CN114245540A - Intelligent indoor illumination intensity adjusting method and system - Google Patents

Abstract

The invention relates to the field of intelligent control, and discloses an intelligent indoor illumination intensity adjusting method and system.

Description

Intelligent indoor illumination intensity adjusting method and system

Technical Field

The invention relates to the field related to intelligent control, in particular to an indoor illumination intensity intelligent adjusting method and system.

Background

Along with the change of production life style, the time of people in indoor work life and entertainment is gradually increased, and long-term indoor work life and entertainment make the suitable illumination environment seem very important, and the suitable illumination environment can reduce the fatigue value accumulation of people while improving the comfort level.

Indoor illumination among the prior art adopts the design of light source unadjustable mostly, through the switching in order to realize the regulation to indoor illumination, and the artificial regulation control is carried out to some adjustable indoor lighting equipment, also needs the manual or mode with the remote control of user, uses inconvenient simultaneously, is difficult to make indoor illumination environment be in a very comfortable good environment through adjusting, and intelligent degree and scientific are all relatively poor.

Disclosure of Invention

The invention aims to provide an indoor illumination intensity intelligent adjusting method and system to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an indoor illumination intensity intelligent regulation system, includes:

the environment sensing module is used for collecting and generating environment interference information, wherein the environment interference information comprises environment illumination information and environment somatosensory information, and the environment illumination information comprises color temperature information and brightness information;

the system comprises a scheduling management and control module, a monitoring module and a monitoring module, wherein the scheduling management and control module is used for monitoring and acquiring equipment state information and personnel state information, analyzing the equipment state information and the personnel state information according to a preset requirement judgment standard, and generating a scene mode requirement, the equipment state information and the personnel state information are used for representing the activity behavior state of a user, and the requirement judgment standard is used for judging the requirement of the user on the indoor environment in different activity behavior states;

the regulation and control balance module is used for analyzing the environment interference information according to the scene mode requirement to generate an environment regulation scheme, and the environment regulation scheme comprises a color temperature regulation scheme and a brightness regulation scheme which are respectively used for regulating and controlling color temperature information and brightness information;

and the regulation and control output module is used for outputting the environment regulation scheme to a corresponding environment control unit, and the environment control unit is used for responding to the environment regulation scheme and changing the corresponding environment illumination information.

As a further scheme of the invention: the personnel state information comprises relative position information and physiological state information, and the scheduling management and control module comprises:

the device scheduling monitoring unit is used for performing scheduling use monitoring on the device and generating device state information, and the device state information is used for representing the use states of a plurality of different devices;

the personnel positioning monitoring unit is used for acquiring and generating relative position information of the personnel according to a preset equipment distribution condition, and the relative position information is used for representing the position relation of the personnel corresponding to the equipment;

the physiological state monitoring unit is used for monitoring the personnel and generating physiological state information;

and the demand analysis generating unit is used for analyzing the physiological state information, the relative position information and the equipment state information according to the preset demand judgment standard to generate a scene demand mode.

As a further scheme of the invention: the requirement analysis generating unit specifically comprises:

the sleep judging subunit is used for judging the sleep of the person according to the physiological state information, and if the person is in a sleep state, the scene requirement mode is a sleep illumination mode;

the position judging subunit is used for judging the relative position information when the personnel are in the non-sleep state, and if the relative position information is not overlapped with the distribution condition of the equipment, the scene demand mode is a leisure illumination mode;

and the scheduling judgment subunit is used for judging the equipment state information when the equipment state information is superposed with the equipment distribution condition, and respectively generating a working illumination mode or an entertainment illumination mode according to a judgment result.

As a further scheme of the invention: the brightness information comprises indoor brightness information and outdoor brightness information, and the regulation and control balance module comprises:

the brightness difference value calculating unit is used for calculating and generating a brightness adjusting difference value according to the indoor brightness information and the scene mode requirement;

and the brightness regulation and control generating unit is used for calculating and generating a brightness regulation scheme according to the outdoor brightness information and the brightness regulation difference value, wherein the brightness regulation scheme comprises a light transmission regulation scheme and a light supplement regulation scheme, the light transmission regulation scheme is used for representing the regulation of the light transmittance of the outdoor brightness information, and the light supplement regulation scheme is used for representing the regulation of the indoor artificial light source.

As a further scheme of the invention: the generation of the environmental somatosensory information comprises:

the room temperature acquisition unit is used for acquiring and generating room temperature information;

the humidity acquisition unit is used for acquiring and generating indoor humidity information;

and the body feeling generation unit is used for calculating and generating environment body feeling information according to the indoor temperature information and the indoor humidity information.

As a further scheme of the invention: the scene demand mode further comprises a color temperature demand mode, the color temperature demand mode is judged and generated according to the environment somatosensory information, and when the regulation and balance module generates a color temperature regulation scheme according to the color temperature demand mode, the brightness regulation scheme is correspondingly adjusted to balance the light transmission regulation scheme and the light supplement regulation scheme.

As a further scheme of the invention: and monitoring and regulating the color temperature information and the brightness information of the indoor environment in different regions.

The embodiment of the invention aims to provide an intelligent indoor illumination intensity adjusting method, which comprises the following steps:

collecting and generating environment interference information, wherein the environment interference information comprises environment illumination information and environment somatosensory information, and the environment illumination information comprises color temperature information and brightness information;

monitoring and acquiring equipment state information and personnel state information, analyzing the equipment state information and the personnel state information according to a preset requirement judgment standard, and generating a scene mode requirement, wherein the equipment state information and the personnel state information are used for representing the activity behavior state of a user, and the requirement judgment standard is used for judging the requirement of the user on the indoor environment in different activity behavior states;

analyzing the environment interference information according to the scene mode requirement to generate an environment adjusting scheme, wherein the environment adjusting scheme comprises a color temperature adjusting scheme and a brightness adjusting scheme which are respectively used for adjusting and controlling color temperature information and brightness information;

and outputting the environment adjusting scheme to a corresponding environment control unit, wherein the environment control unit is used for responding to the environment adjusting scheme and changing the corresponding environment illumination information.

As a further scheme of the invention: the personnel state information comprises relative position information and physiological state information, the monitoring obtains equipment state information and personnel state information, the equipment state information and the personnel state information are analyzed according to a preset requirement judgment standard, and the step of generating the scene mode requirement specifically comprises the following steps:

monitoring the scheduling use of equipment to generate equipment state information, wherein the equipment state information is used for representing the use states of a plurality of different pieces of equipment;

acquiring and generating relative position information of the personnel according to a preset equipment distribution condition, wherein the relative position information is used for representing the position relation of the personnel corresponding to the equipment;

monitoring the personnel to generate physiological state information;

and analyzing the physiological state information, the relative position information and the equipment state information according to the preset requirement judgment standard to generate a scene requirement mode.

As a further scheme of the invention: the step of analyzing the physiological status information, the relative position information and the device status information according to the preset requirement judgment standard to generate a scene requirement mode specifically includes:

judging the sleep of the person according to the physiological state information, wherein if the person is in a sleep state, the scene requirement mode is a sleep illumination mode;

if the personnel are in a non-sleep state, judging relative position information, and if the relative position information is not overlapped with the distribution condition of the equipment, determining that the scene demand mode is a leisure illumination mode;

and if the illumination mode is coincident with the distribution condition of the equipment, judging the equipment state information, and respectively generating a working illumination mode or an entertainment illumination mode according to a judgment result.

Compared with the prior art, the invention has the beneficial effects that: through the setting of environment perception module, dispatch management and control module, regulation and control balanced module and regulation and control output module, realized the monitoring collection to ambient light and colour temperature to and personnel state information and equipment state information's monitoring management, and then reached and carried out the purpose that ambient light pertinence was adjusted with the activity action basis that the user carried out, when making the user carry out different activities, the homoenergetic need not manual regulation and just obtains the best illumination environment, obtains good work entertainment and experiences.

Drawings

Fig. 1 is a block diagram of an indoor illumination intensity intelligent regulation system.

Fig. 2 is a block diagram of a scheduling management and control module in an intelligent indoor illumination intensity adjustment system.

Fig. 3 is a block diagram of a demand analysis generation unit in an indoor illumination intensity intelligent adjustment system.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description of specific embodiments of the present invention is provided in connection with specific embodiments.

As shown in fig. 1, an indoor illumination intensity intelligent adjustment system provided for an embodiment of the present invention includes:

the environment sensing module 100 is configured to collect and generate environment interference information, where the environment interference information includes environment illumination information and environment somatosensory information, and the environment illumination information includes color temperature information and brightness information.

In this embodiment, the ambient light information here includes the indoor illumination intensity that needs to carry out intelligent regulation in this application, still includes outdoor illumination intensity, outdoor illumination intensity is used for the regulation to indoor illumination intensity supplementary, and color temperature information is used for adjusting indoor irradiant color temperature, because the change of color temperature can influence the perception of people to the temperature to a certain extent, for example in cold environment, the light of comparatively warm colour can make the people feel warm, and the light of comparatively cold colour can make the human body feel cold to a certain extent (can not exert an influence to true temperature, but can influence human comfort level).

The scheduling management and control module 300 is configured to monitor and acquire device state information and personnel state information, analyze the device state information and the personnel state information according to a preset requirement determination standard, generate a scene mode requirement, where the device state information and the personnel state information are used to represent an activity behavior state of a user, and the requirement determination standard is used to determine a requirement of the user for an indoor environment in different activity behavior states.

In this embodiment, the monitoring device status information and the personnel status information respectively refer to the usage of the device by the user, for example, when the user is at home, the current situation is that the user is working with a computer, using a computer and television for entertainment or using a mobile device for entertainment, or the devices are in an idle and semi-idle state, and the user is learning indoors, doing sports indoors or sleeping (jointly determining the position, the status, and the like of the user through a sensing device, and the like), and the scene mode requirement is a scene mode requirement (i.e., a requirement for an indoor environment) corresponding to an activity behavior state (i.e., the above mentioned states) that the user really performs after determining according to the requirement determination criteria.

And a regulation and control balancing module 500, configured to analyze the environment interference information according to the scene mode requirement, and generate an environment regulation scheme, where the environment regulation scheme includes a color temperature regulation scheme and a brightness regulation scheme, and is respectively used to regulate and control the color temperature information and the brightness information.

In this embodiment, the regulation and control balancing module 500 is used for analyzing the environmental illumination information and the environmental somatosensory information according to the scene demand mode, and measuring a process of obtaining a control parameter for the environment, where the scene demand mode corresponds to a specific illumination adjustment target, and then generating the adjustment information for the environmental brightness information by using the specific illumination adjustment target as a reference, and generating the adjustment information for the color temperature information according to the environmental somatosensory information, and using the adjustment information as the environmental adjustment scheme.

A regulation output module 700, configured to output the environment regulation scheme to a corresponding environment control unit, where the environment control unit is configured to respond to the environment regulation scheme and change the corresponding environment illumination information.

In this embodiment, the regulation and control output module 700 is used for outputting environment control schemes corresponding to different environment control units (such as lamps, curtains, etc.) to regulate the environment.

As shown in fig. 2, as another preferred embodiment of the present invention, the personnel status information includes relative position information and physiological status information, and the dispatch management and control module 300 includes:

the device scheduling monitoring unit 301 is configured to monitor scheduling usage of a device and generate device status information, where the device status information is used to represent usage statuses of a plurality of different devices.

The personnel positioning monitoring unit 302 is configured to collect and generate relative position information of the personnel according to a preset device distribution condition, where the relative position information is used to represent a position relationship of the personnel corresponding to the device.

And a physiological status monitoring unit 303, configured to monitor the person and generate physiological status information.

A requirement analysis generating unit 304, configured to analyze the physiological status information, the relative location information, and the device status information according to the preset requirement determination criterion, so as to generate a scene requirement mode.

In this embodiment, the scheduling control module 300 is further described here, and mainly includes monitoring and collecting data information in three aspects, including device state information, that is, an operation state working mode and working content of an indoor device such as an indoor computer and television, and the like, where the relative position information is a relative position of a person indoors, and includes a device distribution condition, that is, indoor position information corresponding to the device in the device state information, and is convenient for use determination (a condition that the device is in an operation state but not in use can be excluded), and the physiological state information is used for determining information for the person, for example, whether the device is in a sleep state or not.

As shown in fig. 3, as another preferred embodiment of the present invention, the requirement analysis generating unit 304 specifically includes:

the sleep determination subunit 3041 is configured to perform sleep determination on the person according to the physiological state information, and if the person is in a sleep state, the scene requirement mode is a sleep illumination mode.

A position determining subunit 3042, configured to determine, when the person is in a non-sleep state, relative position information, and if the relative position information does not coincide with the device distribution situation, the scene requirement mode is a leisure lighting mode.

A scheduling determination subunit 3043, configured to determine the device state information when the device state information coincides with the device distribution situation, and generate a working illumination mode or an entertainment illumination mode according to the determination result.

In this embodiment, a description and a judgment basis of several simple scene requirement modes are performed, for example, when a person is in a sleep state, the output scene requirement mode is a sleep illumination mode, if the user is not in the sleep state, a further judgment is performed according to the position of the user, if the user is moving freely indoors, exercise or simple activities may be performed indoors, a leisure illumination mode is output, if the user corresponds to the device, a working illumination mode or an entertainment illumination mode is generated by judging device state information of the device, of course, only the generation judgment of several representative illumination modes is taken out for description, in fact, the judgment of generating the scene requirement mode is more continuous and fine, for example, when the user plays games, along with changes of the physiological state of the user and the like (for example, physiological parameters show that the user becomes more tired), the corresponding scene requirement mode can be changed, for example, the ambient light is reduced, so that the change of the physical state of the personnel is adapted.

As another preferred embodiment of the present invention, the brightness information includes indoor brightness information and outdoor brightness information, and the regulation balance module includes:

and the brightness difference value calculating unit is used for calculating and generating a brightness adjusting difference value according to the indoor brightness information and the scene mode requirement.

And the brightness regulation and control generating unit is used for calculating and generating a brightness regulation scheme according to the outdoor brightness information and the brightness regulation difference value, wherein the brightness regulation scheme comprises a light transmission regulation scheme and a light supplement regulation scheme, the light transmission regulation scheme is used for representing the regulation of the light transmittance of the outdoor brightness information, and the light supplement regulation scheme is used for representing the regulation of the indoor artificial light source.

In this embodiment, when the brightness adjustment scheme is generated, it needs to be adjusted according to the indoor and outdoor brightness, rather than adjusting by controlling the lamp solely, the light transmission adjustment scheme is used for adjusting the transmittance of outdoor illumination to the indoor by devices such as automatic curtains, and the light supplement adjustment scheme is used for performing indoor illumination supplement (and color temperature adjustment) by the lamp.

As another preferred embodiment of the present invention, the generating of the environmental somatosensory information includes:

and the room temperature acquisition unit is used for acquiring and generating room temperature information.

And the humidity acquisition unit is used for acquiring and generating indoor humidity information.

And the body feeling generation unit is used for calculating and generating environment body feeling information according to the indoor temperature information and the indoor humidity information.

Further, the scene demand mode further comprises a color temperature demand mode, the color temperature demand mode is judged and generated according to the environment somatosensory information, and when the regulation and balance module generates a color temperature regulation scheme according to the color temperature demand mode, the brightness regulation scheme is correspondingly adjusted to balance the light transmission regulation scheme and the light supplement regulation scheme.

Furthermore, the color temperature information and the brightness information of the indoor environment are monitored and controlled in different regions.

In this embodiment, through the collection to information such as room temperature and humidity, can calculate relevant comfort level index such as the body temperature of obtaining human body, for example the environment is cold or heat partially etc. and then can change the perception of human sense organ to the environment through the regulation and control to indoor environment colour temperature for the environment can be more comfortable, can alleviate the impatience sense of personnel cognition under cold and dry hot environment, improve the comfort level, moreover, indoor environment can be divided and regulated, for example, divide the workspace, study area, sleep area etc..

The invention also provides an intelligent indoor illumination intensity adjusting method, which comprises the following steps:

the method comprises the steps of collecting and generating environment interference information, wherein the environment interference information comprises environment illumination information and environment somatosensory information, and the environment illumination information comprises color temperature information and brightness information.

The method comprises the steps of monitoring and obtaining equipment state information and personnel state information, analyzing the equipment state information and the personnel state information according to a preset requirement judgment standard, and generating a scene mode requirement, wherein the equipment state information and the personnel state information are used for representing the activity behavior state of a user, and the requirement judgment standard is used for judging the requirement of the user on the indoor environment in different activity behavior states.

Analyzing the environment interference information according to the scene mode requirement to generate an environment adjusting scheme, wherein the environment adjusting scheme comprises a color temperature adjusting scheme and a brightness adjusting scheme which are respectively used for adjusting and controlling the color temperature information and the brightness information.

And outputting the environment adjusting scheme to a corresponding environment control unit, wherein the environment control unit is used for responding to the environment adjusting scheme and changing the corresponding environment illumination information.

As another preferred embodiment of the present invention, the step of generating the scene mode requirement specifically includes the steps of acquiring device status information and person status information by monitoring, analyzing the device status information and the person status information according to a preset requirement determination standard, and acquiring the scene mode requirement from the device status information and the person status information:

and monitoring the scheduling use of the equipment to generate equipment state information, wherein the equipment state information is used for representing the use states of a plurality of different pieces of equipment.

And acquiring and generating relative position information of the personnel according to a preset equipment distribution condition, wherein the relative position information is used for representing the position relation of the personnel corresponding to the equipment.

And monitoring the personnel to generate physiological state information.

And analyzing the physiological state information, the relative position information and the equipment state information according to the preset requirement judgment standard to generate a scene requirement mode.

As another preferred embodiment of the present invention, the step of analyzing the physiological status information, the relative location information, and the device status information according to the preset requirement determining criteria to generate the scene requirement pattern specifically includes:

and judging the sleep of the person according to the physiological state information, wherein if the person is in a sleep state, the scene requirement mode is a sleep illumination mode.

And if the personnel are in a non-sleep state, judging the relative position information, and if the relative position information is not superposed with the distribution condition of the equipment, determining that the scene demand mode is a leisure illumination mode.

And if the illumination mode is coincident with the distribution condition of the equipment, judging the equipment state information, and respectively generating a working illumination mode or an entertainment illumination mode according to a judgment result.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. The utility model provides an indoor illumination intensity intelligent regulation system which characterized in that includes:

the environment sensing module is used for collecting and generating environment interference information, wherein the environment interference information comprises environment illumination information and environment somatosensory information, and the environment illumination information comprises color temperature information and brightness information;

the system comprises a scheduling management and control module, a monitoring module and a monitoring module, wherein the scheduling management and control module is used for monitoring and acquiring equipment state information and personnel state information, analyzing the equipment state information and the personnel state information according to a preset requirement judgment standard, and generating a scene mode requirement, the equipment state information and the personnel state information are used for representing the activity behavior state of a user, and the requirement judgment standard is used for judging the requirement of the user on the indoor environment in different activity behavior states;

the regulation and control balance module is used for analyzing the environment interference information according to the scene mode requirement to generate an environment regulation scheme, and the environment regulation scheme comprises a color temperature regulation scheme and a brightness regulation scheme which are respectively used for regulating and controlling color temperature information and brightness information;

and the regulation and control output module is used for outputting the environment regulation scheme to a corresponding environment control unit, and the environment control unit is used for responding to the environment regulation scheme and changing the corresponding environment illumination information.

2. The system for intelligently adjusting indoor illumination intensity according to claim 1, wherein the personnel status information includes relative position information and physiological status information, and the scheduling management and control module includes:

the device scheduling monitoring unit is used for performing scheduling use monitoring on the device and generating device state information, and the device state information is used for representing the use states of a plurality of different devices;

the personnel positioning monitoring unit is used for acquiring and generating relative position information of the personnel according to a preset equipment distribution condition, and the relative position information is used for representing the position relation of the personnel corresponding to the equipment;

the physiological state monitoring unit is used for monitoring the personnel and generating physiological state information;

and the demand analysis generating unit is used for analyzing the physiological state information, the relative position information and the equipment state information according to the preset demand judgment standard to generate a scene demand mode.

3. The system according to claim 2, wherein the demand analysis generation unit specifically includes:

the sleep judging subunit is used for judging the sleep of the person according to the physiological state information, and if the person is in a sleep state, the scene requirement mode is a sleep illumination mode;

the position judging subunit is used for judging the relative position information when the personnel are in the non-sleep state, and if the relative position information is not overlapped with the distribution condition of the equipment, the scene demand mode is a leisure illumination mode;

and the scheduling judgment subunit is used for judging the equipment state information when the equipment state information is superposed with the equipment distribution condition, and respectively generating a working illumination mode or an entertainment illumination mode according to a judgment result.

4. The system of claim 1, wherein the brightness information comprises indoor brightness information and outdoor brightness information, and the control balancing module comprises:

the brightness difference value calculating unit is used for calculating and generating a brightness adjusting difference value according to the indoor brightness information and the scene mode requirement;

and the brightness regulation and control generating unit is used for calculating and generating a brightness regulation scheme according to the outdoor brightness information and the brightness regulation difference value, wherein the brightness regulation scheme comprises a light transmission regulation scheme and a light supplement regulation scheme, the light transmission regulation scheme is used for representing the regulation of the light transmittance of the outdoor brightness information, and the light supplement regulation scheme is used for representing the regulation of the indoor artificial light source.

5. The system for intelligently adjusting indoor illumination intensity according to claim 4, wherein the generation of the environmental somatosensory information comprises:

the room temperature acquisition unit is used for acquiring and generating room temperature information;

the humidity acquisition unit is used for acquiring and generating indoor humidity information;

and the body feeling generation unit is used for calculating and generating environment body feeling information according to the indoor temperature information and the indoor humidity information.

6. The system according to claim 5, wherein the scene requirement modes further include a color temperature requirement mode, the color temperature requirement mode is determined and generated according to the environmental somatosensory information, and when the adjustment and control balancing module generates a color temperature adjustment scheme according to the color temperature requirement mode, the brightness adjustment scheme is correspondingly adjusted to balance the light transmission adjustment scheme and the supplementary lighting adjustment scheme.

7. The intelligent indoor illumination intensity adjusting system according to claim 6, wherein the color temperature information and the brightness information of the indoor environment are monitored and controlled by regions.

8. An indoor illumination intensity intelligent regulation method is characterized by comprising the following steps:

collecting and generating environment interference information, wherein the environment interference information comprises environment illumination information and environment somatosensory information, and the environment illumination information comprises color temperature information and brightness information;

monitoring and acquiring equipment state information and personnel state information, analyzing the equipment state information and the personnel state information according to a preset requirement judgment standard, and generating a scene mode requirement, wherein the equipment state information and the personnel state information are used for representing the activity behavior state of a user, and the requirement judgment standard is used for judging the requirement of the user on the indoor environment in different activity behavior states;

analyzing the environment interference information according to the scene mode requirement to generate an environment adjusting scheme, wherein the environment adjusting scheme comprises a color temperature adjusting scheme and a brightness adjusting scheme which are respectively used for adjusting and controlling color temperature information and brightness information;

and outputting the environment adjusting scheme to a corresponding environment control unit, wherein the environment control unit is used for responding to the environment adjusting scheme and changing the corresponding environment illumination information.

9. The intelligent indoor illumination intensity adjusting method according to claim 8, wherein the personnel state information includes relative position information and physiological state information, the monitoring obtains device state information and personnel state information, the device state information and the personnel state information are analyzed according to a preset requirement judgment standard, and the step of generating the scene mode requirement specifically includes:

monitoring the scheduling use of equipment to generate equipment state information, wherein the equipment state information is used for representing the use states of a plurality of different pieces of equipment;

acquiring and generating relative position information of the personnel according to a preset equipment distribution condition, wherein the relative position information is used for representing the position relation of the personnel corresponding to the equipment;

monitoring the personnel to generate physiological state information;

and analyzing the physiological state information, the relative position information and the equipment state information according to the preset requirement judgment standard to generate a scene requirement mode.

10. The method according to claim 9, wherein the step of analyzing the physiological status information, the relative location information, and the device status information according to the preset requirement determination criterion to generate a scene requirement pattern specifically includes:

judging the sleep of the person according to the physiological state information, wherein if the person is in a sleep state, the scene requirement mode is a sleep illumination mode;

if the personnel are in a non-sleep state, judging relative position information, and if the relative position information is not overlapped with the distribution condition of the equipment, determining that the scene demand mode is a leisure illumination mode;

and if the illumination mode is coincident with the distribution condition of the equipment, judging the equipment state information, and respectively generating a working illumination mode or an entertainment illumination mode according to a judgment result.

Images