CN107896396B - Integrated control method for building landscape light of smart city - Google Patents

Abstract

The invention is suitable for the technical improvement field of illumination management, and provides an integrated control method for building landscape light of a smart city, which comprises the following steps: s1, registering the light node information of the built LED light nodes on a server platform and setting list information for inquiry; s2, carrying out distribution box information registration and list information query on the remotely controlled intelligent distribution box on a server platform; s3, real-time control and adjustment are carried out on the LED light nodes and the intelligent distribution box through real-time monitoring live-action data information of the high-definition camera. Setting the switching time of the intelligent electronic box by matching with the reserved time of the light animation content so as to save the energy consumption of the black screen after power-on; analyzing the energy consumption of different animation videos during playing to give energy consumption comparison data; thereby reducing the video playing time which can consume much energy. The total budget department saves more than 20% of electric quantity.

Description

Integrated control method for building landscape light of smart city

Technical Field

The invention belongs to the field of improvement of lighting management technologies, and particularly relates to an integrated control method for building landscape light of a smart city.

Background

With the adoption of the method, as the peak of Hangzhou G20 is held in the 2016 year, the Hangzhou city government invests in urban lighting to achieve the beautiful effect, the urban brand image of the Hangzhou city is improved through urban lighting, and the GDP (graphics primitive translation) of the Hangzhou city is promoted to be increased. Large-area planning is carried out on two cities or urban areas in succession all over the country, for example, large-scale projects such as the following golden brick conference, Shandong sunshine full-city light linkage lighting and the like; in such a large background, the existing urban lighting linkage control cannot meet the municipal management requirement. The need for light development, based on existing lighting IT solutions; upgrading software and hardware of the intelligent lighting control system, and integrating functions of urban landscape light linkage control, strong cabinet control and camera monitoring control software and hardware; developing a future-oriented and Internet-of-things-oriented urban lighting cloud platform; the system adopts a mobile internet APP technology, an internet of things communication technology and a cloud platform big data technology. Therefore, the urban illumination management efficiency is improved, and the manpower and energy resources of urban illumination are saved.

The existing city building landscape linkage control is single CS structure internet control, the existing city multi-building LED light animation linkage play can only bring each building light node into software management of a master control CS structure through 4G internet access and a BTS clock synchronous timer, and multi-building linkage play is realized.

The existing remote management technology of the LED lamplight strong power box is realized by independent CS structure software, and the management function pipes such as remote switch, remote meter reading, remote fault monitoring and the like of each distribution box are realized by accessing the Internet in a 4G or light mode.

Description of the prior art problems and deficiencies: 1. the city building light linkage control master control end software is CS structure software, and can not meet the requirement of internet remote access management anytime and anywhere; the capability of Web end management and APP access management is not provided; 2. urban building light linkage control master control end software does not provide a function of statistical analysis of LED light working state data; 3. the city LED light work power supply management is independent CS structure software, and can not meet the requirement of internet remote access management at any time and any place; 4. the city light content (weak current) control and the strong current control are mutually independent software, and the actual LED strong current and weak current control is an LED lamp of the same node; increasing server equipment resource costs, and labor maintenance costs. 5. The city light content (weak current) control and the strong current control are mutually independent software, which is not beneficial to the cross analysis of light strong and weak current data, for example, the cooperative management; for example, the lamp lighting time and the service life of the lamp are calculated according to the power supply time; judging whether the playing time of the light content is reasonable or not according to the state of the strong current switch; and calculating the energy consumption of different animation contents during playing according to the electricity consumption statistics of the intelligent electronic box.

Disclosure of Invention

The invention aims to provide an integrated control method for building landscape light of a smart city, and aims to solve the technical problems.

The invention is realized in this way, and an integrated control method for building landscape light of smart cities comprises the following steps:

s1, registering the light node information of the built LED light nodes on a server platform and setting list information for inquiry;

s2, carrying out distribution box information registration and list information query on the remotely controlled intelligent distribution box on a server platform;

s3, real-time control and adjustment are carried out on the LED light nodes and the intelligent distribution box through real-time monitoring live-action data information of the high-definition camera.

The further technical scheme of the invention is as follows: the step S1 further includes the following steps:

s11, mapping the LED light nodes to a map for real-time monitoring;

s12, controlling the video played by the LED light nodes through the cloud platform according to the environment feedback information;

s13, storing and filing historical working states of all LED light nodes;

and S14, the server cuts the playing video according to the automatic reading capability of the grouped light node pixel matrix, sends an instruction to the node side for downloading and tracks the downloading in real time.

The further technical scheme of the invention is as follows: the step S2 further includes the following steps:

s21, mapping the distribution boxes to a map for real-time monitoring and recording the information of each distribution box through a list;

and S22, performing appointment configuration on the working state of the distribution box through the client to complete distribution control.

The further technical scheme of the invention is as follows: in the step S1, the light node information registration includes information of a network, a geographical location, a branch control, a lamp, manufacturer information, and a live-action picture.

The further technical scheme of the invention is as follows: the monitoring of the light nodes in the step S11 includes monitoring information of a current playing program, a playing speed, a sub-control number, a main control number, and lamp data of the light nodes.

The further technical scheme of the invention is as follows: the data stored in step S13 includes the number of bad lamps in each time period and the data of the playing interface condition, and the storage time is 3-5 years.

The further technical scheme of the invention is as follows: in step S22, the video pop control includes operations of playing a single program cyclically, playing all programs randomly, and playing all programs cyclically.

The further technical scheme of the invention is as follows: in step S2, the distribution box information registration includes distribution box network information, geographical location information, output and loop correspondence, manufacturer information, and information of live-action pictures.

The further technical scheme of the invention is as follows: and in the step S21, the distribution box is monitored in real time, including the detection of the position, the fault and the working state information of the distribution box.

The further technical scheme of the invention is as follows: the maximum fast-speed screen in step S3 is 32 screens.

The invention has the beneficial effects that: by integrating the functions of light content linkage, light strong electricity and high-definition camera monitoring, 30% of server hardware resources can be saved; by integrating the functions of light content linkage, strong light and high-definition camera monitoring, 50% of municipal light management workload can be saved; the working state of the light is not needed to be watched by a plurality of people at the same time. The lighting content management, the lighting electricity utilization management and the lighting field fault condition monitoring can be completed by only one person; setting the on-off time of the intelligent electronic box by matching with the light animation content appointment time so as to save the energy consumption of a black screen after power-on; analyzing the energy consumption of different animation videos during playing to give energy consumption comparison data; thereby reducing the video playing time which can consume much energy. The total budget department saves more than 20% of electric quantity.

Drawings

Fig. 1 is a flowchart of an integrated control method for building landscape lighting of a smart city according to an embodiment of the present invention.

Detailed Description

Fig. 1 shows a flow chart of the integrated control method for building landscape lighting of smart city according to the present invention, which is detailed as follows:

step S1, registering the light node information of the built LED light node on a server platform and setting list information for inquiry; and completing registration management of the basic information of the LED nodes, including registration of networks, geographical positions, sub-control, lamps, manufacturer information and live-action picture information. And the inquiry of list information is supported, and the corresponding node information is searched by inputting the number or the name of the LED node.

The GIS Baidu map is supported to monitor the working condition of the light nodes in real time, and the GIS Baidu map comprises information such as current playing programs, playing speed, branch control number, main control number and lamp data of the light nodes.

The remote light node program playing control can be completed through the cloud control platform, and the operations of single program circular playing, all program random playing, all program circular playing and the like are realized; and can reserve and broadcast regularly, can support 6 groups to reserve and broadcast at most.

The platform supports the storage of historical working state data of all LED light nodes, the historical working state data comprise data such as the number of bad lamps in each time period and the condition of a playing interface, and the data can exist for 3-5 years; recording and displaying fault information corresponding to each light node in a list form, and recording historical fault information of the light nodes; and clearing the recovered fault in real time.

The platform supports the capability of automatically reading the pixel matrix of the grouped lighting nodes, and the width and the height of the node feedback are calculated according to the wiring bitmap of each node; the platform issues the acquired information of the node pixel width and height, the source video file, the node number and the like to a video cutting server, and the video cutting server finishes video animation cutting according to a cutting input instruction; after the platform receives a cutting completion instruction returned by the video cutting server, the platform needs to automatically send a video downloading instruction to the node side, and the node side downloads the video through the provided FTP path, the FTP user name and the FTP password; the system tracks the file download progress in real time.

Step S2, carrying out distribution box information registration and list information query on the remotely controlled intelligent distribution box on a service end platform; and completing registration management of the basic information of the distribution box, including registration of network information, geographical position information, output and loop corresponding relation, manufacturer information and live-action picture information of the distribution box. And the inquiry of list information is supported, and the corresponding electric box information is searched by inputting the number or name of the electric box.

The GIS Baidu map is supported to monitor the working condition of the distribution box in real time, and the GIS Baidu map comprises information of detecting the position, the fault and the working state (parameters such as incoming line, current, voltage and function of a loop); recording and displaying fault information corresponding to each distribution box in a list form, and recording historical fault information of the distribution boxes; and clearing the recovered fault in real time.

An administrator can complete scene setting of a distribution box appointment switch through a Web management interface, for example, 19: 00-24: 00 lights on for perfection of Monday-Monday, or 00: 00-07: 00 lights off for No. 1-No. 15 every month. An administrator can complete batch immediate switching operation on the distribution boxes through the Web interface, or immediate switching operation on the single distribution box, or immediate switching operation on certain output of the single distribution box.

Step S3, real-time control and adjustment are carried out on the LED light nodes and the intelligent distribution box through real-time monitoring live-action data information of the high-definition camera; the platform supports the network attribute configuration of the remote camera, completes the video monitoring butt joint of the platform and the high-definition camera, supports the association with the nodes when the high-definition camera is configured, and can quickly position the currently monitored LED light nodes through the relationship information; the platform live-action monitoring interface supports multi-picture monitoring, such as single-picture monitoring with large size, 4 pictures, 9 pictures and 16 pictures, and supports 32 pictures at most.

On the basis of the experience of the existing urban building landscape linkage project, in order to meet the municipal city light management needs, the technical and application aspects are started; through repeated technical demonstration, the invention provides a comprehensive scheme integrating urban lighting video linkage control, lighting intelligent electric box control and lighting real-scene high-definition monitoring software; satisfy municipal administration department anytime and anywhere and realize through the internet mode: 1. light linkage effect control (video program switching, video program reservation, light working condition GIS detection and light fault management); 2. light intelligent electric box control (remote GIS working condition detection, remote immediate/reserved switch, remote meter reading and fault management); 3. the camera nodes are associated with building lighting nodes through a high-definition camera; and finishing remote live-action monitoring.

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 (5)

1. An integrated control method for building landscape light of a smart city is characterized by comprising the following steps:

s1, registering the light node information of the built LED light nodes on a server platform and setting list information for inquiry;

s2, carrying out distribution box information registration and list information query on the remotely controlled intelligent distribution box on a server platform;

s3, real-time monitoring, controlling and adjusting the LED light nodes and the intelligent distribution box through real-time monitoring real-time scene data information of the high-definition camera;

the step S1 further includes the following steps:

s11, mapping the LED light nodes to a map for real-time monitoring;

s12, controlling the video played by the LED light nodes through the cloud platform according to the environment feedback information;

s13, storing and filing historical working states of all LED light nodes;

s14, the server cuts the playing video according to the automatic reading capacity of the pixel matrix of the grouped light nodes, sends an instruction to the node end for downloading and tracks the downloading in real time;

the step S2 further includes the following steps:

s21, mapping the distribution boxes to a map for real-time monitoring and recording the information of each distribution box through a list;

s22, performing appointment configuration on the working state of the distribution box through a client to complete distribution control;

the light node monitoring in the step S11 includes monitoring information of a current playing program, a playing speed, a sub-control number, a main control number and lamp data of the light node;

the data stored in the step S13 includes the number of bad lamps in each time period and the data of the condition of the playing interface, and the storage time is 3-5 years;

in step S12, the video playing control includes the operations of playing the single program circularly, playing all programs randomly, and playing all programs circularly.

2. The integrated control method according to claim 1, wherein the light node information registration in step S1 includes information on a network, a geographical location, a branch control, a lamp, factory information, and a live-action picture.

3. The integrated control method according to claim 1, wherein the information registration of the distribution box in step S2 includes information on distribution box network information, geographical location information, output-to-loop correspondence, manufacturer information, and live-action pictures.

4. The integrated control method according to claim 3, wherein the real-time monitoring of the distribution box in the step S21 includes detecting distribution box position, fault and working state information.

5. The integrated control method according to claim 1, wherein maximum 32-screen monitoring is supported in step S3.

Images