CN105934054B - A kind of control method and intelligent illuminating system of intelligent illuminating system - Google Patents

Abstract

The invention discloses a kind of control methods of intelligent illuminating system, comprising: A, creation task preset the working condition of lighting apparatus；B, it creates scene and generates task scheduler, the scene is made of task or scene；C, intelligent illuminating system work is automatically controlled according to scene；Also disclose a kind of intelligent illuminating system, comprising: control unit presets the working condition of lighting apparatus, create scene and generate task scheduler, the scene is made of task or scene for creating task；Lighting unit, for automatically controlling intelligent illuminating system work according to scene.A kind of control method of intelligent illuminating system can increase the control mode of lighting system in the present invention, reduce user's operation, improve user experience；A kind of intelligent illuminating system structure is simple in the present invention, and the automatic control of lighting system may be implemented.Control method and intelligent illuminating system of the present invention as a kind of intelligent illuminating system, can be widely applied to lighting area.

Description

Control method of intelligent lighting system and intelligent lighting system

Technical Field

The invention relates to the field of lighting, in particular to a control method of an intelligent lighting system and the intelligent lighting system.

Background

Since the twelve five programs are coming out, the state takes the internet of things as the key supporting field, and through the development of the years, the intelligent lighting occupies a proper place in the field of the internet of things.

In order to improve the quality of life of people, make the lighting system change according to the wishes of users, and realize the intellectualization of the lighting system, there are currently intelligent lighting systems based on various networking, ad hoc networks (such as Zigbee, bluetooth, Wifi) and communication technologies. Most intelligent systems control networked lighting equipment through control software in an upper computer (a smart phone and a personal computer), wherein the control software comprises switching, color mixing, dimming and timing control.

However, the current control mode is only limited to timing control of equipment switch and real-time switching, color mixing and dimming control through user operation, the control mode is single, the function is simple, the user operation is complex, the experience effect is poor, and the complex task requirements cannot be met.

Disclosure of Invention

In order to solve the technical problems, the invention provides a control method of an intelligent lighting system and the intelligent lighting system, wherein the control method of the intelligent lighting system can increase the control mode of the lighting system, improve the controllability and intelligence of the lighting system, reduce the user operation and improve the user experience; the intelligent lighting system is simple in structure and can realize automatic control of the lighting system.

The technical scheme adopted by the invention is as follows: a method of controlling an intelligent lighting system, comprising the steps of:

A. creating a task, and presetting the working state of the lighting equipment;

B. creating a scene and generating a task schedule, wherein the scene is composed of tasks or scenes;

C. and automatically controlling the intelligent lighting system to work according to the scene.

Further, the step a includes:

creating a timing trigger task, and presetting the working state of the lighting equipment according to a time rule, a delay rule and an equipment rule;

or,

and creating a condition triggering task, and presetting the working state of the lighting equipment according to the time rule, the equipment rule and the triggering equipment.

Further, the working state comprises a switch, brightness and display color.

Further, the control method of the intelligent lighting system further comprises the step D of:

D. and obtaining a new scene by using scene learning, wherein the scene learning is to newly create or modify a scene by recording the operation of a user.

Further, the control method of the intelligent lighting system further comprises the step E of:

E. and judging whether to remind of creating a scene according to whether the number of the newly-built tasks reaches the preset number within the preset time.

Further, the creating of the timing trigger task includes:

setting the operation of task execution, wherein the operation comprises turning on or off the lighting equipment, adjusting the brightness of the lighting equipment and adjusting the color displayed by the lighting equipment;

adding a time rule to set a time point when the task occurs or a time period when the task is allowed to occur;

adding a delay rule to set the time of starting task delay and delay time;

device rules are added to set the lighting devices or lighting device groups that perform the task, the lighting device groups including more than one lighting device.

Further, the creating condition triggering task comprises:

setting the operation of task execution, wherein the operation comprises turning on or off the lighting equipment, adjusting the brightness of the lighting equipment and adjusting the color displayed by the lighting equipment;

adding a time rule to set a time point when the task occurs or a time period when the task is allowed to occur;

adding a device rule to set a lighting device or a lighting device group for performing a task, the lighting device group including more than one lighting device;

a trigger device is selected and a trigger condition is determined.

The other technical scheme adopted by the invention is as follows: an intelligent lighting system comprising:

the control unit is used for creating a task, presetting the working state of the lighting equipment, creating a scene and generating a task schedule, wherein the scene consists of the task or the scene;

the lighting unit is used for automatically controlling the intelligent lighting system to work according to the scene,

the control unit is connected with the lighting unit.

Further, the control unit comprises a computer and a mobile phone.

Further, the lighting unit comprises a lighting controller, a lighting device and a trigger device, the control unit is connected with the lighting controller, the trigger device is connected with the lighting controller, and the lighting controller is connected with the lighting device.

Further, the trigger device comprises an infrared sensing trigger device, a light intensity sensing trigger device, a sound sensing trigger device and a temperature sensing trigger device.

Further, the lighting controller and the lighting equipment both comprise wireless transmission modules, and each wireless transmission module comprises a Bluetooth module, a WiFi module and a ZigBee module.

The invention has the beneficial effects that: according to the control method of the intelligent lighting system, the intelligent lighting scene is established through two task triggering modes of timing triggering and condition triggering, so that the control mode of the lighting system can be increased, the controllability and the intelligence of the lighting system are improved, the user operation is reduced, and the user experience is improved; the intelligent lighting system is simple in structure, and automatic control of the lighting system can be achieved through the control unit and the lighting unit.

Drawings

The following further describes embodiments of the present invention with reference to the accompanying drawings:

fig. 1 is a flow chart illustrating steps of a method for controlling an intelligent lighting system according to the present invention;

fig. 2 is a general flow chart of creating tasks in a control method of an intelligent lighting system in the present invention;

fig. 3 is a flowchart of an embodiment of creating a timed trigger task in a control method of an intelligent lighting system according to the present invention;

FIG. 4 is a flowchart of an embodiment of creating a condition-triggered task in a control method of an intelligent lighting system according to the present invention;

FIG. 5 is a flowchart of an embodiment of creating or modifying a scene in a control method of an intelligent lighting system according to the present invention;

FIG. 6 is a flowchart of an embodiment of scene learning in a control method of an intelligent lighting system according to the present invention;

FIG. 7 is a flowchart of an embodiment of an intelligent reminder in a method for controlling an intelligent lighting system according to the present invention;

fig. 8 is a block diagram of an embodiment of an intelligent lighting system of the present invention.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Fig. 1 is a flowchart illustrating steps of a control method of an intelligent lighting system according to the present invention, and with reference to fig. 1, the control method of the intelligent lighting system according to the present invention includes the following steps:

A. creating a task, and presetting the working state of the lighting equipment;

B. creating a scene and generating a task schedule, wherein the scene is composed of tasks or scenes;

C. and automatically controlling the intelligent lighting system to work according to the scene.

In the invention, the working state presetting of the lighting equipment is realized through task creation, a scene can be formed by a plurality of tasks, in addition, the existing scene can be called to form a new scene when the scene is created, and the intelligent lighting system can autonomously work according to the setting of the scene. The scene function adopted by the invention ensures that the user does not need to participate in the control process of the lighting equipment manually, thereby reducing the excessive manual operation. In addition, the expansibility of the scene function is greatly enhanced compared with the expansibility of a common timing function.

As a further preferred embodiment, the operating state includes a switch, brightness, and display color.

As a further preferred embodiment, the step a includes:

creating a timing trigger task, and presetting the working state of the lighting equipment according to a time rule, a delay rule and an equipment rule;

or,

and creating a condition triggering task, and presetting the working state of the lighting equipment according to the time rule, the equipment rule and the triggering equipment.

Fig. 2 is a general flowchart of creating a task in a control method of an intelligent lighting system according to the present invention, and with reference to fig. 2, in this embodiment, when a new task is created, after the task is named, a task mode is selected, and in this embodiment, two task modes are provided: triggering the task at fixed time and triggering the task under condition, entering a corresponding creation module to create the task after selecting a task mode, finally judging whether the task is created completely, if so, finishing the task creation, and if not, returning to continue creating the task. After a task is successfully established, the task can be called in a scene, each task can obtain a name randomly distributed by the system, the name can be changed by a user, only the names are different, and each task can be automatically distributed with an ID by the system. The invention provides two task modes, enriches the task modes of the lighting system and improves the intellectualization of the task.

As a further preferred embodiment, the creating a timing trigger task includes:

setting the operation of task execution, wherein the operation comprises turning on or off the lighting equipment, adjusting the brightness of the lighting equipment and adjusting the color displayed by the lighting equipment;

adding a time rule to set a time point when the task occurs or a time period when the task is allowed to occur;

adding a delay rule to set the time of starting task delay and delay time;

device rules are added to set the lighting devices or lighting device groups that perform the task, the lighting device groups including more than one lighting device.

Fig. 3 is a flowchart of a specific embodiment of creating a timing trigger task in a control method of an intelligent lighting system according to the present invention, and with reference to fig. 3, in this embodiment, when creating the timing trigger task, first, operations to be executed by the timing trigger task are determined, where the operations include turning on or off a lighting device, adjusting brightness of the lighting device, and adjusting a color displayed by the lighting device. When a task is created, rule constraint needs to be performed on the task, namely, a corresponding rule is added to the task. For timing triggered tasks, rule constraints include three types: time rules, delay rules, and device rules.

The time rules may specify the exact point in time at which the task occurs, e.g., 21: 01 minutes, while other time constraints may be imposed on the task, such as the time period during which the task is allowed to occur, e.g., monday, tuesday, wednesday, or monday through wednesday, or weekdays (monday through friday).

The delay rule can enable the task to take a certain time point as a reference point, and the operation of the task is executed after a period of time after the reference point. The time point may be a starting time of the task or other specific time, and after the delay time is selected, the delay time needs to be set.

The equipment rule is used for defining an action object of a task and selecting the lighting equipment acted by the task. The lighting equipment is divided into a single lighting equipment and a lighting equipment group, the lighting equipment group comprises a plurality of lighting equipment, a user can click and select one lighting equipment at a time, all lighting equipment in a certain lighting equipment group can be selected by clicking at a time, the user can spread and look at the equipment in the group, the names of the lighting equipment which is not needed in the group are clicked again, and the lighting equipment can be deselected.

After the tasks are set according to the three rules, the creation of the timing task is completed once, and the created tasks are stored.

As a further preferred embodiment, the creating condition triggering task includes:

setting the operation of task execution, wherein the operation comprises turning on or off the lighting equipment, adjusting the brightness of the lighting equipment and adjusting the color displayed by the lighting equipment;

adding a time rule to set a time point when the task occurs or a time period when the task is allowed to occur;

adding a device rule to set a lighting device or a lighting device group for performing a task, the lighting device group including more than one lighting device;

a trigger device is selected and a trigger condition is determined.

Fig. 4 is a flowchart of a specific embodiment of creating a condition-triggered task in a control method of an intelligent lighting system according to the present invention, and with reference to fig. 4, in this embodiment, when creating the condition-triggered task, an operation to be executed by the task is first selected, and in this embodiment, the same operation may be selected from operations of turning on or off, turning on, and color-mixing; then, selecting the lighting device on which to apply the task, namely adding a device rule to the task, and also selecting a single lighting device or a lighting device group; it is also possible to add temporal rules to the task to define at which point in time, during which time period, and on which day the task is active, e.g. 14:00 to 18:00 on Monday. The execution operation, the adding rule and the adding triggering device for the condition triggering task selection task are relatively independent modules, the setting of the modules is not in strict sequence, and the flow chart shown in fig. 4 is only one of the possibilities.

The conditions required for the task to perform the operation are then determined as triggered by the established conditions. Firstly, selecting a source type of a trigger condition, namely selecting a trigger device, wherein the trigger device comprises an infrared sensing trigger device, a light intensity sensing trigger device, a sound sensing trigger device and a temperature sensing trigger device; after the triggering condition source is selected, further selecting corresponding triggering equipment, such as an infrared sensor; finally, setting triggering conditions, such as setting conditions of high, middle and low, or setting conditions of more than 85 and less than 23 by taking 100 as a measuring range, and providing a flexible sensitivity adjusting function. The triggering device is for example a temperature sensor, which here can be set to be greater than or equal to 30 degrees celsius. When the number of the trigger devices is greater than 1, the logical relationship between the trigger condition of the trigger device and the trigger conditions of other trigger devices needs to be added, and/or the logical relationship can be set as and/or, and the operation to be executed by the task is executed only if the logical result is true.

And after the trigger condition is set, judging whether other trigger equipment needs to be added or not, when the trigger equipment needs to be continuously added, skipping to the step of selecting the type of the condition source, continuously adding other trigger equipment, and otherwise, finishing the creation of the condition trigger task and saving the task.

The invention is compatible with the timing trigger task and the conditional trigger task, can be suitable for the lighting system with the trigger equipment, can also be suitable for the lighting system with the common control, and has wider application range.

A plurality of tasks may form a scene, fig. 5 is a flowchart of a specific embodiment of creating or modifying a scene in the control method of an intelligent lighting system according to the present invention, and with reference to fig. 5, an execution sequence of the plurality of tasks may be determined according to a sequence rule and a delay rule, and the sequence rule may set a sequence relationship between the task and another task, for example, task a may be set to occur only after task B and before task C; the delay relationship can set that the operation of the task a occurs after the task B is executed for 5 minutes, and similar to the delay rule in the task, the delay rule in the scene also needs to set the reference time point and the delay time. In this embodiment, the task schedule may be set to display tasks in a period, the left side of the task schedule is a time column with the display time as a starting time, and the upper side of the task schedule is a date or a week number (displayed according to the maximum time unit involved in rule description, for example, the date and the week are involved in rule description, the week number is displayed), so that the user can know the current setting situation of the scene more intuitively, and at the same time, the task editing and deleting in the scene are more convenient, for example, the sequence rule of the tasks can be adjusted by dragging the tasks to different positions.

The user can modify, delete or add tasks in the scene, and can save the existing scene as a new scene. In addition to adding tasks in a scene, scenes may also be added in a scene. After adding a scene, the system adds all tasks in the added scene to the position set by the user in a module form. After the scene is modified, the current scene can be saved as a new scene.

As a further preferred embodiment, the control method of the intelligent lighting system further includes step D:

D. and obtaining a new scene by using scene learning, wherein the scene learning is to newly create or modify a scene by recording the operation of a user.

And a scene learning function of recording the user's operation, converting it into individual tasks, adding the tasks converted from the operation to the scene when the user stops the scene learning by pressing the stop scene learning key, and ending the scene learning.

Fig. 6 is a flowchart of an embodiment of scene learning in the control method of the intelligent lighting system according to the present invention, and in conjunction with fig. 6, the scene learning is used to create or modify a scene. Scene learning is the generation of a scene composed of a series of tasks by recording user operations and the intervals of the operations.

The scene learning is started when a scene is set, the scene learning module waits for a user to operate the equipment, and records operation information of the user on the equipment, wherein the recorded content comprises the performed operation, the operation time and the like, namely, the ID, the operation command and the operation time of the controlled lighting equipment are recorded. And finishing scene learning until the user presses a scene learning stopping key.

The scene learning mode can be selected to be entered during the execution of the scene or when the scene is modified. After the scene learning mode is started, firstly, the user is allowed to select whether to start the coverage mode. When the user selects not to start the overlay mode, the relevant information of the control of the lighting device by the user is recorded, and when the stop scene learning key is pressed, the system takes all the operation tasks as a group of scenes obtained through learning and displays the scenes in the form of a scene time table. And the scene learning function is used when a scene is newly built, which is consistent with the flow steps when a user uses the scene learning function and does not select the coverage mode in the scene executing process or scene modification process.

When the user selects to open the coverage mode, and when the operation of the user on the equipment does not accord with the selected coverage mode, the user continues to wait for the operation of the user, and the operation of the user is recorded until the operation of the user on the equipment accords with the selected coverage mode. And when the operation of the device by the user accords with the selected coverage mode, inquiring whether the user performs coverage or not.

If the user selects the overlay, the learned task is used for replacing the original task, namely the previous task is deleted, and the learned task is stored, so that the user does not need to perform more operations in the scene time table after finishing the scene learning. If the user does not press the stop scene learning key, namely learning is not finished, returning to wait for the user to operate the equipment, and if the user presses the stop scene learning key, finishing scene learning.

And if the user selects not to cover and does not press the scene learning stopping key, returning to wait for the user to operate the equipment, and if the user presses the scene learning stopping key, finishing the scene learning. After scene learning is finished, the tasks of the new scene are displayed in the scene schedule, and the user can delete and edit each task (including the tasks which exist before and the tasks obtained by learning) in the scene schedule.

The coverage mode comprises equipment matching coverage, operation matching coverage, harsh matching coverage and double matching coverage. The device matching coverage means to inquire whether the user performs coverage if it is recorded that the device targeted by the user's operation is the same as the lighting device targeted by the operation of the previous task. The learned task is different from the covered task in time or operation performed from the previous task.

The operation matching coverage means to inquire whether the user performs coverage if the recorded operation of the user is the same as the operation of the previous task. Similarly, the learned task and the covered task are different in time from the last task or in the lighting device for which the operation is directed.

The strict matching coverage means that if the recorded operation of the user is the same as the operation of the previous task and the lighting device to which the operation is directed, the user is asked whether to perform coverage. Similarly, the learned task is different from the covered task by the time from the previous task.

The double matching coverage means that if the operation recorded by the user is the same as or the same as the operation of the previous task or the lighting device to which the operation is directed, the user is asked whether to perform the coverage. The different places of the learned task and the covered task are different according to different matching modes, and are similar to one of equipment matching coverage, operation matching coverage and harsh matching coverage.

As a further preferred embodiment, the control method of the intelligent lighting system further includes step E:

E. and judging whether to remind of creating a scene according to whether the number of the newly-built tasks reaches the preset number within the preset time.

Fig. 7 is a flowchart of a specific embodiment of an intelligent reminder in a control method of an intelligent lighting system according to the present invention, and in this embodiment, the intelligent reminder may remind a user to use a function of creating a scene, in combination with fig. 7. The intelligent reminding means that when a user sets tasks in a common timing task interface or a condition task interface, the system determines whether the user frequently adds the tasks or not by judging the number of the tasks set by the user within a certain time, and if so, the system inquires whether the user needs to create a new scene or not.

In this embodiment, m and n represent the time width and the number of tasks determined to be frequent, for example, m =20 and n =3, which represent that if the user adds 3 or more tasks within 20 seconds, the system determines to add the tasks frequently, and asks the user whether or not to create a new scene.

Once the user starts a new task, the system records the time when the creation task is started and searches forward whether the time record of the creation task is related. If so, calculating the time from the end of creating the task to the beginning of creating the current task, calculating the total time spent on creating the task in the process, and subtracting the total time spent on creating the task to obtain the time interval from the end of the task to the creation of the task (not counting the time spent on setting the task).

If the time is more than 20 seconds, that is, the task is beyond the time range monitored by the intelligent reminding function, the system deletes the task and the records of the previous tasks (only records related to the intelligent reminding function are deleted, including the start creation time, the end creation time and the time spent on creating the task).

If the time is less than or equal to 20 seconds, whether the record is earlier or not is continuously searched until the records of all the tasks are within 20 seconds, and at this time, how many tasks are created by the user in 20 seconds can be calculated.

If the number of the tasks is more than or equal to 3, popping up a prompt, inquiring whether a user needs to establish an intelligent scene, if the user selects no, emptying all related data recorded by the intelligent prompt function, continuing to wait for the user to establish the task, recording related data when the user establishes the task, if the user selects yes, entering an interface for establishing the scene, and if the user selects no more prompt, closing the intelligent prompt function in the current operation period by the system.

And if the number of the tasks is less than 3, continuing to wait for the user to create the tasks, and recording related data when the user creates the tasks.

According to the control method of the intelligent lighting system, the intelligent lighting system is controlled by combining the timing trigger task and the condition trigger task, more intelligent control is achieved, automatic control can be achieved only by setting a required scene by a user, excessive operation of the user is not needed, and user experience is improved; in addition, a scene learning method is also provided to help the user to create the scene and improve the use satisfaction degree of the user, and finally, an intelligent reminding method is also provided to help the user to better utilize the scene function.

An intelligent lighting system comprising:

the control unit is used for creating a task, presetting the working state of the lighting equipment, creating a scene and generating a task schedule, wherein the scene consists of the task or the scene;

the lighting unit is used for automatically controlling the intelligent lighting system to work according to the scene,

the control unit is connected with the lighting unit.

As a further preferred embodiment, the control unit includes a computer and a mobile phone.

In this embodiment, the control unit may implement creation of a task and a scene by installing a corresponding control client, the created scene is converted into a task schedule, the control unit issues a command according to a task rule, the command is transmitted to the lighting unit and executed, the command may be transmitted through a network cable or a wireless network, and the lighting unit may work according to the scene in this manner. Thus, people only need to create a scene, namely, people can control the lighting unit to work without excessive operation.

As a further preferred embodiment, the lighting unit comprises a lighting controller, a lighting device, and a triggering device, the control unit is connected with the lighting controller, the triggering device is connected with the lighting controller, and the lighting controller is connected with the lighting device. The command converted from the scene is transmitted to the lighting controller, and the lighting controller controls the working state of the lighting equipment by matching with the trigger equipment according to the command, wherein the working state comprises switching, displaying color, brightness and the like.

As a further preferred embodiment, the triggering device includes an infrared sensing triggering device, a light intensity sensing triggering device, a sound sensing triggering device, and a temperature sensing triggering device. In this embodiment, the infrared sensing trigger device includes an infrared sensor, the light intensity sensing trigger device includes a light intensity sensor, the sound sensing trigger device includes a sound sensor, and the temperature sensing trigger device includes a temperature sensor.

As a further preferred embodiment, the lighting controller and the lighting device each include a wireless transmission module, and the wireless transmission module includes a bluetooth module, a WiFi module, and a ZigBee module. The lighting controller transmits a control signal through the wireless transmission module to control the lighting equipment to work.

An intelligent lighting system of the present invention is described in detail below:

fig. 8 is a structural diagram of a specific embodiment of an intelligent lighting system in the present invention, and with reference to fig. 8, a control unit takes a mobile phone as an example, and when a user wants to control a plurality of lighting devices, a scene may be preset by the mobile phone, where the scene is composed of a plurality of tasks, the tasks are divided into a timing trigger task and a conditional trigger task, and then a command converted from the scene is transmitted to a lighting controller, and the lighting controller may automatically control the plurality of lighting devices and the plurality of trigger devices according to the command.

The intelligent lighting system can realize automatic control of lighting equipment, is simple to operate by a user and has strong practicability.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A control method of an intelligent lighting system is characterized by comprising the following steps:

a task creating step, wherein a task is created, and the working state of the lighting equipment is preset;

creating a scene and generating a task schedule, wherein the scene is composed of tasks or scenes;

automatically controlling the intelligent lighting system to work according to the scene;

the control method of the intelligent lighting system further comprises the following steps:

D. obtaining a new scene by using scene learning, wherein the scene learning is to newly create or modify a scene by recording the operation of a user; specifically, whether the coverage mode is started or not is selected, when the user selects not to start the coverage mode, relevant information of the lighting equipment controlled by the user is recorded, and when scene learning is stopped, all operation tasks are taken as a group of scenes obtained through learning and are displayed in the form of a scene time table; when the user selects to start the coverage mode, when the operation of the user on the equipment does not accord with the selected coverage mode, continuing to wait for the operation of the user, and recording the operation of the user until the operation of the user on the equipment accords with the selected coverage mode; the coverage mode comprises equipment matching coverage, operation matching coverage, harsh matching coverage and double matching coverage;

further comprising step E:

E. and judging whether to remind of creating a scene according to whether the number of the newly-built tasks reaches the preset number within the preset time.

2. The method of claim 1, wherein the task creating step comprises:

creating a timing trigger task, and presetting the working state of the lighting equipment according to a time rule, a delay rule and an equipment rule;

or,

and creating a condition triggering task, and presetting the working state of the lighting equipment according to the time rule, the equipment rule and the triggering equipment.

3. The method as claimed in claim 1 or 2, wherein the operating status includes on/off, brightness, and display color.

4. The control method of the intelligent lighting system according to claim 2, wherein the creating of the timing trigger task comprises:

setting the operation of task execution, wherein the operation comprises turning on or off the lighting equipment, adjusting the brightness of the lighting equipment and adjusting the color displayed by the lighting equipment;

adding a time rule to set a time point when the task occurs or a time period when the task is allowed to occur;

adding a delay rule to set the time of starting task delay and delay time;

device rules are added to set the lighting devices or lighting device groups that perform the task, the lighting device groups including more than one lighting device.

5. The control method of the intelligent lighting system according to claim 2 or 4, wherein the creating a conditional trigger task comprises:

setting the operation of task execution, wherein the operation comprises turning on or off the lighting equipment, adjusting the brightness of the lighting equipment and adjusting the color displayed by the lighting equipment;

adding a device rule to set a lighting device or a lighting device group for performing a task, the lighting device group including more than one lighting device;

a trigger device is selected and a trigger condition is determined.

6. An intelligent lighting system, comprising:

the control unit is used for creating a task, presetting the working state of the lighting equipment, creating a scene and generating a task schedule, wherein the scene consists of the task or the scene;

the lighting unit is used for automatically controlling the intelligent lighting system to work according to the scene,

the control unit is connected with the lighting unit;

the intelligent lighting system further comprises:

the scene learning unit is used for obtaining a new scene by using scene learning, wherein the scene learning is to newly create or modify a scene by recording the operation of a user; specifically, whether the coverage mode is started or not is selected, when the user selects not to start the coverage mode, relevant information of the lighting equipment controlled by the user is recorded, and when scene learning is stopped, all operation tasks are taken as a group of scenes obtained through learning by the system and are displayed in the form of a scene time table; when the user selects to start the coverage mode, when the operation of the user on the equipment does not accord with the selected coverage mode, continuing to wait for the operation of the user, and recording the operation of the user until the operation of the user on the equipment accords with the selected coverage mode; the coverage mode comprises equipment matching coverage, operation matching coverage, harsh matching coverage and double matching coverage;

the lighting controller and the lighting equipment both comprise wireless transmission modules, and each wireless transmission module comprises a Bluetooth module, a WiFi module and a ZigBee module.

7. The intelligent lighting system, as set forth in claim 6, wherein the control unit comprises a computer or a mobile phone.

8. The intelligent lighting system according to claim 6 or 7, wherein the lighting unit comprises a lighting controller, a lighting device and a triggering device, the control unit is connected with the lighting controller, the triggering device is connected with the lighting controller, and the lighting controller is connected with the lighting device.

9. The intelligent lighting system, as set forth in claim 8, wherein the triggering device comprises an infrared sensing triggering device, a light intensity sensing triggering device, a sound sensing triggering device, and a temperature sensing triggering device.