CN113271705B - Automatic setting method and device of lamp control strategy, server and storage medium - Google Patents

Abstract

The invention is suitable for the technical field of automatic control, and provides an automatic setting method, an automatic setting device, a server and a storage medium of a lamp control strategy, wherein the method comprises the following steps: receiving a request for setting a lamp control strategy for all lamps in a specified lamp lighting system, and acquiring connection paths from all the lamps to a lamp management server in the lamp lighting system; establishing a topological graph of the specified lamp lighting system according to the connection path; and acquiring a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and setting the lamp control strategy as the lamp control strategy of the lamp lighting system, so that the setting process of the lamp control strategy is simplified, and the setting accuracy of the lamp control strategy is improved.

Description

Automatic setting method and device of lamp control strategy, server and storage medium

Technical Field

The invention belongs to the technical field of automatic control, and particularly relates to an automatic setting method and device of a lamp control strategy, a server and a storage medium.

Background

For some open indoor and outdoor places, such as railway tunnels, fire-fighting places, oil field places, petrochemical sites, office places of large enterprises and the like, more or higher-power lamps are needed for illumination, the service time of the lamps in different scenes and the energy consumption requirements of the lamps in different time periods are different, and higher requirements are provided for the management of the lamps.

The existing lighting control system can only simply and uniformly turn on and turn off the lamps in the scene according to the application scene of the lamps, and particularly for the lighting system which is initially constructed, the differentiated setting of each lamp is difficult to effectively complete, and the setting process is complicated.

Disclosure of Invention

The invention aims to provide a method, a device, a server and a storage medium for automatically setting a lamp control strategy, and aims to solve the problem that the prior art cannot provide an effective lamp control strategy setting method, so that the lamp control strategy setting process is complicated and inaccurate.

In one aspect, the present invention provides a method for automatically setting a lamp control policy, where the method includes:

receiving a request for setting a lamp control strategy for all lamps in a specified lamp lighting system, and acquiring connection paths from all the lamps to a lamp management server in the lamp lighting system;

establishing a topological graph of the specified lamp lighting system according to the connection path;

and acquiring a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and setting the lamp control strategy as the lamp control strategy of the lamp lighting system.

In another aspect, the present invention provides an apparatus for automatically setting a lamp control policy, where the apparatus includes:

the system comprises a path acquisition unit, a path management unit and a path management unit, wherein the path acquisition unit is used for receiving a request for setting a lamp control strategy for all lamps in a specified lamp lighting system and acquiring connection paths from all the lamps to a lamp management server in the lamp lighting system;

the topology establishing unit is used for establishing a topological graph of the specified lamp lighting system according to the connection path; and

and the strategy setting unit is used for acquiring a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and setting the lamp control strategy as the lamp control strategy of the lamp lighting system.

In another aspect, the present invention also provides a luminaire management server, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor implements the steps of the method when executing the computer program.

In another aspect, the present invention also provides a computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the method as described above.

According to the method and the device, when a request for setting the lamp control strategy for all lamps in the specified lamp lighting system is received, and the connection paths from all the lamps to the lamp management server in the lamp lighting system are obtained, the topological graph of the specified lamp lighting system is established according to the connection paths, the lamp control strategy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of all the lamps, and the lamp control strategy is set as the lamp control strategy of the lamp lighting system, so that the setting process of the lamp control strategy is simplified, and the setting accuracy of the lamp control strategy is improved.

Drawings

Fig. 1 is a flowchart illustrating an implementation of a method for automatically setting a lamp control policy according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a lamp lighting system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an automatic setting device for a lamp control strategy according to an embodiment of the present invention; and

fig. 4 is a schematic structural diagram of a lamp management server according to an embodiment of the present invention.

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 implementations of the present invention is provided in conjunction with specific embodiments:

fig. 1 shows an implementation flow of an automatic setting method for a lighting fixture control policy according to an embodiment of the present invention, and for convenience of description, only parts related to the embodiment of the present invention are shown, which are described in detail as follows:

in step S101, a request for setting a lamp control policy for all lamps in a specified lamp lighting system is received, and connection paths from all lamps to a lamp management server in the lamp lighting system are obtained;

the embodiment of the invention is suitable for a lamp illumination system, in particular to a lamp management server in the lamp illumination system, so as to set the lamp control strategy for all lamps in the erected or constructed lamp illumination system. As shown in fig. 2, in the embodiment of the present invention, a lamp lighting system includes a lamp management server, a gateway connected to the lamp management server, a lamp controller connected to the gateway, and a lamp connected to the lamp controller, where the connection of each device in the lamp lighting system may be a wired connection or a wireless connection, and the lamp controller may be disposed in the lamp or may be separately disposed. Further, the luminaire lighting system may further include a sensor, such as a brightness sensor or a motion sensor, for acquiring the on-site environment information corresponding to each luminaire. The luminaire control strategy is used to control the switching on and off of individual luminaires and individual output parameters of individual luminaires when switched on, such as brightness, luminous intensity, color temperature and/or illuminance.

In a specific embodiment, after a user installs all the lamps in a certain specific area or scene, the lamps can be connected to the lamp management server through the gateway to form a lamp lighting system corresponding to the specific area or scene. The lamp management server may be a lamp management server dedicated to managing all lamps in the specific area or scene, or may be a lamp management server shared with other areas or scenes. Specifically, a user selects a lamp lighting system corresponding to a certain specific area or scene through a lamp lighting system selection interface on the lamp management server, and then inputs a request for setting a lamp control strategy for the specified lamp lighting system, wherein the specific area or scene may be a lamp lighting scene such as a railway tunnel, a fire fighting site, an oil field site, a petrochemical site, and an office site of a large enterprise. After the lamp lighting system corresponding to the specific area or scene is formed, the lamp management server acquires connection paths from all lamps to the lamp management server in the lamp lighting system by sending corresponding path acquisition instructions to each lamp.

In step S102, a topological diagram of the specified luminaire lighting system is established according to the obtained connection path;

in the embodiment of the invention, after the lamp management server acquires the connection paths from all lamps to the lamp management server in the lamp lighting system, a topological graph of the lamp lighting system is established, the topological graph reflects a network structure formed by connecting all devices in the lamp lighting system, and reflects the application scene of the lamp lighting system to a certain extent.

In step S103, a luminaire control policy corresponding to the luminaire lighting system is obtained according to the topological graph and the description information of each luminaire, and the luminaire control policy is set as the luminaire control policy of the luminaire lighting system.

In the embodiment of the present invention, description information of the lamp may be stored in a controller of the lamp or in a storage unit of the lamp, and the description information describes an applicable scene, an applicable humidity, a temperature, a voltage, a current, an output parameter (e.g., luminance, luminous intensity, color temperature, illuminance) of the lamp, and the like of the lamp. The lamp management server is provided with a database, lamp control strategies corresponding to different use scenes of the lamp are stored in the database, the stored lamp control strategies can be obtained by analyzing the lamp use data acquired under different use scenes, and the database can also be directly an expert knowledge base for storing the lamp control strategies. After the lamp management server obtains the topological graph and the description information of each lamp, the lamp control strategy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, the lamp control strategy is set as the lamp control strategy of the lamp lighting system, and differential setting of the control strategies of each lamp is achieved. Specifically, the obtained topological graph and the description information of each lamp can be matched with the topological graph and the description information of each lamp corresponding to the scene lamp control strategy stored in advance by the storage lamp management server, and the matched (or highest-matching-degree) scene lamp control strategy is set as the lamp control strategy of the lamp lighting system.

In the embodiment of the invention, when a request for setting the lamp control strategies of all lamps in the specified lamp lighting system is received and the connection paths from all the lamps to the lamp management server in the lamp lighting system are acquired, the topological graph of the specified lamp lighting system is established according to the connection paths, the lamp control strategies corresponding to the lamp lighting system are acquired according to the topological graph and the description information of all the lamps, and the lamp control strategies are set as the lamp control strategies of the lamp lighting system, so that the differential setting of the control strategies of all the lamps is realized, the setting process of the lamp control strategies is simplified, and the setting accuracy of the lamp control strategies is improved.

In an embodiment implemented by the present invention, preferably, before the lamp control policy is set as the lamp control policy of the lamp lighting system, the topological graph of the lamp lighting system and the corresponding lamp control policy are output on the lamp management server through the graphical interface, the user is prompted to confirm whether to use the lamp control policy to control the lamp, and if confirmation information input by the user is received, the lamp control policy is set as the lamp control policy of the lamp lighting system, so that intelligence and humanization of policy setting are improved. Further, if the lamp control strategy input by the user is received and is not used and a plurality of scene lamp control strategies are matched, the scene lamp control strategy setting of the next matching degree can be recommended to the user, the modifiable lamp control parameters of the lamp are displayed at the preset positions around each lamp icon on the topological graph, after the lamp control parameters input by the user are received, the scene lamp control strategies are modified by using the parameters, and the modified scene lamp control strategies are set as the lamp control strategies of the lamp lighting system, so that the setting accuracy of the lamp control strategies is further improved.

In an embodiment of the present invention, preferably, a lamp control strategy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, when the lamp control strategy is set as the lamp control strategy of the lamp lighting system, the topological graph is matched with a pre-stored scene lamp control strategy, when the corresponding scene lamp control strategy is matched, the description information of each lamp is used to correct the control strategy of the corresponding lamp in the matched scene lamp control strategy, and the corrected scene lamp control strategy is set as the lamp control strategy of the lamp lighting system. Therefore, when the topological graph is matched with the prestored scene lamp control strategy, the topological graph is directly used for matching, the matching process of the scene lamp control strategy is simplified, and then the control strategy of the corresponding lamp in the matched scene lamp control strategy is corrected by using the description information of each lamp, so that the control strategy of each lamp in the matched scene lamp control strategy is differentially corrected by using the description information of each lamp, and the setting accuracy of the lamp control strategy is further improved.

In an embodiment of the present invention, preferably, a lamp control policy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, when the lamp control policy is set as the lamp control policy of the lamp lighting system, the topological graph is matched with a prestored scene lamp control policy, when the corresponding scene lamp control policy is matched, the lamp control policy prestored in the controller connected to each lamp is obtained, the description information of each lamp and the lamp control policy prestored in the controller are used to correct the control policy of the corresponding lamp in the matched scene lamp control policy, and the corrected scene lamp control policy is set as the lamp control policy of the lamp lighting system. In this embodiment, the controller may be located in the lamp, or located outside the lamp but connected to the lamp, the lamp control policy pre-stored in the controller is a control policy set on site when the lamp leaves a factory or is installed, when setting the lamp control policy of the lamp lighting system, the lamp management server may first directly use the topological graph for matching to simplify the matching process of the scene lamp control policy, and then modify the control policy of the corresponding lamp in the matched scene lamp control policy by using the description information of each lamp and the lamp control policy pre-stored in the controller, so as to modify the control policy of each lamp in the matched scene lamp control policy differentially by using the description information of each lamp and the lamp control policy pre-stored in the controller, thereby further improving the setting accuracy of the lamp control policy.

In one embodiment of the present invention, preferably, a lamp control policy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, when the lamp control policy is set as the lamp control policy of the lamp lighting system, the topological graph is matched with a pre-stored scene lamp control policy, when the corresponding scene lamp control policy is matched, the pre-stored lamp control policy in the gateway connected to each lamp is obtained, the control policy corresponding to the lamp in the matched scene lamp control policy is modified by using the description information of each lamp and the pre-stored lamp control policy in the gateway, and the modified scene lamp control policy is set as the lamp control policy of the lamp lighting system. In this embodiment, the gateway is connected to the lamps, so as to connect the lamps to the lamp management server, and the lamp control policy pre-stored in the gateway may be set when the gateway for lamp management is customized, or may be set on site when installed, so that when setting the lamp control policy of the lamp lighting system, the lamp management server may first directly use the topological graph for matching to simplify the matching process of the scene lamp control policy, and then modify the control policy of the corresponding lamps in the matched scene lamp control policy by using the description information of each lamp and the lamp control policy pre-stored in the gateway, so as to modify the control policy of each lamp in the matched scene lamp control policy differentially by using the description information of each lamp and the lamp control policy pre-stored in the gateway, thereby further improving the setting accuracy of the lamp control policy.

In an embodiment implemented by the present invention, preferably, after the lamp control policy is set as the lamp control policy of the lamp lighting system, the sensor associated with each lamp is used to acquire the field environment information corresponding to each lamp, and the set lamp control policy is modified according to the field environment information corresponding to each lamp, so that after the lamp control policy is set, the lamp control policy can be updated or modified in time according to the field environment condition of the lamp, thereby further improving the setting accuracy of the lamp control policy. Specifically, the sensor acquires the field environment information corresponding to each lamp in real time, when the change exceeding a preset threshold value is captured, the change is sent to the lamp management server, and the lamp management server updates or corrects the lamp control strategy according to the use scene of the lamp lighting system and the change. For example, when the lamp lighting system is a lamp lighting system of a factory and the sensor is a brightness sensor, the lamp control strategy of all lamps in the factory is that 8.

Fig. 3 shows a structure of an automatic setting device for a luminaire control strategy according to an embodiment of the present invention, and for convenience of description, only the parts related to the embodiment of the present invention are shown, which include:

a path obtaining unit 31, configured to receive a request for setting a lamp control policy for all lamps in a specified lamp lighting system, and obtain connection paths from all lamps to a lamp management server in the lamp lighting system;

the embodiment of the invention is suitable for a lamp illumination system, in particular to a lamp management server in the lamp illumination system, so as to set the lamp control strategy for all lamps in the erected or constructed lamp illumination system. The lamp lighting system comprises a lamp management server, a gateway connected with the lamp management server, a lamp controller connected with the gateway and a lamp connected with the lamp controller, wherein the connection of each device in the lamp lighting system can be wired connection or wireless connection, the lamp controller can be arranged in the lamp or independently arranged, and further the lamp lighting system can further comprise sensors, such as a brightness sensor and a motion sensor, for obtaining the field environment information corresponding to each lamp. The luminaire control strategy is used to control the switching on and off of individual luminaires and individual output parameters of individual luminaires when switched on, e.g. brightness, luminous intensity, color temperature, illuminance.

The topology establishing unit 32 is configured to establish a topology map of the specified lamp lighting system according to the connection path;

in the embodiment of the invention, after the lamp management server acquires the connection paths from all lamps to the lamp management server in the lamp lighting system, a topological graph of the lamp lighting system is established, the topological graph reflects the network structure formed by the connection of all devices in the lamp lighting system, and the application scene of the lamp lighting system is reflected to a certain extent.

And the policy setting unit 33 is configured to obtain a lamp control policy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and set the lamp control policy as the lamp control policy of the lamp lighting system.

In the embodiment of the present invention, description information of the lamp may be stored in a controller of the lamp or in a storage unit of the lamp, and the description information describes an applicable scene, applicable humidity, temperature, voltage, current, and output parameters (e.g., brightness, luminous intensity, color temperature, and illuminance) of the lamp. The lamp management server is provided with a database, lamp control strategies corresponding to different use scenes of the lamp are stored in the database, the stored lamp control strategies can be obtained by analyzing lamp use data acquired under different use scenes, and the database can also be directly an expert knowledge base for storing the lamp control strategies. And after the lamp management server obtains the topological graph and the description information of each lamp, the lamp management server obtains a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and sets the lamp control strategy as the lamp control strategy of the lamp lighting system.

In the embodiment of the invention, when a request for setting the lamp control strategy of all lamps in the specified lamp lighting system is received and the connection paths from all lamps to the lamp management server in the lamp lighting system are acquired, the topological graph of the specified lamp lighting system is established according to the connection paths, the lamp control strategy corresponding to the lamp lighting system is acquired according to the topological graph and the description information of each lamp, and the lamp control strategy is set as the lamp control strategy of the lamp lighting system, so that the setting process of the lamp control strategy is simplified, and the setting accuracy of the lamp control strategy is improved.

In an embodiment implemented by the present invention, preferably, before the lamp control policy is set as the lamp control policy of the lamp lighting system, the topological graph of the lamp lighting system and the corresponding lamp control policy are output on the lamp management server through the graphical interface, the user is prompted to confirm whether to use the lamp control policy to control the lamp, and if confirmation information input by the user is received, the lamp control policy is set as the lamp control policy of the lamp lighting system, so that intelligence and humanization of policy setting are improved. Further, if the lamp control strategy input by the user is received and is not used and a plurality of scene lamp control strategies are matched, the scene lamp control strategy setting of the next matching degree can be recommended to the user, the modifiable lamp control parameters of the lamp are displayed at the preset positions around each lamp icon on the topological graph, after the lamp control parameters input by the user are received, the scene lamp control strategies are modified by using the parameters, and the modified scene lamp control strategies are set as the lamp control strategies of the lamp lighting system, so that the setting accuracy of the lamp control strategies is further improved.

Therefore, preferably, the device for automatically setting a lamp control policy further includes a policy prompting unit, configured to output, on the lamp management server, the topology map of the lamp lighting system and the lamp control policy, and prompt the user to confirm whether to use the lamp control policy.

In an embodiment of the present invention, preferably, a lamp control strategy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, when the lamp control strategy is set as the lamp control strategy of the lamp lighting system, the topological graph is matched with a pre-stored scene lamp control strategy, when the corresponding scene lamp control strategy is matched, the description information of each lamp is used to correct the control strategy of the corresponding lamp in the matched scene lamp control strategy, and the corrected scene lamp control strategy is set as the lamp control strategy of the lamp lighting system. Therefore, when the topological graph is matched with the prestored scene lamp control strategy, the topological graph is directly used for matching, the matching process of the scene lamp control strategy is simplified, and then the control strategy of the corresponding lamp in the matched scene lamp control strategy is corrected by using the description information of each lamp, so that the control strategy of each lamp in the matched scene lamp control strategy is differentially corrected by using the description information of each lamp, and the setting accuracy of the lamp control strategy is further improved.

In an embodiment of the present invention, preferably, a lamp control policy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, when the lamp control policy is set as the lamp control policy of the lamp lighting system, the topological graph is matched with a pre-stored scene lamp control policy, when the corresponding scene lamp control policy is matched, the lamp control policy pre-stored in a controller connected to each lamp is obtained, the control policy corresponding to the lamp in the matched scene lamp control policy is modified by using the description information of each lamp and the lamp control policy pre-stored in the controller, and the modified scene lamp control policy is set as the lamp control policy of the lamp lighting system. In this embodiment, the controller may be located in the lamp, or located outside the lamp but connected to the lamp, the lamp control policy pre-stored in the controller is a control policy set on site when the lamp leaves a factory or is installed, when setting the lamp control policy of the lamp lighting system, the lamp management server may first directly use the topological graph for matching to simplify the matching process of the scene lamp control policy, and then modify the control policy of the corresponding lamp in the matched scene lamp control policy by using the description information of each lamp and the lamp control policy pre-stored in the controller, so as to modify the control policy of each lamp in the matched scene lamp control policy differentially by using the description information of each lamp and the lamp control policy pre-stored in the controller, thereby further improving the setting accuracy of the lamp control policy.

In one embodiment of the present invention, preferably, a lamp control policy corresponding to the lamp lighting system is obtained according to the topological graph and the description information of each lamp, when the lamp control policy is set as the lamp control policy of the lamp lighting system, the topological graph is matched with a pre-stored scene lamp control policy, when the corresponding scene lamp control policy is matched, the pre-stored lamp control policy in the gateway connected to each lamp is obtained, the control policy corresponding to the lamp in the matched scene lamp control policy is modified by using the description information of each lamp and the pre-stored lamp control policy in the gateway, and the modified scene lamp control policy is set as the lamp control policy of the lamp lighting system. In this embodiment, the gateway is connected to the lamps, so as to connect the lamps to the lamp management server, and the lamp control policy pre-stored in the gateway may be set when the gateway for lamp management is customized, or may be set on site when installed, so that when the lamp control policy of the lamp lighting system is set, the lamp management server may first directly use the topological graph for matching to simplify the matching process of the scene lamp control policy, and then use the description information of each lamp and the lamp control policy pre-stored in the gateway to modify the control policy of the corresponding lamp in the matched scene lamp control policy, thereby using the description information of each lamp and the lamp control policy pre-stored in the gateway to differentially modify the control policy of each lamp in the matched scene lamp control policy, and further improving the setting accuracy of the lamp control policy.

In an embodiment implemented by the present invention, preferably, after the lamp control policy is set as the lamp control policy of the lamp lighting system, the sensor associated with each lamp is used to acquire the field environment information corresponding to each lamp, and the set lamp control policy is modified according to the field environment information corresponding to each lamp, so that after the lamp control policy is set, the lamp control policy can be updated or modified in time according to the field environment condition of the lamp, thereby further improving the setting accuracy of the lamp control policy. Specifically, the sensor acquires the field environment information corresponding to each lamp in real time, when the change exceeding a preset threshold value is captured, the change is sent to the lamp management server, and the lamp management server updates or corrects the lamp control strategy according to the use scene of the lamp lighting system and the change.

In the embodiment of the present invention, each unit of the automatic setting apparatus for a lamp control policy may be implemented by a corresponding hardware or software unit, and each unit may be an independent software or hardware unit, or may be integrated into a software or hardware unit, which is not limited herein.

Fig. 4 shows a structure of a lamp management server according to an embodiment of the present invention, and for convenience of description, only a part related to the embodiment of the present invention is shown.

The luminaire management server 4 of an embodiment of the present invention comprises a processor 40, a memory 41, and a computer program 42 stored in the memory 41 and executable on the processor 40. The processor 40, when executing the computer program 42, implements the steps in the above-described method embodiments, such as the steps S101 to S103 shown in fig. 1. Alternatively, the processor 40, when executing the computer program 42, realizes the functions of the units in the above-described apparatus embodiments, such as the functions of the units 31 to 33 shown in fig. 3.

The steps of the method for automatically setting the lamp control policy implemented by the processor 40 in the lamp management server 4 executing the computer program 42 may refer to the description of the foregoing method embodiment, and are not described herein again.

In an embodiment of the present invention, a computer-readable storage medium is further provided, where a computer program is stored, and when the computer program is executed by a processor, the computer program implements the steps in the above-mentioned embodiment of the method for automatically setting a luminaire control policy, for example, steps S101 to S103 shown in fig. 1. Alternatively, the computer program may be adapted to perform the functions of the units of the above-described device embodiments, such as the functions of the units 31 to 33 shown in fig. 3, when executed by the processor.

According to the embodiment of the invention, when the request for setting the lamp control strategy for all lamps in the specified lamp lighting system is received and the connection paths from all lamps to the lamp management server in the lamp lighting system are acquired, the topological graph of the specified lamp lighting system is established according to the connection paths, the lamp control strategy corresponding to the lamp lighting system is acquired according to the topological graph and the description information of each lamp, and the lamp control strategy is set as the lamp control strategy of the lamp lighting system, so that the setting process of the lamp control strategy is simplified, and the setting accuracy of the lamp control strategy is improved.

The computer readable storage medium of the embodiments of the present invention may include any entity or device capable of carrying computer program code, a recording medium, such as a ROM/RAM, a magnetic disk, an optical disk, a flash memory, or the like.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A method for automatically setting a lamp control strategy, the method comprising:

receiving a request for setting a lamp control strategy for all lamps in a specified lamp lighting system, and acquiring connection paths from all the lamps to a lamp management server in the lamp lighting system;

establishing a topological graph of the specified lamp lighting system according to the connection path;

acquiring a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, setting the lamp control strategy as the lamp control strategy of the lamp lighting system, wherein the description information describes an applicable scene, applicable humidity, temperature, voltage, current and output parameters of the lamp, and acquiring the lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp specifically comprises the following steps: and matching the topological graph with a prestored scene lamp control strategy, modifying the control strategy of a corresponding lamp in the matched scene lamp control strategies based on the description information of each lamp when the corresponding scene lamp control strategy is matched, and setting the modified scene lamp control strategy as the lamp control strategy of the lamp lighting system.

2. The method of claim 1, wherein the step of setting the luminaire control strategy to a luminaire control strategy of the luminaire lighting system is preceded by the further step of:

and outputting the topological graph of the lamp lighting system and the lamp control strategy on the lamp management server through a graphical interface, and prompting a user to confirm whether to use the lamp control strategy.

3. The method according to claim 1, wherein the step of obtaining a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and setting the lamp control strategy as the lamp control strategy of the lamp lighting system comprises:

matching the topological graph with prestored scene lamp control strategies, and when the corresponding scene lamp control strategies are matched, correcting the control strategies of the corresponding lamps in the matched scene lamp control strategies by using the description information of each lamp;

and setting the corrected scene lamp control strategy as a lamp control strategy of the lamp lighting system.

4. The method according to claim 1, wherein the step of obtaining a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and setting the lamp control strategy as the lamp control strategy of the lamp lighting system comprises:

matching the topological graph with a prestored scene lamp control strategy, and acquiring the lamp control strategies prestored in a controller connected with each lamp when the corresponding scene lamp control strategy is matched;

modifying the control strategy of the corresponding lamp in the matched scene lamp control strategies by using the description information of each lamp and the lamp control strategies prestored in the controller;

and setting the corrected scene lamp control strategy as a lamp control strategy of the lamp lighting system.

5. The method of claim 1, wherein the step of obtaining a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and setting the lamp control strategy as the lamp control strategy of the lamp lighting system comprises:

matching the topological graph with a prestored scene lamp control strategy, and acquiring the lamp control strategy prestored in a gateway connected with each lamp when the corresponding scene lamp control strategy is matched;

modifying the control strategy of the corresponding lamp in the matched scene lamp control strategies by using the description information of each lamp and the lamp control strategies prestored in the gateway;

and setting the corrected scene lamp control strategy as a lamp control strategy of the lamp lighting system.

6. The method of claim 1, wherein the step of setting the luminaire control strategy to a luminaire control strategy for the luminaire lighting system is further followed by:

and acquiring the field environment information corresponding to each lamp through a sensor associated with each lamp, and correcting the set lamp control strategy according to the field environment information corresponding to each lamp.

7. An apparatus for automatic setting of a lamp control strategy, the apparatus comprising:

the system comprises a path acquisition unit, a path management unit and a path management unit, wherein the path acquisition unit is used for receiving a request for setting a lamp control strategy for all lamps in a specified lamp lighting system and acquiring connection paths from all the lamps to a lamp management server in the lamp lighting system;

the topology establishing unit is used for establishing a topological graph of the specified lamp lighting system according to the connection path; and

the strategy setting unit is configured to acquire a lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp, and set the lamp control strategy as the lamp control strategy of the lamp lighting system, where the description information describes an application scene, application humidity, temperature, voltage, current, and output parameters of a lamp, and the acquiring of the lamp control strategy corresponding to the lamp lighting system according to the topological graph and the description information of each lamp specifically includes: and matching the topological graph with a prestored scene lamp control strategy, modifying the control strategy of the corresponding lamp in the matched scene lamp control strategy based on the description information of each lamp when the corresponding scene lamp control strategy is matched, and setting the modified scene lamp control strategy as the lamp control strategy of the lamp lighting system.

8. The apparatus of claim 7, wherein the apparatus further comprises:

and the strategy prompting unit is used for outputting the topological graph of the lamp lighting system and the lamp control strategy on the lamp management server through a graphical interface and prompting a user to confirm whether to use the lamp control strategy.

9. A luminaire management server comprising a memory, a processor and a computer program stored in said memory and executable on said processor, characterized in that said processor realizes the steps of the method according to any of the claims 1 to 6 when executing said computer program.

10. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 6.

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