CN114928926A

CN114928926A - Remote control method and system for intelligent lighting

Info

Publication number: CN114928926A
Application number: CN202210368799.4A
Authority: CN
Inventors: 张辰; 张小龙
Original assignee: Shenzhen Sinoly Technology Co ltd
Current assignee: Shenzhen Sinoly Technology Co ltd
Priority date: 2021-11-08
Filing date: 2022-04-09
Publication date: 2022-08-19

Abstract

The application discloses remote control method and system for intelligent lighting, and the method comprises the following steps: acquiring equipment information of all intelligent lighting equipment; selecting a device group to be controlled from all intelligent lighting devices according to the device information and the remote control requirement, wherein the device group to be controlled comprises at least two intelligent lighting devices; and controlling the intelligent lighting equipment in the equipment group to be controlled based on the remote control technology. This application is because treating controlgear crowd and selecting from wisdom lighting apparatus according to equipment information and remote control demand and obtaining, has reduced the quantity of the lighting apparatus that needs the control, can reduce electric power waste, is favorable to energy-concerving and environment-protective.

Description

Remote control method and system for intelligent lighting

Technical Field

The application relates to the technical field of electronics, in particular to a remote control method and system for intelligent lighting.

Background

The intelligent lighting, also called intelligent public lighting management platform or intelligent street lamp, realizes remote centralized control and management of the street lamp by applying advanced, efficient and reliable power line carrier communication technology, wireless GPRS/CDMA communication technology and the like, has the functions of automatically adjusting brightness according to traffic flow, controlling remote lighting, actively alarming faults, preventing theft of lamp cables, remotely reading meters and the like, can greatly save power resources and improve the management level of public lighting.

However, in the current intelligent lighting, remote control usually only can realize the on/off of the street lamps in a certain area, the on/off of the landscape lamps in a certain area, and the remote control mode of a large-range lighting device can waste a large amount of electric power, which is not beneficial to energy conservation.

Disclosure of Invention

In order to solve the problem of power waste caused by remote control of a large-range lighting device in intelligent lighting, the application provides a remote control method and a remote control system for intelligent lighting.

In a first aspect, the present application provides a remote control method for intelligent lighting, which adopts the following technical scheme:

a method of remote control of smart lighting, comprising:

acquiring equipment information of all intelligent lighting equipment;

selecting a device group to be controlled from all intelligent lighting devices according to the device information and the remote control requirement, wherein the device group to be controlled comprises at least two intelligent lighting devices;

and controlling the intelligent lighting equipment in the equipment group to be controlled based on a remote control technology.

By adopting the technical scheme, the intelligent lighting equipment can be equipment such as street lamps or landscape lamps, the equipment information of the intelligent lighting equipment is obtained, the equipment group to be controlled is selected from the intelligent lighting equipment according to the equipment information and the remote control requirement, the equipment group to be controlled comprises at least two intelligent lighting equipment, and the intelligent lighting equipment in the equipment group to be controlled is controlled based on the remote control technology. Because the equipment group to be controlled is selected from the intelligent lighting equipment according to the equipment information and the remote control requirement, the quantity of the lighting equipment to be controlled is reduced, the power waste can be reduced, and the energy conservation and the environmental protection are facilitated.

Optionally, the acquiring device information of all smart lighting devices includes:

when establishing telecommunication with wisdom lighting apparatus and being connected, receive the equipment information that wisdom lighting apparatus sent, equipment information includes equipment sign, equipment type, equipment position and equipment luminance gear.

By adopting the technical scheme, remote control is needed, so that remote communication connection with the intelligent lighting equipment is necessarily needed, when the remote communication connection with the intelligent lighting equipment is established, the intelligent lighting equipment needs to actively report equipment information, and the equipment information comprises equipment identification, equipment type, equipment position and equipment brightness gear.

Optionally, the remote control requirement comprises a device type control requirement,

according to equipment information and remote control demand, follow select out the equipment crowd of waiting to control among the wisdom lighting apparatus, include:

determining the equipment types of all intelligent lighting equipment according to the equipment information;

determining the type of the target equipment according to the equipment type control requirement;

selecting the intelligent lighting equipment with the same type as the target equipment from all intelligent lighting equipment as first lighting equipment, wherein the number of the first lighting equipment is at least two;

and obtaining a device group to be controlled according to the first lighting device.

By adopting the technical scheme, the remote control requirement comprises an equipment type control requirement, for example, intelligent lighting equipment in the whole area comprises street lamps and decorative lamps, the decorative lamps can be deleted if the equipment type control requirement is that only the street lamps are controlled, all the street lamps are selected as first lighting equipment, and the obtained equipment group to be controlled is all the street lamps. And equipment screening is performed from the perspective of equipment type, so that the power consumption of the whole system is reduced.

Optionally, the remote control requirement further comprises a device position control requirement,

the obtaining of the device group to be controlled according to the first lighting device includes:

determining device positions of all first lighting devices according to the device information of the first lighting devices;

determining a target region range according to the equipment position control requirement;

selecting second lighting equipment with equipment positions within the target region range from all the first lighting equipment, wherein the number of the second lighting equipment is at least two;

and obtaining a device group to be controlled according to the second lighting device.

By adopting the technical scheme, the remote control requirement further comprises an equipment position control requirement, after the equipment type control requirement is selected, the equipment position of each first lighting equipment can be determined, the first lighting equipment is assumed to be distributed in 4 areas, and the target area range is determined to be 1 area according to the equipment position control requirement, so that the equipment with the equipment position in the target area range is used as the second lighting equipment to obtain the equipment group to be controlled. And further screening is carried out from the aspect of the position of the equipment, so that the remote control mode is more detailed, and further energy is saved.

Optionally, the remote control requirement further comprises an environmental factor control requirement,

the obtaining of the device group to be controlled according to the second lighting device includes:

acquiring environmental information in the target region range;

determining equipment brightness gears of all the second lighting equipment according to the equipment information of the second lighting equipment;

integrating the environmental information and the environmental factor control requirements, and determining target brightness required to be met;

selecting a third lighting device from all the second lighting devices, wherein the number of the third lighting devices is at least two, and the device brightness gears of the third lighting device have brightness higher than the target brightness;

and obtaining a device group to be controlled according to the third lighting device.

By adopting the above technical solution, the remote control requirement further includes an environmental factor control requirement, and after the selection of the device location control requirement is made, the second lighting devices are all intelligent lighting devices within the target region, but considering that the brightness of the street lamp is different, the regulation is needed in different environments, for example, in a foggy weather, the brightness of the street lamp should be the highest, and at dawn and at evening, the brightness of the street lamp can be the lowest. Therefore, the environmental information and the environmental factor control requirements are integrated, the target brightness in the current target region range is determined, and the device brightness gear with the brightness higher than the target brightness is selected from all the second lighting devices to serve as a third lighting device, so that a device group to be controlled is obtained. Environmental factors are further combined, for example, in heavy fog weather, the street lamp with too small light cannot meet the requirements, so that the street lamp can be selected to meet the requirements only without selecting the street lamp, and the power consumption can be further reduced.

In a second aspect, the present application provides a remote control system for intelligent lighting, which adopts the following technical solutions:

the acquisition module is used for acquiring equipment information of all intelligent lighting equipment;

the remote control selection module is used for selecting a device group to be controlled from all intelligent lighting devices according to the device information and the remote control requirement, and the device group to be controlled comprises at least two intelligent lighting devices;

and the remote control module is used for controlling the intelligent lighting equipment in the equipment group to be controlled based on a remote control technology.

Through adopting above-mentioned technical scheme, wisdom lighting apparatus can be equipment such as street lamp or landscape lamp, and the acquisition module acquires wisdom lighting apparatus's equipment information, and remote control selection module selects out the equipment crowd of treating controlling from wisdom lighting apparatus according to equipment information and remote control demand, treats that the equipment crowd of controlling includes two at least wisdom lighting apparatus, and remote control module is based on the wisdom lighting apparatus in the remote control technology control equipment crowd of treating controlling. Because the equipment group to be controlled is selected from the intelligent lighting equipment according to the equipment information and the remote control requirement, the quantity of the lighting equipment to be controlled is reduced, the power waste can be reduced, and the energy conservation and the environmental protection are facilitated.

To sum up, the application comprises the following beneficial technical effects:

because the equipment group to be controlled is selected from the intelligent lighting equipment according to the equipment information and the remote control requirement, the quantity of the lighting equipment to be controlled is reduced, the power waste can be reduced, and the energy conservation and the environmental protection are facilitated.

Drawings

Fig. 1 is a schematic flowchart of a remote control method for intelligent lighting according to the present application.

Fig. 2 is a schematic flow chart illustrating a process of selecting a group of devices to be controlled from all intelligent lighting devices according to device information and remote control requirements.

Fig. 3 is a schematic structural diagram of the intelligent lighting remote control system of the present application.

Detailed Description

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

The embodiment of the application discloses a remote control method for intelligent lighting.

Referring to fig. 1, the method includes:

and 101, acquiring equipment information of all intelligent lighting equipment.

The intelligent lighting device can be a street lamp or a landscape lamp and the like, remote communication connection is necessarily required to be established with the intelligent lighting device due to the need of remote control, when the remote communication connection is established with the intelligent lighting device, the intelligent lighting device needs to actively report device information, the device information comprises a device identifier, a device type, a device position and a device brightness gear, the device identifier is used for uniquely identifying the intelligent lighting device, and the device type is the type of the intelligent lighting device, such as the street lamp, an LED advertising lamp or the landscape lamp and the like. The setting position represents the geographical position of the intelligent lighting equipment and can be obtained through a built-in GPS chip. The device brightness gear is adjustable brightness, and only the default is 1 gear.

And 102, selecting a device group to be controlled from all intelligent lighting devices according to the device information and the remote control requirement.

The remote control requirement can be set according to the requirement specified by a designer, the real-time adjustment and setting can also be carried out according to the actual requirement, a to-be-controlled equipment group is selected from all intelligent lighting equipment according to the equipment information and the remote control requirement, and the to-be-controlled equipment group is a set comprising at least two intelligent lighting equipment.

And 103, controlling the intelligent lighting equipment in the equipment group to be controlled based on the remote control technology.

The remote control technology can be a power line carrier communication technology or a wireless communication technology, and can send a control instruction to the intelligent lighting equipment in the equipment group to be controlled based on the remote control technology, so that the intelligent lighting equipment is controlled to be turned on or turned off.

The implementation principle of the embodiment is as follows: the intelligent lighting equipment can be equipment such as street lamps or landscape lamps, acquires intelligent lighting equipment's equipment information, according to equipment information and remote control demand, selects the equipment crowd of waiting to control from the intelligent lighting equipment, and the equipment crowd of waiting to control includes two at least intelligent lighting equipment, treats the intelligent lighting equipment in the equipment crowd of controlling based on remote control technique. Because the equipment group to be controlled is selected from the intelligent lighting equipment according to the equipment information and the remote control requirement, the quantity of the lighting equipment to be controlled is reduced, the power waste can be reduced, and the energy conservation and the environmental protection are facilitated.

With reference to the embodiment shown in fig. 1, the remote control requirement in step 102 includes an equipment type control requirement, an equipment position control requirement, and an environmental factor control requirement, and the following describes the three control requirements according to a sequence, as shown in fig. 2, the specific steps include:

and 201, determining the equipment types of all intelligent lighting equipment according to the equipment information.

Wherein, supposing that all the intelligent lighting devices in the whole area have the street lamps and the decorative lamps, the device types that can be determined according to the device information have the street lamps and the decorative lamps.

And 202, determining the type of the target equipment according to the equipment type control requirement.

Wherein, supposing that the equipment type control requirement is to control only the street lamps, the decorative lamps can be deleted, and the target equipment type is the street lamps.

And 203, selecting the intelligent lighting equipment with the same type as the target equipment from all the intelligent lighting equipment as first lighting equipment, wherein the number of the first lighting equipment is at least two.

Wherein, select all street lamps as first lighting apparatus from all wisdom lighting apparatus, all be the street lamp in the equipment crowd of waiting to control who obtains. And equipment screening is performed from the perspective of equipment type, so that the power consumption of the whole system is reduced.

The device locations of all first lighting devices are determined from the device information of the first lighting devices 204.

Wherein the device location is derived from the device information of the first lighting device after the first lighting device is selected.

And 205, determining a target region range according to the equipment position control requirement.

And after the selection of the equipment type control requirement is carried out, assuming that the first lighting equipment is distributed in 4 areas, and determining that the target region range is 1 area according to the equipment position control requirement.

And 206, selecting the second lighting equipment with the equipment position within the target area range from all the first lighting equipment, wherein the number of the second lighting equipment is at least two.

And the second lighting equipment is the equipment position in the target region range in all the first lighting equipment.

207, the environmental information in the target region range is obtained.

Wherein, the environmental information in the above target region range is obtained, and the environmental information may be specifically related to the brightness of the intelligent lighting device, for example, the visibility or the foggy weather.

And 208, determining the device brightness gears of all the second lighting devices according to the device information of the second lighting devices.

The device brightness gears of all the second lighting devices, namely the brightness which can be provided by each second lighting device, are determined according to the device information of the second lighting devices.

209, integrating the environmental information and environmental factor control requirements, determine the target brightness to be met.

However, considering the difference in brightness of the street lamps, the brightness of the street lamps needs to be adjusted in different environments, for example, in heavy fog weather, the brightness of the street lamps should be the highest, and at dawn and evening, the brightness of the street lamps can be the lowest. Therefore, the target brightness in the current target region range is determined by integrating the environmental information and the environmental factor control requirement.

And 210, selecting a third lighting device from all the second lighting devices, wherein the number of the third lighting devices is at least two, and the device brightness gear of the third lighting device has the brightness higher than the target brightness.

And selecting a third lighting device from all the second lighting devices, wherein the number of the third lighting devices is at least two, and the device brightness gear of the third lighting device has the brightness higher than the target brightness.

And 211, obtaining a device group to be controlled according to the third lighting device.

The third lighting device serves as a device group to be controlled, environmental factors are further combined, for example, in heavy fog weather, the street lamp with too small light cannot meet the requirements, so that the third lighting device is not selected, only the third lighting device is selected to meet the requirements, and power consumption can be further reduced.

The implementation principle of the embodiment is as follows: the intelligent lighting equipment is selected sequentially according to the remote control requirement, namely the equipment type control requirement, the equipment position control requirement and the environmental factor control requirement, and the equipment type, the equipment position and the environmental factor are selected step by step, so that the power consumption is reduced.

In the above embodiment shown in fig. 1 and fig. 2, a remote control method of smart lighting is introduced, and a remote control system of smart lighting using the remote control method of smart lighting is described below, as shown in fig. 3, an embodiment of the present application discloses a remote control system of smart lighting, including:

an obtaining module 301, configured to obtain device information of all smart lighting devices;

a remote control selection module 302, configured to select a device group to be controlled from all smart lighting devices according to the device information and the remote control requirement, where the device group to be controlled includes at least two smart lighting devices;

and the remote control module 303 is used for controlling the intelligent lighting equipment in the equipment group to be controlled based on the remote control technology.

The implementation principle of the embodiment is as follows: wisdom lighting apparatus can be equipment such as street lamp or landscape lamp, and the acquisition module 301 acquires wisdom lighting apparatus's equipment information, and remote control selection module 302 selects the equipment crowd of waiting to control from wisdom lighting apparatus according to equipment information and remote control demand, and the equipment crowd of waiting to control includes two at least wisdom lighting apparatus, and remote control module 303 is based on the wisdom lighting apparatus in the remote control technology control equipment crowd of waiting to control. Because the equipment group to be controlled is selected from the intelligent lighting equipment according to the equipment information and the remote control requirement, the quantity of the lighting equipment to be controlled is reduced, the power waste can be reduced, and the energy conservation and the environmental protection are facilitated.

Specifically, when the remote communication connection with the smart lighting device is established, the obtaining module 301 receives device information sent by the smart lighting device, where the device information includes a device identifier, a device type, a device location, and a device brightness level.

Specifically, the remote control selection module 302 determines the device types of all the intelligent lighting devices according to the device information; determining the type of target equipment according to the equipment type control requirement; selecting the intelligent lighting equipment with the same type as the target equipment from all intelligent lighting equipment as first lighting equipment, wherein the number of the first lighting equipment is at least two; obtaining a device group to be controlled according to the first lighting device;

the remote control selection module 302 may also determine the device locations of all the first lighting devices from the device information of the first lighting devices; determining a target region range according to the equipment position control requirement; selecting second lighting equipment with equipment positions within a target region range from all the first lighting equipment, wherein the number of the second lighting equipment is at least two; obtaining a device group to be controlled according to the second lighting device;

the remote control selection module 302 may also obtain environmental information within a target geographic area; determining equipment brightness gears of all the second lighting equipment according to the equipment information of the second lighting equipment; integrating environmental information and environmental factor control requirements, and determining target brightness required to be met; selecting a third lighting device from all the second lighting devices, wherein the number of the third lighting devices is at least two, and the device brightness gears of the third lighting devices have brightness higher than the target brightness; and obtaining a device group to be controlled according to the third lighting device.

The implementation principle of the embodiment is as follows: the remote control selection module 302 selects the intelligent lighting device according to the device type control requirement, the device position control requirement and the environmental factor control requirement as the remote control requirement, and the device type, the device position and the environmental factor are selected step by step, so that the power consumption is reduced.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims

1. A remote control method of intelligent lighting, comprising:

acquiring equipment information of all intelligent lighting equipment;

2. The remote control method for intelligent lighting according to claim 1, wherein the obtaining device information of all intelligent lighting devices comprises:

when establishing remote communication with wisdom lighting apparatus and being connected, receive the equipment information that wisdom lighting apparatus sent, equipment information includes equipment identification, equipment type, equipment position and equipment luminance gear.

3. The remote control method of intelligent lighting according to claim 2, wherein the remote control requirements include device type control requirements,

according to equipment information and remote control demand, select out the equipment crowd of waiting to control from the wisdom lighting apparatus, include:

determining the type of target equipment according to the equipment type control requirement;

4. The remote control method for intelligent lighting according to claim 3, wherein the remote control requirements further include equipment location control requirements,

determining device positions of all the first lighting devices according to the device information of the first lighting devices;

5. The method of claim 4, wherein the remote control requirements further include environmental factor control requirements,

acquiring environmental information in the target region range;

determining the equipment brightness gears of all the second lighting equipment according to the equipment information of the second lighting equipment;

integrating the environmental information and the environmental factor control requirement, and determining the target brightness required to be met;

selecting a third lighting device from all the second lighting devices, wherein the number of the third lighting devices is at least two, and the device brightness gear of the third lighting device is larger than the target brightness;

6. A remote control system for intelligent lighting, comprising:

7. The intelligent lighting remote control system of claim 6,

the acquisition module is specifically used for receiving the equipment information sent by the intelligent lighting equipment when the remote communication connection is established with the intelligent lighting equipment, wherein the equipment information comprises equipment identification, equipment type, equipment position and equipment brightness gear.

8. The intelligent lighting remote control system of claim 7, wherein the remote control requirements include equipment type control requirements,

the remote control selection module is specifically used for determining the equipment types of all the intelligent lighting equipment according to the equipment information; determining the type of the target equipment according to the equipment type control requirement; selecting the intelligent lighting equipment with the same type as the target equipment from all intelligent lighting equipment as first lighting equipment, wherein the number of the first lighting equipment is at least two; and obtaining a device group to be controlled according to the first lighting device.

9. The intelligent lighting remote control system according to claim 8, wherein the remote control requirements further include equipment location control requirements,

the remote control selection module is further used for determining the device positions of all the first lighting devices according to the device information of the first lighting devices; determining a target region range according to the equipment position control requirement; selecting second lighting equipment with equipment positions within the target region range from all the first lighting equipment, wherein the number of the second lighting equipment is at least two; and obtaining a device group to be controlled according to the second lighting device.

10. The intelligent lighting remote control system of claim 9, wherein the remote control requirements further include environmental factor control requirements,

the remote control selection module is also used for acquiring the environmental information in the target region range; determining the equipment brightness gears of all the second lighting equipment according to the equipment information of the second lighting equipment; integrating the environmental information and the environmental factor control requirements, and determining target brightness required to be met; selecting a third lighting device from all the second lighting devices, wherein the number of the third lighting devices is at least two, and the device brightness gear of the third lighting device is larger than the target brightness; and obtaining a device group to be controlled according to the third lighting device.