CN114615781A - RGBW lamp control method and system - Google Patents

Abstract

The invention provides an RGBW lamp control method and system, wherein the method comprises the following steps: acquiring and displaying a preset light effect list; receiving a light effect selected from the light effect list by a user; acquiring a preset first control scheme corresponding to the light effect; and correspondingly controlling the RGBW lamp according to the first control scheme. According to the RGBW lamp control method and system, the user selects the light effect by operating the APP, the first control scheme corresponding to the light effect selected by the user is determined, the RGBW lamp is controlled by the controller according to the first control scheme, convenience of switching the light effect by the user is improved, meanwhile, the light effect does not need to be stored in advance on the controller of the RGBW lamp, cost is reduced, in addition, different light effects can be updated on the APP for the user to select, and user experience is improved.

Description

RGBW lamp control method and system

Technical Field

The invention relates to the technical field of lamp control, in particular to an RGBW lamp control method and system.

Background

The traditional RGBW lamp control method stores the light effect in the controller of the lamp, and shows different light effects according to the user setting, which has high requirement on the memory size of the controller, causes high cost, and is not convenient enough when the user needs to change the light effect.

Disclosure of Invention

One of the purposes of the invention is to provide an RGBW lamp control method and system, a user selects a light effect by operating an APP, a first control scheme corresponding to the light effect selected by the user is determined, the RGBW lamp is controlled by a controller according to the first control scheme, convenience of switching the light effect by the user is improved, meanwhile, the light effect does not need to be stored in advance on the controller of the RGBW lamp, cost is reduced, in addition, different light effects can be updated on the APP for the user to select, and user experience is improved.

The RGBW lamp control method provided by the embodiment of the invention comprises the following steps:

acquiring and displaying a preset light effect list;

receiving the light effect selected by the user from the light effect list;

acquiring a preset first control scheme corresponding to the light effect;

and correspondingly controlling the RGBW lamp according to the first control scheme.

Preferably, the RGBW luminaire control method further includes:

receiving a self-adaptive operation instruction input by a user and triggering a self-adaptive working mode;

wherein the adaptive operating mode comprises:

controlling a millimeter wave radar sensor to scan a target area to generate radar data;

determining the current state of the user according to the radar data;

determining a second control scheme corresponding to the current state according to a preset determination rule;

and correspondingly controlling the RGBW lamp according to the second control scheme.

Preferably, the determining the current state of the user according to the radar data specifically includes:

analyzing the radar data to determine a target profile of a user;

acquiring a preset standard contour database, and determining a standard contour matched with the target contour in the standard contour database;

acquiring state information corresponding to the standard outline;

and taking the state information as the current state of the user.

Preferably, the RGBW luminaire control method further includes:

constructing a scheme recommendation library, and performing auxiliary recommendation on the user based on the scheme recommendation library when the user self-defines a third control scheme of the RGBW lamp;

the method for constructing the scheme recommendation library comprises the following steps:

acquiring a preset control scheme item set, wherein the control scheme item set comprises: a plurality of first control scheme items;

acquiring a plurality of second control scheme items suitable for the first control scheme item;

respectively and sequentially combining and pairing the first control scheme item and the first control scheme item to obtain a first control scheme paired item;

acquiring at least one piece of effect evaluation information corresponding to the first control scheme pairing item, wherein the effect evaluation information comprises: an evaluation value and a corresponding evaluation node;

acquiring an evaluation weight corresponding to the evaluation node, and giving the evaluation weight corresponding to the evaluation value to obtain an effect value;

determining the first control scheme pairing item corresponding to the maximum effect value, and taking the first control scheme pairing item as a second control scheme pairing item;

acquiring a preset blank database, and storing the second control scheme pairing item into the blank database;

and when the second control scheme matching items required to be stored in the blank database are all stored, taking the blank database as a scheme recommendation library to finish construction.

Preferably, the RGBW luminaire control method further includes:

realizing interaction with a user according to the radar data;

the method for realizing interaction with a user according to the radar data specifically comprises the following steps:

determining the current position of the user according to the radar data;

taking any one light source in the RGBW lamp as a first target light source;

acquiring a light source position of the first target light source;

determining a real-time distance between the user and the first target light source based on the current location and the light source location;

when the real-time distance is smaller than or equal to a preset distance threshold value, triggering an interaction mode;

wherein, the triggering interaction mode specifically includes:

determining a sound source according to a preset sound source determination rule, and playing the sound source through a playing device;

acquiring the minimum amplitude of the sound source in each preset period in a preset time period to generate a minimum amplitude queue;

adjusting the current brightness of the first target light source based on the real-time distance and the minimum amplitude queue:

wherein V is a brightness adjusted for the current brightness of the first target light source, V₀Is the current brightness of the first target light source, L is the real-time distance, L₀Is the distance threshold, x_iIs the ith minimum amplitude in the minimum amplitude queue, e₁And e₂The weight value is a preset weight value;

acquiring the minimum frequency of the sound source in each period in the time period, and generating a minimum frequency queue;

adjusting a current hue of the first target light source based on the real-time distance and the minimum frequency queue:

wherein H is a hue obtained by adjusting the current hue of the first target light source, H₀Is the current hue of the first target light source, f_iFor the ith minimum frequency in the minimum frequency queue, e₃And e₄Is a preset weight value.

Preferably, the RGBW luminaire control method further includes:

acquiring a preset product information database, determining an aging light source in the RGBW lamp according to the product information database, and controlling the aging light source to flash according to a preset reminding color;

determining an aging light source in the RGBW lamp according to the product information database, specifically comprising:

taking any light source in the RGBW lamp as a second target light source;

acquiring target product information corresponding to the second target light source in the product information database, including: the model, the manufacturer, the rank of the manufacturer corresponding to the manufacturer, the service life and the service life;

determining an evaluation index corresponding to the model according to preset lamp big data;

the method for determining the evaluation index corresponding to the model according to the preset lamp big data specifically comprises the following steps:

acquiring an acquisition path list corresponding to the lamp big data;

acquiring the path information of each acquired path in the acquired path list, including: the scores, the integrity of user data, the total number of user consumption records, the daily average online time of the user and the guarantee amount given by each evaluation mechanism;

calculating the ranking index of each acquired path based on the path information:

wherein Q is_wFor the second index of the w-th acquisition path in the acquisition path list, K_w,dThe grade given by the d-th evaluation mechanism corresponding to the w-th acquisition path is obtained, wherein O is the total number of the evaluation mechanisms, and R is_w,lData integrity, X, of the first user corresponding to the w-th acquisition path_w,lThe total number of consumption records, M, of the ith user corresponding to the w-th acquisition path_w,lAverage online time per day, S, of the ith user corresponding to the w-th acquisition path_wThe total number of users corresponding to the w-th acquisition path, A_wA guarantee amount, Z, corresponding to the w-th acquisition path₁、Z₂And Z₃The weight value is a preset weight value;

sorting the acquired paths in the acquired path list from large to small according to corresponding sorting indexes, and selecting the first N acquired paths as target acquired paths;

acquiring the lamp big data from the target acquisition path;

processing the lamp big data based on a semantic recognition technology to obtain target evaluation data corresponding to the model, wherein the target evaluation data comprises the following steps: number of good reviews, number of medium reviews and number of bad reviews;

calculating an evaluation index corresponding to the model based on the manufacturer ranking, the service life duration, the service time, the number of good comments, the number of medium comments and the number of poor comments:

wherein eva is the evaluation index, t₁To use time, t₂The service life is long, alpha is the number of good comments, beta is the number of medium comments, gamma is the number of bad comments, rho is the rank of the manufacturer, sigma₁、σ₂And σ₃Is a preset weight value, sigma₁＞σ₂＞σ₃；

And when the evaluation index is greater than or equal to a preset evaluation index threshold value, taking the second target light source as an aging light source.

The RGBW lamp control system provided by the embodiment of the invention comprises:

the first acquisition module is used for acquiring and displaying a preset light effect list;

the receiving module is used for receiving the light effect selected by the user from the light effect list;

the second acquisition module is used for acquiring a preset first control scheme corresponding to the lighting effect;

and the control module is used for correspondingly controlling the RGBW lamp according to the first control scheme.

Preferably, the RGBW luminaire control system further comprises:

the self-adaptive working module is used for receiving a self-adaptive running instruction input by a user and triggering a self-adaptive working mode;

wherein the adaptive work module performs operations comprising:

controlling a millimeter wave radar sensor to scan a target area to generate radar data;

determining the current state of the user according to the radar data;

determining a second control scheme corresponding to the current state according to a preset determination rule;

and correspondingly controlling the RGBW lamp according to the second control scheme.

Preferably, the determining, by the adaptive working module, the current state of the user according to the radar data specifically includes:

analyzing the radar data to determine a target profile of a user;

acquiring a preset standard contour database, and determining a standard contour matched with the target contour in the standard contour database;

acquiring state information corresponding to the standard outline;

and taking the state information as the current state of the user.

Preferably, the RGBW luminaire control system further comprises:

the interaction module is used for realizing interaction with a user according to the radar data;

the interactive module executes the following operations:

determining the current position of the user according to the radar data;

taking any one light source in the RGBW lamp as a first target light source;

acquiring a light source position of the first target light source;

determining a real-time distance between the user and the first target light source based on the current location and the light source location;

when the real-time distance is smaller than or equal to a preset distance threshold value, triggering an interaction mode;

wherein, the triggering interaction mode specifically includes:

determining a sound source according to a preset sound source determination rule, and playing the sound source through a playing device;

acquiring the minimum amplitude of the sound source in each preset period in a preset time period to generate a minimum amplitude queue;

adjusting the current brightness of the first target light source based on the real-time distance and the minimum amplitude queue:

wherein V is a brightness adjusted for the current brightness of the first target light source, V₀Is the current brightness of the first target light source, L is the real-time distance, L₀Is the distance threshold, x_iIs the ith minimum amplitude in the minimum amplitude queue, e₁And e₂The weight value is a preset weight value;

acquiring the minimum frequency of the sound source in each period in the time period, and generating a minimum frequency queue;

adjusting a current hue of the first target light source based on the real-time distance and the minimum frequency queue:

wherein H is a hue obtained by adjusting the current hue of the first target light source, H₀Is that it isCurrent hue of the first target light source, f_iFor the ith minimum frequency in the minimum frequency queue, e₃And e₄Is a preset weight value.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of an RGBW lamp control method in an embodiment of the present invention;

fig. 2 is a schematic diagram of an RGBW lamp control system in an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The embodiment of the invention provides an RGBW lamp control method, as shown in FIG. 1, comprising the following steps:

s1, acquiring and displaying a preset light effect list;

s2, receiving the light effect selected by the user from the light effect list;

s3, acquiring a preset first control scheme corresponding to the lighting effect;

and S4, correspondingly controlling the RGBW lamp according to the first control scheme.

The working principle of the technical scheme is as follows:

a user can select a light effect by operating an APP on an intelligent terminal (such as a mobile phone, a tablet and the like), a first control scheme corresponding to the light effect selected by the user is obtained, and the RGBW lamp is controlled by the controller according to the first control scheme.

The beneficial effects of the above technical scheme are: according to the embodiment of the invention, the user selects the light effect by operating the APP, the first control scheme corresponding to the light effect selected by the user is determined, and the RGBW lamp is controlled by the controller according to the first control scheme, so that the convenience of switching the light effect by the user is improved, meanwhile, the light effect does not need to be stored in advance on the controller of the RGBW lamp, the cost is reduced, in addition, different light effects can be updated on the APP for the user to select, and the user experience is improved.

The embodiment of the invention provides an RGBW lamp control method, which further comprises the following steps:

receiving a self-adaptive operation instruction input by a user and triggering a self-adaptive working mode;

wherein the adaptive operating mode comprises:

controlling a millimeter wave radar sensor to scan a target area to generate radar data;

determining the current state of the user according to the radar data;

determining a second control scheme corresponding to the current state according to a preset determination rule;

and correspondingly controlling the RGBW lamp according to the second control scheme.

The working principle of the technical scheme is as follows:

the target area is specifically: bedrooms, living rooms, kitchens, etc.; the generation of radar data by millimeter wave scanning is the prior art and is not described in detail; the current state is specifically: not at home, walking, sleeping, eating, yoga making and the like; the preset determination rule is specifically as follows: for example, when it is determined that the user is not at home or when it is determined that the user is sleeping in a bedroom, the RGBW luminaire is turned off; when the user is determined to eat before sitting on the dining table, the RGBW lamp is controlled to display a soft color which is suitable for the eating environment; and when the user is determined to run on the running machine in the living room, controlling the RGBW lamp to be in a dynamic flickering state.

The beneficial effects of the above technical scheme are: according to the embodiment of the invention, the current state of the user is determined according to the radar data generated by scanning the target area by the millimeter wave radar sensor, the RGBW lamp is correspondingly controlled according to the current state, manual operation of the user is not needed, and the device is very intelligent.

The embodiment of the invention provides an RGBW lamp control method, which determines the current state of a user according to radar data, and specifically comprises the following steps:

analyzing the radar data to determine a target profile of a user;

acquiring a preset standard contour database, and determining a standard contour matched with a target contour in the standard contour database;

acquiring state information corresponding to the standard outline;

and taking the state information as the current state of the user.

The working principle of the technical scheme is as follows:

firstly, the millimeter wave radar sensor determines a position with breathing and heart rate characteristics (namely the position of a user) in a target area, and then the position is directionally scanned to obtain contour data (namely a target contour); the preset standard outline database is pre-stored with standard outlines (such as an outline of running of a user, an outline of eating before sitting on a dining table, an outline of sleeping, an outline of playing a mobile phone while sitting on a sofa, and the like) which are trained in a large number of experiments in advance; for example: and when the target profile of the user is matched with the sleeping profile of the user in the standard profile database, determining the current state of the user as sleeping.

The beneficial effects of the above technical scheme are: the embodiment of the invention determines the current state of the user according to the radar data, and has high accuracy.

The embodiment of the invention provides an RGBW lamp control method, which further comprises the following steps:

constructing a scheme recommendation library, and performing auxiliary recommendation on the user based on the scheme recommendation library when the user self-defines a third control scheme of the RGBW lamp;

the method for constructing the scheme recommendation library comprises the following steps:

acquiring a preset control scheme item set, wherein the control scheme item set comprises: a plurality of first control scheme items;

acquiring a plurality of second control scheme items suitable for the first control scheme item;

respectively and sequentially combining and pairing the first control scheme item and the first control scheme item to obtain a first control scheme paired item;

acquiring at least one piece of effect evaluation information corresponding to the first control scheme pairing item, wherein the effect evaluation information comprises: an evaluation value and a corresponding evaluation node;

acquiring an evaluation weight corresponding to the evaluation node, and giving the evaluation weight corresponding to the evaluation value to obtain an effect value;

determining the first control scheme pairing item corresponding to the maximum effect value, and taking the first control scheme pairing item as a second control scheme pairing item;

acquiring a preset blank database, and storing the second control scheme pairing item into the blank database;

and when the second control scheme matching items required to be stored in the blank database are all stored, taking the blank database as a scheme recommendation library to finish construction.

The working principle of the technical scheme is as follows:

the RGBW lamp also supports a user to design a control scheme by himself, and when the user designs the third control scheme, the scheme is recommended to the user based on the constructed scheme recommendation library (for example, when the user designs the flicker color of the first row of lamp groups to be green, the user is recommended to design the flicker color of the second row of lamp groups to be white which is in contrast with the green); when a scheme recommendation library is constructed, acquiring a preset control scheme set, wherein the control scheme set comprises a plurality of first control scheme items which are different design schemes, preliminarily acquiring second control scheme items which are suitable for the first control scheme items, respectively pairing the second control scheme items with the first control scheme items, and acquiring effect evaluation information corresponding to the paired first control scheme paired items, wherein the effect evaluation information comprises evaluation values and corresponding evaluation nodes, the effect is better if the evaluation values are larger, the evaluation nodes can be butted with other users, effect evaluation workers and the like, and the higher the evaluation weight of the evaluation nodes is, the more reliable the corresponding evaluation is; giving evaluation value corresponding evaluation weight (multiplying the evaluation value by the evaluation weight) to obtain effect value; extracting a second control scheme pairing item corresponding to the maximum effect value, storing the second control scheme pairing item into a blank database, and constructing a scheme recommendation library;

the embodiment of the invention supports the user to design the control scheme of the RGBW lamp by himself, and when the user designs, the user is recommended in an auxiliary way, so that the design efficiency and the user experience of the user are improved, and meanwhile, the control scheme is more intelligent.

The embodiment of the invention provides an RGBW lamp control method, which further comprises the following steps:

realizing interaction with a user according to the radar data;

the interaction with the user is realized according to the radar data, and the method specifically comprises the following steps:

determining the current position of the user according to the radar data;

taking any light source in the RGBW lamp as a first target light source;

acquiring a light source position of a first target light source;

determining a real-time distance between the user and the first target light source based on the current position and the light source position;

when the real-time distance is smaller than or equal to a preset distance threshold value, triggering an interaction mode;

wherein, triggering the interaction mode specifically includes:

determining a sound source according to a preset sound source determination rule, and playing the sound source through a playing device;

acquiring the minimum amplitude of a sound source in each preset period in a preset time period, and generating a minimum amplitude queue;

adjusting the current brightness of the first target light source based on the real-time distance and the minimum amplitude queue:

wherein V is a brightness adjusted for the current brightness of the first target light source, V₀Is the current brightness of the first target light source, L is the real-time distance, L₀Is the distance threshold, x_iIs the ith minimum amplitude in the minimum amplitude queue, e₁And e₂The weight value is a preset weight value;

acquiring the minimum frequency of the sound source in each period in the time period, and generating a minimum frequency queue;

adjusting a current hue of the first target light source based on the real-time distance and the minimum frequency queue:

wherein H is a hue obtained by adjusting the current hue of the first target light source, H₀Is the current hue of the first target light source, f_iFor the ith minimum frequency in the minimum frequency queue, e₃And e₄Is a preset weight value.

The working principle of the technical scheme is as follows:

the light source is specifically: a certain lamp on the RGBW lamp; the millimeter wave radar sensor has a positioning function and can determine the position of a user in real time; when the real-time distance is smaller than or equal to a preset distance threshold (for example: 1.5m), indicating that the user approaches to a corresponding light source in the RGBW lamp, and triggering an interaction mode; in the interactive mode, the brightness and the tone of each light source are adjusted according to the real-time distance and the characteristics of the sound source; the preset sound source determination rule specifically comprises the following steps: the favorite music of the user is screened out according to the song listening records, the praise records, the collection records and the like of the user on each big music platform; when a user moves, different transformations can be made on each light source in the RGBW lamp along with the movement of the user; the preset time period specifically comprises the following steps: the last 0.2 seconds of the current time; the preset period is as follows: 20 milliseconds; adjusting brightness and hue by adopting an HSV color model; max is a maximum function, min is a minimum function;

the beneficial effects of the above technical scheme are: according to the embodiment of the invention, when the user approaches the RGBW lamp, each light source on the RGBW lamp is controlled to be adjusted according to the real-time distance from the user to the RGBW lamp and the characteristics of the played sound source, so that the interactivity is very good, and the user experience is greatly improved.

The embodiment of the invention provides an RGBW lamp control method, which further comprises the following steps:

acquiring a preset product information database, determining an aging light source in the RGBW lamp according to the product information database, and controlling the aging light source to flash according to a preset reminding color;

the method for determining the aging light source in the RGBW lamp according to the product information database specifically comprises the following steps:

taking any light source in the RGBW lamp as a second target light source;

acquiring target product information corresponding to the second target light source in the product information database, including: the model, the manufacturer, the rank of the manufacturer corresponding to the manufacturer, the service life and the service life;

determining an evaluation index corresponding to the model according to preset lamp big data;

the method comprises the following steps of determining an evaluation index corresponding to a model according to preset lamp big data, and specifically comprises the following steps:

acquiring an acquisition path list corresponding to the lamp big data;

acquiring the path information of each acquired path in the acquired path list, wherein the acquiring comprises the following steps: the scores, the integrity of user data, the total number of user consumption records, the daily average online time of the user and the guarantee amount given by each evaluation mechanism;

calculating the ranking index of each acquired path based on the path information:

wherein Q is_wFor the second index of the w-th acquisition path in the acquisition path list, K_w,dThe grade given by the d-th evaluation mechanism corresponding to the w-th acquisition path is obtained, wherein O is the total number of the evaluation mechanisms, and R is_w,lData integrity, X, of the first user corresponding to the w-th acquisition path_w,lFor the w-th acquisition path pairTotal number of consumption records, M, for the first user_w,lAverage online time per day, S, of the ith user corresponding to the w-th acquisition path_wThe total number of users corresponding to the w-th acquisition path, A_wA guarantee amount, Z, corresponding to the w-th acquisition path₁、Z₂And Z₃The weight value is a preset weight value;

sorting all the acquired paths in the acquired path list from large to small according to corresponding sorting indexes, and selecting the first N acquired paths as target acquired paths;

acquiring lamp big data from a target acquisition path;

processing the lamp big data based on a semantic recognition technology to obtain target evaluation data corresponding to the model, wherein the method comprises the following steps of: number of good reviews, number of medium reviews and number of bad reviews;

calculating an evaluation index corresponding to the model based on the manufacturer ranking, the service life duration, the service time, the number of good comments, the number of medium comments and the number of bad comments:

wherein eva is the evaluation index, t₁To use time, t₂The service life is long, alpha is the number of good comments, beta is the number of medium comments, gamma is the number of bad comments, rho is the rank of the manufacturer, sigma₁、σ₂And σ₃Is a preset weight value, σ₁＞σ₂＞σ₃；

And when the evaluation index is greater than or equal to a preset evaluation index threshold value, taking the second target light source as an aging light source.

The working principle of the technical scheme is as follows:

the preset reminding colors are specifically as follows: red; the path acquisition specifically comprises: a certain shopping website, a certain lamp communication forum and the like; the guarantee amount is specifically: when the system is cooperated with each acquisition path, the system can pay for acquisition and can ensure that the acquisition path pays a certain security guarantee amount; the evaluation mechanism specifically comprises: a website evaluation institution; the higher the rating given by the evaluation authority, the more complete the user profile, the record of consumption for the existence, the frequent online of the user, and the large amount of the guarantee, the higher the trustworthiness of the acquisition path.

The beneficial effects of the above technical scheme are: the embodiment of the invention evaluates the lamp (calculates the evaluation index) accurately and reasonably according to the service life of the lamp, the information of a manufacturer and the evaluation in the big data of the corresponding model, and meanwhile, when the big data is obtained, all the obtained paths are sequenced, the obtained path with the front rank is selected to obtain the big data, so that the reliability of the big data source is improved.

An embodiment of the present invention provides an RGBW lamp control system, as shown in fig. 2, including:

the first acquisition module 1 is used for acquiring and displaying a preset light effect list;

the receiving module 2 is used for receiving the light effect selected by the user from the light effect list;

the second obtaining module 3 is used for obtaining a preset first control scheme corresponding to the lighting effect;

and the control module 4 is used for correspondingly controlling the RGBW lamp according to the first control scheme.

The working principle of the technical scheme is as follows:

a user can select a light effect by operating an APP on an intelligent terminal (such as a mobile phone, a tablet and the like), a first control scheme corresponding to the light effect selected by the user is obtained, and the RGBW lamp is controlled by the controller according to the first control scheme.

The beneficial effects of the above technical scheme are: according to the embodiment of the invention, the user selects the light effect by operating the APP, the first control scheme corresponding to the light effect selected by the user is determined, and the RGBW lamp is controlled by the controller according to the first control scheme, so that the convenience of switching the light effect by the user is improved, meanwhile, the light effect does not need to be stored in advance on the controller of the RGBW lamp, the cost is reduced, in addition, different light effects can be updated on the APP for the user to select, and the user experience is improved.

The embodiment of the invention provides an RGBW lamp control system, which further comprises:

the self-adaptive working module is used for receiving a self-adaptive running instruction input by a user and triggering a self-adaptive working mode;

wherein the adaptive work module performs operations comprising:

controlling a millimeter wave radar sensor to scan a target area to generate radar data;

determining the current state of the user according to the radar data;

determining a second control scheme corresponding to the current state according to a preset determination rule;

and correspondingly controlling the RGBW lamp according to the second control scheme.

The working principle of the technical scheme is as follows:

the target area is specifically: bedrooms, living rooms, kitchens, etc.; the generation of radar data by millimeter wave scanning is the prior art and is not described in detail; the current state is specifically: not at home, walking, sleeping, eating, yoga making and the like; the preset determination rule is specifically as follows: for example, when it is determined that the user is not at home or when it is determined that the user is sleeping in a bedroom, the RGBW luminaire is turned off; when the user is determined to eat before sitting on the dining table, the RGBW lamp is controlled to display a soft color which is suitable for the eating environment; and when the user is determined to run on the running machine in the living room, controlling the RGBW lamp to be in a dynamic flickering state.

The beneficial effects of the above technical scheme are: according to the embodiment of the invention, the current state of the user is determined according to the radar data generated by the millimeter wave radar sensor scanning the target area, the RGBW lamp is correspondingly controlled according to the current state, manual operation of the user is not needed, and the method is very intelligent.

The embodiment of the invention provides an RGBW lamp control system, wherein the self-adaptive working module determines the current state of a user according to the radar data, and the method specifically comprises the following steps:

analyzing the radar data to determine a target profile of a user;

acquiring a preset standard contour database, and determining a standard contour matched with the target contour in the standard contour database;

acquiring state information corresponding to the standard outline;

and taking the state information as the current state of the user.

The working principle of the technical scheme is as follows:

firstly, the millimeter wave radar sensor determines a position with breathing and heart rate characteristics (namely the position of a user) in a target area, and then the position is directionally scanned to obtain contour data (namely a target contour); the preset standard outline database is pre-stored with standard outlines (such as an outline of running of a user, an outline of eating before sitting on a dining table, an outline of sleeping, an outline of playing a mobile phone while sitting on a sofa, and the like) which are trained in a large number of experiments in advance; for example: and when the target profile of the user is matched with the sleeping profile of the user in the standard profile database, determining the current state of the user as sleeping.

The beneficial effects of the above technical scheme are: the embodiment of the invention determines the current state of the user according to the radar data, and has high accuracy.

The embodiment of the invention provides an RGBW lamp control system, which further comprises:

designing an auxiliary recommendation module, which is used for constructing a scheme recommendation library, and performing auxiliary recommendation on the user based on the scheme recommendation library when the user self-defines a third control scheme of the RGBW lamp;

the method for constructing the scheme recommendation library comprises the following steps:

acquiring a preset control scheme item set, wherein the control scheme item set comprises: a plurality of first control scheme items;

acquiring a plurality of second control scheme items suitable for the first control scheme item;

respectively and sequentially combining and pairing the first control scheme item and the first control scheme item to obtain a first control scheme paired item;

obtaining at least one piece of effect evaluation information corresponding to the first control scheme pairing item, where the effect evaluation information includes: an evaluation value and a corresponding evaluation node;

acquiring an evaluation weight corresponding to the evaluation node, and giving the evaluation weight corresponding to the evaluation value to obtain an effect value;

determining the first control scheme pairing item corresponding to the maximum effect value, and taking the first control scheme pairing item as a second control scheme pairing item;

acquiring a preset blank database, and storing the second control scheme pairing item into the blank database;

and when the second control scheme matching items required to be stored in the blank database are all stored, taking the blank database as a scheme recommendation library to finish construction.

The working principle of the technical scheme is as follows:

the RGBW lamp also supports a user to design a control scheme by himself, and when the user designs the third control scheme, the scheme is recommended to the user based on the constructed scheme recommendation library (for example, when the user designs the flicker color of the first row of lamp groups to be green, the user is recommended to design the flicker color of the second row of lamp groups to be white which is in contrast with the green); when a scheme recommendation library is constructed, acquiring a preset control scheme set, wherein the control scheme set comprises a plurality of first control scheme items which are different design schemes, preliminarily acquiring second control scheme items which are suitable for the first control scheme items, respectively pairing the second control scheme items with the first control scheme items, and acquiring effect evaluation information corresponding to the paired first control scheme paired items, wherein the effect evaluation information comprises evaluation values and corresponding evaluation nodes, the effect is better if the evaluation values are larger, the evaluation nodes can be butted with other users, effect evaluation workers and the like, and the higher the evaluation weight of the evaluation nodes is, the more reliable the corresponding evaluation is; giving evaluation value corresponding evaluation weight (multiplying the evaluation value by the evaluation weight) to obtain effect value; extracting a second control scheme pairing item corresponding to the maximum effect value, storing the second control scheme pairing item into a blank database, and constructing a scheme recommendation library;

the embodiment of the invention supports the user to design the control scheme of the RGBW lamp by himself, and when the user designs, the user is recommended in an auxiliary way, so that the design efficiency and the user experience of the user are improved, and meanwhile, the control scheme is more intelligent.

The embodiment of the invention provides an RGBW lamp control system, which further comprises:

the interaction module is used for realizing interaction with a user according to the radar data;

the interactive module executes the following operations:

determining the current position of the user according to the radar data;

taking any one light source in the RGBW lamp as a first target light source;

acquiring a light source position of the first target light source;

determining a real-time distance between the user and the first target light source based on the current location and the light source location;

when the real-time distance is smaller than or equal to a preset distance threshold value, triggering an interaction mode;

wherein, the triggering interaction mode specifically includes:

determining a sound source according to a preset sound source determination rule, and playing the sound source through a playing device;

acquiring the minimum amplitude of the sound source in each preset period in a preset time period to generate a minimum amplitude queue;

adjusting the current brightness of the first target light source based on the real-time distance and the minimum amplitude queue:

wherein V is a brightness adjusted for the current brightness of the first target light source, V₀Is the current brightness of the first target light source, L is the real-time distance, L₀Is the distance threshold, x_iIs the ith minimum amplitude in the minimum amplitude queue, e₁And e₂The weight value is a preset weight value;

acquiring the minimum frequency of the sound source in each period in the time period, and generating a minimum frequency queue;

adjusting a current hue of the first target light source based on the real-time distance and the minimum frequency queue:

wherein H is a hue obtained by adjusting the current hue of the first target light source, H₀Is the current hue of the first target light source, f_iFor the ith minimum frequency in the minimum frequency queue, e₃And e₄Is a preset weight value.

The working principle of the technical scheme is as follows:

the light source is specifically: a certain lamp on the RGBW lamp; the millimeter wave radar sensor has a positioning function and can determine the position of a user in real time; when the real-time distance is smaller than or equal to a preset distance threshold (for example: 1.5m), indicating that the user approaches to a corresponding light source in the RGBW lamp, and triggering an interaction mode; in the interactive mode, the brightness and the tone of each light source are adjusted according to the real-time distance and the characteristics of the sound source; the preset sound source determination rule specifically comprises the following steps: the favorite music of the user is screened out according to the song listening records, the praise records, the collection records and the like of the user on each big music platform; when a user moves, different transformations can be made on each light source in the RGBW lamp along with the movement of the user; the preset time period specifically comprises the following steps: the last 0.2 seconds of the current time; the preset period is as follows: 20 milliseconds; adjusting brightness and hue by adopting an HSV color model; max is a maximum function, min is a minimum function;

the beneficial effects of the above technical scheme are: according to the embodiment of the invention, when the user approaches the RGBW lamp, each light source on the RGBW lamp is controlled to be adjusted according to the real-time distance from the user to the RGBW lamp and the characteristics of the played sound source, so that the interactivity is very good, and the user experience is greatly improved.

The embodiment of the invention provides an RGBW lamp control system, which further comprises:

the aging light source determining module is used for acquiring a preset product information database, determining an aging light source in the RGBW lamp according to the product information database, and controlling the aging light source to flash according to a preset reminding color;

the aging light source determination module performs operations including:

taking any light source in the RGBW lamp as a second target light source;

acquiring target product information corresponding to the second target light source in the product information database, including: the model, the manufacturer, the rank of the manufacturer corresponding to the manufacturer, the service life and the service life;

determining an evaluation index corresponding to the model according to preset lamp big data;

the method for determining the evaluation index corresponding to the model according to the preset lamp big data specifically comprises the following steps:

acquiring an acquisition path list corresponding to the lamp big data;

acquiring the path information of each acquired path in the acquired path list, including: the scores, the integrity of user data, the total number of user consumption records, the daily average online time of the user and the guarantee amount given by each evaluation mechanism;

calculating the ranking index of each acquired path based on the path information:

wherein Q is_wFor the second index of the w-th acquisition path in the acquisition path list, K_w,dThe grade given by the d-th evaluation mechanism corresponding to the w-th acquisition path is obtained, wherein O is the total number of the evaluation mechanisms, and R is_w,lData integrity, X, of the first user corresponding to the w-th acquisition path_w,lThe total number of consumption records, M, of the ith user corresponding to the w-th acquisition path_w,lAverage online time per day, S, of the ith user corresponding to the w-th acquisition path_wThe total number of users corresponding to the w-th acquisition path, A_wA guarantee amount, Z, corresponding to the w-th acquisition path₁、Z₂And Z₃The weight value is a preset weight value;

sorting all the acquired paths in the acquired path list from large to small according to corresponding sorting indexes, and selecting the first N acquired paths as target acquired paths;

acquiring the lamp big data from the target acquisition path;

processing the lamp big data based on a semantic recognition technology to obtain target evaluation data corresponding to the model, wherein the target evaluation data comprises the following steps: number of good reviews, number of medium reviews and number of bad reviews;

calculating an evaluation index corresponding to the model based on the manufacturer ranking, the service life duration, the service time, the number of good comments, the number of medium comments and the number of bad comments:

wherein eva is the evaluation index, t₁To use time, t₂The service life is long, alpha is the number of good comments, beta is the number of medium comments, gamma is the number of bad comments, rho is the rank of the manufacturer, sigma₁、σ₂And σ₃Is a preset weight value, σ₁＞σ₂＞σ₃；

And when the evaluation index is greater than or equal to a preset evaluation index threshold value, taking the second target light source as an aging light source.

The working principle of the technical scheme is as follows:

the preset reminding colors are specifically as follows: red; the path acquisition method specifically comprises the following steps: a certain shopping website, a certain lamp communication forum and the like; the guarantee amount is specifically: when the system is cooperated with each acquisition path, the system can pay for acquisition and can ensure that the acquisition path pays a certain security guarantee amount; the evaluation mechanism specifically comprises: a website evaluation institution; the higher the rating given by the evaluation authority, the more complete the user profile, the record of consumption for the existence, the frequent online of the user, and the large amount of the guarantee, the higher the trustworthiness of the acquisition path.

The beneficial effects of the above technical scheme are: the embodiment of the invention evaluates the lamp (calculates the evaluation index) accurately and reasonably according to the service life of the lamp, the information of a manufacturer and the evaluation in the big data of the corresponding model, and meanwhile, when the big data is obtained, all the obtained paths are sequenced, the obtained path with the front rank is selected to obtain the big data, so that the reliability of the big data source is improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An RGBW lamp control method is characterized by comprising the following steps:

acquiring and displaying a preset light effect list;

receiving the light effect selected by the user from the light effect list;

acquiring a preset first control scheme corresponding to the light effect;

and correspondingly controlling the RGBW lamp according to the first control scheme.

2. The RGBW luminaire control method of claim 1, further comprising:

receiving a self-adaptive operation instruction input by a user and triggering a self-adaptive working mode;

wherein the adaptive operating mode comprises:

controlling a millimeter wave radar sensor to scan a target area to generate radar data;

determining the current state of the user according to the radar data;

determining a second control scheme corresponding to the current state according to a preset determination rule;

and correspondingly controlling the RGBW lamp according to the second control scheme.

3. The RGBW luminaire control method according to claim 2, wherein the determining the current state of the user according to the radar data specifically comprises:

analyzing the radar data to determine a target profile of a user;

acquiring a preset standard contour database, and determining a standard contour matched with the target contour in the standard contour database;

acquiring state information corresponding to the standard outline;

and taking the state information as the current state of the user.

4. The RGBW luminaire control method of claim 1, further comprising:

constructing a scheme recommendation library, and performing auxiliary recommendation on the user based on the scheme recommendation library when the user self-defines a third control scheme of the RGBW lamp;

the method for constructing the scheme recommendation library comprises the following steps:

acquiring a preset control scheme item set, wherein the control scheme item set comprises: a plurality of first control scheme items;

acquiring a plurality of second control scheme items suitable for the first control scheme item;

respectively and sequentially combining and pairing the first control scheme item and the first control scheme item to obtain a first control scheme paired item;

acquiring at least one piece of effect evaluation information corresponding to the first control scheme pairing item, wherein the effect evaluation information comprises: an evaluation value and a corresponding evaluation node;

acquiring an evaluation weight corresponding to the evaluation node, and giving the evaluation weight corresponding to the evaluation value to obtain an effect value;

determining the first control scheme pairing item corresponding to the maximum effect value, and taking the first control scheme pairing item as a second control scheme pairing item;

acquiring a preset blank database, and storing the second control scheme pairing item into the blank database;

and when the second control scheme matching items required to be stored in the blank database are all stored, taking the blank database as a scheme recommendation library to finish construction.

5. The RGBW luminaire control method of claim 2, further comprising:

realizing interaction with a user according to the radar data;

the method for realizing interaction with a user according to the radar data specifically comprises the following steps:

determining the current position of the user according to the radar data;

taking any one light source in the RGBW lamp as a first target light source;

acquiring a light source position of the first target light source;

determining a real-time distance between the user and the first target light source based on the current location and the light source location;

when the real-time distance is smaller than or equal to a preset distance threshold value, triggering an interaction mode;

wherein, the triggering interaction mode specifically includes:

determining a sound source according to a preset sound source determination rule, and playing the sound source through a playing device;

acquiring the minimum amplitude of the sound source in each preset period in a preset time period to generate a minimum amplitude queue;

adjusting the current brightness of the first target light source based on the real-time distance and the minimum amplitude queue:

wherein V is a brightness adjusted for the current brightness of the first target light source, V₀Is the current brightness of the first target light source, L is the real-time distance, L₀Is the distance threshold, x_iIs the ith minimum amplitude, e, in the minimum amplitude queue₁And e₂The weight value is a preset weight value;

acquiring the minimum frequency of the sound source in each period in the time period, and generating a minimum frequency queue;

adjusting a current hue of the first target light source based on the real-time distance and the minimum frequency queue:

wherein H is a hue obtained by adjusting the current hue of the first target light source, H₀Is the current hue of the first target light source, f_iFor the ith minimum frequency in the minimum frequency queue, e₃And e₄Is a preset weight value.

6. The RGBW luminaire control method of claim 1, further comprising:

acquiring a preset product information database, determining an aging light source in the RGBW lamp according to the product information database, and controlling the aging light source to flash according to a preset reminding color;

determining an aging light source in the RGBW lamp according to the product information database, specifically comprising:

taking any light source in the RGBW lamp as a second target light source;

acquiring target product information corresponding to the second target light source in the product information database, including: the model, the manufacturer, the rank of the manufacturer corresponding to the manufacturer, the service life and the service life;

determining an evaluation index corresponding to the model according to preset lamp big data;

the method for determining the evaluation index corresponding to the model according to the preset lamp big data specifically comprises the following steps:

acquiring an acquisition path list corresponding to the lamp big data;

acquiring the path information of each acquired path in the acquired path list, including: the scores, the integrity of user data, the total number of user consumption records, the daily average online time of the user and the guarantee amount given by each evaluation mechanism;

calculating the ranking index of each acquired path based on the path information:

wherein Q is_wFor the second index of the w-th acquisition path in the acquisition path list, K_w，dThe grade given by the d-th evaluation mechanism corresponding to the w-th acquisition path is obtained, wherein O is the total number of the evaluation mechanisms, and R is_w，lData integrity, X, of the first user corresponding to the w-th acquisition path_w，lThe total number of consumption records, M, of the ith user corresponding to the w-th acquisition path_w，lAverage online time per day of the ith user corresponding to the w-th acquisition path, S_wThe total number of users corresponding to the w-th acquisition path, A_wA guarantee amount, Z, corresponding to the w-th acquisition path₁、Z₂And Z₃The weight value is a preset weight value;

sorting all the acquired paths in the acquired path list from large to small according to corresponding sorting indexes, and selecting the first N acquired paths as target acquired paths;

acquiring the lamp big data from the target acquisition path;

processing the lamp big data based on a semantic recognition technology to obtain target evaluation data corresponding to the model, wherein the target evaluation data comprises the following steps: number of good reviews, number of medium reviews and number of bad reviews;

calculating an evaluation index corresponding to the model based on the manufacturer ranking, the service life duration, the service time, the number of good comments, the number of medium comments and the number of bad comments:

wherein eva is the evaluation index, t₁To use time, t₂The life duration, α, β, and γ were the number of good scores, the number of medium scores, and the number of bad scoresMesh, ρ is the manufacturer rank, σ₁、σ₂And σ₃Is a preset weight value, sigma₁＞σ₂＞σ₃；

And when the evaluation index is greater than or equal to a preset evaluation index threshold value, taking the second target light source as an aging light source.

7. An RGBW luminaire control system, comprising:

the first acquisition module is used for acquiring and displaying a preset light effect list;

the receiving module is used for receiving the light effect selected by the user from the light effect list;

the second acquisition module is used for acquiring a preset first control scheme corresponding to the lighting effect;

and the control module is used for correspondingly controlling the RGBW lamp according to the first control scheme.

8. An RGBW luminaire control system as claimed in claim 7 further comprising:

the self-adaptive working module is used for receiving a self-adaptive running instruction input by a user and triggering a self-adaptive working mode;

wherein the adaptive work module performs operations comprising:

controlling a millimeter wave radar sensor to scan a target area to generate radar data;

determining the current state of the user according to the radar data;

determining a second control scheme corresponding to the current state according to a preset determination rule;

and correspondingly controlling the RGBW lamp according to the second control scheme.

9. The RGBW luminaire control system of claim 8, wherein the adaptive operation module determines the current state of the user according to the radar data, specifically comprising:

analyzing the radar data to determine a target profile of a user;

acquiring a preset standard contour database, and determining a standard contour matched with the target contour in the standard contour database;

acquiring state information corresponding to the standard outline;

and taking the state information as the current state of the user.

10. An RGBW luminaire control system as claimed in claim 8 further comprising:

the interaction module is used for realizing interaction with a user according to the radar data;

the interactive module executes the following operations:

determining the current position of the user according to the radar data;

taking any one light source in the RGBW lamp as a first target light source;

acquiring a light source position of the first target light source;

determining a real-time distance between the user and the first target light source based on the current location and the light source location;

when the real-time distance is smaller than or equal to a preset distance threshold value, an interaction mode is triggered;

wherein, the triggering interaction mode specifically includes:

determining a sound source according to a preset sound source determination rule, and playing the sound source through a playing device;

acquiring the minimum amplitude of the sound source in each preset period in a preset time period to generate a minimum amplitude queue;

adjusting the current brightness of the first target light source based on the real-time distance and the minimum amplitude queue:

wherein V is adjusting the current brightness of the first target light sourceBrightness after finishing, V₀Is the current brightness of the first target light source, L is the real-time distance, L₀Is the distance threshold, x_iIs the ith minimum amplitude in the minimum amplitude queue, e₁And e₂The weight value is a preset weight value;

acquiring the minimum frequency of the sound source in each period in the time period, and generating a minimum frequency queue;

adjusting a current hue of the first target light source based on the real-time distance and the minimum frequency queue:

wherein H is a hue obtained by adjusting the current hue of the first target light source, H₀Is the current hue of the first target light source, f_iFor the ith minimum frequency in the minimum frequency queue, e₃And e₄Is a preset weight value.

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