.

6. The intelligent LED lamp dimming method of claim 5, wherein the specific step of selecting the target mode based on the historical usage data comprises:

acquiring current activity information of a specified target;

judging whether the current activity information meets a preset activity rule or not;

if the current activity information meets the activity rule, selecting the target mode based on the historical usage data;

and if the current activity information does not meet the activity rule, automatically matching a target mode corresponding to the current activity information based on the current activity information.

7. The method as claimed in claim 5, wherein the target modes include a life mode, a learning mode, a sleep mode, a contextual mode and an entertainment mode, and the step of obtaining the target adjustment scheme based on the target modes comprises:

if the target mode is the life mode, acquiring life content;

generating a first adjustment scheme based on the life content;

if the target mode is the learning mode, learning content is obtained;

generating a second adjustment scheme based on the learning content and a specified target;

if the target mode is the sleep mode, acquiring the living habits of the designated target;

generating a second adjustment scheme based on the lifestyle habits;

if the target mode is the contextual mode, acquiring physiological indexes of a specified target;

generating a third adjustment profile based on the physiological indicator;

if the target mode is the entertainment mode, obtaining an entertainment project;

generating a fourth adjustment scheme based on the entertainment item.

8. An intelligent LED lamp, comprising:

the judging module (1) is used for judging whether a starting signal of the intelligent LED lamp is acquired;

the starting module (2) is used for starting the intelligent LED lamp based on the starting signal if the starting signal is obtained;

a first acquisition module (3) for acquiring a target mode;

a second obtaining module (4) for obtaining a target adjustment scheme based on the target mode;

and the adjusting module (5) is used for adjusting the light of the intelligent LED lamp based on the target mode.

9. An intelligent driver, characterized in that the driver is used to drive the intelligent LED lamp of claim 8.

10. An intelligent terminal comprising a memory and a processor, wherein the memory is used for storing a computer program capable of running on the processor, and the processor executes the method of any one of claims 1 to 7 when loaded with the computer program.

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