CN109640483A - A kind of indoor feedback lighting control system based on intelligent wearable device - Google Patents

Abstract

The indoor feedback lighting control system based on intelligent wearable device that the invention discloses a kind of, biomedical information acquisition module detect body temperature, pulse and the heart rate information of intelligent wearable device user, send information to message handler；Environmental factor acquisition module carries out integrated information analysis for detecting indoor temperature information and outdoor intensity signal, while by connection real time clock unit；Message handler receives the acquisition information of biomedical information acquisition module and environmental factor acquisition module, carries out comprehensive analysis to information, judges the scope of activities and lighting demand of intelligent wearable device user；Information feedback module receives the analysis of message handler as a result, sending command information to lighting control module based on the analysis results；Lighting control module receives the command information of information feedback module, carries out subregion regulation to interior illumination fixture according to command information.

Description

Indoor feedback lighting control system based on intelligent wearable equipment

Technical Field

The invention relates to the technical field of lighting control, in particular to an indoor feedback lighting control system based on intelligent wearable equipment.

Background

The intelligent wearing equipment is a general name for applying wearing technology to intelligently design daily wearing and develop wearable equipment, such as watches, bracelets, glasses, clothes and the like. Wearable smart devices have a history of years of development, and ideas and rudiments have appeared in the 60's of the 20 th century, while devices in the form of wearable smart devices have appeared in the 70-80's. The coming era of wearable intelligent devices means the intelligent extension of people, and through the devices, people can better perceive external and self information, can process information more efficiently under the assistance of computers, networks and even other people, and can realize more seamless communication. The application fields can be divided into two broad categories, namely self-quantification and in vitro evolution. The idea of the wearable intelligent device is to explore a brand-new interaction mode of people and science and technology, provide exclusive and personalized services for everyone, and the calculation mode of the device is undoubtedly mainly based on local calculation, namely only in this way, the personalized and unstructured data of each user can be accurately positioned and sensed, so that a unique exclusive data calculation result on the mobile device of each person is formed, the user can be found accurately to reach the really meaningful requirement of the user, and finally various specific targeted services are developed through a touch rule calculated with the center. The light intensity and the light color of indoor illumination have great influence on human bodies, but the illumination intensity cannot be accurately controlled by the conventional illumination control system.

Disclosure of Invention

The invention aims to solve the technical problem that the light intensity and the light color of indoor illumination have great influence on a human body, but the existing illumination control system cannot accurately control the illumination intensity, and provides an indoor feedback illumination control system based on intelligent wearable equipment in order to overcome the defects of the prior art.

In order to solve the technical problems, the invention provides the following technical scheme:

the invention provides an indoor feedback illumination control system based on intelligent wearable equipment, which comprises a biological information acquisition module, an environmental factor acquisition module, an information processor, an information feedback module and an illumination control module, wherein the biological information acquisition module is used for acquiring environmental factors; wherein,

the biological information acquisition module comprises a body temperature sensor, a pulse sensor, a heart rate sensor and a position moving sensor, is used for detecting body temperature, pulse and heart rate information of a user of the intelligent wearable device, and sends the information to the information processor; the position moving sensor is used for detecting the indoor position change information of the intelligent wearable device user;

the environment factor acquisition module is used for detecting indoor temperature information and outdoor light intensity information and analyzing comprehensive information by connecting a real-time clock unit;

an information processor: receiving the collected information of the biological information collecting module and the environmental factor collecting module, carrying out comprehensive analysis on the information, and judging the activity range and the lighting requirement of the intelligent wearable equipment user;

the information feedback module receives the analysis result of the information processor and sends instruction information to the illumination control module according to the analysis result;

and the illumination control module receives the instruction information of the information feedback module and regulates and controls the indoor illumination equipment in different areas according to the instruction information.

As a preferred technical solution of the present invention, the biological information collection module and the environmental factor collection module are connected to an information processor, the information processor is connected to an information feedback module, and the information feedback module is connected to the illumination control module.

As a preferable technical scheme of the invention, the biological information acquisition module is arranged on the intelligent wearable device at a position close to the skin of the human body.

As a preferred technical scheme of the invention, the environmental factor acquisition module comprises a temperature sensor, a real-time clock unit and an outdoor light intensity sensor; wherein,

the temperature sensor is used for detecting the indoor environment of a user of the intelligent wearable equipment and sending detected temperature information to the information processor;

the real-time clock unit is a time correction device with a self-calibration function and connected with a wireless communication network;

outdoor light intensity sensor detects the outdoor light intensity that intelligent wearing equipment user located, sends the light intensity information who detects to information processor.

As a preferred technical solution of the present invention, the information processor includes a biological information analysis module, an activity amount analysis module, and a frequency range division module; wherein,

the biological information analysis module is used for judging the physiological activities, such as sleeping state or reading state, of the intelligent wearable device user according to the body temperature, pulse and heart rate information of the intelligent wearable device user in combination with the acquired information of the biological information acquisition module;

the activity analysis module is used for judging the activity range and the activity frequency of the intelligent wearable equipment user by combining the acquired information of the biological information acquisition module;

and the frequency range division module is used for judging the lighting requirement of the position where the intelligent wearable equipment user is located according to the analysis results of the biological information analysis module and the activity analysis module.

As a preferred technical solution of the present invention, the information feedback module includes an information receiving module, an instruction sending module and an information storage module; wherein,

the information receiving module receives an information result processed by the information processor;

the instruction sending module is used for sending corresponding instruction information to the illumination control module according to the judgment result of the frequency range dividing module;

and the information storage module is used for storing the information result of the information processor and comparing the information result with information data.

As a preferred technical scheme of the invention, the illumination control module comprises an illumination main scheduling unit, an illumination area scheduling unit and a light ray grading control module; wherein,

the illumination main scheduling unit is used for receiving the instruction information of the information feedback module, serving as a main control unit of the indoor illumination equipment and connected with the illumination area scheduling units of all branches;

the lighting area scheduling unit is connected with the modularized lighting equipment, receives the regulation and control of the lighting main scheduling unit and specifically controls the lighting equipment in the area;

and the light ray grading control module regulates and controls the light intensity and the light ray color of the lighting equipment according to the instruction information.

The invention has the following beneficial effects: the intelligent wearable device can detect biological information of a user, judge the physiological activity of the user according to the biological information, judge the illumination requirement required by the activity of the user, and intelligently regulate and control the indoor lighting device, so that the indoor lighting device conforms to a scientific comfortable lighting environment.

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 schematic flow chart of the present invention.

Reference numbers in the figures: 1. a biological information acquisition module; 11. a body temperature sensor; 12. a pulse sensor; 13. a heart rate sensor; 14. a position movement sensor; 2. an environmental factor acquisition module; 21. a temperature sensor; 22. a real-time clock unit; 23. an outdoor light intensity sensor; 3. an information processor; 31. a biological information analysis module; 32. an activity amount analysis module; 33. a frequency range division module; 4. an information feedback module; 41. an information receiving module; 42. an instruction sending module; 43. an information storage module; 5. a lighting control module; 51. a lighting main dispatching unit; 52. a lighting area scheduling unit; 53. and the light ray grading control module.

Detailed Description

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

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.

Example (b): as shown in fig. 1, the invention provides an indoor feedback illumination control system based on intelligent wearable equipment, which comprises a biological information acquisition module 1, an environmental factor acquisition module 2, an information processor 3, an information feedback module 4 and an illumination control module 5; wherein,

the biological information acquisition module 1 comprises a body temperature sensor 11, a pulse sensor 12, a heart rate sensor 13 and a position moving sensor 14, is used for detecting body temperature, pulse and heart rate information of a user of the intelligent wearable device, and sends the information to the information processor 3; the position moving sensor 14 is used for detecting the indoor position change information of the intelligent wearable device user;

the environment factor acquisition module 2 is used for detecting indoor temperature information and outdoor light intensity information and analyzing comprehensive information by connecting the real-time clock unit 33;

the information processor 3: receiving the collected information of the biological information collection module 1 and the environmental factor collection module 2, carrying out comprehensive analysis on the information, and judging the activity range and the lighting requirement of the intelligent wearable equipment user;

the information feedback module 4 receives the analysis result of the information processor 3 and sends instruction information to the illumination control module 5 according to the analysis result;

and the illumination control module 5 receives the instruction information of the information feedback module 4 and regulates and controls the indoor illumination equipment in different areas according to the instruction information.

Further, the biological information collection module 1 and the environmental factor collection module 2 are connected to the information processor 3, the information processor 3 is connected to the information feedback module 4, and the information feedback module 4 is connected to the illumination control module 5.

Further, the biological information acquisition module 1 is arranged on the intelligent wearable device and close to the position of the skin of the human body.

Further, the environmental factor collecting module 2 comprises a temperature sensor 21, a real-time clock unit 22 and an outdoor light intensity sensor 23; wherein,

the temperature sensor 21 detects the indoor environment of the user of the intelligent wearable device and sends the detected temperature information to the information processor 3;

a real-time clock unit 22, a time correction device having a self-calibration function connected to a wireless communication network;

outdoor light intensity sensor 23 detects the outdoor light intensity that intelligent wearing equipment user located, sends the light intensity information who detects to information processor 3.

Further, the information processor 3 includes a biological information analysis module 31, an activity amount analysis module 32, and a frequency range division module 33; wherein,

the biological information analysis module 31 is used for judging the physiological activities, such as sleeping state or reading state, performed by the intelligent wearable device user according to the body temperature, pulse and heart rate information of the intelligent wearable device user in combination with the acquired information of the biological information acquisition module 1;

the activity analysis module 32 is used for judging the activity range and the activity frequency of the intelligent wearable device user by combining the acquired information of the biological information acquisition module 1;

and the frequency range division module 33 is used for judging the lighting requirement of the position where the intelligent wearable device user is located according to the analysis results of the biological information analysis module 31 and the activity analysis module 32.

Further, the information feedback module 4 includes an information receiving module 41, an instruction sending module 42 and an information storage module 43; wherein,

an information receiving module 41 for receiving the information result processed by the information processor 3;

an instruction sending module 42, which sends corresponding instruction information to the illumination control module 5 according to the judgment result of the frequency range division module 33;

the information storage module 43 stores the information result of the information processor 3 for use as the comparative information material.

Further, the lighting control module 5 includes a lighting main scheduling unit 51, a lighting area scheduling unit 52, and a light grading control module 53; wherein,

the illumination main scheduling unit 51 is used for receiving the instruction information of the information feedback module 4, serving as a main control unit of the indoor illumination equipment, and connected with the illumination area scheduling units 52 of the branches;

an illumination area scheduling unit 52 connected to the modular illumination apparatuses, receiving the control of the illumination main scheduling unit 51, and materializing the illumination apparatuses in the control area;

a light grading control module 53 for regulating and controlling the light intensity and light color of the lighting device according to the instruction information

Specifically, the method comprises the following steps:

the biological information acquisition module 1 comprises a body temperature sensor 11, a pulse sensor 12, a heart rate sensor 13 and a position moving sensor 14, and is used for detecting body temperature, pulse and heart rate information of a user of the intelligent wearable device and sending the information to the information processor 3; the position moving sensor 14 is used for detecting the indoor position change information of the intelligent wearable device user; the environment factor acquisition module 2 is used for detecting indoor temperature information and outdoor light intensity information and analyzing comprehensive information by connecting the real-time clock unit 33; the biological information acquisition module 1 and the environmental factor acquisition module 2 are connected to the information processor 3, the information processor 3 receives the acquired information of the biological information acquisition module 1 and the environmental factor acquisition module 2, the information is comprehensively analyzed, and the activity range and the illumination requirement of a user of the intelligent wearable device are judged;

the information processor 3 is connected to the information feedback module 4, and the information feedback module 4 is connected to the illumination control module 5; the information feedback module 4 receives the analysis result of the information processor 3 and sends instruction information to the illumination control module 5 according to the analysis result; and the illumination control module 5 receives the instruction information of the information feedback module 4 and regulates and controls the indoor illumination equipment in different areas according to the instruction information.

It is worth noting that: the whole device is controlled by the master control button, and the equipment matched with the control button is common equipment, so that the device belongs to the existing well-known technology, and the electrical connection relation and the specific circuit structure of the device are not repeated.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. An indoor feedback lighting control system based on intelligent wearable equipment is characterized by comprising a biological information acquisition module (1), an environmental factor acquisition module (2), an information processor (3), an information feedback module (4) and a lighting control module (5); wherein,

the biological information acquisition module (1) comprises a body temperature sensor (11), a pulse sensor (12), a heart rate sensor (13) and a position moving sensor (14), is used for detecting body temperature, pulse and heart rate information of a user of the intelligent wearable device, and sends the information to the information processor (3); the position moving sensor (14) is used for detecting the indoor position change information of the intelligent wearable device user;

the environment factor acquisition module (2) is used for detecting indoor temperature information and outdoor light intensity information and analyzing comprehensive information by connecting a real-time clock unit (33);

information processor (3): receiving the collected information of the biological information collection module (1) and the environmental factor collection module (2), carrying out comprehensive analysis on the information, and judging the range of motion and the lighting requirement of a user of the intelligent wearable device;

the information feedback module (4) receives the analysis result of the information processor (3) and sends instruction information to the illumination control module (5) according to the analysis result;

and the illumination control module (5) receives the instruction information of the information feedback module (4) and regulates and controls the indoor illumination equipment in different areas according to the instruction information.

2. The indoor feedback lighting control system based on the intelligent wearable device is characterized in that the biological information acquisition module (1) and the environmental factor acquisition module (2) are connected to the information processor (3), the information processor (3) is connected to the information feedback module (4), and the information feedback module (4) is connected to the lighting control module (5).

3. The indoor feedback lighting control system based on the intelligent wearable device is characterized in that the biological information acquisition module (1) is arranged on the intelligent wearable device at a position close to the skin of a human body.

4. The indoor feedback lighting control system based on the intelligent wearable device is characterized in that the environmental factor acquisition module (2) comprises a temperature sensor (21), a real-time clock unit (22) and an outdoor light intensity sensor (23); wherein,

the temperature sensor (21) is used for detecting the indoor environment of the intelligent wearable device user and sending the detected temperature information to the information processor (3);

a real-time clock unit (22) which is connected to a wireless communication network and has a time correction device with a self-calibration function;

outdoor light intensity sensor (23), the outdoor light intensity that detects intelligent wearing equipment user and locate sends the light intensity information who detects to information processor (3).

5. The indoor feedback lighting control system based on the intelligent wearable device is characterized in that the information processor (3) comprises a biological information analysis module (31), an activity analysis module (32), a frequency range division module (33); wherein,

the biological information analysis module (31) is used for judging the physiological activities, such as sleeping state or reading state, of the intelligent wearable device user according to the body temperature, pulse and heart rate information of the intelligent wearable device user in combination with the acquired information of the biological information acquisition module (1);

the activity analysis module (32) is used for judging the activity range and the activity frequency of the intelligent wearable equipment user by combining the acquired information of the biological information acquisition module (1);

and the frequency range division module (33) is used for judging the lighting requirement of the position where the intelligent wearable equipment user is located according to the analysis results of the biological information analysis module (31) and the activity analysis module (32).

6. An indoor feedback lighting control system based on intelligent wearable equipment as claimed in claim 1, wherein the information feedback module (4) comprises an information receiving module (41), an instruction sending module (42) and an information storage module (43); wherein,

an information receiving module (41) for receiving the information result processed by the information processor (3);

an instruction sending module (42) which sends corresponding instruction information to the illumination control module (5) according to the judgment result of the frequency range division module (33);

and the information storage module (43) stores the information result of the information processor (3) and uses the information result as contrast information data.

7. The indoor feedback lighting control system based on the intelligent wearable device is characterized in that the lighting control module (5) comprises a lighting main scheduling unit (51), a lighting area scheduling unit (52) and a light grading control module (53); wherein,

the illumination main scheduling unit (51) is used for receiving the instruction information of the information feedback module (4) and is used as a main control unit of the indoor illumination equipment, and the illumination area scheduling unit (52) is connected with each branch;

the lighting area scheduling unit (52) is connected with the modularized lighting equipment, receives the regulation and control of the lighting main scheduling unit (51), and concretizes the lighting equipment in the control area;

and the light ray grading control module (53) regulates and controls the light intensity and the light ray color of the lighting equipment according to the instruction information.