CN109917666B - Intelligent household realization method and intelligent device - Google Patents

Abstract

The invention relates to an implementation method and an intelligent device of an intelligent home, wherein the implementation method comprises the following steps: acquiring user characteristic information in real time, wherein the user characteristic information comprises: identity, position, pose; respectively inputting the position information and the field information into a pre-established user event model, and acquiring user event information according to an output result of the user event model; comparing the user event information with a pre-stored first association table, and acquiring LED control information corresponding to the user event information when the user event information exists in the first association table, wherein the first association table comprises a plurality of user event information and LED control information corresponding to each user event information; and driving at least one group of LED lamp belts according to the LED control information, wherein at least one group of LEDs is arranged on the intelligent device. By implementing the technical scheme of the invention, intelligent illumination can be realized without adding an intelligent switch, and care service is actively provided for users, so that the users can obtain convenient, intelligent and comfortable user experience.

Description

Intelligent household realization method and intelligent device

Technical Field

The invention relates to the field of smart homes, in particular to a smart home implementation method and a smart device.

Background

The smart home is based on the Internet of things and a broadband network, and builds a safe, comfortable, convenient, intelligent and warm home environment by relying on new-generation informatization technologies such as mobile internet and cloud computing, so that intelligent service provision and bidirectional intelligent interaction between people and home facilities are realized.

The lighting system in the smart home system is the most basic requirement of a user, and the smart home system mainly controls light at present, because the light belongs to non-self-intelligent equipment, and other self-intelligent equipment (such as an air conditioner, an electric curtain, a television and the like) can be controlled in a networking way only by network communication or infrared emission. And intelligent house control center can be multiple equipment (for example, the intelligent TV, indoor extension of talkbacking, intelligent robot, intelligent gateway, intelligent router, the magic mirror, intelligent audio amplifier, refrigerator, air conditioner etc.), but these equipment itself do not all possess the illumination function, but carry out intelligent control through many network technologies and intelligent switch module communication, just so must the user purchase light intelligence switch earlier, and the reality is that most new and old building illumination return circuit all is single live wire return circuit design, such an intelligent switch can only control three return circuits at most, and all single live wire return circuits all have the problem that the LED lamp is little bright night.

Even if a user upgrades and purchases the intelligent switch, the intelligent switch in the market has no remote human body perception function, and the intelligent switch can only be operated in a passive intelligent mode such as panel control, APP software control, remote controller control, voice control and the like, for example, for the panel control mode, the number of panels (a light panel, a visible intercom panel, an air conditioner panel, an alarm keyboard and the like) required to be installed at home is large, the appearance is not attractive, the construction difficulty is high, and the user must walk to the front of the panels to control; for the APP software control mode, although the problem that the user does not go to the front of a panel to control is solved, the user needs to click the hierarchical directory of the APP software to control the household equipment, and the user needs to carry a mobile phone at any time at home, so that the operation is inconvenient and intelligent, and especially for the old, children, handicap and the like who cannot operate or special people; for the control mode of the remote controller, the placement position of the remote controller is not fixed and can not be found easily when in need; for the voice control mode, the voice control mode is limited by the problems of voice recognition distance, artificial awakening and recognition rate, and the control problem that the voice is inconvenient to sound or cannot be sounded exists at times; for the gesture control mode, the current technology is immature and has a close distance, and the video recognition gesture relates to the privacy of the user, so that the gesture control in a specific area only in a close distance is not different from the direct panel control, and is just a concept . Therefore, the existing light control methods have more or less limitations.

In addition, the intelligent device usually communicates with peripheral intelligent equipment through a multi-network technology to control the output of the intelligent device, namely display output or voice output of a self-contained display screen at most, however, the display screen output and voice output mode also have limitations, for example, the voice output is not suitable for disabled people such as deaf-mute people, the display screen output mode needs a user to approach the display screen to see, and the display screen output mode is also not suitable for the disabled people and special people with inconvenient actions. Even if the user accepts the passive intelligent operation modes, the intelligent control light is only switched on and switched off and dimming, and other more intelligent functions are not given to the light.

In summary, the experience of the existing intelligent device for the user is poor.

Disclosure of Invention

The invention aims to solve the technical problem of providing a method for realizing an intelligent home and an intelligent device aiming at the defect of poor user experience in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: an implementation method of an intelligent home is constructed and applied to an intelligent device, and the implementation method comprises the following steps:

s11, acquiring user characteristic information in real time, wherein the user characteristic information comprises: identity, position, pose;

s12, respectively inputting the position information and the field information into a pre-established user event model, and acquiring the user event information according to an output result of the user event model, wherein the field information comprises at least one of the following information: house type structure information, indoor space information, environment information and time information;

s13, comparing the user event information with a pre-stored first association table, and acquiring LED control information corresponding to the user event information when the user event information exists in the first association table, wherein the first association table comprises a plurality of user event information and LED control information corresponding to each user event information;

and S14, driving at least one group of LED lamp belts according to the LED control information, wherein the at least one group of LEDs are arranged on an intelligent device.

Preferably, when the user event information does not exist in the first association table, the following steps are performed:

step S15, comparing the user event information with a pre-stored second association table, and acquiring room lamp control information corresponding to the user event information when the user event information exists in the second association table, wherein the second association table comprises a plurality of user event information and room lamp control information corresponding to each user event information;

and S16, controlling the lamp installed at a specific position of the room according to the room lamp control information.

Preferably, the LED control information includes: color, brightness, lighting pattern, duration.

Preferably, the step S11 includes:

acquiring image data shot by a camera in real time, wherein the camera is arranged on an intelligent device;

and identifying the image data to acquire user characteristic information in real time.

Preferably, the step S11 further includes:

acquiring sensing data of a human body sensing module in real time, wherein the human body sensing module is arranged on an intelligent device;

and determining the position information of the user in real time according to the sensing data.

Preferably, the step S11 further includes:

acquiring sensing data of at least one distance sensing module in real time, wherein the at least one distance sensing module is arranged on the periphery of the intelligent device, and a sensing area larger than 180 degrees is formed on the periphery of the intelligent device;

and determining the position information of the user in real time according to the sensing data.

Preferably, the step S11 further includes:

acquiring sensing data of a lower sensing module and sensing data of an upper sensing module in real time, wherein the lower sensing module and the upper sensing module are respectively arranged on a shell of an intelligent device, the lower sensing module carries out distance sensing on a target object in a formed lower detection space, the upper sensing module carries out distance sensing on the target object in the formed upper detection space, and the lower detection space and the upper detection space are at least partially crossed;

and determining the three-dimensional position information of the user in real time according to the sensing data of the lower detection space and the sensing data of the upper detection space.

Preferably, the user event information includes at least one of: entering, going out, getting up at night, getting up, falling down, sedentariness, sleeping, healthy taking medicine, and illegal invasion.

The present invention also constructs an intelligent device comprising:

at least one group of LED lamp belts;

a first obtaining module, configured to obtain user characteristic information in real time, where the user characteristic information includes: identity, position, pose;

a second obtaining module, configured to input the location information and the field information into a pre-established user event model, respectively, and obtain the user event information according to an output result of the user event model, where the field information includes at least one of the following: house type structure information, indoor space information, environment information and time information;

the third obtaining module is configured to compare the user event information with a pre-stored first association table, and obtain LED control information corresponding to the user event information when the user event information exists in the first association table, where the first association table includes a plurality of user event information and LED control information corresponding to each user event information;

and the driving module is used for driving at least one group of LED lamp belts according to the LED control information.

Preferably, the at least one group of LED strips comprises:

the first LED lamp strip is arranged on the front surface; and/or the presence of a gas in the gas,

the second LED lamp belts are arranged on the left side surface and the right side surface; and/or the presence of a gas in the gas,

a third LED strip arranged at the top; and/or

And the fourth LED lamp strip is arranged at the bottom.

Preferably, the method further comprises the following steps:

a fourth obtaining module, configured to compare the user event information with a pre-stored second association table when the user event information does not exist in the first association table, and obtain room lamp control information corresponding to the user event information when the user event information exists in the second association table, where the second association table includes a plurality of user event information and room lamp control information corresponding to each user event information;

and the lamp control module is used for controlling the lamps installed at the specific positions of the rooms according to the room lamp control information.

Preferably, the system further comprises a charging module and an energy storage module.

Preferably, a camera is also included, and,

the first acquisition module is used for acquiring image data from a camera in real time and identifying the image data so as to acquire user characteristic information in real time.

Preferably, a human body sensing module is further included, and,

the first acquisition module is further used for acquiring sensing data of the human body sensing module in real time and determining the position information of the user in real time according to the sensing data.

Preferably, the system further comprises at least one distance sensing module arranged at the periphery of the intelligent device, and a sensing area of more than 180 degrees is formed at the periphery of the intelligent device, and furthermore,

the first acquisition module is used for acquiring the sensing data of at least one distance sensing module in real time and determining the position information of the user in real time according to the sensing data.

Preferably, the method further comprises the following steps:

the upper sensing module is used for sensing the distance of a target object in the formed upper detection space;

the lower sensing module is used for carrying out distance sensing on the target object in the formed lower detection space;

furthermore, it is possible to provide a liquid crystal display device,

the first acquisition module is further configured to acquire the sensing data of the lower sensing module and the sensing data of the upper sensing module in real time, and determine the three-dimensional position information of the user in real time according to the sensing data of the lower detection space and the sensing data of the upper detection space.

According to the technical scheme, the user event can be intelligently judged according to the acquired user characteristic information and by combining with the pre-established user event model, and the at least one group of LED lamp belts are correspondingly controlled according to the user event, so that the user can realize the control of indoor illumination on the premise of not increasing an intelligent switch, and the intelligent LED lamp belts are actively sensed and controlled to actively provide care services for the user, particularly special people such as deaf-mutes and old people, and further enable the user to obtain convenient, intelligent, comfortable and quick user experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts. In the drawings:

FIG. 1 is a flowchart of a first embodiment of a method for implementing an intelligent home;

fig. 2 is a logical structure diagram of a first embodiment of the intelligent device according to the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings.

The embodiments/examples described herein are specific embodiments of the present invention, are intended to be illustrative of the concepts of the present invention, are intended to be illustrative and exemplary, and should not be construed as limiting the embodiments and scope of the invention. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include those which make any obvious replacement or modification of the embodiments described herein, and all of which are within the scope of the present invention.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Fig. 1 is a flowchart of a first embodiment of a method for implementing a smart home, which is applied to an intelligent device, wherein the intelligent device includes: the intelligent television, the intelligent indoor intercom extension device, the intelligent robot device, the intelligent gateway, the intelligent router, the magic mirror, the intelligent sound box, the intelligent refrigerator and the intelligent air conditioner. Moreover, the implementation method of the smart home of the embodiment includes the following steps:

s11, acquiring user characteristic information in real time, wherein the user characteristic information comprises: identity, position, pose;

s12, respectively inputting the position information and the field information into a pre-established user event model, and acquiring the user event information according to an output result of the user event model, wherein the field information comprises at least one of the following information: house type structure information, indoor space information, environment information and time information;

s13, comparing the user event information with a pre-stored first association table, and acquiring LED control information corresponding to the user event information when the user event information exists in the first association table, wherein the first association table comprises a plurality of user event information and LED control information corresponding to each user event information;

and S14, driving at least one group of LED lamp belts according to the LED control information, wherein the at least one group of LEDs are arranged on an intelligent device.

With regard to the above embodiments, there are the following points to be explained:

first, the field information in step S12 includes: house type structure information, indoor space information, environment information, time information, and of course, audio information of the scene may also be included. Wherein, the information about the house type structure can be inputted into the intelligent device by a user, a property manager or a manufacturer maintenance personnel before the intelligent device is used for the first time, for example, a house type structure picture of a house is inputted into a specified path of the intelligent device; the intelligent device can also be obtained by big data analysis according to house type structure data of other intelligent devices in a cell local area network in the using process of the intelligent device, and can also be obtained by machine learning of information such as frequency, position, speed, residence time, time period, illumination and the like of a user activity area sensed by a distance sensor and an environment sensor. Regarding indoor space information, for example, including indoor layout, furniture placement, etc., it can be obtained by taking a picture of a room through its own camera before the smart device is used for the first time and processing it into a panoramic picture; the distance detection can be carried out on all directions of the room through the self distance sensor probe, and the digital map of the room is generated. The environmental information is obtained by one or more of a smoke sensor, a gas sensor, a CO sensor, a VOC sensor, a temperature and humidity sensor, a PM2.5 sensor, a formaldehyde sensor, a CO2 sensor, and an illuminance sensor. With respect to time information, it can be obtained by its own clock generation module, and the clock can also be calibrated by communicating with at least one of: the system comprises a user mobile terminal, a remote server, other intelligent devices in a cell local area network, a unit entrance machine and the like. As to the audio information, it can be acquired by its own microphone (or microphone array).

In addition, the user event model in step S12 is pre-established, and the specific establishing step is:

acquiring a large amount of training sample data, wherein the training sample data comprises user characteristic information and field information in a specific time period;

processing the training sample data to acquire characteristic information;

and training the characteristic information and the user event information by using a preset training method to obtain a user event model. Wherein, the user event information may include: enter, go out, get up at night, get up, lie down, fall, sit for a long time motionless, take medicine healthily, and invade illegally.

In an alternative embodiment, step S11 may obtain the user characteristic information by:

acquiring image data shot by a camera in real time, wherein the camera is arranged on an intelligent device;

and identifying the image data to acquire user characteristic information in real time.

In this embodiment, the identity, position, and posture of the user are obtained by means of image recognition, wherein the identity of the user may be obtained by face feature recognition in the captured image data, or may be obtained by iris feature recognition. The position of the user can be obtained by the size of the user in the captured image data, the position of another reference object, and the like. The posture of the user can be acquired by recognition of characteristic points of the arm, leg, head, and the like in the captured image data. In addition, the camera can be a group of multiple cameras with connected shooting ranges, and can also be a single 180-degree camera.

In another alternative embodiment, step S11 may further obtain the user characteristic information by:

acquire human sensing module's sensing data in real time, wherein, human sensing module sets up on intelligent device, and wherein, human sensing module includes: infrared sensors, infrared array sensors, etc.;

and determining the position information of the user in real time according to the sensing data.

In this embodiment, the position information of the user is obtained through the sensing data of the human body sensing module, and the position information can be used independently, or can be fused with position information obtained in other manners, so as to improve the accuracy of the obtained position of the user.

In another alternative embodiment, step S11 may further obtain the user characteristic information by:

the method comprises the steps of acquiring sensing data of at least one distance sensing module in real time, wherein the at least one distance sensing module is arranged on the periphery of an intelligent device, and a sensing area larger than 180 degrees is formed on the periphery of the intelligent device;

and determining the position information of the user in real time according to the sensing data.

In this embodiment, taking the smart audio as an example, a plurality of distance sensors may be disposed on the periphery of the smart audio, so as to form a sensing area of 360 degrees on the periphery of the smart audio, thereby positioning the horizontal position of the user within 360 degrees, and the position information may be used independently, or may be fused with position information acquired by other methods, so as to improve the accuracy of the acquired position of the user.

In another alternative embodiment, step S11 may further obtain the user characteristic information by:

the method comprises the steps of acquiring sensing data of a lower sensing module and sensing data of an upper sensing module in real time, wherein the lower sensing module and the upper sensing module are respectively arranged on a shell of the intelligent device, the lower sensing module carries out distance sensing on a target object in a formed lower detection space, the upper sensing module carries out distance sensing on the target object in the formed upper detection space, and the lower detection space and the upper detection space are at least partially crossed. Specifically, the lower sensing module comprises at least two radar/ultrasonic sensors with single transmitting and single receiving, and/or at least one radar sensor with multiple transmitting and multiple receiving; the upper sensing module comprises at least one radar/ultrasonic sensor with single transmission and single receiving and/or at least one radar sensor with multiple transmission and multiple receiving;

and determining the three-dimensional position information of the user in real time according to the sensing data of the lower detection space and the sensing data of the upper detection space.

In this embodiment, since the two sensing modules are sequentially arranged on the intelligent device along the height direction, and when the intelligent device is installed according to the type of the user and the indoor environment, and the height of the user in the household is ensured to be between the heights of the upper and lower sensing modules, the horizontal position of the user can be determined according to the sensing data of the lower sensing module, and then the height of the user is determined according to the sensing data of the upper sensing module, so that the three-dimensional position of the user is finally determined.

Finally, it should be noted that no matter which way the user characteristic information is obtained, it should be understood that the user characteristic information is obtained dynamically, and the user trend can be analyzed according to the user characteristic information in a period of time. In addition, the number of LED lamp areas on the intelligent device can be flexibly set to one or more according to practical application. In an optional embodiment, at least one group of LED strips comprises: the first LED lamp strip is arranged on the front surface; the second LED lamp belts are arranged on the left side surface and the right side surface; a third LED strip arranged at the top; and the fourth LED strip is arranged at the bottom. Moreover, preferably, a plurality of lamp beads in the first LED lamp strip are arranged in a circular shape, a square shape, a spiral shape, an octagonal shape, or the like; a plurality of lamp beads in the second LED lamp strip are arranged in a rectangular shape, an oval shape, a strip shape and the like; and a plurality of lamp beads in the third and fourth LED lamp belts are arranged in a rectangular shape, an oval shape, a strip shape and the like.

In an alternative embodiment, the LED control information includes: color, brightness, lighting pattern, duration. Correspondingly, LED lamp area includes red, green, blue three groups of lamp pearls, and these three kinds of lamp pearls can establish ties also can parallelly connected, moreover, according to LED control information, through PWM mixing of colors light principle of adjusting luminance, alright control and adjustment to the colour, luminance etc. in corresponding LED lamp area.

In addition, the event information and the corresponding LED control information stored in the first association table may be set by a user in a customized manner, or may be default for the system. In a specific application, if the detected user event information is that a user enters the door when leaving work, the first (front) LED lamp can be controlled to be lightened, and the brightness is 100% so as to realize automatic lighting when entering the door; if the detected user event is that the user goes out to work and no other people exist at home, all the LED lamp belts can be controlled to be turned off so as to realize automatic light turning off when going out; if the detected user event information is that the user is getting up at night, the fourth (bottom) LED lamp is controlled to be lightened, the brightness can be 50%, the floor can be lightened for the user, the user is not dazzling, the side lamp facing to the toilet is lightened, and the brightness can be 50% so as to guide and illuminate the path to facilitate the user to go to the toilet; if the detected user event information indicates that the user cannot sit up for a long time (although the user sits in one place for a long time, the user still has some actions on hands, feet, head and the like), controlling the second (left and right side surfaces) LED lamp strip to flash red and yellow light frequently and flash for one minute continuously to prompt the user to get up and move; if the detected user event information indicates that the user is sedentary (the user sits in a place for a long time, and hands, feet and heads of the user are not moved, which is different from sedentary), the first (front) LED lamp strip is controlled to flash red light frequently, and an alarm is automatically given or help is automatically asked for other family members when necessary; if the detected user event information is that the user gets up in the morning and the user does not install the intelligent curtain, the second (left and right side surfaces) LED lamp strip is controlled to be lightened firstly, after a preset time (for example, after 2 minutes), the first (front surface) LED lamp strip is controlled to be lightened, the brightness is sequentially enhanced, for example, the brightness is gradually increased to 80% from 10%, the color is yellow light comfortable for human eyes, a room is illuminated for the user, and meanwhile, the time for buffering the human eyes is given to the user; if the detected user event information is that the user lies down to sleep at night, the first (front) LED lamp strip can be controlled to be turned off, the second (left and right side) LED lamp strips are kept to be on, the second (left and right side) LED lamps are controlled to be turned off after a preset time (for example, after 10 minutes), in addition, the brightness in the process is sequentially weakened, the color is yellow light comfortable for human eyes, and the lamps can be automatically turned off during sleep; if the detected user event information is illegal invasion, the second (left and right side surfaces) LED lamp strip, the third (top) LED lamp strip and the fourth (bottom) LED lamp strip can be controlled to alternately flicker red and green lights according to a preset frequency (the flicker frequency can be higher than the normal reminding frequency) so as to warn illegal invaders; and if the detected user event information indicates that the user should take the medicine, controlling the first (front) LED lamp belt to flash the yellow lamp according to the preset frequency so as to prompt the user to take the medicine. It should be understood that, in the above embodiments, when the LED light strip is used for prompting or reminding, the existing voice output mode may also be combined. If the user of the room where the device is located is called event information of hearing-impaired people, the first (front) LED lamp strip and the second (left side and right side) LED lamp strip can be controlled to synchronously flash once per second or flash according to data codes, such as 2 times, 1 time and 3 times; if a hearing-impaired person or a user dislikes the alarm sound and needs information of an emergency help-seeking event, the first (front) LED lamp strip can be controlled to flash once every few, the second (left side and right side) LED lamp strip flashes once, and the lamps are equivalently flashed according to data codes, and alarm information is confirmed and confirmed for 1, 1 and 2 times; if the detected event information that the user likes to turn on the light to sleep at night is detected, the first (front) LED lamp strip can be controlled to be turned off, the second (left and right side) LED lamp strip is kept to be on, the second (left and right side) LED lamp strip is controlled to be turned off after preset time (for example, after 30 minutes) or preset time (for example, after 10 minutes) after the distance sensor senses that the user does not move, the brightness in the process is reduced in sequence, the color is yellow light comfortable for human eyes, and the habit of turning off the light to sleep of the user is cultivated slowly.

Further, in the method for implementing an intelligent home according to the present invention, when the user event information does not exist in the first association table, the following steps are performed:

step S15, comparing the user event information with a pre-stored second association table, and acquiring room lamp control information corresponding to the user event information when the user event information exists in the second association table, wherein the second association table comprises a plurality of user event information and room lamp control information corresponding to each user event information;

and S16, controlling the lamp installed at a specific position of the room according to the room lamp control information.

In this embodiment, the user event can be controlled in conjunction with the room light, and the room light can be controlled in the following ways:

1. if the intelligent device adopts single live wire to get the electricity, namely, the intelligent device inserts the alternating current circuit of room lamp, can directly be supplied power by energy storage module to with the internal interface communication according to room lamp control information control this lamp. Because the intelligent device is internally provided with the LED lamp strip for illumination, the intelligent device has the function of replacing an original light loop in a room, a user does not need to upgrade the original light into the LED lamp, and the original old bulb can be directly disassembled.

2. If the intelligent switch of the room lamp is connected with the main processor of the intelligent device through the bus, the room lamp control information can be transmitted to the corresponding intelligent switch through the device energy storage for supplying intelligent control electric energy and bus communication;

3. if the intelligent switch of the room lamp is connected with the intelligent device in a wireless mode, the room lamp control information can be transmitted to the corresponding intelligent switch in a wireless communication mode.

Fig. 2 is a logical structure diagram of a first embodiment of the intelligent device of the present invention, the intelligent device of this embodiment includes: the system comprises a first obtaining module 10, a second obtaining module 20, a third obtaining module 30, a driving module 40 and a plurality of groups of LED strips 51, …, 52. The first obtaining module 10 is configured to obtain user characteristic information in real time, where the user characteristic information includes: identity, position, pose; the second obtaining module 20 is configured to input the location information and the field information into a pre-established user event model, and obtain the user event information according to an output result of the user event model, where the field information includes at least one of the following: house type structure information, indoor space information, environment information and time information; the third obtaining module 30 is configured to compare the user event information with a pre-stored first association table, and obtain LED control information corresponding to the user event information when the user event information exists in the first association table, where the first association table includes a plurality of user event information and LED control information corresponding to each user event information; the driving module 40 is configured to drive at least one group of LED strips 51, …, 52 according to the LED control information.

The intelligent device of this embodiment still further includes camera 11 and sensing module 12, wherein, camera 11 is the preferred 180 camera, or, sets up a plurality of cameras, and the shooting range of adjacent camera overlaps. The sensing module 12 is, for example, an infrared sensing module or a distance sensing module, and preferably, the number of the sensing modules may be set to be plural, thereby increasing a sensing range. Furthermore, the first obtaining module 10 is configured to obtain image data from the camera 11 in real time, and identify the image data to obtain user characteristic information in real time.

In an optional embodiment, the sensing module 12 is a human body sensing module, and the first obtaining module 10 is further configured to obtain sensing data of the human body sensing module in real time, and determine the position information of the user in real time according to the sensing data.

In an alternative embodiment, the sensing module 12 includes at least one distance sensing module disposed at the periphery of the smart device, and a sensing area greater than 180 degrees is formed at the periphery of the smart device, and the first obtaining module 10 is further configured to obtain sensing data of the at least one distance sensing module in real time and determine the position information of the user in real time according to the sensing data.

In an optional embodiment, the sensing module comprises an upper sensing module and a lower sensing module, wherein the upper sensing module is used for performing distance sensing on the target object in the formed upper detection space; the lower sensing module is used for carrying out distance sensing on a target object in the formed lower detection space; moreover, the first obtaining module 10 is further configured to obtain the sensing data of the lower sensing module and the sensing data of the upper sensing module in real time, and determine the three-dimensional position coordinate of the user in real time according to the sensing data of the lower detection space and the sensing data of the upper detection space.

In an alternative embodiment, at least one group of LED strips comprises: the first LED lamp strip is arranged on the front side; the second LED lamp belts are arranged on the left side surface and the right side surface; a third LED strip arranged at the top; and the fourth LED strip is arranged at the bottom. Preferably, a plurality of lamp beads in the first LED lamp strip are arranged in a shape of circle, square, spiral, octagon, etc.; a plurality of lamp beads in the second LED lamp strip are arranged in a rectangular shape, an oval shape, a strip shape and the like; and a plurality of lamp beads in the third and fourth LED lamp belts are arranged in a rectangular shape, an oval shape, a strip shape and the like.

In an alternative embodiment, the LED control information includes: color, brightness, lighting pattern, duration. Correspondingly, LED lamp area includes red, green, blue three groups of lamp pearls, and these three kinds of lamp pearls can establish ties also can parallelly connected, moreover, according to LED control information, through PWM mixing of colors light principle of adjusting luminance, alright control and adjustment to the colour, luminance etc. in corresponding LED lamp area.

In an optional embodiment, the intelligent device further comprises a charging module and an energy storage module, and the energy storage module supplies power to each module of the intelligent device, so that even if the intelligent device gets power through a single live wire loop, the situation of stroboscopic LED light strips does not occur.

Furthermore, the intelligent device of the present invention can also perform linkage control on a user event and a lamp disposed at a specific position in a room, and specifically includes a fourth obtaining module and a lamp control module, where the fourth obtaining module is configured to compare the user event information with a pre-stored second association table when the user event information does not exist in the first association table, and obtain room lamp control information corresponding to the user event information when the user event information exists in the second association table, where the second association table includes a plurality of user event information and room lamp control information corresponding to each user event information; and the lamp control module is used for controlling the lamps arranged at the specific positions of the rooms according to the room lamp control information.

The present invention has been described in terms of the preferred embodiment, and it is not intended to be limited to the embodiment. Any tampering, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. An implementation method of an intelligent home is applied to an intelligent device and is characterized by comprising the following steps:

s11, acquiring user characteristic information in real time, wherein the user characteristic information comprises: identity, position, pose;

s12, respectively inputting the three-dimensional position information and the field information into a pre-established user event model, and acquiring the user event information according to an output result of the user event model, wherein the field information comprises at least one of the following information: the system comprises house type structure information, indoor space information, environment information and time information, wherein the user event information comprises: entering, going out, getting up at night, getting up, lying down, falling down, sedentariness, healthy medicine taking and illegal invasion;

step S13, comparing the user event information with a pre-stored first association table, and acquiring LED control information corresponding to the user event information when the user event information exists in the first association table, wherein the first association table comprises a plurality of user event information and LED control information corresponding to each user event information, and the LED control information comprises: color, brightness, lighting pattern, duration;

s14, driving at least one group of LED lamp belts according to the LED control information to prompt and alarm, wherein the at least one group of LEDs are arranged on an intelligent device;

the step S11 further includes:

acquiring sensing data of a lower sensing module and sensing data of an upper sensing module in real time, wherein the lower sensing module and the upper sensing module are respectively arranged on a shell of an intelligent device, the lower sensing module carries out distance sensing on a target object in a formed lower detection space, the upper sensing module carries out distance sensing on the target object in the formed upper detection space, and the lower detection space and the upper detection space are at least partially crossed;

and determining the three-dimensional position information of the user in real time according to the sensing data of the lower detection space and the sensing data of the upper detection space.

2. The method of claim 1, wherein when the user event information is not present in the first association table, the following steps are performed:

step S15, comparing the user event information with a pre-stored second association table, and acquiring room lamp control information corresponding to the user event information when the user event information exists in the second association table, wherein the second association table comprises a plurality of user event information and room lamp control information corresponding to each user event information;

and S16, controlling the lamp installed at a specific position of the room according to the room lamp control information.

3. The method for implementing intelligent home according to claim 1, wherein the step S11 includes:

acquiring image data shot by a camera in real time, wherein the camera is arranged on an intelligent device;

and identifying the image data to acquire user characteristic information in real time.

4. A smart device, comprising:

at least one group of LED lamp belts;

a first obtaining module, configured to obtain user characteristic information in real time, where the user characteristic information includes: identity, position, pose;

a second obtaining module, configured to input the three-dimensional position information and the field information into a pre-established user event model, respectively, and obtain the user event information according to an output result of the user event model, where the field information includes at least one of the following: the system comprises house type structure information, indoor space information, environment information and time information, wherein the user event information comprises: entering, going out, getting up at night, getting up, lying down, falling down, sedentariness, healthy medicine taking and illegal invasion;

a third obtaining module, configured to compare the user event information with a pre-stored first association table, and obtain LED control information corresponding to the user event information when the user event information exists in the first association table, where the first association table includes a plurality of user event information and LED control information corresponding to each user event information, and the LED control information includes: color, brightness, lighting pattern, duration;

the driving module is used for driving at least one group of LED lamp belts according to the LED control information so as to prompt and alarm;

further comprising:

the upper sensing module is used for sensing the distance of a target object in the formed upper detection space;

the lower sensing module is used for carrying out distance sensing on the target object in the formed lower detection space;

furthermore, it is possible to provide a liquid crystal display device,

the first acquisition module is further configured to acquire the sensing data of the lower sensing module and the sensing data of the upper sensing module in real time, and determine the three-dimensional position information of the user in real time according to the sensing data of the lower detection space and the sensing data of the upper detection space.

5. The smart device of claim 4, wherein the at least one set of LED strips comprises:

the first LED lamp strip is arranged on the front surface; and/or the presence of a gas in the gas,

the second LED lamp belts are arranged on the left side surface and the right side surface; and/or the presence of a gas in the gas,

a third LED strip disposed at the top; and/or

And the fourth LED lamp strip is arranged at the bottom.

6. The smart device of claim 5, further comprising:

a fourth obtaining module, configured to compare the user event information with a pre-stored second association table when the user event information does not exist in the first association table, and obtain room lamp control information corresponding to the user event information when the user event information exists in the second association table, where the second association table includes a plurality of user event information and room lamp control information corresponding to each user event information;

and the lamp control module is used for controlling the lamps installed at the specific positions of the rooms according to the room lamp control information.

7. The intelligent device according to claim 5, further comprising a charging module and an energy storage module.

8. The intelligent device of claim 5, further comprising a camera, and further,

the first acquisition module is used for acquiring image data from a camera in real time and identifying the image data so as to acquire user characteristic information in real time.

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