CN108572557A - The control system and control method of sleep environment - Google Patents
The control system and control method of sleep environment Download PDFInfo
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- CN108572557A CN108572557A CN201810330387.5A CN201810330387A CN108572557A CN 108572557 A CN108572557 A CN 108572557A CN 201810330387 A CN201810330387 A CN 201810330387A CN 108572557 A CN108572557 A CN 108572557A
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- 230000007958 sleep Effects 0.000 title claims abstract description 297
- 238000000034 method Methods 0.000 title claims abstract description 58
- 210000004556 brain Anatomy 0.000 claims description 93
- 241001465382 Physalis alkekengi Species 0.000 claims description 62
- 230000007613 environmental effect Effects 0.000 claims description 28
- 238000012544 monitoring process Methods 0.000 claims description 23
- 230000005059 dormancy Effects 0.000 claims description 12
- 230000002452 interceptive effect Effects 0.000 claims description 9
- 230000005611 electricity Effects 0.000 claims description 5
- 230000002490 cerebral effect Effects 0.000 claims 1
- 230000003860 sleep quality Effects 0.000 abstract description 24
- 230000008667 sleep stage Effects 0.000 description 17
- 230000008859 change Effects 0.000 description 10
- 230000003993 interaction Effects 0.000 description 8
- 230000001143 conditioned effect Effects 0.000 description 6
- 230000036541 health Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 5
- 230000008569 process Effects 0.000 description 4
- 230000036760 body temperature Effects 0.000 description 3
- 230000029058 respiratory gaseous exchange Effects 0.000 description 3
- 230000003068 static effect Effects 0.000 description 3
- 238000006243 chemical reaction Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 210000001259 mesencephalon Anatomy 0.000 description 2
- 230000036651 mood Effects 0.000 description 2
- 238000000465 moulding Methods 0.000 description 2
- 238000004378 air conditioning Methods 0.000 description 1
- 230000003466 anti-cipated effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 235000013399 edible fruits Nutrition 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 210000003128 head Anatomy 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
Classifications
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B15/00—Systems controlled by a computer
- G05B15/02—Systems controlled by a computer electric
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/418—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
- G05B19/41845—Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM] characterised by system universality, reconfigurability, modularity
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/20—Pc systems
- G05B2219/26—Pc applications
- G05B2219/2642—Domotique, domestic, home control, automation, smart house
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Automation & Control Theory (AREA)
- Manufacturing & Machinery (AREA)
- Quality & Reliability (AREA)
- Measurement Of The Respiration, Hearing Ability, Form, And Blood Characteristics Of Living Organisms (AREA)
Abstract
The invention discloses the control system of a sleep environment and control methods, wherein the control system includes a control unit, for adjusting the state of the sleep environment according to the real-time status of user.Specifically, described control unit includes the control module being mutually communicatively coupled and a schemes generation module, the wherein described schemes generation module generates a control program according to the real-time status of user, the control module adjusts the sleep environment when executing the control program in a manner of controlling at least working condition of an electrical equipment for being arranged at the sleep environment, to make the wave band of the sleep environment and the wave band of the E.E.G of wave frequency and user and wave frequency be adapted, to improve the sleep quality of user.
Description
Technical field
The present invention relates to environmental Kuznets Curves field, the more particularly to control systems and control method of a sleep environment, wherein institute
The wave band of a sleep environment and wave frequency can be adjusted in wave with user in the E.E.G of each sleep stage by stating control system
Section and wave frequency are adapted, to improve the sleep quality of user.
Background technology
The sleep quality of people is influenced bigger by sleep environment factor, can be had by way of improving sleep environment
It improves sleep quality and is well-known in effect ground.Now, have much for improving the mode of sleep environment, for example, can pass through
It improves health care bed mattress and the first-class health product of health pillow and adjusts the mode of indoor humidity and temperature to improve sleep environment,
In a manner of obtaining good body-sensing ensure sleep quality when helping people in sleep;It can also be by playing specific music
Mode improves sleep environment, to help people to ensure sleep quality in a manner of minding at rest.For to provide health care bed mattress
For mode with the first-class health product of health pillow and the mode of the indoor humidity of adjusting and temperature to improve sleep environment, quilt
Sleep environment after adjusting is relatively more fixed, that is, if in the intervention of follow-up not human factor, sleep environment is merely able to be maintained at
State after adjusting and can not be changed again, such as the wave band of sleep environment and wave frequency are merely able to be maintained at fixed state
And it can not make a change.For in the way of improving sleep environment in a manner of playing specific music, sleeping after being conditioned
There are certain regularity, the wave band and wave frequency of sleep environment are merely able to be changed according to preset mode for the variation of dormancy environment,
And the wave band and wave frequency of sleep environment are influenced bigger by played specific music.
However, on the one hand, everyone is all different in the requirement for sleep environment;On the other hand, the entire sleep of people
There are process multiple sleep stages, requirement of each sleep stage for sleep environment also to differ.For different people,
Its wave band showed in sleep procedure midbrain wave and wave frequency are different, for same person, in difference
The wave band and wave frequency that sleep procedure midbrain wave under period and different moods shows also differ.In addition, for same
For people, wave band and wave frequency that the E.E.G of each sleep stage in sleep procedure shows also differ.It is sleeping
In the process, it if the wave band and wave frequency that are generated in sleep environment can not be adapted with the wave band and wave frequency of E.E.G, will certainly influence
The sleep quality of people.Obviously, it only the sleep environment of fixed band and wave frequency and is merely able to change according to preset mode
Wave band and the sleep environment of wave frequency can not adapt to the wave band and wave frequency of the E.E.G of each sleep stage of the people in sleep procedure.
In addition, lamps and lanterns can be controlled to generate different wave bands and wave frequency, and the wave band and wave frequency energy of lamps and lanterns generation
Enough influence the wave band and wave frequency of sleep environment, if it is possible to which the wave band and wave frequency that lamps and lanterns generate are controlled according to the sleep state of people
So that wave band and wave that the wave band and wave frequency of sleep environment residing for lamps and lanterns are showed with E.E.G of the people in sleep state
Frequency is adapted, then can generate beneficial help to the raising of the sleep quality of people.However, such technology makes currently not yet
The wave band and wave frequency that lamps and lanterns generate influence the wave band and wave frequency of sleep environment, and then make wave band and wave frequency and the people of sleep environment
The wave band and wave frequency that E.E.G in sleep state shows are adapted.
Invention content
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can adjust a sleep environment according to the real-time status of user, so that the sleep environment meets the sleep need of user
It asks.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can dynamically adjust the sleep environment according to the real-time status of user, so that the sleep environment meets user's
Sleep need.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can obtain real-time status according to user and automatically regulate the sleep environment, so that the sleep environment meets user's
Sleep need.In other words, the control system is an active control system, that is, the control system can be adjusted initiatively
The sleep environment, so that the sleep environment meets the sleep need of user.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can dynamically and automatically adjust the sleep environment according to the real-time status of user, so that the sleep environment meets
Sleep need of the user in different sleep stages.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can make the wave band that the wave band of the sleep environment generation and wave frequency are showed with E.E.G of the user in sleep state
It is adapted with wave frequency, to improve the sleep quality of user.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can adjust described sleep in such a way that control is arranged at at least working condition of an electrical equipment of the sleep environment
Dormancy state, wherein after the working condition of the electrical equipment is conditioned, wave band and wave frequency that the electrical equipment generates can
It is synchronously controlled to adjust the wave band and wave frequency of the sleep environment, to pass through the wave band and wave frequency that make the sleep environment
Adaptable mode improves the sleep quality of user with the wave band and wave frequency of the E.E.G of user.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System can adjust the sleep ring in such a way that control is arranged at at least working condition of a lamps and lanterns of the sleep environment
Border, wherein after the working condition of the lamps and lanterns is conditioned, wave band and wave frequency that the electrical equipment generates can be controlled synchronously
System is to adjust the wave band and wave frequency of the sleep environment, to pass through the wave band and wave frequency and the user that make the sleep environment
The adaptable mode of the wave band and wave frequency of E.E.G improves the sleep quality of user.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System provide a control unit, wherein described control unit include a control module, the control module be communicatively connected in a network in
The electrical equipment, to adjust the working condition of the electrical equipment when the control module executes a control program.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is single
Member provides a schemes generation module, wherein the schemes generation module provides the controlling party according to the real-time status of user
Case.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System provides an information collection unit, and the real-time status of user is obtained in a manner of collecting the state of user in real time, to
Follow-up, described in the schemes generation module can be provided according to the real-time status for the user that described information collector unit obtains
Control program.
It is an object of the present invention to provide the control system of a sleep environment and control method, wherein described information is received
Collect unit and one acquiring brain waves module is provided, for the wave band and wave frequency of E.E.G of the acquisition user in sleep state, thus
Determine the specific sleep state of user.
It is an object of the present invention to provide the control system of a sleep environment and control method, wherein described information is received
Collect unit and one sign acquisition module is provided, for real-time sign of the acquisition user in sleep state, thus follow-up, it is described
Schemes generation module can generate the control program according to the real-time sign of user.
It is an object of the present invention to provide the control system of a sleep environment and control method, wherein described information is received
Collect unit and one environment acquisition module is provided, for the real-time status of the sleep environment of acquisition user, in follow-up, institute
The control program can be generated according to the real-time status of the sleep environment by stating schemes generation module.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the scheme is given birth to
The control program can be generated to the influence degree of E.E.G information according to the sign information of user at module.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the scheme is given birth to
At module can according to difference between the environmental information of the sleep environment and the E.E.G information of user generate the control
Scheme processed.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the control is
System provides an interactive unit, to provide the interaction between the control system and user.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the interaction is single
Member provides a monitoring module, and the monitoring module can monitor whether user enters the sleep environment, to provide the control
Interaction between system processed and user.
It is an object of the present invention to provide the control system of a sleep environment and control methods, wherein the interaction is single
Member provides a display module, and the display module provides the control system in a manner of being communicatively coupled with a display equipment
Interaction between user.
One side under this invention, the present invention provide the control system of a sleep environment comprising:
One control unit, wherein described control unit include a control module and a schemes generation module, the scheme life
It is communicatively connected in a network in the control module at module, wherein the schemes generation module makes according in a sleep environment
The real-time status of user generates a control program, and the control module is arranged at institute when executing the control program to control
The mode for stating at least working condition of an electrical equipment of sleep environment adjusts the sleep environment.
According to one embodiment of present invention, the control system further comprises an information collection unit, wherein described
Control unit further comprises that a processing module, the processing module are communicatively connected in a network in described information collector unit, institute
It states schemes generation module to be communicatively connected in a network in the processing module, wherein the processing module collects list according to described information
The real-time status for the user that member is collected generates a handling result, and the schemes generation module generates institute according to the handling result
State control program.
According to one embodiment of present invention, the control system further comprises an information collection unit, wherein described
Control unit further comprises that a processing module, the processing module are communicatively connected in a network in described information collector unit, institute
It states schemes generation module to be communicatively connected in a network in the processing module, wherein the processing module collects list according to described information
The real-time status for the user that member is collected and the real-time status of the sleep environment generate a handling result, the schemes generation mould
Root tuber generates the control program according to the handling result.
According to one embodiment of present invention, described information collector unit includes an acquiring brain waves module, the processing
Module is communicatively connected in a network in the acquiring brain waves module, and wherein described information collector unit is with the acquiring brain waves mould
The mode of the E.E.G information of block acquisition user obtains the real-time status of user, and the processing module is adopted according to the brain wave
The E.E.G information for collecting the user of module acquisition generates the handling result.
According to one embodiment of present invention, described information collector unit includes that an acquiring brain waves module and a sign are adopted
Collecting module, the processing module is communicatively connected in a network respectively in the acquiring brain waves module and the sign acquisition module,
Wherein described information collector unit acquires the E.E.G information of user with the acquiring brain waves module and the sign acquires mould
The mode of the sign information of block acquisition user obtains the real-time status of user, and the processing module is adopted according to the brain wave
Described in the sign information generation for collecting the E.E.G information of the user of module acquisition and the user of sign acquisition module acquisition
Handling result.
According to one embodiment of present invention, described information collector unit includes that an acquiring brain waves module and an environment are adopted
Collecting module, the processing module is communicatively connected in a network respectively in the acquiring brain waves module and the environment acquisition module,
Wherein described information collector unit obtains user in such a way that the acquiring brain waves module acquires the E.E.G information of user
Real-time status, and by the environment acquisition module acquire the sleep environment wave band and wave frequency in a manner of obtain the sleep
The real-time status of environment, the E.E.G information for the user that the processing module is acquired according to the acquiring brain waves module and described
The environmental information of the sleep environment of environment acquisition module acquisition generates the handling result.
According to one embodiment of present invention, described information collector unit is adopted including an acquiring brain waves module, a sign
Collect module and an environment acquisition module, the processing module be communicatively connected in a network respectively in the acquiring brain waves module,
The sign acquisition module and the environment acquisition module, wherein described information collector unit are adopted with the acquiring brain waves module
The mode of the sign information of the E.E.G information of collection user and sign acquisition module acquisition user obtains the reality of user
When state, and by the environment acquisition module acquire the sleep environment wave band and wave frequency in a manner of obtain the sleep environment
Real-time status, E.E.G information, the sign of the user that the processing module is acquired according to the acquiring brain waves module
The environment letter of the sign information of the user of acquisition module acquisition and the sleep environment of environment acquisition module acquisition
Breath generates the handling result.
According to one embodiment of present invention, the processing module includes an analysis module and a judgment module, described to sentence
Disconnected module is communicatively connected in a network in the analysis module, and the analysis module is communicatively connected in a network in the acquiring brain waves
Module and the sign acquisition module, the schemes generation module are communicatively connected in a network in the judgment module, wherein described
Analysis module analyzes E.E.G information and the sign acquisition module acquisition of the user of acquiring brain waves module acquisition
To obtain an analysis result, the judgment module generates the processing according to the analysis module and ties the sign information of user
Fruit, wherein the influence that the sign information that the content of the handling result is user generates E.E.G information.
According to one embodiment of present invention, the processing module includes an analysis module and a judgment module, described to sentence
Disconnected module is communicatively connected in a network in the analysis module, and the analysis module is communicatively connected in a network in the acquiring brain waves
Module and the sign acquisition module, the schemes generation module are communicatively connected in a network in the judgment module, wherein described
Analysis module analyzes E.E.G information and the environment acquisition module acquisition of the user of acquiring brain waves module acquisition
For the environmental information of the sleep environment to obtain an analysis result, the judgment module generates the place according to the analysis module
Reason as a result, the content of the wherein described handling result be the wave band of the sleep environment and the wave band of the E.E.G of wave frequency and user and
Difference between wave frequency.
According to one embodiment of present invention, the processing module includes an analysis module and a judgment module, described to sentence
Disconnected module is communicatively connected in a network in the analysis module, and the analysis module is communicatively connected in a network in the acquiring brain waves
Module, the sign acquisition module and the environment acquisition module, the schemes generation module are communicatively connected in a network in described
Judgment module, wherein the analysis module analyzes the E.E.G information of the user of the acquiring brain waves module acquisition, the body
Levy the environment of the sign information of the user of acquisition module acquisition and the sleep environment of environment acquisition module acquisition
Information is to obtain an analysis result, and the judgment module generates the handling result according to the analysis module, wherein the place
The content of reason result is the wave band and wave frequency of influence and the sleep environment that the sign information of user generates E.E.G information
Difference between the wave band and wave frequency of the E.E.G of user.
According to one embodiment of present invention, the control system further comprises an interactive unit, wherein the interaction
Unit includes a monitoring module, and the monitoring module is communicatively connected in a network in described information collector unit, wherein when the prison
When control module monitors are in the sleep environment to user, described information collector unit starts to collect the letter first closed with user
Breath, in the real-time status for subsequently obtaining user.
According to one embodiment of present invention, the control system further comprises an interactive unit, wherein the interaction
Unit includes a display module, and the display module is communicatively connected in a network in described information collector unit, wherein the display
Module shows described information in a manner of being communicatively connected in a network in an electronic equipment on the display screen of the electronic equipment
The information that collector unit is collected.
According to one embodiment of present invention, the electrical equipment is lamps and lanterns.
Other side under this invention, the present invention further provides the control methods of a sleep environment, wherein the control
Method processed includes the following steps:
(a) real-time status of the user in a sleep environment is obtained;
(b) control method is provided according to the real-time status of user;And
(c) it is performed in the control program to control at least electrical equipment for being arranged at the sleep environment
The mode of working condition adjusts the sleep environment, to control the sleep environment.
According to one embodiment of present invention, before the step (b), further comprise step:
(d) real-time status of the sleep environment is obtained, thus in the step (b), according to the real-time shape of user
State and the real-time status of the sleep environment provide the control program.
According to one embodiment of present invention, it in the step (a), is obtained in a manner of the E.E.G information for obtaining user
Obtain the real-time status of user.
According to one embodiment of present invention, in the step (a), believed with the E.E.G information and sign that obtain user
The mode of breath obtains the real-time status of user.
According to one embodiment of present invention, it in the step (a), is obtained in a manner of the E.E.G information for obtaining user
The real-time status of user is obtained, and obtains the reality of the sleep environment in a manner of the wave band to obtain the sleep environment and wave frequency
When state.
According to one embodiment of present invention, in the step (a), believed with the E.E.G information and sign that obtain user
The mode of breath obtains described sleep in a manner of obtaining the real-time status of user, and the wave band to obtain the sleep environment and wave frequency
The real-time status of dormancy environment.
According to one embodiment of present invention, in the above-mentioned methods, further comprise step:
By the E.E.G information and sign information of analysis module analysis user to obtain an analysis result, and pass through one
Judgment module obtains a handling result according to the analysis result, in the step (b), be carried according to the handling result
For the control program, wherein the influence that the sign information that the content of the handling result is user generates E.E.G information.
According to one embodiment of present invention, in the above-mentioned methods, further comprise step:
By the E.E.G information and sign information of analysis module analysis user to obtain an analysis result, and pass through one
Judgment module obtains a handling result according to the analysis result, in the step (b), be carried according to the handling result
For the control program, wherein the content of the handling result is the E.E.G of the wave band and wave frequency and user of the sleep environment
Wave band and wave frequency between difference.
According to one embodiment of present invention, in the above-mentioned methods, further comprise step:
By the E.E.G information and sign information of analysis module analysis user to obtain an analysis result, and pass through one
Judgment module obtains a handling result according to the analysis result, in the step (b), be carried according to the handling result
For the control program, wherein influence that the sign information that the content of the handling result is user generates E.E.G information and
Difference between the wave band and wave frequency of the sleep environment and the wave band and wave frequency of the E.E.G of user.
According to one embodiment of present invention, the electrical equipment is lamps and lanterns.
Description of the drawings
Fig. 1 is the block diagram representation of the control system of a sleep environment of a preferred embodiment under this invention.
Fig. 2 is a state of an application scenarios of the control system of above-mentioned preferred embodiment under this invention
Schematic diagram.
Fig. 3 is another state of the above application scene of the control system of above-mentioned preferred embodiment under this invention
Schematic diagram.
Fig. 4 A to Fig. 4 E are the concrete application processes of the control system of above-mentioned preferred embodiment under this invention, are shown
The influence that the electrical equipment controlled by the control system of having anticipated generates the sleep state of user.
Fig. 5 is the flow diagram of the control system of above-mentioned preferred embodiment under this invention.
Fig. 6 is the flow diagram of the control method of a sleep environment of a preferred embodiment under this invention.
Specific implementation mode
Claim according to the present invention and specification disclosure of that, technical scheme of the present invention literary institute specific as follows
It states.
With reference to the attached drawing 1 of the Figure of description of the present invention, the control of a sleep environment of a preferred embodiment under this invention
System 100 processed is set forth in following description, wherein the control system 100 can be according to the real-time status tune of user
A sleep environment 200 is saved, so that the sleep environment 200 disclosure satisfy that the sleep needs of user, and improves sleeping for user
Dormancy quality.Preferably, the control system 100 initiatively and can automatically regulate described sleep according to the real-time status of user
Dormancy environment 200.Preferably, the control system 100 can dynamically adjust the sleep ring according to the real-time status of user
Border 200, to which the control system 100 can make the state of the sleep environment 200 meet each sleep stage of user
Sleep needs, this is for ensureing that the sleep quality of user is very important.
Specifically, the control system 100 includes an information collection unit 10 and a control unit 20, wherein the letter
Breath collector unit 10 and described control unit 20 are mutually communicatively coupled.Described information collector unit 10 can be in real time
The mode for acquiring the state of user obtains the real-time status of user, and described control unit 20 can collect single from described information
Member 10 receives the real-time status of user, and initiatively and dynamically adjusts the sleep environment according to the real-time status of user
200。
Refer to the attached drawing 2 and Fig. 3, in a specific example of the control system 100 of the present invention, the control is single
Member 20 is communicatively connected in a network in an at least electrical equipment 300, wherein the electrical equipment 300 is arranged at the sleep environment
200, the real-time status for the user that wherein described control unit 20 is collected according to described information collector unit 10 is described to adjust
The mode of the working condition of electrical equipment 300 adjusts the sleep environment 200.For example, described control unit 20 can control institute
The working condition for stating electrical equipment 300, to adjust the wave band and wave frequency of the generation of the electrical equipment 300, to by the electricity
The wave band and wave frequency that gas equipment 300 generates influence the wave band and wave frequency of the sleep environment 200, and then make the sleep environment
The wave band and wave frequency that 200 wave band and wave frequency is showed with user in dormant E.E.G are adapted, in this way
Mode ensures the sleep quality of user.
It is noted that the type of the electrical equipment 300 is unrestricted in the control system 100 of the present invention
System, such as the electrical equipment 300 can be but not limited to lamps and lanterns, loud speaker, air-conditioning, air purifier, television set, radio reception
Machine, mobile phone etc. are any can be arranged on the sleep environment 200, and the equipment that can generate wave band and wave frequency.In 2 He of attached drawing
Fig. 3 and in following description by taking the electrical equipment 300 is embodied as a lamps and lanterns 300 ' as an example, to the present invention's
The control system 100 continues to illustrate and disclose, it will be understood by those of skill in the art that by the electrical equipment 300
It is tangibly embodied as the lamps and lanterns 300 ' to be only for example, and is not construed as in the control system 100 to the present invention
Hold the limitation with range.In addition, the type of the lamps and lanterns 300 ' is also unrestricted in the control system 100 of the present invention,
Such as the lamps and lanterns 300 ' can be ceiling lamp shown in attached drawing 2 and Fig. 3, can also be that downlight, floor lamp, wall lamp etc. are any
The lamps and lanterns of type.
With further reference to attached drawing 1, described control unit 20 includes a control module 21 and a schemes generation module 22, wherein
The control module 21 and the schemes generation module 22 are mutually communicatively coupled, wherein the control module 21 can be led to
The lamps and lanterns 300 ' are connected to letter, and the working condition of the lamps and lanterns 300 ' can be controlled by the control module 21.Example
Such as, the control module 21 can control the lamps and lanterns 300 ' whether be energized and the control module 21 can control it is described
The light type that lamps and lanterns 300 ' generate.If it is noted that the lamps and lanterns 300 ' are energized, the lamps and lanterns 300 ' will produce
Light, wherein the light that the lamps and lanterns 300 ' generate can be visible light, can also be black light, that is, the lamps and lanterns 300 '
The light type of generation can also be controlled by the control module 21.In addition, the color for the light that the lamps and lanterns 300 ' generate
Can be controlled, for example, the lamps and lanterns 300 ' can generate but be not limited to white light, yellow light etc..Other one
In a little specific examples, the light that the lamps and lanterns 300 ' generate can be the light of static state, can also be dynamic light.It is worth
One is mentioned that, the light of static state according to the present invention refers to the shaking that ordinary people can not differentiate light by naked eyes, correspondingly,
Dynamic light according to the present invention refers to the shaking that ordinary people can differentiate light by naked eyes.Those skilled in the art
It should be understood that by way of controlling the type for the light that the lamps and lanterns 300 ' generate, the lamps and lanterns 300 ' can be made to produce
Raw different wave band and wave frequency, and the wave band and wave frequency that the lamps and lanterns 300 ' generate can influence the wave band of the sleep environment 200
And wave frequency, and then the wave band and wave frequency of the E.E.G of the user in the sleep environment 200 can be influenced.In other words, the control
Molding block 21 can adjust the sleep environment 200 in a manner of controlling the wave band and wave frequency that the lamps and lanterns 300 ' generate, in turn
Improve the sleep quality of the user in the sleep environment 200.
It is noted that the type for the light that the lamps and lanterns 300 ' are generated by control includes what the lamps and lanterns 300 ' generated
Whether light is visible light that the light luminance of visible light, the lamps and lanterns 300 ' that visible light, the lamps and lanterns 300 ' generate generate
Light color and the visible light of light that generates of the lamps and lanterns 300 ' be static light or dynamic light etc..Also
It is to say, with the change for the light type that the lamps and lanterns 300 ' generate, wave band and wave frequency that the lamps and lanterns 300 ' generate are also simultaneously
Change.
The schemes generation module 22 can generate a control program, the control module according to the real-time status of user
21 can receive the control program from the schemes generation module 22, and execute the control program in the control module 21
When adjust the type of the light that the lamps and lanterns 300 ' generate, to adjust the state of the sleep environment 200.
Described control unit 20 further comprises a processing module 23, wherein the schemes generation module 22 is by communicably
It is connected to the processing module 23, the processing module 23 is communicatively connected in a network in described information collector unit 10.Work as use
For person when the sleep environment 200 is rested or is slept, described information collector unit 10 can acquire the use about user
Family information, wherein the processing module 23 can receive and handle the user information from described information collector unit 10, with
To a handling result, wherein the schemes generation module 22 can receive the handling result and institute from the processing module 23
The control program can be generated according to the handling result by stating schemes generation module 22, in follow-up, the control module 21
The sleep environment 200 is adjusted in a manner of adjusting the working condition of the lamps and lanterns 300 ' when executing the control program, from
And the state of the sleep environment 200 and the sleep state of user is made to be adapted, in this way, can effectively it carry
The sleep quality of high user.
It is noted that the content that the control program includes can be but not limited to control the lamp in which way
The working condition of tool 300 '.In other words, whether the content that the control program includes can be but not limited to the lamps and lanterns
300 ' power, at what time to the lamps and lanterns 300 ' power supply, in a manner of which type of to the lamps and lanterns 300 ' power supply, the lamp
The variation pattern etc. for the light type that the light type and the lamps and lanterns 300 ' that tool 300 ' generates generate.
It's also worth mentioning that the content for the user information about user that described information collector unit 10 acquires
The wave band and wave frequency that are showed including but not limited to E.E.G of the user in sleep state, user are in sleep state
The information such as sign, that is, the content of the user information is including but not limited to the E.E.G information of user and sign information etc..
Refer to the attached drawing 1, in a specific example of the control system 100 of the present invention, described information is collected single
Member 10 includes an acquiring brain waves module 11, wherein the processing module 23 is communicatively connected in a network in the acquiring brain waves mould
Block 11.The acquiring brain waves module 11 be used for acquire in the sleep environment 200 user E.E.G wave band and
Wave frequency, to obtain the E.E.G information of user.For example, in a specific example, the acquiring brain waves module 11 can be with
It is in being communicatively connected in a network to acquire by way of the acquiring brain waves instrument 400 for being arranged at the sleep environment 200
The wave band and wave frequency of the E.E.G of the user of the sleep environment 200.It is noted that the acquiring brain waves instrument 400
Type the present invention the control system 100 in it is unrestricted, as long as can collect the E.E.G of user wave band and
Wave frequency.In addition, it will be understood by those of skill in the art that according to 11 collected user of the acquiring brain waves module
The wave band and wave frequency of E.E.G in sleep state may determine that the sleep stage of user, and user is in different sleep ranks
The wave band and wave frequency that its E.E.G of section shows are all different.
It will be appreciated by those skilled in the art that different people may and be differed in dormant sign information, but it is different
People tends to be identical in dormant brain wave data, that is to say, that although user may be different, in each sleep stage
The wave band that is showed of brain wave data or wave frequency tend to be identical, therefore, particularly, in some embodiments of the invention, institute
Stating acquiring brain waves module 11 can also be arranged to be pre-stored with sleeping brain wave data, wherein described information collector unit certainly
Sleeping brain wave data described in the acquiring brain waves module calls, so that the processing module can be according to the institute transferred
It states sleeping brain wave data and generates the handling result, to generate the control program by the schemes generation module 22,
And then follow-up, the control module 21 adjusts the state of the sleep environment 200 with being able to carry out the control program, with for
User provides the sleep environment 200 being adapted with each sleep stage, so to promote user in sleep in described
Sleep environment 200 improves the sleep quality of user, the invention is not limited in this regard with entering corresponding sleep stage.
The E.E.G obtained from the wave band of the E.E.G of 11 collected user of the acquiring brain waves module and wave frequency is believed
Breath is the user information about user.The processing module 23 can from the acquiring brain waves module 11 receive about
The E.E.G information and the processing module 23 of user can be collected about user to the acquiring brain waves module 11
E.E.G information handled, to obtain the handling result.Then, the schemes generation module 22 can be according to the processing
The handling result of module 23 generates the control program, thus follow-up, the control module 21 is executing the control
The state of the sleep environment 200 is adjusted when scheme in a manner of adjusting the working condition of the lamps and lanterns 300 '.It is appreciated that
It is, the then schemes generation different by the wave band of the E.E.G of 11 collected user of the acquiring brain waves module and wave frequency
The content that module 22 generates the control program also differs, in the lamp that is follow-up, being controlled by the control module 21
The working condition of tool 300 ' also differs.That is, the work shape of the lamps and lanterns 300 ' controlled by the control module 21
State is corresponded with by the E.E.G information of 11 collected user of the acquiring brain waves module.
When user is in the sleep environment 200, the acquiring brain waves module 11 can acquire use in real time
The E.E.G information of person, thus follow-up, the control module 21 can adjust described in real time when executing the control program
The working condition of lamps and lanterns 300 ', that is, the control module 21 can control the lamps and lanterns 300 ' in real time so that the lamps and lanterns
300 ' generate different wave band and wave frequency, and the wave band and wave frequency that the lamps and lanterns 300 ' generate can influence the sleep environment 200
Wave band and wave frequency so that the current E.E.G of the wave band of the sleep environment 200 and wave frequency and user show
Wave band and wave frequency be adapted, to be conducive to improve user sleep quality.
Specifically, refer to the attached drawing 4A to Fig. 4 E, when user is in different sleep stages, the acquiring brain waves
The wave band and wave frequency that the E.E.G of 11 collected user of module shows are all different, and those skilled in the art should manage
Solution, if in the entire sleep procedure of user, the wave band and wave frequency of the sleep environment 200 remain unchanged or only according to pre-
If if mode changes, the wave band and wave frequency of the sleep environment 200 necessarily can not be from users in different sleep stages
The wave band and wave frequency that E.E.G shows are adapted, and once the wave band of the sleep environment 200 and wave frequency can not be with users
The wave band and wave frequency showed in the E.E.G of different sleep stages is adapted, then will certainly influence the sleep matter of user
Amount.For the user, in the period of different or under different moods, the duration of each sleep stage also each not phase
Together, it is clear that if if the wave band of the sleep environment 200 and wave frequency only change according to predetermined manner, the sleep environment 200
The wave band and wave frequency that wave band and wave frequency can not necessarily be showed from user in the E.E.G of different sleep stages are adapted.And
In the control system 100 of the present invention, the acquiring brain waves module 11 can be to acquire the E.E.G of user in real time
The mode of information obtains the real-time status of user, and follow-up, and the control module 21 can be according to the real-time of user
State influences the wave band and wave of the sleep environment 200 in a manner of controlling the lamps and lanterns 300 ' and generate different wave band and wave frequency
Frequently, the wave band that the wave band and wave frequency to make the sleep environment 200 are showed with E.E.G of the user in sleep state
It is adapted with wave frequency, this mode is especially important for the sleep quality for improving user.That is, described sleep
The change for the wave band and wave frequency that the wave band of dormancy environment 200 and the E.E.G of the adjusting of wave frequency and user show be synchronously,
That is, the wave for causing the E.E.G of user to show due to entering another sleep state from a sleep state in user
While section and wave frequency change, the wave band and wave frequency of the sleep environment 200 are also adjusted simultaneously, and the sleep environment
What the wave band and wave frequency that 200 wave band and wave frequency and the E.E.G of user show always were adapted, this is particularly conducive to carry
The sleep quality of high user.In other words, the mode of sleep environment 200 described in the dynamic regulation that the control system 100 provides
There is especially important help for the sleep quality for improving user.Attached drawing 4A to Fig. 4 E shows the same user
The E.E.G of different sleep stages wave band and wave frequency be conditioned after the wave band of the sleep environment 200 and showing for wave frequency
It is intended to, such as collects in described information collector unit 10 sleep state of user and be transformed into moderate from either shallow sleep state and sleep
When dormancy state, the wave band and wave frequency of the E.E.G of user will produce corresponding variation, at this point, the sleep environment 200 also can
Adjusted in real time according to the dormant conversion of user, to the sleep environment 200 wave band and wave frequency with make
The wave band and wave frequency of E.E.G of the user under current state are adapted;Again for example use is collected in described information collector unit 10
When the sleep state of person is transformed into deep sleep from moderate sleep state, the wave band and wave frequency of the E.E.G of user will produce
Corresponding variation, at this point, the sleep environment 200 also can in real time be adjusted according to the dormant conversion of user
Section, so that the wave band of the E.E.G of the wave band and wave frequency of the sleep environment 200 with user under current state and wave frequency are mutually fitted
It answers.It is noted that in this specific example of the control system 100 shown in attached drawing 4A to Fig. 4 E, it is described to sleep
The adjusting of dormancy environment 200 is realized by adjusting the working condition of the lamps and lanterns 300 '.
What is more important, after the acquiring brain waves module 11 collects the current E.E.G information of user, institute
The wave band and wave frequency of the sleep environment 200 can be adjusted by stating control module 21, so that the wave band and wave of the sleep environment 200
The wave band and wave frequency that frequency and the E.E.G of user show are adapted, and in this process, do not need human factor
It is actively engaged in, that is, the control system 100 can initiatively adjust the sleep ring according to the current E.E.G information of user
Border 200.
With continued reference to attached drawing 1, in another specific example of the control system 100 of the present invention, described information is received
Collection unit 10 further comprises a sign acquisition module 12, wherein the sign acquisition module 12 is in the sleep ring for acquisition
The sign information of the user in border 200.For example, the sign acquisition module 12 can be by being communicatively connected in a network in a sign
The mode of harvester acquires the sign information of the user in the sleep environment 200.The class of the sign harvester
Type is unrestricted in the control system 100 of the present invention, for example, the sign information device can be thermometer, intelligence
Mobile phone, Intelligent bracelet etc., as long as that is, described sign harvester can acquire the sign information of user.By the sign
It is any that the sign information that acquisition module 12 acquires can include but is not limited to body temperature, humidity of skin, breathing, heart rate of user etc.
It can be used for the information for characterizing the physical condition of user.It should be understood that such as body temperature of user, humidity of skin,
The physical conditions such as breathing, heart rate can also influence the sleep quality of user.For example, even brain of the user in sleep state
The wave band of wave is identical with wave frequency, if any one of the body temperature of user, humidity of skin, breathing, heart rate etc. or more
A to differ, then requirement of the user to the sleep environment 200 also differs, therefore, in the control system of the present invention
In the specific example of one of 100, described information collector unit 10 can further be acquired by the sign acquisition module 12
The sign information of user in the sleep environment 200, and subsequently using the sign information of user as described in adjusting
The basis of the state of sleep environment 200.
Specifically, the processing module 23 is communicatively connected in a network in the sign acquisition module 12, wherein the place
Reason module 23 can receive the sign information of user from the sign acquisition module 12 and the processing module 23 can be to making
The sign information of user is handled to obtain the handling result.Specifically, the processing module 23 can be respectively from institute
State the sign that acquiring brain waves module 11 receives the E.E.G information of user and receives user from the sign acquisition module 12
Information, and the processing module 23 the E.E.G information and sign information of user can be handled after obtain the processing
As a result.That is, the handling result can be influenced by the E.E.G information and sign information of user.It is described follow-up
Schemes generation module 22 can generate the control program, and then the control according to the handling result of the processing module 23
Molding block 21 adjusts the sleep ring when executing the control program in a manner of adjusting the working condition of the lamps and lanterns 300 '
Border 200.
The processing module 23 handles the E.E.G information of user and the mode of sign information, first respectively to user
E.E.G information and sign information analyzed, then judge influence degree of the sign information to E.E.G information of user.Value
It obtains one and is mentioned that, according to the sign information of user to the difference of the influence degree of E.E.G information, the processing module 23 obtains
The handling result also differ, in institute follow-up, that the schemes generation module 22 is generated according to the handling result
The content for stating control program also differs.That is, the E.E.G information in user is identical, if the body of user
Reference breath is different, and user also differs the wave band of the sleep environment 200 and the requirement of wave frequency.
In addition, in the sleep procedure of user, the sign information of user is also real-time change, the sign acquisition
Module 12 can also acquire the sign information of user in real time, thus follow-up, make the sleep environment 200 after being conditioned
It is particular enable to meet the sleep needs of user.
With continued reference to attached drawing 1, in another specific example of the control system 100 of the present invention, described information is received
Collection unit 10 further comprises an environment acquisition module 13, wherein the environment acquisition module 13 is for acquiring the sleep environment
200 environmental information.For example, the environmental information can be the wave band and wave frequency of the sleep environment 200.That is, institute
State wave band and wave frequency that environment acquisition module 13 be used to acquire the sleep environment 200.Preferably, the environment acquisition module
13 acquire the wave band and wave frequency of the sleep environment 200 in which be used to implement.Nevertheless, in the control system of the present invention
In the 100 specific example of other, the environment acquisition module 13 may be utilized for acquiring the sleep environment 200
The information such as temperature, humidity.
The processing module 23 is communicatively connected in a network in the environment acquisition module 13, wherein 23 energy of the processing module
Enough the environmental information of the sleep environment 200 is received from the environment acquisition module 13 and the processing module 23 can be to institute
The environmental information for stating sleep environment 200 is handled to obtain the handling result.Specifically, the processing module 23 can
The E.E.G information of user is received from the acquiring brain waves module 11 and received from the environment acquisition module 13 described respectively
The environmental information of sleep environment 200, and the processing module 23 can be to the E.E.G information of user and to the sleep ring
The environmental information in border 200 obtains the handling result after being handled.That is, the handling result is under current state
Difference between the wave band and wave frequency of the sleep environment 200 and the wave band and wave frequency of the E.E.G of user.In follow-up, the side
Case generation module 22 can generate the control program, and then the control according to the handling result of the processing module 23
Module 21 adjusts the sleep environment when executing the control program in a manner of adjusting the working condition of the lamps and lanterns 300 '
200.That is, the control module 21 can make the lamps and lanterns in a manner of adjusting the working condition of the lamps and lanterns 300 '
300 ' generation wave bands and wave frequency influence the wave band and wave frequency of the sleep environment 200, and then make the wave band of the sleep environment 200
It is adapted with the wave band and wave frequency of wave frequency and E.E.G of the user in sleep state, in this way, is particularly conducive to
Improve the sleep quality of user.
The processing module 23 handles the mode of the E.E.G information of user and the environmental information of the sleep environment 200
It is to analyze respectively the environmental information of the E.E.G information of user and the sleep environment 200 first, then by comparing
The wave band and wave frequency of the E.E.G of user and the mode of the wave band of the sleep environment 200 and wave frequency determine the institute under current state
State the difference between the wave band of sleep environment 200 and the wave band of the E.E.G of wave frequency and user and wave frequency.
In addition, in the sleep procedure of user, the environmental information of the sleep environment 200 is also real-time change, institute
The sign information of user can also be acquired in real time by stating environment acquisition module 13, thus follow-up, be made described after being conditioned
Sleep environment 200 is particular enable to meet the sleep needs of user.
In another specific example of the control system 100 of the present invention, in the acquiring brain waves module 11
While acquiring the E.E.G information of user, the sign acquisition module 12 acquires the sign information of user and the environment is adopted
Collection module 13 acquires the environmental information of the sleep environment 200, and the processing module 23 can be respectively from the acquiring brain waves
Module 11 receives the E.E.G information of user, receives the sign information of user from the sign acquisition module 12 and from the ring
Border acquisition module 13 receive user environmental information, then, the processing module 23 analysis user E.E.G information and
It is judged after the environmental information of sign information and the sleep environment 200, to obtain the handling result, the scheme life
The control program, then, the control mould can be generated at module 22 according to the handling result of the processing module 23
Block 21 adjusts the sleep environment when executing the control program in a manner of adjusting the working condition of the lamps and lanterns 300 '
200, so that the sleep environment 200 meets the sleep needs of user.
With continued reference to attached drawing 1, the processing module 23 further comprises an analysis module 231 and a judgment module 232,
Described in analysis module 231 and the judgment module 232 be mutually communicatively coupled, wherein the acquiring brain waves module
11, the sign acquisition module 12 and the environment acquisition module 13 are communicatively connected in a network respectively in the processing module 23
The analysis module 231, the schemes generation module 22 are communicatively connected in a network the judgement mould in the processing module 23
Block 232.The analysis module 231 be used to analyze the E.E.G information for the user that the acquiring brain waves module 11 acquires, institute
State the sign information of the user of the acquisition of sign acquisition module 12 and the sleep ring of the environment acquisition module 13 acquisition
The environmental information in border 200, to obtain an analysis result, wherein the judgment module 232 obtained according to the analysis result it is described
Handling result.
Specifically, in a specific example of the control system 100 of the present invention, the analysis module 231
It is analyzed for the E.E.G information and the sign acquisition module 12 of the user that the acquiring brain waves module 11 acquires
The sign information of the user of acquisition, to obtain the analysis result, wherein the judgment module 232 is according to the analysis result
Influence degree of the sign information to E.E.G information for judging user, to obtain the handling result.In the control of the present invention
In another specific example of system 100 processed, the analysis module 231 is analyzed for the acquiring brain waves module
The environmental information of the E.E.G information of the user of 11 acquisitions and the sleep environment 200 of the environment acquisition module 13 acquisition,
To obtain the analysis result, wherein the judgment module 232 judges the wave of the sleep environment 200 according to the analysis result
The difference of the wave band and wave frequency of section and the E.E.G of wave frequency and user, to obtain the handling result.
Refer to the attached drawing 1, the control system 100 further comprise an interactive unit 30, to provide the control system 100
Interaction between user.Specifically, the interactive unit 30 includes a monitoring module 31, wherein described information is collected single
Member 10 is communicatively connected in a network the monitoring module 31 in the interactive unit 30, wherein being monitored in the monitoring module 31
When the sleep environment 200 is slept, described information collector unit 10 can be collected and user's relevant letter user
Breath.It is noted that the monitoring module 31 monitors the control system of the mode in the present invention of the sleep environment 200
It is unrestricted in 100, such as the monitoring module 31 can be by being communicatively connected in a network at least a sensor and/or camera shooting
The mode of head monitors whether user sleeps in the sleep environment 200, if the monitoring module 31 monitors user
When the sleep environment 200 is slept, described information collector unit 10 be used to collect and the relevant information of user.
More specifically, the acquiring brain waves module 11 of described information collector unit 10 is communicatively connected in a network in institute
Monitoring module 31 is stated, wherein when the monitoring module 31 monitors user when the sleep environment 200 is slept, it is described
Acquiring brain waves module 11 be used to acquire the E.E.G information of user.The sign of described information collector unit 10 acquires mould
Block 12 is communicatively connected in a network in the monitoring module 31, wherein when the monitoring module 31 monitors user in the sleep
When environment 200 is slept, the sign acquisition module 12 be used to acquire the sign information of user.Described information is collected single
The environment acquisition module 13 of member 10 is communicatively connected in a network in the monitoring module 31, wherein when the monitoring module 31 is supervised
User is controlled when the sleep environment 200 is slept, the environment acquisition module 13 be used to acquire the sleep ring
The environmental information in border 200.
The interactive unit 30 further comprises a display module 32, wherein the display module 32 is communicatively connected in a network
In described information collector unit 10, wherein the display module 32 can be in a manner of being communicatively connected in a network in an electronic equipment
The information that described information collector unit 10 is collected into is shown on the display screen of the electronic equipment.For example, the display mould
Block 32 is communicatively connected in a network the brain wave collection module 11 in described information collector unit 10, so that the display module
32 can in a manner of being communicatively connected in a network in the electronic equipment on the display screen of the electronic equipment display described in
The E.E.G information for the user that brain wave collection module 11 is collected into;The display module 32 is communicatively connected in a network in the letter
The sign acquisition module 12 for ceasing collector unit 10, so that the display module 32 can be to be communicatively connected in a network in described
The mode of electronic equipment shows the user that the sign acquisition module 12 is collected on the display screen of the electronic equipment
Sign information;The display module 23 is communicatively connected in a network the environment collection module in described information collector unit 10
13, to enable the display module 32 in a manner of being communicatively connected in a network in the electronic equipment in the electronic equipment
The environmental information for the sleep environment 200 that the environment acquisition module 13 is collected into is shown on display screen.User can be with
The operating status or the control system 100 of the control system 100 are checked by the display screen of the electronic equipment
Operating status can be stored in the memory of the electronic equipment, can check the control system in follow-up user
Operating status before 100.
In addition, the processing module 23 further comprises a receiving module 233, wherein the judgment module 232 can be led to
It is connected to letter the receiving module 233, the receiving module 233 is communicatively connected in a network in the electronic equipment, wherein institute
The operational order from the electronic equipment can be received by stating receiving module 233, and the judgment module 232 can be based on described connect
It receives the operational order that module 233 receives and obtains the handling result.For example, the receiving module 233 is communicably connected
It is connected to the display screen of the electronic equipment, so that the receiving module 233 can receive the display from the electronic equipment
The operational order of screen.In other words, user can be inputted the operation by the display screen of the electronic equipment and be referred to
It enables, the operation of the control system 100 is intervened taking human as ground.The display screen of the electronic equipment can be touch screen, for
User inputs the operational order by the display screen of the electronic equipment.It is noted that the electronic equipment
Type is unrestricted in the control system 100 of the present invention, such as the electronic equipment can be but not limited to intelligent hand
Machine, tablet computer etc..
Attached drawing 5 shows a specific workflow 500 of the control system 100 of the present invention, for illustrating this
The content and feature of the control system 100 of invention, it will be understood by those of skill in the art that the control shown in attached drawing 5
The specific workflow 500 of system 100 processed is only for example, and is not construed as to the control system 100 of the present invention
The limitation of content and range.In addition, in following description, with according to the real-time status of user and the sleep environment
200 real-time status adjusts the working condition of the lamps and lanterns 300 ', and passes through the wave band and wave frequency shadow of the lamps and lanterns 300 ' generation
The mode of the wave band and wave frequency that ring the sleep environment 200 makes the brain of the wave band and wave frequency and user of the sleep environment 200
The wave band and wave frequency of wave are adapted, to improve the sleep quality of user.It will be understood by those of skill in the art that in this hair
In other possible examples of the bright control system 100, the control system 100 can also be by adjusting other electricity
The mode of the working condition of gas equipment 300 make the working condition 300 generate wave band and wave frequency sound equipment described in sleep environment 200
Wave band and wave frequency, and make the sleep environment 200 wave band and wave frequency and user E.E.G and wave band be adapted.Change speech
It, is embodied as the lamps and lanterns 300 ' by the electrical equipment 300 and is only for example, and should not be considered as the control to the present invention
The limitation of the content and range of system 300 processed.
In the stage 501, the sleep environment 200 is monitored by the monitoring module 31.Specifically, the monitoring module
31 can monitor the sleep environment 200 in real time, be slept in the sleep environment 200 with judging whether there is user,
If the monitoring module 31 has monitored user when the sleep environment 200 is slept, the control system 100 can be with
Then subsequent program is carried out, correspondingly, if the monitoring module 31 has not monitored user in the sleep environment 200
When being slept, the control system 100 will not carry out subsequent program.
In the stage 502, the E.E.G information of user is acquired by the acquiring brain waves module 11.For example, in the present invention
The control system 100 a specific example in, the acquiring brain waves module 11 can be by communicably being connected
The mode for the acquiring brain waves instrument 400 for being arranged at the sleep environment 200 is connected to by the acquiring brain waves instrument 400
Acquire the E.E.G information of user.Preferably, the acquiring brain waves module 11 can acquire the E.E.G letter of user in real time
Breath, that is to say, that no matter user is in which dormant in stage, and the acquiring brain waves module 11 can be in real time
Collect the E.E.G information of user.It is understood that can determine that user's is real-time according to the E.E.G information of user
State.
In the stage 503, the sign information of user is acquired by the sign acquisition module 12.Preferably, the sign
Acquisition module 12 can acquire the sign information of user in real time.It is understood that the sign of user can be to using
The E.E.G of person has an impact.In addition, can determine the real-time status of user according to the E.E.G information and sign information of user.
In the stage 504, the environmental information of the sleep environment 200 is acquired by the environment acquisition module 13.It can manage
Solution, the specific environment of the sleep environment 200 can have an impact the E.E.G information of user.Preferably, the ring
Border acquisition module 13 can be after the environmental information for acquiring the sleep environment 200 in real time.It is understood that according to the sleep
The environmental information of environment 200 can determine the real-time status of the sleep environment 200.
In the stage 505, the E.E.G for the user that the processing module 23 is acquired according to the acquiring brain waves module 11 is believed
The sign information for the user that breath, the sign acquisition module 12 acquire and the described of the environment acquisition module 13 acquisition sleep
The environmental information of dormancy environment 200 obtains the handling result.
In the stage 506, the schemes generation module 22 is provided according to the handling result that the processing module 23 obtains
The control program.
In the stage 507, the control module 21 is when executing the control program by controlling the works of the lamps and lanterns 300 '
The mode for making state adjusts the sleep environment 200, can be with user's to the wave band and wave frequency of the sleep environment 200
The wave band and wave frequency that E.E.G shows are adapted, and in this way, are conducive to the sleep quality for improving user.
Refer to the attached drawing 6, other side under this invention, the present invention further provides the control methods of a sleep environment
600, wherein the control method 600 includes the following steps:
Step 601, (a) obtains the real-time status of the user in a sleep environment 200;
Step 602, (b) control method is provided according to the real-time status of user;And
Step 603, it (c) is performed in the control program and is arranged at the sleep environment 200 at least to control
The mode of the working condition of one electrical equipment 3 adjusts the sleep environment 200, to control the sleep environment 200.
Preferably, before the step 602, further comprise step:
Step 604, the real-time status of the sleep environment (d) is obtained, thus in the step 602, according to user
Real-time status and the real-time status of the sleep environment control program is provided.
It will be appreciated by those skilled in the art that above example is only for example, wherein the feature of different embodiments
Can be combined with each other, with obtain according to the invention discloses content be readily conceivable that but the reality that does not explicitly point out in the accompanying drawings
Apply mode.
It should be understood by those skilled in the art that the embodiment of the present invention shown in foregoing description and attached drawing is only used as illustrating
And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.The function and structural principle of the present invention exists
It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.
Claims (23)
1. the control system of a sleep environment, which is characterized in that including:
One control unit, wherein described control unit include a control module and a schemes generation module, the schemes generation mould
Block is communicatively connected in a network in the control module, wherein the schemes generation module is according to the user in a sleep environment
Real-time status generate a control program, the control module controlled when executing the control program is arranged at described in sleep
The mode of at least working condition of an electrical equipment of dormancy environment adjusts the sleep environment.
2. control system according to claim 1, further comprise an information collection unit, wherein described control unit into
One step includes a processing module, and the processing module is communicatively connected in a network in described information collector unit, the schemes generation
Module is communicatively connected in a network in the processing module, wherein the processing module makes according to what described information collector unit was collected
The real-time status of user generates a handling result, and the schemes generation module generates the controlling party according to the handling result
Case.
3. control system according to claim 1, further comprise an information collection unit, wherein described control unit into
One step includes a processing module, and the processing module is communicatively connected in a network in described information collector unit, the schemes generation
Module is communicatively connected in a network in the processing module, wherein the processing module makes according to what described information collector unit was collected
The real-time status of user and the real-time status of the sleep environment generate a handling result, and the schemes generation module is according to
Handling result generates the control program.
4. control system according to claim 2, wherein described information collector unit include an acquiring brain waves module, institute
It states processing module to be communicatively connected in a network in the acquiring brain waves module, wherein the acquiring brain waves module is arranged to pre-
It is stored with sleeping brain wave data, wherein described information collector unit is from sleep cerebral electricity described in the acquiring brain waves module calls
Wave number evidence, the processing module generate the handling result according to the sleeping brain wave data transferred.
5. control system according to claim 2, wherein described information collector unit include an acquiring brain waves module and
One sign acquisition module, the processing module is communicatively connected in a network respectively adopts in the acquiring brain waves module and the sign
Collect module, wherein described information collector unit acquires the E.E.G information of user and the sign with the acquiring brain waves module
The mode of the sign information of acquisition module acquisition user obtains the real-time status of user, and the processing module is according to the brain
The sign information life of the E.E.G information of the user of electric wave acquisition module acquisition and the user of sign acquisition module acquisition
At the handling result.
6. control system according to claim 3, wherein described information collector unit include an acquiring brain waves module and
One environment acquisition module, the processing module is communicatively connected in a network respectively adopts in the acquiring brain waves module and the environment
Collect module, wherein described information collector unit obtains in such a way that the acquiring brain waves module acquires the E.E.G information of user
The real-time status of user, and by the environment acquisition module acquire the sleep environment wave band and wave frequency in a manner of obtain institute
State the real-time status of sleep environment, the E.E.G information for the user that the processing module is acquired according to the acquiring brain waves module
The handling result is generated with the environmental information of the sleep environment of environment acquisition module acquisition.
7. control system according to claim 3, wherein described information collector unit include an acquiring brain waves module, one
Sign acquisition module and an environment acquisition module, the processing module are communicatively connected in a network respectively in the acquiring brain waves
Module, the sign acquisition module and the environment acquisition module, wherein described information collector unit is with the acquiring brain waves
The E.E.G information of module acquisition user and the mode of the sign information of sign acquisition module acquisition user are used
The real-time status of person, and by the environment acquisition module acquire the sleep environment wave band and wave frequency in a manner of obtain described sleep
The real-time status of dormancy environment, the E.E.G information for the user that the processing module is acquired according to the acquiring brain waves module, institute
State the sign information of the user of sign acquisition module acquisition and the sleep environment of environment acquisition module acquisition
Environmental information generates the handling result.
8. control system according to claim 5, wherein the processing module includes an analysis module and a judgment module,
The judgment module is communicatively connected in a network in the analysis module, and the analysis module is communicatively connected in a network in brain electricity
Wave acquisition module and the sign acquisition module, the schemes generation module are communicatively connected in a network in the judgment module,
Described in analysis module analyze acquiring brain waves module acquisition user E.E.G information and the sign acquisition module
For the sign information of the user of acquisition to obtain an analysis result, the judgment module generates the place according to the analysis module
Reason is as a result, the influence that the sign information that the content of the wherein described handling result is user generates E.E.G information.
9. control system according to claim 6, wherein the processing module includes an analysis module and a judgment module,
The judgment module is communicatively connected in a network in the analysis module, and the analysis module is communicatively connected in a network in brain electricity
Wave acquisition module and the sign acquisition module, the schemes generation module are communicatively connected in a network in the judgment module,
Described in analysis module analyze acquiring brain waves module acquisition user E.E.G information and the environment acquisition module
To obtain an analysis result, the judgment module generates the environmental information of the sleep environment of acquisition according to the analysis module
The handling result, wherein the content of the handling result is the E.E.G of the wave band and wave frequency and user of the sleep environment
Difference between wave band and wave frequency.
10. control system according to claim 7, wherein the processing module judges mould including an analysis module and one
Block, the judgment module are communicatively connected in a network in the analysis module, and the analysis module is communicatively connected in a network in described
Acquiring brain waves module, the sign acquisition module and the environment acquisition module, the schemes generation module is by communicably
It is connected to the judgment module, wherein the analysis module analyzes the E.E.G letter of the user of the acquiring brain waves module acquisition
The sign information for the user that breath, the sign acquisition module acquire and the sleep ring of environment acquisition module acquisition
For the environmental information in border to obtain an analysis result, the judgment module generates the handling result according to the analysis module,
Described in handling result content be user sign information to E.E.G information generate influence and the sleep environment wave
Section and the difference between the wave band and wave frequency of the E.E.G of wave frequency and user.
11. according to any control system in claims 1 to 10, further comprise an interactive unit, wherein the friendship
Mutual unit includes a monitoring module, and the monitoring module is communicatively connected in a network in described information collector unit, wherein when described
When monitoring module monitors user and is in the sleep environment, described information collector unit starts to collect first to close with user
Information, in the real-time status for subsequently obtaining user.
12. according to any control system in claims 1 to 10, further comprise an interactive unit, wherein the friendship
Mutual unit includes a display module, and the display module is communicatively connected in a network in described information collector unit, wherein described aobvious
Show that module shows the letter in a manner of being communicatively connected in a network in an electronic equipment on the display screen of the electronic equipment
Cease the information that collector unit is collected.
13. according to any control system in claim 1 to 13, wherein the electrical equipment is lamps and lanterns.
14. the control method of a sleep environment, which is characterized in that the control method includes the following steps:
(a) real-time status of the user in a sleep environment is obtained;
(b) control method is provided according to the real-time status of user;And
(c) it is performed in the control program to control the work for at least electrical equipment for being arranged at the sleep environment
The mode of state adjusts the sleep environment, to control the sleep environment.
15. control method according to claim 14 further comprises step wherein before the step (b):
(d) real-time status for obtaining the sleep environment, in the step (b), according to the real-time status of user and
The real-time status of the sleep environment provides the control program.
16. the control method according to claims 14 or 15, wherein in the step (a), to obtain the brain of user
The mode of wave information obtains the real-time status of user.
17. the control method according to claims 14 or 15, wherein in the step (a), to obtain the brain of user
Wave information and the mode of sign information obtain the real-time status of user.
18. control method according to claim 15, wherein in the step (a), the E.E.G to obtain user is believed
The mode of breath obtains described sleep in a manner of obtaining the real-time status of user, and the wave band to obtain the sleep environment and wave frequency
The real-time status of dormancy environment.
19. control method according to claim 15, wherein in the step (a), the E.E.G to obtain user is believed
The mode of breath and sign information obtains the real-time status of user, and in a manner of the wave band to obtain the sleep environment and wave frequency
Obtain the real-time status of the sleep environment.
20. control method according to claim 17, wherein in the above-mentioned methods, further comprising step:
E.E.G information and the sign information of user is analyzed by an analysis module to obtain an analysis result, and by one to judge
Module obtains a handling result according to the analysis result, to which in the step (b), institute is provided according to the handling result
Control program is stated, wherein the influence that the sign information that the content of the handling result is user generates E.E.G information.
21. control method according to claim 18, wherein in the above-mentioned methods, further comprising step:
E.E.G information and the sign information of user is analyzed by an analysis module to obtain an analysis result, and by one to judge
Module obtains a handling result according to the analysis result, to which in the step (b), institute is provided according to the handling result
Control program is stated, wherein the content of the handling result is the wave band of the sleep environment and the wave of the E.E.G of wave frequency and user
Difference between section and wave frequency.
22. control method according to claim 19, wherein in the above-mentioned methods, further comprising step:
E.E.G information and the sign information of user is analyzed by an analysis module to obtain an analysis result, and by one to judge
Module obtains a handling result according to the analysis result, to which in the step (b), institute is provided according to the handling result
Control program is stated, wherein influence that the sign information that the content of the handling result is user generates E.E.G information and described
Difference between the wave band and wave frequency of sleep environment and the wave band and wave frequency of the E.E.G of user.
23. according to any control method in claim 14 to 22, wherein the electrical equipment is lamps and lanterns.
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