CN117222079A - Lighting control system based on home network - Google Patents

Abstract

The lighting control system based on home network, involve the intelligent control technical field, including the main control center, the said main control center is connected with data storage module, manual control module, data processing module, automatic control module, information feedback module in communication; the data storage module is used for collecting and storing identity information and sound information of family members; the manual control module is used for manually controlling the lighting equipment; the data processing module is used for adjusting the brightness of the lighting equipment according to the indoor illumination intensity and pre-adjusting the brightness of the lighting equipment according to the change trend of the illumination intensity; the automatic control module is used for automatically controlling the lighting equipment; the information feedback module is used for correspondingly adjusting automatic control according to manual control data of family members; by the technical scheme, a targeted illumination control mechanism can be formed for different families, and the stability of indoor illumination brightness is improved.

Description

Lighting control system based on home network

Technical Field

The invention relates to the technical field of intelligent control, in particular to a lighting control system based on a home network.

Background

The lighting control means that lighting equipment in a household is controlled in different modes, and along with the development of intelligent household technology, the lighting control becomes more intelligent and more convenient, each household member can flexibly and effectively control the lighting equipment through a mobile terminal by accessing the lighting equipment into a household network, and the personalized customization of light, energy management and improvement of use convenience can be realized by utilizing the lighting control mode;

in the prior art, the same control method is adopted for the illumination control of the household illumination equipment, but a targeted illumination control mechanism cannot be formed according to the use habits of different households, and the prior art also lacks of effective adjustment of indoor illumination brightness, so that the indoor illumination brightness is unstable, and the invention provides an illumination control system based on a household network, aiming at the defects of the prior art.

Disclosure of Invention

The invention aims to provide a lighting control system based on a home network.

The aim of the invention can be achieved by the following technical scheme: the lighting control system based on the home network comprises a main control center, wherein the main control center is in communication connection with a data storage module, a manual control module, a data processing module, an automatic control module and an information feedback module;

the data storage module is used for collecting and storing identity information and sound information of family members;

the manual control module is used for constructing a spatial distribution diagram of the lighting equipment and also used for manually controlling the lighting equipment;

the data processing module is used for monitoring indoor illumination intensity, adjusting the brightness of the lighting equipment according to the monitored illumination intensity, obtaining the change trend of the indoor illumination intensity, and pre-adjusting the brightness of the lighting equipment according to the obtained change trend;

the automatic control module is used for carrying out infrared thermal imaging detection on family members to obtain corresponding activity states, and automatically controlling the lighting equipment according to the obtained activity states;

the information feedback module is used for obtaining manual control data of family members and correspondingly adjusting automatic control according to the obtained manual control data.

Further, the process of collecting and storing the identity information and the sound information of the family members by the data storage module comprises the following steps:

setting a registration unit and a family member database, finishing registration by inputting the identity information of the family member into the registration unit, and uploading the obtained identity information to the family member database for storage;

after the family member finishes logging in through the logging-in unit, the logging-in unit is used for logging in own voice information, and the logged voice information is uploaded to a family member database for storage.

Further, the process of constructing the spatial distribution map of the lighting device by the manual control module comprises the following steps:

and setting a construction unit, acquiring basic data of the indoor space through the construction unit, constructing an indoor space distribution diagram based on the acquired basic data by utilizing a three-dimensional modeling technology, and uploading the lighting equipment to the indoor space distribution diagram according to the distribution situation of the lighting equipment to visualize the space distribution diagram so as to obtain the space distribution diagram of the lighting equipment, wherein the distribution situation refers to the installation position and the lighting area of the lighting equipment.

Further, the manual control module performs a manual control on the lighting device, including:

the manual control comprises remote control and sound control, for the method of remote control, family members operate through a spatial distribution diagram to generate manual control instructions, the manual control instructions are sent to corresponding lighting equipment, and the lighting equipment is turned on or turned off according to the manual control instructions;

for the method of sound control, lighting equipment is divided and named according to a room structure in a spatial distribution diagram, a sound control unit is arranged, sound control information is recorded through the sound control unit, MFCC coefficients of the sound control information and the sound information are respectively obtained through an MFCC method, the MFCC coefficients of the sound control information and the sound information are compared, and the lighting equipment is controlled according to a comparison result.

Further, the data processing module monitors the indoor illumination intensity, and the process of adjusting the brightness of the lighting equipment according to the monitored illumination intensity comprises the following steps:

setting an illumination monitoring unit, obtaining real-time illumination intensity of an indoor space through the illumination monitoring unit, obtaining the most comfortable illumination intensity of each family member, comparing the real-time illumination intensity with the most comfortable illumination intensity, obtaining an excessively low state or an excessively high state according to a comparison result, and carrying out brightness adjustment or brightness adjustment on the excessively low state or the excessively high state.

Further, the data processing module obtains a variation trend of indoor illumination intensity, and the process of pre-adjusting the brightness of the lighting equipment according to the obtained variation trend comprises the following steps:

setting an evaluation period, obtaining an illumination coefficient in the current evaluation period according to the real-time illumination intensity in the current evaluation period, obtaining a change coefficient in the current evaluation period according to the illumination coefficients in a plurality of last evaluation periods, setting a change threshold, comparing the change coefficient with the change threshold, obtaining a rising change coefficient and a reducing change coefficient according to a comparison result, and regulating the brightness of the rising change coefficient or the reducing change coefficient.

Further, the automatic control module performs infrared thermal imaging detection on family members to obtain corresponding activity states, and the process of automatically controlling the lighting equipment according to the obtained activity states comprises the following steps:

an infrared detection unit is arranged, infrared thermal imaging detection is carried out on an illumination area of illumination equipment through the infrared detection unit so as to judge whether family personnel exist in the illumination area, and an activity state of the family members is obtained, wherein the activity state comprises an entering state, an exiting state and a stay state;

for the entering state, the lighting equipment of the lighting area is started, for the stay state, the lighting equipment of the lighting area is kept to be continuously started, and for the leaving state, the lighting equipment of the lighting area is turned off after a reserved time length, and the reserved time length is a preset time interval.

Further, the information feedback module obtains manual control data of the family members, and the process of correspondingly adjusting the automatic control according to the obtained manual control data comprises the following steps:

the control authority of the manual control lighting equipment is higher than that of the automatic control, and the manual control data refer to the manual control condition of the same lighting area after the automatic control, such as the automatic control times;

setting an adjusting period, correspondingly adjusting the reserved time length according to the change condition of the automatic control times in the last adjusting period, wherein the longer the automatic control times are, the longer the reserved time length is, and the final reserved time length of the last adjusting period is taken as the initial reserved time length of the next adjusting period.

Compared with the prior art, the invention has the beneficial effects that:

1. by constructing a spatial distribution diagram of the lighting equipment, combining manual control of family members with automatic control of the system, convenience of household lighting control can be obviously improved, and a targeted lighting control mechanism can be formed for different families by correspondingly adjusting the automatic control by utilizing manual control data;

2. through monitoring indoor illumination intensity to adjust the luminance of lighting apparatus according to illumination intensity, judge through the trend of change to illumination intensity, and adjust the luminance of lighting apparatus in advance according to the trend of change, be favorable to realizing the dynamic adjustment of indoor illumination luminance, improve the stability of indoor illumination luminance.

Drawings

Fig. 1 is a schematic diagram of the present invention.

Detailed Description

As shown in fig. 1, a lighting control system based on a home network comprises a main control center, wherein the main control center is in communication connection with a data storage module, a manual control module, a data processing module, an automatic control module and an information feedback module;

the data storage module is used for collecting and storing identity information and sound information of family members;

the manual control module is used for constructing a spatial distribution diagram of the lighting equipment and also used for manually controlling the lighting equipment;

the data processing module is used for monitoring indoor illumination intensity, adjusting the brightness of the lighting equipment according to the monitored illumination intensity, obtaining the change trend of the indoor illumination intensity, and pre-adjusting the brightness of the lighting equipment according to the obtained change trend;

the automatic control module is used for carrying out infrared thermal imaging detection on family members to obtain corresponding activity states, and automatically controlling the lighting equipment according to the obtained activity states;

the information feedback module is used for obtaining manual control data of family members and correspondingly adjusting automatic control according to the obtained manual control data.

It should be further noted that, in the implementation process, the process of collecting and storing the identity information and the sound information of the family member by the data storage module includes:

setting a registration unit and a family member database, inputting the identity information of the family member into the registration unit, wherein the identity information comprises but is not limited to name, gender, age, occupation, mobile phone number, identity card number and certificate photo, checking the input identity information through a main control center, generating a corresponding registration verification code after the checking is passed, transmitting the generated registration verification code to a mobile terminal corresponding to the mobile phone number of the family member, inputting the acquired registration verification code into the registration unit for verification, finishing registration after the verification is passed, and uploading the acquired identity information to the family member database for storage;

setting a login unit and an input unit, inputting corresponding mobile phone numbers into the login unit in the subsequent login process of registered family members, checking the input mobile phone numbers through a main control center, generating corresponding login verification codes after the checking is passed, sending the generated login verification codes to mobile terminals corresponding to the mobile phone numbers, inputting the obtained login verification codes into the login unit for verification, finishing login after the verification is passed, inputting voice information of the family members through the input unit after the registration and the login are finished, checking the input voice information through the main control center, and uploading the input voice information to a family member database for storage after the checking is passed, so that identity information and voice information of the family members are bound.

It should be further noted that, in the implementation process, the process of constructing the spatial distribution diagram of the lighting device by the manual control module includes:

setting a construction unit, acquiring basic data of an indoor space through the construction unit, wherein the basic data comprise, but are not limited to, the structure of a room, the position and the height of a wall, the distribution of doors and windows, the position of furniture and objects, and constructing an indoor space distribution diagram based on the acquired basic data by utilizing a three-dimensional modeling technology;

and acquiring the distribution condition of the lighting equipment by the construction unit, wherein the distribution condition refers to the installation position and the lighting area of the lighting equipment, and uploading the lighting equipment to the indoor space distribution diagram according to the distribution condition of the lighting equipment to be visualized so as to obtain the space distribution diagram of the lighting equipment.

It should be further noted that, in the implementation process, the manual control module performs a manual control process on the lighting device, where the manual control process includes:

the manual control comprises remote control and sound control, wherein the remote control refers to a method for controlling the lighting equipment through the mobile terminal, and the sound control refers to a method for controlling the lighting equipment through sound;

for the remote control method, a family member can view the spatial distribution diagram of the lighting equipment through the mobile terminal, select the lighting equipment to be controlled in the spatial distribution diagram, control the lighting equipment to be turned on or turned off after the selection is finished, generate corresponding manual control instructions according to the operation of the family member in the spatial distribution diagram, send the generated manual control instructions to the corresponding lighting equipment, and the lighting equipment is turned on or turned off according to the received manual control instructions;

for the method of sound control, the lighting equipment is divided and named according to the room structure in the space distribution diagram, such as bedroom lighting equipment, living room lighting equipment and kitchen lighting equipment, and family members can subdivide according to actual conditions;

setting a sound control unit, and recording sound control information through the sound control unit, wherein the sound control information refers to data of sound characteristics and attributes which can be used for data verification and are extracted through voice, and the specific contents are that 'turning on bedroom lighting equipment' or 'turning off living room lighting equipment', and the like;

carrying out frame division processing on voice control information and voice information by adopting an MFCC method to obtain voice information of different frames, carrying out windowing processing and Fourier transformation processing on the voice information of different frames to obtain spectrograms of the voice information of different frames, converting the obtained spectrograms onto a Mel frequency scale, and carrying out discrete cosine transformation processing on the Mel spectrograms of different frames to obtain MFCC coefficients of the voice control information and the voice information respectively;

and comparing the MFCC coefficients of the obtained sound control information and the sound information, marking the sound control information and the sound information as verification passing if the two information are identical, controlling corresponding lighting equipment to be turned on or turned off according to the sound control information which passes the verification through the sound control unit, marking the sound control information and the sound information as verification failure if the two information are not identical, and not performing any other operation.

It should be further noted that, in the implementation process, the data processing module monitors the indoor illumination intensity, and the process of adjusting the brightness of the lighting device according to the monitored illumination intensity includes:

setting an illumination monitoring unit, monitoring the illumination intensity of the indoor space in real time through the illumination monitoring unit to obtain corresponding real-time illumination intensity, and marking the obtained real-time illumination intensity as L _{Real world} ；

Obtaining the most comfortable illumination intensity of each family member, wherein the most comfortable illumination intensity refers to the indoor brightness that the family member feels the most comfortable, and the most comfortable illumination intensity is marked as [ L ] _min ，L _max ]；

When a certain family member turns on the lighting equipment through remote control or sound control, comparing the obtained real-time illumination intensity with the most comfortable illumination intensity by taking the most comfortable illumination intensity of the family member as a standard;

if L _min ≤L _{Real world} ≤L _max It is not subjected to any other operation;

if L _{Real world} ＜L _min Marking the lamp as an excessively low state, and adjusting the brightness of the lighting equipment to be high;

if L _{Real world} ＞L _max It is marked as too high and the lighting device is dimmed.

It should be further noted that, in the implementation process, the data processing module obtains a trend of variation of indoor illumination intensity, and the process of performing brightness pre-adjustment on the lighting device according to the obtained trend of variation includes:

setting an evaluation period, obtaining the real-time illumination intensity in the current evaluation period, numbering the obtained real-time illumination intensity, and marking the obtained real-time illumination intensity as L, wherein i=1, 2, … … n _i ；

According to the obtained real-time illumination intensity, obtaining an illumination coefficient in the current evaluation period, and marking the obtained illumination coefficient as G _{When (when)} ；

Obtaining illumination coefficients in the last k evaluation periods, and marking the obtained illumination coefficients as G _k Where k=1, 2, … …, it should be further noted that, in the implementation process,k represents the current evaluation period, and k-1 represents the last evaluation period;

obtaining the change coefficient in the current evaluation period according to the illumination coefficients obtained in the last k evaluation periods, and marking the obtained change coefficient as B _k ；

Setting a change threshold B ₀ Comparing the obtained change coefficient with a set change threshold value;

when |B _k -B _k-1 |≤B ₀ When it is, it is not subjected to any other operation;

when |B _k -B _k-1 |＞B ₀ When G is to _k And G _k-1 If G _k ＞G _k-1 Will B _k Marking as increasing the change coefficient, performing brightness reduction on the lighting equipment in advance, if G _k ＜G _k-1 Will B _k The change coefficient is marked as being reduced, and the brightness of the lighting equipment is adjusted to be high in advance.

It should be further noted that, in the implementation process, the automatic control module performs infrared thermal imaging detection on the family member to obtain a corresponding activity state, and the process of automatically controlling the lighting device according to the obtained activity state includes:

setting a corresponding infrared detection unit for each lighting device which is divided and named according to a room structure, and carrying out infrared thermal imaging detection on a lighting area of the lighting device through the infrared detection unit to judge whether family personnel exist in the lighting area or not, and obtaining an activity state of the family members, wherein the activity state comprises an entering state, an exiting state and a stay state;

when the infrared detection unit detects the family member, the infrared detection unit marks the family member as an entering state and turns on the lighting equipment of the lighting area, when the infrared detection unit continuously detects the family member, the infrared detection unit marks the family member as a stay state, the lighting equipment of the lighting area is kept continuously turned on, when the infrared detection unit does not detect the family member, the infrared detection unit marks the family member as an leaving state, and the lighting equipment of the lighting area is turned off after a retention time length, wherein the retention time length is a preset time interval.

It should be further noted that, in the implementation process, the information feedback module obtains manual control data of the family member, and the process of performing corresponding adjustment on the automatic control according to the obtained manual control data includes:

the control authority of the manual control is higher than that of the automatic control, the manual control data refers to the manual control condition of the same lighting area after the automatic control, for example, the automatic control turns off the lighting equipment, the manual control turns on the lighting equipment again, the times of the condition are counted, and the times are marked as the automatic control times;

setting an adjusting period, constructing a primary function of the automatic control times and the reserved time length, correspondingly adjusting the reserved time length according to the change condition of the automatic control times in the last adjusting period, wherein the longer the automatic control times are, the longer the reserved time length is, and the final reserved time length of the last adjusting period is taken as the initial reserved time length of the next adjusting period.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (8)

1. The lighting control system based on the home network comprises a main control center, and is characterized in that the main control center is in communication connection with a data storage module, a manual control module, a data processing module, an automatic control module and an information feedback module;

the data storage module is used for collecting and storing identity information and sound information of family members;

the manual control module is used for constructing a spatial distribution diagram of the lighting equipment and also used for manually controlling the lighting equipment;

the data processing module is used for monitoring indoor illumination intensity, adjusting the brightness of the lighting equipment according to the monitored illumination intensity, obtaining the change trend of the indoor illumination intensity, and pre-adjusting the brightness of the lighting equipment according to the obtained change trend;

the automatic control module is used for carrying out infrared thermal imaging detection on family members to obtain corresponding activity states, and automatically controlling the lighting equipment according to the obtained activity states;

the information feedback module is used for obtaining manual control data of family members and correspondingly adjusting automatic control according to the obtained manual control data.

2. A home network based lighting control system as defined in claim 1, wherein the process of collecting and storing the identity information and the sound information of the family members by the data storage module comprises:

setting a registration unit and a family member database, finishing registration by inputting the identity information of the family member into the registration unit, and uploading the obtained identity information to the family member database for storage;

after the family member finishes logging in through the logging-in unit, the logging-in unit is used for logging in own voice information, and the logged voice information is uploaded to a family member database for storage.

3. A home network based lighting control system as set forth in claim 2, wherein the manual control module constructs a spatial profile of the lighting devices comprising:

and setting a construction unit, acquiring basic data of the indoor space through the construction unit, constructing an indoor space distribution diagram based on the acquired basic data by utilizing a three-dimensional modeling technology, and uploading the lighting equipment to the indoor space distribution diagram according to the distribution situation of the lighting equipment to visualize the space distribution diagram so as to obtain the space distribution diagram of the lighting equipment, wherein the distribution situation refers to the installation position and the lighting area of the lighting equipment.

4. A home network based lighting control system as claimed in claim 3, wherein the manual control module manually controls the lighting devices comprises:

the manual control comprises remote control and sound control, for the method of remote control, family members operate through a spatial distribution diagram to generate manual control instructions, the manual control instructions are sent to corresponding lighting equipment, and the lighting equipment is turned on or turned off according to the manual control instructions;

for the method of sound control, lighting equipment is divided and named according to a room structure in a spatial distribution diagram, a sound control unit is arranged, sound control information is recorded through the sound control unit, MFCC coefficients of the sound control information and the sound information are respectively obtained through an MFCC method, the MFCC coefficients of the sound control information and the sound information are compared, and the lighting equipment is controlled according to a comparison result.

5. The home network-based lighting control system of claim 4, wherein the data processing module monitors the intensity of illumination in the room, and wherein the process of adjusting the brightness of the lighting device based on the monitored intensity of illumination comprises:

setting an illumination monitoring unit, obtaining real-time illumination intensity of an indoor space through the illumination monitoring unit, obtaining the most comfortable illumination intensity of each family member, comparing the real-time illumination intensity with the most comfortable illumination intensity, obtaining an excessively low state or an excessively high state according to a comparison result, and carrying out brightness adjustment or brightness adjustment on the excessively low state or the excessively high state.

6. The home network-based lighting control system of claim 5, wherein the data processing module obtains a trend of the intensity of the illumination in the room, and wherein the pre-adjusting of the brightness of the lighting device according to the obtained trend comprises:

setting an evaluation period, obtaining an illumination coefficient in the current evaluation period according to the real-time illumination intensity in the current evaluation period, obtaining a change coefficient in the current evaluation period according to the illumination coefficients in a plurality of last evaluation periods, setting a change threshold, comparing the change coefficient with the change threshold, obtaining a rising change coefficient and a reducing change coefficient according to a comparison result, and regulating the brightness of the rising change coefficient or the reducing change coefficient.

7. A home network based lighting control system as set forth in claim 6, wherein the automatic control module performs infrared thermal imaging detection on the family members to obtain corresponding activity states, and the process of automatically controlling the lighting device according to the obtained activity states comprises:

an infrared detection unit is arranged, infrared thermal imaging detection is carried out on an illumination area of illumination equipment through the infrared detection unit so as to judge whether family personnel exist in the illumination area, and an activity state of the family members is obtained, wherein the activity state comprises an entering state, an exiting state and a stay state;

for the entering state, the lighting equipment of the lighting area is started, for the stay state, the lighting equipment of the lighting area is kept to be continuously started, and for the leaving state, the lighting equipment of the lighting area is turned off after a reserved time length, and the reserved time length is a preset time interval.

8. The home network-based lighting control system of claim 7, wherein the information feedback module obtains manual control data of the family member, and wherein the process of adjusting the automatic control accordingly based on the obtained manual control data comprises:

the control authority of the manual control lighting equipment is higher than that of the automatic control, and the manual control data refer to the manual control condition of the same lighting area after the automatic control, such as the automatic control times;

setting an adjusting period, correspondingly adjusting the reserved time length according to the change condition of the automatic control times in the last adjusting period, wherein the longer the automatic control times are, the longer the reserved time length is, and the final reserved time length of the last adjusting period is taken as the initial reserved time length of the next adjusting period.