CN116801454B - Automatic control method, device and system for tower environmental illumination - Google Patents

Abstract

The application provides a method, a device and a system for automatically controlling the illumination of a tower environment, wherein the method comprises the following steps: monitoring the activity condition of a person in real time, and if a first induction signal of the person entering the tower is obtained, generating a light guide instruction based on the first induction signal so as to realize light guide according to the instruction; if a second sensing signal that the person arrives at the seat area is obtained, generating an initial illumination instruction based on the second sensing signal so as to initially illuminate the seat area; if the user identity verification information input by the personnel is obtained, automatically closing the light guide and determining illumination personalized data based on the user identity verification information; to determine lighting parameters based on the environmental data outside the current turret table, the environmental data of the seat area, and the lighting personalization data, and to illuminate the seat area with the lighting parameters. According to the application, the lamplight mode is adjusted by sensing the position of the human body and the environmental data, so that lamplight guidance, initial illumination and final illumination are realized, and lamplight adjustment is more flexible.

Description

Automatic control method, device and system for tower environmental illumination

Technical Field

The application belongs to the field of airport monitoring, and particularly relates to a method, a device and a system for automatically controlling illumination of a tower environment.

Background

The tower for airport monitoring is used for monitoring airport equipment, airport ground and surrounding environment of runway, and the common monitoring mode adopts a monitor to observe the area environment to be known, so that airport staff can know the operation state of the airport at any time conveniently, and the airport operation has the effect of safe control.

However, the existing airport monitoring towers have poor intelligent degree of illumination control, the light adjustment is not flexible enough, the illumination of the towers usually needs manual adjustment by personnel, and the office requirements of air traffic control personnel cannot be met.

Disclosure of Invention

In order to overcome the defects in the prior art, the application provides a method, a device and a system for automatically controlling the illumination of the environment of a tower, which have the advantages of high illumination control flexibility and convenience in use.

The method is realized by the following technical scheme:

an automatic control method for the illumination of a tower environment comprises the following steps:

monitoring the activity condition of a person in real time, and if a first induction signal of the person entering the tower is obtained, generating a light guide instruction based on the first induction signal so as to control the light guide person to reach a seat area through the light guide instruction;

if a second sensing signal that the person arrives at the seat area is obtained, generating an initial illumination instruction based on the second sensing signal so as to perform initial illumination on the seat area through the initial illumination instruction;

if the user identity verification information input by the personnel is obtained, automatically closing the light guide and determining illumination personalized data based on the user identity verification information; and determining illumination parameters based on the environment data outside the current tower, the environment data of the seat area and the illumination personalized data, and illuminating the seat area through the illumination parameters.

In a specific embodiment, the method further comprises:

acquiring the time for the person to stay in the seat area continuously, and judging whether the time for the person to stay in the seat area continuously is larger than a preset time value or not;

if the time of staying in the seat area is larger than a preset time value, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state.

In a specific embodiment, the method further comprises:

acquiring environment data outside a current tower, and judging whether the environment brightness outside the tower is smaller than a first preset brightness or not based on the environment data outside the current tower;

if the ambient brightness outside the tower is smaller than the first preset brightness, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state.

In a specific embodiment, each person corresponds to one of the authentication information, and different persons correspond to different of the authentication information; each of the authentication information corresponds to one of the illumination personalized data, and different of the authentication information corresponds to different of the illumination personalized data.

In a specific embodiment, the illumination personalization data includes one or more of an aperture parameter, a color temperature parameter, or a brightness parameter;

the method further comprises the steps of:

recording a plurality of parameters and times of manual adjustment of illumination by each person in a certain time period;

and updating the parameter with the highest frequency in each parameter type into the illumination personalized data for each person.

In a specific embodiment, the illuminating of the seating area by the illumination parameter comprises:

judging whether the ambient brightness of the seat area after illumination accords with a second preset brightness,

if the brightness does not accord with the second preset brightness, generating an alarm signal to send out an audible alarm or an indicator light prompt through the alarm signal; and uploading the current ambient brightness of the seat area to a central control management system so as to be recorded in an abnormal information table of the central control management system.

An automatic control device for the illumination of a tower environment, comprising:

the guiding module is used for monitoring the activity condition of the personnel in real time, and if a first sensing signal of the personnel entering the tower is obtained, a light guiding instruction is generated based on the first sensing signal so as to control the light guiding personnel to reach the seat area through the light guiding instruction;

the initial lighting module is used for generating an initial lighting instruction based on the second sensing signal if the second sensing signal that the person arrives at the seat area is obtained, so that the seat area is initially lighted through the initial lighting instruction;

the secondary lighting module is used for automatically closing the light guide if the user identity verification information input by the personnel is acquired, determining lighting personalized data based on the user identity verification information, determining lighting parameters based on the environment data outside the current tower, the environment data of the seat area and the lighting personalized data, and lighting the seat area through the lighting parameters.

In a specific embodiment, the method further comprises:

the first judging module is used for obtaining the time that the personnel stay in the seat area continuously and judging whether the time that the personnel stay in the seat area continuously is larger than a preset time value or not;

the light focusing module is used for adjusting the light state of the illumination parameter to be a light focusing state if the time of staying in the seat area is larger than a preset time value;

and the astigmatism module is used for adjusting the light state of the illumination parameter into an astigmatism state.

In a specific embodiment, the method further comprises:

the recording module is used for recording a plurality of parameters and times of manual adjustment illumination by each person in a certain time period;

and the updating module is used for updating the parameter with the highest frequency in each parameter type into the illumination personalized data aiming at each person.

An automatic control system for the illumination of a tower environment, which is used for realizing the automatic control method for the illumination of the tower environment, comprising the following steps:

the environment brightness sensor is used for sensing environment data outside the tower and environment data of the seat area;

the human body induction sensor is used for inducing personnel to enter the tower to generate a first induction signal and inducing the personnel to reach the seat area to generate a second induction signal;

the controller is used for processing the environment data of the environment brightness sensor and the induction signal of the human body induction sensor to generate an instruction for controlling the light;

the lighting device is used for receiving the instruction sent by the controller so as to control the light to adjust the light aperture, the light gathering, the light scattering, the brightness and the switch;

and the central control management device is electrically connected with the controller and is used for recording the data uploaded by the controller.

The application has at least the following beneficial effects:

the application provides a method, a device and a system for automatically controlling the illumination of a tower environment, wherein the method comprises the following steps: monitoring the activity condition of a person in real time, and if a first induction signal of the person entering the tower is obtained, generating a light guide instruction based on the first induction signal so as to realize light guide according to the instruction; if a second sensing signal that the person arrives at the seat area is obtained, generating an initial illumination instruction based on the second sensing signal so as to initially illuminate the seat area; if the user identity verification information input by the personnel is obtained, automatically closing the light guide and determining illumination personalized data based on the user identity verification information; to determine lighting parameters based on the environmental data outside the current turret table, the environmental data of the seat area, and the lighting personalization data, and to illuminate the seat area with the lighting parameters. The application can adjust the light mode by sensing the human body position and the environmental data, thus realizing light guide, initial illumination and final illumination, and leading the light adjustment to be more flexible and more convenient. And the application also realizes different lighting effects for different people based on personalized data, thereby adapting to different people demands.

Further, the automatic control method for the illumination of the tower environment of the application further comprises the following steps: acquiring the time for the person to stay in the seat area continuously, and judging whether the time for the person to stay in the seat area continuously is larger than a preset time value or not; if the stay time of the seat area is larger than the preset time value, the light state of the illumination parameter is adjusted to be a condensation state; otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state. For example, if the time that the person stays in the seat area continuously is larger than the preset time value, the person can be determined to be concentrating, so that the light is adjusted to be in a concentrated state, and the person can observe and recognize conveniently; if the time that personnel stay in the seat area continuously is smaller than the preset time value, the lamplight is adjusted to be in a light scattering state, so that the large-scale illumination inside the tower is realized, and a more uniform illumination effect is achieved.

Further, whether the ambient brightness outside the tower is smaller than the first preset brightness is judged by acquiring the ambient data outside the current tower and based on the ambient data outside the current tower; if the ambient brightness outside the tower is smaller than the first preset brightness, the light state of the illumination parameter is adjusted to be a condensation state; otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state. For example, if the brightness of the environment outside the tower is less than the first preset brightness, it can be determined that the night time is the moment, and the influence of the light on the surrounding environment needs to be reduced, so that the reflection of the tower glass is prevented, and the light state of the illumination parameters is adjusted to be a light-gathering state; otherwise, the light state of the illumination parameter is adjusted to be in a astigmatism state so as to realize the large-range illumination in the tower and achieve a more uniform illumination effect.

Further, the illumination personalization data includes one or more of an aperture parameter, a color temperature parameter, or a brightness parameter; the method further comprises the steps of: recording a plurality of parameters and times of manual adjustment of illumination by each person in a certain time period; and updating the parameter with the highest frequency in each parameter type into the illumination personalized data for each person. Parameters corresponding to each parameter type in the personalized data are updated in real time so as to adapt to the requirements of different staff.

Further, judging whether the ambient brightness of the seat area after illumination meets the second preset brightness, if not, generating an alarm signal to send out an audible alarm or an indicator light prompt through the alarm signal; and uploading the ambient brightness of the current seat area to the central control management system so as to be recorded in an abnormal information table of the central control management system. The management personnel are timely reminded of overhauling and maintaining through the alarm signal, so that the normal operation of the system is ensured, and the safety and reliability of illumination are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of a method of automatically controlling the illumination of a turret table environment;

FIG. 2 is a schematic diagram of an automatic control device for the illumination of the tower environment;

FIG. 3 is a schematic diagram of an automated control system for the illumination of a turret table environment.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that, the user information (including but not limited to user equipment information, user personal information, etc.) and the data (including but not limited to data for analysis, stored data, presented data, etc.) related to the present application are information and data authorized by the user or sufficiently authorized by each party, and the collection, use and processing of the related data need to comply with the related laws and regulations and standards of the related country and region.

The application provides a method, a device and a system for automatically controlling the illumination of a tower environment, wherein the method comprises the following steps: monitoring the activity condition of a person in real time, and if a first sensing signal of the person entering the tower is obtained, generating a light guide instruction based on the first sensing signal so as to control the light guide person to reach a seat area through the light guide instruction; if a second sensing signal that the person arrives at the seat area is obtained, generating an initial illumination instruction based on the second sensing signal so as to perform initial illumination on the seat area through the initial illumination instruction; if the user identity verification information input by the personnel is obtained, automatically closing the light guide and determining illumination personalized data based on the user identity verification information; to determine lighting parameters based on the environmental data outside the current turret table, the environmental data of the seat area, and the lighting personalization data, and to illuminate the seat area with the lighting parameters. The device comprises: the guiding module is used for monitoring the activity condition of the personnel in real time, and if a first sensing signal of the personnel entering the tower is obtained, a light guiding instruction is generated based on the first sensing signal so as to control the light guiding personnel to reach the seat area through the light guiding instruction; the initial lighting module is used for generating an initial lighting instruction based on the second sensing signal if the second sensing signal that the person arrives at the seat area is obtained, so that the seat area is initially lighted through the initial lighting instruction; the secondary lighting module is used for automatically closing the light guide if the user identity verification information input by the personnel is obtained, determining lighting personalized data based on the user identity verification information, determining lighting parameters based on the environment data outside the current tower, the environment data of the seat area and the lighting personalized data, and lighting the seat area through the lighting parameters. The system is used for realizing the automatic control method of the illumination of the tower environment, and comprises the following steps: the environment brightness sensor is used for sensing environment data outside the tower and environment data of the seat area; the human body induction sensor is used for inducing a person to enter the tower to generate a first induction signal and inducing the person to arrive at the seat area to generate a second induction signal; the controller is used for processing the environmental data of the environmental brightness sensor and the induction signals of the human body induction sensor to generate an instruction for controlling the lamplight; the lighting device is used for receiving the instruction sent by the controller so as to control the light to adjust the light aperture, the light condensation and the light scattering; and the central control management device is electrically connected with the controller and is used for recording the data uploaded by the controller.

Compared with the prior art, the application can adjust the light mode by sensing the human body position and the environmental data, and realize light guidance, initial illumination and final illumination, so that the light adjustment is more flexible and more convenient. And the application also realizes different lighting effects for different personnel based on personalized data, thereby adapting to different personnel requirements.

Example 1

As shown in fig. 1, a method for automatically controlling the illumination of a tower environment comprises the following steps:

s1, monitoring the activity condition of a person in real time, and if a first sensing signal of the person entering the tower is obtained, generating a light guide instruction based on the first sensing signal so as to control the light guide person to reach a seat area through the light guide instruction;

s2, if a second sensing signal that the person arrives at the seat area is obtained, generating an initial illumination instruction based on the second sensing signal, so as to perform initial illumination on the seat area through the initial illumination instruction;

s3, if the user identity verification information input by the personnel is obtained, automatically closing the light guide and determining illumination personalized data based on the user identity verification information; to determine lighting parameters based on the environmental data outside the current turret table, the environmental data of the seat area, and the lighting personalization data, and to illuminate the seat area with the lighting parameters.

The application can adjust the light mode by sensing the human body position and the environmental data, thus realizing light guide, initial illumination and final illumination, and leading the light adjustment to be more flexible and more convenient. And the application also realizes different lighting effects for different personnel based on personalized data, thereby adapting to different personnel requirements.

As shown in fig. 1, the automatic control method for the illumination of the tower environment of the present application further includes:

acquiring the time for the person to stay in the seat area continuously, and judging whether the time for the person to stay in the seat area continuously is larger than a preset time value or not;

if the stay time of the seat area is larger than the preset time value, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state.

For example, if the time that the person stays in the seat area continuously is larger than the preset time value, the person can be determined to be concentrating, so that the light is adjusted to be in a concentrated state, and the person can observe and recognize conveniently; if the time that personnel stay in the seat area continuously is smaller than the preset time value, the lamplight is adjusted to be in a light scattering state, so that the large-scale illumination inside the tower is realized, and a more uniform illumination effect is achieved.

The automatic control method for the illumination of the tower environment also comprises the following steps:

acquiring environment data outside the current tower, and judging whether the environment brightness outside the tower is smaller than a first preset brightness or not based on the environment data outside the current tower;

if the ambient brightness outside the tower is smaller than the first preset brightness, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state.

For example, if the brightness of the environment outside the tower is less than the first preset brightness, at night, the influence of the light on the surrounding environment needs to be reduced to prevent the reflection of the tower glass, so that the light state of the illumination parameters is adjusted to be a light-gathering state; otherwise, the light state of the illumination parameter is adjusted to be in a astigmatism state so as to realize the large-range illumination in the tower and achieve a more uniform illumination effect.

As shown in fig. 1, each person corresponds to one authentication information, and different persons correspond to different authentication information; each authentication information corresponds to one illumination personalized data, and different authentication information corresponds to different illumination personalized data.

In the embodiment, the identity verification information can be acquired through fingerprint identification equipment and face recognition equipment, and the invasion and operation of illegal users are avoided through the arrangement of identity recognition; and the identity verification information of each person corresponds to one piece of illumination personalized data so as to configure illumination parameters according to the illumination personalized data.

As shown in fig. 1, wherein the illumination personalization data includes one or more of an aperture parameter, a color temperature parameter, or a brightness parameter;

the method further comprises the steps of:

recording a plurality of parameters and times of manual adjustment of illumination by each person in a certain time period;

and updating the parameter with the highest frequency in each parameter type into the illumination personalized data for each person.

The application updates the parameters corresponding to each parameter type in the personalized data in real time so as to adapt to the requirements of different staff.

As shown in fig. 1, S3 "illuminate the seat area with illumination parameters" includes:

judging whether the ambient brightness of the seat area after illumination accords with the second preset brightness,

if the brightness does not accord with the second preset brightness, generating an alarm signal to send out an audible alarm or an indicator light prompt through the alarm signal; and uploading the ambient brightness of the current seat area to the central control management system so as to be recorded in an abnormal information table of the central control management system.

The application reminds management personnel to overhaul and maintain in time through the alarm signal so as to ensure the normal operation of the system and improve the safety and reliability of illumination.

Example 2

The present embodiment provides an automatic control device for the illumination of the environment of a tower on the basis of the automatic control method for the illumination of the environment of the tower provided in embodiment 1.

As shown in fig. 2, an automatic control device for the illumination of a tower environment, comprising:

the guiding module 1 is used for monitoring the activity condition of a person in real time, and if a first sensing signal of the person entering the tower is obtained, a light guiding instruction is generated based on the first sensing signal so as to control the light guiding person to reach the seat area through the light guiding instruction;

the initial lighting module 2 is used for generating an initial lighting instruction based on the second sensing signal if the second sensing signal that the person arrives at the seat area is obtained, so as to perform initial lighting on the seat area through the initial lighting instruction;

the secondary lighting module 3 is configured to automatically turn off the light guide if the user authentication information input by the person is obtained, and determine lighting personalized data based on the user authentication information, so as to determine lighting parameters based on the environmental data outside the current tower, the environmental data of the seat area, and the lighting personalized data, and perform lighting on the seat area through the lighting parameters.

According to the application, the light mode is adjusted by matching the guide module, the initial lighting module and the secondary lighting module, so that light guide, initial lighting and final lighting are realized, and light adjustment is more flexible and more convenient. And in the secondary lighting module, different lighting effects are realized for different people based on personalized data, so that the secondary lighting module is suitable for different staff requirements, and the light adjustment is more personalized.

As shown in fig. 2, an automatic control device for the illumination of the tower environment further comprises:

the first judging module is used for obtaining the time that the personnel stay in the seat area continuously and judging whether the time that the personnel stay in the seat area continuously is larger than a preset time value or not;

the light condensing module is used for adjusting the light state of the illumination parameter to be a light condensing state if the time of staying in the seat area is larger than a preset time value;

and the astigmatism module is used for adjusting the light state of the illumination parameter into an astigmatism state.

According to the application, the first judging module, the light condensing module and the light scattering module are matched to realize the adjustment of the light, so that the light can be switched along with the working state of a worker, for example, if the time that the worker stays in a seat area continuously is longer than a preset time value, the worker can be determined to concentrate on working, and therefore, the light is adjusted to be in the light condensing state, so that the worker can observe and recognize conveniently; if the time that personnel stay in the seat area continuously is smaller than the preset time value, the lamplight is adjusted to be in a light scattering state, so that the large-scale illumination inside the tower is realized, and a more uniform illumination effect is achieved.

As shown in fig. 2, an automatic control device for the illumination of the tower environment further comprises:

the recording module is used for recording a plurality of parameters and times of manual adjustment illumination by each person in a certain time period;

and the updating module is used for updating the parameter with the highest frequency in each parameter type into the illumination personalized data aiming at each person.

The parameters corresponding to each parameter type in the personalized data are updated in real time through the cooperation of the recording module and the updating module, so that the requirements of different staff are met.

As shown in fig. 2, an automatic control device for the illumination of the tower environment further comprises:

a second judging module for judging whether the ambient brightness of the seat area after illumination accords with a second preset brightness,

the alarm module is used for generating an alarm signal to send out an audible alarm or an indicator light prompt through the alarm signal if the second preset brightness is not met;

and the abnormal information module is used for uploading the ambient brightness of the current seat area to the central control management system so as to be recorded in an abnormal information table of the central control management system.

Judging whether the ambient brightness of the seat area after illumination meets the second preset brightness or not through a second judging module, if the ambient brightness does not meet the preset requirements, generating an alarm signal through an alarm module to give out an audible alarm or an indicator light prompt through the alarm signal, and reminding a manager to overhaul and maintain in time so as to ensure the normal operation of the system; the device is also provided with an abnormal information module, and the environment brightness of the current seat area is uploaded to the central control management system to be recorded in an abnormal information table of the central control management system, so that staff can check abnormal information through the central control management system, and the safety and reliability of the device are improved.

Example 3

The embodiment provides a tower environment illumination automatic control system based on the tower environment illumination automatic control method provided in embodiment 1, so as to realize the tower environment illumination automatic control method.

As shown in fig. 3, an automatic control system for the illumination of a tower environment, comprising:

the environment brightness sensor is used for sensing environment data outside the tower and environment data of the seat area;

the human body induction sensor is used for inducing a person to enter the tower to generate a first induction signal and inducing the person to arrive at the seat area to generate a second induction signal;

the controller is used for processing the environmental data of the environmental brightness sensor and the induction signals of the human body induction sensor to generate an instruction for controlling the lamplight;

the lighting device is used for receiving the instruction sent by the controller so as to control the light to adjust the light aperture, the light gathering, the light scattering, the brightness and the switch;

and the central control management device is electrically connected with the controller and is used for recording the data uploaded by the controller.

Specifically, the ambient brightness sensor may employ a photoresistor, a photodiode, or an optical sensor, or the like. In this embodiment, the ambient brightness sensor includes a first ambient brightness sensor and a second ambient brightness sensor, where the first ambient brightness sensor is disposed outside the turret table and is used to sense ambient data outside the turret table. The second ambient brightness sensor is arranged inside the tower and used for sensing the ambient data inside the tower. The first ambient brightness sensor and the second ambient brightness sensor can avoid light interference caused by illumination inside and outside the tower, so that the result of sensing the ambient data is more accurate.

The environment brightness sensor can sense the environment brightness change under different weather conditions, such as cloudy days, rainy days, foggy days and the like, and has IP65 waterproof grade; the second ambient light sensor is arranged in the seat area to sense the ambient light of the area where the seat is positioned. Therefore, the power of the working illuminating lamp can be automatically adjusted according to the detected brightness, so that the working illuminating lamp reaches the optimal brightness meeting the visual requirements of workers.

The signal output by the ambient brightness sensor can be an analog voltage signal or a digital signal. The analog voltage signal can be converted into a digital signal by an analog-to-digital converter and then transmitted to a controller for processing. The digital signal can be directly transmitted to the controller, reducing the complexity of signal processing.

As shown in fig. 3, in particular, the body sensing sensor may employ an infrared, ultrasonic or microwave sensor or the like. In this embodiment, the human body induction sensor is disposed inside the tower and is used for sensing the activity condition of the personnel. The human body induction sensor is provided with a plurality of human body induction sensors which are respectively arranged at different detection distances and detection angles, so that the human body induction sensor is suitable for different sizes of towers and working environments.

The signal output by the human body induction sensor can be a switch signal or a digital signal. The switch signal can directly control the switch of the lighting device, and the digital signal needs to be converted through the digital input module and then transmitted to the controller for processing.

As shown in fig. 3, the controller may be specifically implemented by a microprocessor, a single-chip microcomputer, or an embedded system, so as to improve stability, reliability, and real-time performance of the system, thereby ensuring safe and efficient operation of the system.

The automatic control system for the illumination of the tower environment in the embodiment further comprises a power supply system, wherein the power supply system is used for providing power to realize the illumination of the illumination device. In particular, the power supply system may include a main switching power supply and a standby switching power supply, and AC220V mains supply is converted into a safety voltage DC12V through the switching power supply to supply power to the lighting automatic control system. The main switch power supply and the standby switch power supply adopt a hot backup redundancy design, and when the main switch power supply fails, the main switch power supply can be automatically switched to the standby switch power supply so as to ensure the normal illumination.

The automatic control system for the illumination of the tower environment further comprises a manual control module, wherein the manual control module is used for manually controlling the adjustment light aperture, the light gathering, the light scattering, the brightness and the switch of the illumination device. Wherein, the priority of manual control module is greater than the priority of controller.

In this embodiment, when the controller has a problem in automatic control of the lighting device, the controller may switch to manual control, and the manual control module is used to adjust the light aperture, the light focusing, the light scattering, the brightness and the switch, so that the light adjustment is more reliable. The manual control module is a manual control panel which can be operated by a person.

It will be appreciated by those of ordinary skill in the art that the modules or steps of the application described above may be implemented in a general purpose computing device, they may be centralized on a single computing device, or distributed over a network of computing devices, or they may alternatively be implemented in program code executable by a computer device, such that they are stored in a memory device and executed by the computing device, or they may be separately fabricated as individual integrated circuit modules, or multiple modules or steps within them may be fabricated as a single integrated circuit module. Thus, the present application is not limited to any specific combination of hardware and software.

Note that the above is only a preferred embodiment of the present application and the technical principle applied. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, while the application has been described in connection with the above embodiments, the application is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the application, which is set forth in the following claims.

The foregoing disclosure is merely illustrative of some embodiments of the application, and the application is not limited thereto, as modifications may be made by those skilled in the art without departing from the scope of the application.

Claims (7)

1. An automatic control method for the illumination of a tower environment is characterized by comprising the following steps:

monitoring the activity condition of a person in real time, and if a first induction signal of the person entering the tower is obtained, generating a light guide instruction based on the first induction signal so as to control the light guide person to reach a seat area through the light guide instruction;

if a second sensing signal that the person arrives at the seat area is obtained, generating an initial illumination instruction based on the second sensing signal so as to perform initial illumination on the seat area through the initial illumination instruction;

if the user identity verification information input by the personnel is obtained, automatically closing the light guide and determining illumination personalized data based on the user identity verification information; determining illumination parameters based on the environment data outside the current tower, the environment data of the seat area and the illumination personalized data, and illuminating the seat area through the illumination parameters;

further comprises:

acquiring the time for the person to stay in the seat area continuously, and judging whether the time for the person to stay in the seat area continuously is larger than a preset time value or not;

if the time of staying in the seat area is larger than a preset time value, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be a astigmatism state;

further comprises:

acquiring environment data outside a current tower, and judging whether the environment brightness outside the tower is smaller than a first preset brightness or not based on the environment data outside the current tower;

if the ambient brightness outside the tower is smaller than the first preset brightness, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state.

2. The automatic control method for the illumination of the environment of the tower according to claim 1, wherein each person corresponds to one of the authentication information, and different persons correspond to different of the authentication information; each of the authentication information corresponds to one of the illumination personalized data, and different of the authentication information corresponds to different of the illumination personalized data.

3. The automated turret table ambient lighting control method of claim 2, wherein the lighting personalization data includes one or more of an aperture parameter, a color temperature parameter, or a brightness parameter;

the method further comprises the steps of:

recording a plurality of parameters and times of manual adjustment of illumination by each person in a certain time period;

and updating the parameter with the highest frequency in each parameter type into the illumination personalized data for each person.

4. The automated turret table environment lighting control method of claim 1, wherein illuminating the seating area with the lighting parameters includes:

judging whether the ambient brightness of the seat area after illumination accords with a second preset brightness,

if the brightness does not accord with the second preset brightness, generating an alarm signal to send out an audible alarm or an indicator light prompt through the alarm signal; and uploading the current ambient brightness of the seat area to a central control management system so as to be recorded in an abnormal information table of the central control management system.

5. An automatic control device for the illumination of a tower environment, comprising:

the guiding module is used for monitoring the activity condition of the personnel in real time, and if a first sensing signal of the personnel entering the tower is obtained, a light guiding instruction is generated based on the first sensing signal so as to control the light guiding personnel to reach the seat area through the light guiding instruction;

the initial lighting module is used for generating an initial lighting instruction based on the second sensing signal if the second sensing signal that the person arrives at the seat area is obtained, so that the seat area is initially lighted through the initial lighting instruction;

the secondary lighting module is used for automatically closing the light guide if the user identity verification information input by the personnel is acquired, determining lighting personalized data based on the user identity verification information, determining lighting parameters based on the environment data outside the current tower, the environment data of the seat area and the lighting personalized data, and lighting the seat area through the lighting parameters;

further comprises:

the first judging module is used for obtaining the time that the personnel stay in the seat area continuously and judging whether the time that the personnel stay in the seat area continuously is larger than a preset time value or not;

the light focusing module is used for adjusting the light state of the illumination parameter to be a light focusing state if the time of staying in the seat area is larger than a preset time value;

the light scattering module is used for adjusting the light state of the illumination parameter into a light scattering state;

the apparatus also performs the steps of:

acquiring environment data outside a current tower, and judging whether the environment brightness outside the tower is smaller than a first preset brightness or not based on the environment data outside the current tower;

if the ambient brightness outside the tower is smaller than the first preset brightness, the light state of the illumination parameter is adjusted to be a condensation state;

otherwise, the light state of the illumination parameter is adjusted to be the astigmatism state.

6. The automatic control device for the illumination of the environment of a tower according to claim 5, further comprising:

the recording module is used for recording a plurality of parameters and times of manual adjustment illumination by each person in a certain time period;

and the updating module is used for updating the parameter with the highest frequency in each parameter type into the illumination personalized data aiming at each person.

7. A tower ambient lighting automatic control system for implementing the tower ambient lighting automatic control method of any one of claims 1-4, comprising:

the environment brightness sensor is used for sensing environment data outside the tower and environment data of the seat area;

the human body induction sensor is used for inducing personnel to enter the tower to generate a first induction signal and inducing the personnel to reach the seat area to generate a second induction signal;

the controller is used for processing the environment data of the environment brightness sensor and the induction signal of the human body induction sensor to generate an instruction for controlling the light;

the lighting device is used for receiving the instruction sent by the controller so as to control the light to adjust the light aperture, the light gathering, the light scattering, the brightness and the switch;

and the central control management device is electrically connected with the controller and is used for recording the data uploaded by the controller.